CN109999954A - Essence feeds mill - Google Patents

Abstract

It includes mixing arrangement, grinding device, auxiliary feeding apparatus and transmitting device that the essence of the application, which feeds mill, grinding device is for weighing and crushing raw material to be comminuted, auxiliary feeding apparatus is for weighing and storing raw material to be mixed, transmitting device is sequentially communicated grinding device, auxiliary feeding apparatus and mixing arrangement, transmitting device is used for by the material transport in the raw material and auxiliary feeding apparatus in grinding device into mixing arrangement, and mixing arrangement is used to mix the raw material in mixing arrangement.Transmitting device is sequentially communicated grinding device, auxiliary feeding apparatus and mixing arrangement, therefore, only need transmitting device can will be in the material transport to mixing arrangement in the raw material and grinding device in auxiliary feeding apparatus, to the smart negligible amounts for feeding transmitting device required for mill, and keeps the structure in essence hello mill more compact and keep essence hello mill the space occupied smaller.

Description

Essence feeds mill

Technical field

This application involves a kind of feed production systems, more specifically, are related to a kind of essence hello mill.

Background technique

With the development of society, aquaculture is more and more flourishing, present concentration is become by traditional free-ranging and is cultivated.Due to Animal (for example, pig) nutrition required for different stages of growth, different physiological requirements is not identical, thus, by scientific formula handle A variety of different raw materials are uniformly mixed according to certain proportion, and by the feed of defined process flow production, are widely used in supporting Grow industry.

However, still there are many areas for improvement for the process flow of existing fodder production line production feed.For example, Component placement in existing fodder production line is more at random, larger so as to cause fodder production line the space occupied.

Summary of the invention

The application embodiment provides a kind of essence hello mill.

It includes mixing arrangement, grinding device, auxiliary feeding apparatus and transmitting device, the crushing dress that the essence of the application, which feeds mill, It sets for weighing and crushing raw material to be comminuted, the auxiliary feeding apparatus is described for weighing and storing raw material to be mixed Transmitting device is sequentially communicated the grinding device, the auxiliary feeding apparatus and the mixing arrangement, and the transmitting device is used for It is described mixed by the material transport in the raw material and the auxiliary feeding apparatus in the grinding device into the mixing arrangement It attaches together and sets for mixing the raw material in the mixing arrangement.

The essence of the application is fed in mill, and transmitting device is sequentially communicated grinding device, auxiliary feeding apparatus and mixing arrangement, because This, it is only necessary to transmitting device can be by the material transport in the raw material and grinding device in auxiliary feeding apparatus to mixed In attaching together and setting, so that essence feeds the negligible amounts of transmitting device required for mill, and make essence feed mill structure it is more compact and Essence is set to feed mill the space occupied smaller.

The additional aspect and advantage of presently filed embodiment will be set forth in part in the description, partially will be from following Description in become obvious, or recognized by the practice of presently filed embodiment.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the application is from combining in description of the following accompanying drawings to embodiment by change It obtains obviously and is readily appreciated that, in which:

Fig. 1 is that the essence of the application certain embodiments feeds the schematic perspective view in mill.

Fig. 2 to Fig. 5 is the part isometric structural schematic diagram in essence hello the mill in Fig. 1.

Fig. 6 is the schematic perspective view that the essence of the application certain embodiments feeds the transmitting device in mill.

Fig. 7 is that the essence of the application certain embodiments feeds the schematic perspective view in mill.

Fig. 8 is the schematic perspective view that the essence of the application certain embodiments feeds the powder transmission assembly in mill.

Fig. 9 is the schematic perspective view that the essence of the application certain embodiments feeds the pellet transportation component in mill.

Figure 10 and Figure 11 is the schematic perspective view that the essence of the application certain embodiments feeds the grinding device in mill.

Figure 12 is the operation principle schematic diagram that the essence of the application certain embodiments feeds the pulse dust removal component in mill.

Figure 13 to Figure 17 is that the essence of the application certain embodiments feeds the schematic perspective view in mill.

Figure 18 is the schematic perspective view that the essence of the application certain embodiments feeds the job platform in mill.

Figure 19 is the decomposed structural schematic diagram that the essence of the application certain embodiments feeds the job platform in mill.

Figure 20 is that the essence of the application certain embodiments feeds the schematic perspective view in mill.

Figure 21 is the enlarged schematic partial view in essence hello the mill in Figure 20.

Figure 22 is the partially exploded diagram that the essence of the application embodiment feeds the small hopper in mill.

Figure 23 is schematic cross-section of the hopper in Figure 22 along XXIII-XXIII line.

Figure 24 to Figure 27 is the schematic perspective view that the essence of the application certain embodiments feeds the broken bag component in mill.

Figure 28 to Figure 31 is the schematic perspective view that the essence of the application certain embodiments feeds the installation part in mill.

Figure 32 is the schematic perspective view that the essence of the application certain embodiments feeds the big hopper in mill.

Figure 33 is schematic cross-section of the hopper in Figure 32 along XXXIII-XXXIII line.

Figure 34 is the stereoscopic schematic diagram that the essence of the application embodiment feeds the broken bag hopper in mill.

Figure 35 is the stereoscopic schematic diagram that the essence of the application embodiment feeds the magazine-less system in mill.

Specific embodiment

Presently filed embodiment is described further below in conjunction with attached drawing.Same or similar label is from beginning in attached drawing To the same or similar element of expression or element with the same or similar functions eventually.

In addition, the presently filed embodiment described with reference to the accompanying drawing is exemplary, it is only used for explaining the application's Embodiment, and should not be understood as the limitation to the application.

In this application unless specifically defined or limited otherwise, fisrt feature in the second feature " on " or " down " can be with It is that the first and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature But fisrt feature is directly above or diagonally above the second feature above the second feature " above ", " above " and " above ", or only table Show that first feature horizontal height is higher than second feature.Fisrt feature can be under the second feature " below ", " below " and " below " Fisrt feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.

Fig. 3 to Fig. 5 is please referred to, it includes mixing arrangement 70, grinding device 50, auxiliary charging dress that the essence of the application, which feeds mill 100, 60 and transmitting device 81 are set, grinding device 50 is for weighing and crushing raw material to be comminuted, and auxiliary feeding apparatus 60 is for weighing And raw material to be mixed is stored, transmitting device 81 is sequentially communicated grinding device 50, auxiliary feeding apparatus 60 and mixing arrangement 70, Transmitting device 81 is used for the material transport in the raw material and auxiliary feeding apparatus 60 in grinding device 50 to mixing arrangement 70 In, mixing arrangement 70 is used to mix the raw material in mixing arrangement 70.

The essence of the application is fed in mill 100, and transmitting device 81 is sequentially communicated grinding device 50, auxiliary feeding apparatus 60 and mixing Device 70, therefore it may only be necessary to which transmitting device 81 can will be in the raw material and grinding device 50 in auxiliary feeding apparatus 60 Material transport to mixing arrangement 70 in, thus essence feed mill 100 required for transmitting device 81 negligible amounts, and make essence feed The structure in mill 100 is more compact and keeps essence hello 100 the space occupied of mill smaller.

It please refers to Fig. 1 and feeds mill 100 with Fig. 2, the essence of the application and further include mixing arrangement 70, auxiliary feeding apparatus 60, remove Shipping unit 10 and multiple powder buckets 301, handling device 10 are surrounded by running space 113, and multiple powder buckets 301 are mounted on operation In space 113, handling device 10 is for raw material to be mixed to be carried in multiple powder buckets 301, and multiple powder buckets 301 are It is connected to auxiliary feeding apparatus 60, auxiliary feeding apparatus 60 is connected to mixing arrangement 70, and auxiliary feeding apparatus 60 is for weighing simultaneously Raw material to be mixed is stored, mixing arrangement 70 is for mixing raw material to be mixed.

Incorporated by reference to Figure 31, the powder bucket 301 of the application can be broken bag hopper 303, and powder bucket 301 includes big 31 He of hopper Broken bag component 33 on big hopper 31 is set.It is needing raw material to be mixed in jumbo bag 101 being poured into powder bucket 301 When interior, the jumbo bag 101 equipped with raw material is carried to the top of powder bucket 301 by handling device 10, and jumbo bag 101 is placed on brokenly On bag assembly 33, so that jumbo bag 101 is in close contact with broken bag component 33 under the effect of gravity, to be punctured by broken bag component 33, So as to which the raw material in jumbo bag 101 to be poured into big hopper 31, therefore, using broken bag component 33 by the original in jumbo bag 101 Material is poured into powder bucket 301, manpower intervention is not needed, to improve the degree of automation of Feed Manufacturing and improve feeding Expect the efficiency of production.

The raw material to be mixed stored in each powder bucket 301 can be all different.It is to be mixed in multiple powder buckets 301 Raw material difference be added to (when different) in auxiliary feeding apparatus 60, auxiliary feeding apparatus 60 can be weighed respectively from different powder The weight for the raw material to be mixed that hopper 301 enters, and be stored in auxiliary feeding apparatus 60.Mixing arrangement 70 is for mixing The a variety of different raw materials to be mixed entered from auxiliary feeding apparatus 60, to obtain the mixed fodder of different ratio.At other In embodiment, raw material to be mixed in multiple powder buckets 301 can also identical or part it is identical.Raw material to be mixed It can be powder, powder can be the non-granular agricultural productions such as wheat bran, chaff, powdered soybean, corn powder, sorghum powder, flour Product.In other embodiments, raw material to be mixed may be particulate material, and particulate material can be soybean, corn, sorghum, small The granular agricultural product such as wheat.

The auxiliary feeding apparatus 60 of present embodiment can weigh it is all, from multiple powder buckets 301 enter it is to be mixed Raw material after, then be transmitted in mixing arrangement 70 together.In other embodiments, auxiliary feeding apparatus 60 can also be with every title As soon as amount is after the raw material to be mixed entered in powder bucket 301, by material transport to be mixed into mixing arrangement 70, Then the raw material to be mixed entered in next powder bucket 301 is weighed again.

Existing fodder production line is when producing feed, after the weight for usually first weighing raw material, then by the original after weighing Material, which is added in fodder production line, to be produced, lower so as to cause the degree of automation of fodder production line.

The essence of the application is fed in mill 100, and auxiliary feeding apparatus 60 can weigh and store raw material to be mixed, to assist Feeding device 60 can weigh the weight of the raw material to be mixed entered from different powder buckets 301 respectively, and will be a variety of different Raw material to be mixed exports into mixing arrangement 70 mixing to obtain mixed fodder, improves the automation journey that essence feeds mill 100 Degree.

Fig. 1 and Fig. 2 is please referred to, the essence of the application feeds mill 100 and further includes mixing arrangement 70, auxiliary feeding apparatus 60, carries Device 10 and multiple powder buckets 301.

Handling device 10 includes sliding support 11, sliding driving assembly 12, lifting driving assembly 13.Sliding support 11 includes Two submounts, two submounts are respectively the first submounts 111 and the second submounts 112, and two submounts include multiple Support base 1111 and sliding rail 1112.Multiple support bases 1111 of each submounts are located along the same line and are spaced setting.Support One end of seat 1111 is fixed on the supporting surface for being used to support essence hello mill 100, which can be ground, mounting platform etc.. Sliding rail 1112 is fixed on one end of the separate supporting surface of support base 1111, and sliding rail 1112 connects multiple support bases 1111 and in straight Line.First submounts 111 and the second submounts 112, which are spaced, to be simultaneously oppositely arranged, the first submounts 111 and the second submounts 112 it Between be formed with running space 113.

Sliding driving assembly 12 includes the first actuator 121, hanging beam 122 and the second actuator 123.The setting of hanging beam 122 exists On the sliding rail 1112 of two submounts, the extending direction (or length direction) and the extending direction of sliding rail 1112 of hanging beam 122 mutually hang down Directly.The quantity of first actuator 121 is two, and two the first actuators 121 are separately positioned on the opposite end of hanging beam 122, two A first actuator 121 can be movably arranged at respectively on two sliding rails 1112.The moving direction of first actuator 121 with The extending direction (or length direction) of sliding rail 1112 is consistent.Second actuator 123 is located in running space 113 and can move Ground is arranged on hanging beam 122, and the length direction that the second actuator 123 can extend hanging beam 122 is mobile, the first actuator 121 The moving direction of moving direction and the second actuator 123 is perpendicular.

It goes up and down driving assembly 13 to be arranged on the second actuator 123, the second actuator 123 is mobile to be able to drive lifting driving Component 13 is moved along the length direction of hanging beam 122.Lifting driving assembly 13 is for being lifted raw material to be mixed.Lifting driving Component 13 may include driving motor, lifting rope and hook, and driving motor can drive lifting rope volume to be located on driving motor or from driving It is released on motor, when lifting rope volume is located on driving motor, driving motor promotes raw material to be mixed；When lifting rope is from drive When releasing on dynamic motor, driving motor reduces the height of raw material to be mixed.Specifically, raw material to be mixed is loaded in In jumbo bag 101, lifting driving assembly 13 is used to be lifted the jumbo bag 101 equipped with raw material to be mixed.

Fig. 3 to Fig. 5 is please combined together, and auxiliary feeding apparatus 60 is arranged in running space 113.Auxiliary feeding apparatus 60 wraps Include auxiliaring bucket 61, powder material weighing sensor (not shown) and auxiliary bucket valve 63.Auxiliaring bucket 61 and mixing arrangement 70 connect It is logical.Auxiliary bucket valve 63 can be movably arranged on auxiliaring bucket 61, when auxiliary bucket valve 63 is mobile relative to auxiliaring bucket 61 Auxiliaring bucket 61 can be selectively set to be connected to or not be connected to mixing arrangement 70.Powder material weighing sensor is arranged in auxiliary material In bucket 61 and for weighing the raw material to be mixed in auxiliaring bucket 61.Specifically, auxiliaring bucket 61 includes auxiliary bucket entrance 611 and auxiliary bucket outlet 612, raw material to be mixed from auxiliary bucket entrance 611 enter auxiliaring bucket 61 and from auxiliary bucket outlet Outside 612 outputs to auxiliaring bucket 61.In present embodiment, auxiliaring bucket 61 is symmetrical about a symmetrical face, which is defined as The extending direction of auxiliary bucket plane of symmetry P1, auxiliary bucket plane of symmetry P1 perpendicular to sliding rail 1112.The auxiliary bucket setting of valve 63 is assisting One end of the close auxiliary bucket outlet 612 of hopper 61.Powder material weighing sensor can be set on auxiliary bucket valve 63.

Wherein, mixed raw material can be powder, and powder can be wheat bran, chaff, powdered soybean, corn powder, sorghum flour The non-granular agricultural product such as end, flour.

Incorporated by reference to Fig. 2, Fig. 3 and Fig. 7, multiple powder buckets 301 are mounted in running space 113.Powder bucket 301 includes big bucket Feed inlet 3111 and big bucket discharge port 3122, raw material to be mixed can enter in powder bucket 301 simultaneously from big bucket feed inlet 3111 Outside big bucket discharge port 3122 output to powder bucket 301.Powder bucket 301 is connected to auxiliary feeding apparatus 60.In some embodiment party In formula, powder bucket 301 is directly connected to auxiliary feeding apparatus 60, at this point, between powder bucket 301 and auxiliary feeding apparatus 80 not Need to be arranged powder transmission assembly 83 to be connected to.Specifically, bucket discharge port 3122 greatly is located at the surface for assisting bucket entrance 611 And be connected to auxiliary bucket entrance 611, specifically, big struggle against the distance between discharge port 3122 and supporting surface are greater than auxiliary bucket entrance The distance between 611 and supporting surface；In other words, auxiliary bucket entrance 611 is located between big bucket discharge port 3122 and supporting surface.? Under the action of gravity, the raw material to be mixed in powder bucket 301 can be successively from big bucket discharge port 3122 and auxiliary bucket entrance 611 fall in auxiliaring bucket 61.

Multiple powder buckets 301 are distributed in the opposite two sides of auxiliary feeding apparatus 60.Specifically, the powder bucket of present embodiment 301 quantity is four, is respectively distributed to the opposite two sides of auxiliary feeding apparatus 60 for one group two-by-two.Wherein, two powder buckets 301 is symmetrical about auxiliary bucket plane of symmetry P1 with other two powder bucket 301.In other embodiments, the number of powder bucket 301 Amount or odd number, for example, the quantity of powder bucket 301 may be one, three, five, seven, at this point, multiple powders Bucket 301 is distributed in the opposite two sides of auxiliary feeding apparatus 60；Alternatively, the quantity of powder bucket 301 may be even number, powder bucket 301 quantity may be two, six, eight, at this point, multiple powder buckets 301 are symmetrically distributed in auxiliary feeding apparatus 60 Opposite two sides.

Incorporated by reference to Fig. 2 to Fig. 4, the installation of mixing arrangement 70 is on the support surface and in running space 113.Mixing arrangement 70 It is connected to auxiliary feeding apparatus 60.Mixing arrangement 70 includes mixing machine 71 and mixing machine support 72.Mixing machine support 72 is mounted on On supporting surface, mixing machine support 72 is formed with mixing machine mounting hole.Mixing machine 71 is threaded through in mixing machine mounting hole and is supported on It mixes on machine support 72.Mixing machine 71 includes blending bin 711 and the blender 712 being arranged on blending bin 711.Blending bin 711 For storing raw material to be mixed, blender 712 is for stirring raw material to be mixed.Blending bin 711 includes blending bin entrance 7111 and blending bin outlet 7112, blending bin outlet 7112 be housed in mixing machine support 72, blending bin entrance 7111 is located at mixed It closes outside machine support 72 and is connected to the auxiliary bucket of auxiliaring bucket 61 outlet 612.In some embodiments, auxiliary feeding apparatus 60 are directly directly connected to mixing arrangement 70, at this point, not needing setting transmission between auxiliary feeding apparatus 60 and mixing arrangement 70 Device 81 is connected to.Specifically, auxiliary bucket outlet 612 be located at blending bin entrance 7111 surface and with blending bin entrance 7111 connections, in other words, the outlet of auxiliary bucket the distance between 612 and supporting surface are greater than blending bin entrance 7111 and supporting surface The distance between.Under gravity, the raw material to be mixed in auxiliaring bucket 61 can be successively from auxiliary bucket outlet 612 And blending bin entrance 7111 is fallen in blending bin 711.

In present embodiment, blending bin 711 is symmetrical about a symmetrical face, which is defined as blending bin plane of symmetry P2, Blending bin plane of symmetry P2 perpendicular to sliding rail 1112 extending direction and with auxiliary bucket plane of symmetry P1 be overlapped.In other embodiments In, blending bin plane of symmetry P2 can be parallel to the extending direction of sliding rail 1112 and be overlapped with auxiliary bucket plane of symmetry P1, at this point, auxiliary Bucket plane of symmetry P1 can also be parallel to the extending direction of sliding rail 1112.

The essence of the application is fed in mill 100, and auxiliary feeding apparatus 60 can weigh and store raw material to be mixed, to assist Feeding device 60 can weigh the weight of the raw material to be mixed entered from different powder buckets 301 respectively, and will be a variety of different Raw material to be mixed exports into mixing arrangement 70 mixing to obtain mixed fodder, improves the automation journey that essence feeds mill 100 Degree.

In some embodiments, the auxiliary feeding apparatus 60 of above embodiment may include that auxiliaring bucket 61, powder claim It retransmits sensor (not shown), auxiliary bucket valve 63 and pulverizer (not shown), auxiliaring bucket 61 to be connected to pulverizer, pulverizer It is connected to mixing arrangement 70, pulverizer can be movably arranged at auxiliary for crushing raw material to be mixed, auxiliary bucket valve 63 On hopper 61, auxiliary bucket valve 63 can selectively be such that auxiliaring bucket 61 and pulverizer connects when mobile relative to auxiliaring bucket 61 Lead to or be not connected to, powder material weighing sensor is arranged in auxiliaring bucket 61 and for weighing raw material to be mixed.

At this point, raw material to be mixed may be particulate material, particulate material can be the particles such as soybean, corn, sorghum, wheat The agricultural product of shape.The essence of present embodiment feeds mill 100 and can crush and mix raw material to be mixed.

Fig. 7 and Fig. 8 is please referred to, in some embodiments, it further includes powder transmission assembly 83 that essence, which feeds mill 100, and powder passes The quantity of defeated component 83 is consistent with the quantity of powder bucket 301, and each powder transmission assembly 83 is connected to auxiliary feeding apparatus 60 and one A corresponding powder bucket 301.

Powder transmission assembly 83 is connected to the outlet of the entrance and powder bucket 301 of auxiliary feeding apparatus 60.Wherein, auxiliary charging The entrance of device 60 is auxiliary bucket entrance 611, and the outlet of powder bucket 301 is big bucket discharge port 3122.In present embodiment, powder Hopper 301 is connected to by powder transmission assembly 83 with auxiliary feeding apparatus 60, so that the outlet height of powder bucket 301 can be low In the entrance height of auxiliary feeding apparatus 60, at this point, the distance of 301 opposite support face of powder bucket can be smaller, so that essence be made to feed The whole height in mill 100 can be made smaller, and structure is more compact.

Fig. 7 and Fig. 8 is please referred to, in some embodiments, powder transmission assembly 83 includes powder transfer tube 831, powder Transfer tube 831 includes powder feed inlet 8311 and discharge of fine material mouth 8312, and powder feed inlet 8311 is connected to powder bucket 301, powder Material discharge port 8312 is connected to auxiliary feeding apparatus 60, relative to the supporting surface for being used to support essence hello mill 100, powder feed inlet 8311 height is lower than the height of discharge of fine material mouth 8312.

Specifically, powder transmission assembly 83 further includes powder Transmission Part 832 and powder actuator 833, powder Transmission Part 832 It is rotatably mounted in powder transfer tube 831, powder bucket Transmission Part 832 passes through powder feed inlet 8311 and discharge of fine material Mouth 8312, powder actuator 833 connect with powder Transmission Part 832 and for driving powder Transmission Part 832 to rotate.Powder transmission Component 83 can be spiral conveyor (auger), and powder actuator 833 can be motor, and powder Transmission Part 832 may include shaft And the helical blade in shaft is set.Powder feed inlet 8311 and discharge of fine material mouth 8312 are located at powder transfer tube 831 Opposite end.Powder feed inlet 8311 is connected to the outlet (i.e. big bucket discharge port 3122) of powder bucket 301, discharge of fine material mouth The entrance (i.e. auxiliary bucket entrance 611) of 8312 connection auxiliary feeding apparatus 60.Powder feed inlet 8311 is lower than discharge of fine material mouth 8312, then the outlet height of powder bucket 301 is lower than the entrance height of auxiliary feeding apparatus 60, props up at this point, powder bucket 301 is opposite The distance in support face can be smaller, so that the whole height for enabling essence to feed mill 100 is made smaller, structure is more compact.

Please refer to Fig. 5 and Fig. 6, in some embodiments, essence feed mill 100 further include connection mixing arrangement 70 and assist into Expect that the transmitting device 81 of device 60, transmitting device 81 include mixed transport pipe 811, mixed transport part 812 and combined drive moving part 813, mixed transport part 812 is rotatably mounted in mixed transport pipe 811, and combined drive moving part 813 is for driving mixing to pass Defeated part 812 rotates, and mixed transport pipe 811 is connected to powder auxiliary feeding apparatus 60 and mixing arrangement 70.

Mixed transport pipe 811 includes first charging aperture 8111 and mixing discharge port 8113, and first charging aperture 8111 is located at mixed Between the both ends for closing transfer tube 811, mixing discharge port 8113 is located at one end of mixed transport pipe 811.First charging aperture 8111 connects The outlet of logical auxiliary feeding apparatus 60, when auxiliary feeding apparatus 60 does not include pulverizer, the connection auxiliary of first charging aperture 8111 Bucket outlet 612；When auxiliary feeding apparatus 60 includes pulverizer, first charging aperture 8111 is connected to the outlet of pulverizer.It blends Material mouth 8113 is connected to blending bin entrance 7111.Mixed transport part 812 passes through at first charging aperture 8111 and mixing discharge port At 8113, thus when mixed transport part 812 rotates in mixed transport pipe 811, raw material in auxiliary feeding apparatus 60 can be with Enter in mixed transport pipe 811 and out of mixing the output to mixing arrangement 60 of discharge port 8113 from first charging aperture 8111.Mixing Transmission Part 812 can be auger.

In present embodiment, mixing arrangement 70 is connected to auxiliary feeding apparatus 60 by transmitting device 81, first charging aperture 8111 height can be lower than the height of mixing discharge port 8113, the outlet (i.e. auxiliary bucket outlet 612) of auxiliary feeding apparatus 60 Height is lower than the height of blending bin entrance 7111.At this point, the distance of 60 opposite support face of auxiliary feeding apparatus can be smaller, from And the whole height for enabling essence to feed mill 100 is made smaller, structure is more compact.

Fig. 4 to fig. 6 is please referred to, in some embodiments, it further includes grinding device 50, grinding device 50 that essence, which feeds mill 100, For weighing and crushing raw material to be comminuted, transmitting device 81 is also connected to grinding device 50 and mixing arrangement 70；Transmitting device 81 It is sequentially communicated grinding device 50, auxiliary feeding apparatus 60 and mixing arrangement 70.

Raw material to be comminuted is also one of raw material to be mixed.Raw material to be comminuted is particulate material, and particulate material can be with For the granular agricultural product such as soybean, corn, sorghum, wheat.

The quantity of transmitting device 81 is one, at this point, mixed transport pipe 811 is fed including first charging aperture 8111, second Mouth 8112 and mixing discharge port 8113, second charging aperture 8112 and mixing discharge port 8113 are located at mixed transport pipe 811 Opposite both ends, first charging aperture 8111 are located between second charging aperture 8112 and mixing discharge port 8113.First charging aperture 8111 It is connected to the outlet of auxiliary feeding apparatus 60, the outlet of second charging aperture 8112 and grinding device 50 mixes discharge port 8113 It is connected to blending bin entrance 7111.

Present embodiment only needs a transmitting device 81 can be by the raw material and crushing dress in auxiliary feeding apparatus 60 It sets in the material transport to mixing arrangement 70 in 50, so that essence feeds the negligible amounts of transmitting device 81 required for mill 100, and Keep the structure in essence hello mill 100 more compact and keeps essence hello 100 the space occupied of mill smaller.In present embodiment, first into Material mouth 8111 is higher than second charging aperture 8112, and first charging aperture 8111 is lower than mixing discharge port 8113.In this way, crushing dress The distance for setting 50 opposite support faces can be set smaller, and the distance of 60 opposite support face of auxiliary feeding apparatus can be set Must be smaller, so that the whole height for enabling essence to feed mill 100 is made smaller, structure is more compact.

In another embodiment, the position between 70 three of auxiliary feeding apparatus 60, grinding device 50 and mixing arrangement Relationship is adjustable.Specifically, grinding device 50 is between auxiliary feeding apparatus 60 and mixing arrangement 70.At this point, transmission dress The quantity for setting 81 remains as one, and mixed transport pipe 811 still includes first charging aperture 8111, second charging aperture 8112 and mixes Discharge port 8113 is closed, first charging aperture 8111 and mixing discharge port 8113 are located at the opposite both ends of mixed transport pipe 811, Second charging aperture 8112 is located between first charging aperture 8111 and mixing discharge port 8113.The connection auxiliary of first charging aperture 8111 The outlet of feeding device 60, the outlet of second charging aperture 8112 and grinding device 50 mix discharge port 8113 and blending bin Entrance 7111 is connected to.

Likewise, present embodiment only need a transmitting device 81 can by auxiliary feeding apparatus 60 raw material and In material transport to mixing arrangement 70 in grinding device 50, thus essence feed mill 100 required for transmitting device 81 quantity compared with It is few, and keep the structure in essence hello mill 100 more compact and keep essence hello 100 the space occupied of mill smaller.In present embodiment, the Two feed inlets 8112 are higher than first charging aperture 8111, and second charging aperture 8112 is lower than mixing discharge port 8113.In this way, powder The distance of 50 opposite support face of crushing device can be set smaller, and the distance of 60 opposite support face of auxiliary feeding apparatus can be with It is arranged smaller, so that the whole height for enabling essence to feed mill 100 is made smaller.

In yet another embodiment, it further includes grinding device 50 that essence, which feeds mill 100, grinding device 50 for weigh and crush to The raw material of crushing, transmitting device 81 are also connected to grinding device 50 and mixing arrangement 70；The quantity of transmitting device 81 is two, In transmitting device 81 be connected to auxiliary feeding apparatus 60 and mixing arrangement 70, another transmitting device 81 is connected to grinding device 50 and mixing arrangement 70.

At this point, auxiliary feeding apparatus 60 and grinding device 50 can be located at the opposite two sides of mixing arrangement 70.This reality The essence for applying mode is fed in mill 100, and grinding device 50 and auxiliary feeding apparatus 60 are filled by two transmitting devices 81 with mixing respectively 70 connections are set, so that the relative position between auxiliary feeding apparatus 60, grinding device 50 and mixing arrangement 70 can be more flexible Setting.

In other embodiments, grinding device 50 can also be directly connected to mixing arrangement 70, at this point, grinding device 50 Setting transmitting device 81 is not needed between mixing arrangement 70 to be connected to.Specifically, the outlet of grinding device 50 is located at blending bin The surface of entrance 7111 is simultaneously connected to blending bin entrance 7111, in other words, between the outlet and supporting surface of grinding device 50 Distance be greater than the distance between blending bin entrance 7111 and supporting surface.Under gravity, the raw material in grinding device 50 It can successively be fallen in blending bin 711 from the outlet of grinding device 50 and blending bin entrance 7111.

Fig. 3 and Fig. 4 is please referred to, in some embodiments, grinding device 50 includes crushing hopper 51, particle weighing and sensing Device (not shown), disintegrating bucket valve 53 and pulverizer 54, the connection of pulverizer 54 crush hopper 51 and transmitting device 81, disintegrating bucket Valve 53, which can be movably arranged at, to be crushed on hopper 51, and disintegrating bucket valve 53 can select when mobile relative to crushing hopper 51 Property make crush hopper 51 be connected to or is not connected to pulverizer 54, particle weighing sensor be arranged crushing hopper 51 in is used in combination In weighing raw material to be comminuted.Specifically, it crushes hopper 51 and includes disintegrating bucket entrance 511 and disintegrating bucket outlet 512, it is to be comminuted Raw material enter from disintegrating bucket entrance 511 and crush hopper 51 and from 512 output of disintegrating bucket outlet in pulverizer 54.This implementation In mode, crushing hopper 51 is symmetrical about a symmetrical face, which is defined as disintegrating bucket plane of symmetry P3, the disintegrating bucket plane of symmetry P3 perpendicular to sliding rail 1112 extending direction and with auxiliary bucket plane of symmetry P1 be overlapped.The setting of disintegrating bucket valve 53 is crushing hopper One end of 51 close disintegrating bucket outlet 512.Particle weighing sensor can be set on disintegrating bucket valve 53.Pulverizer 54 Including pulverizer entrance 541 and pulverizer outlet 542, pulverizer entrance 541 is connected to disintegrating bucket outlet 512, pulverizer outlet 542 are connected to second charging aperture 8112.

Fig. 2, Fig. 7 and Fig. 9 are please referred to, in some embodiments, it further includes particle hopper 302, particulate material that essence, which feeds mill 100, Bucket 302 quantity include it is multiple, multiple particle hoppers 302 be distributed in the opposite two sides of grinding device 50 and be located at running space In 113；It further includes pellet transportation component 82, the quantity of pellet transportation component 82 and the quantity of particle hopper 302 that essence, which feeds mill 100, Unanimously, each pellet transportation component 82 is connected to grinding device 50 and a corresponding particle hopper 302.

The raw material to be comminuted stored in each particle hopper 302 can be all different.Specifically, of present embodiment The quantity of pellet bucket 302 is four, is respectively distributed to the opposite two sides of grinding device 50 for one group two-by-two.Wherein, two particles Hopper 302 and other two particle hopper 302 are about disintegrating bucket plane of symmetry P3.In other embodiments, particle hopper 302 Quantity may be odd number, for example, the quantity of particle hopper 302 may be one, three, five, seven, at this point, more A particle hopper 302 is distributed in the opposite two sides of grinding device 50；Alternatively, the quantity of particle hopper 302 may be even number, The quantity of particle hopper 302 may be two, six, eight, at this point, multiple particle hoppers 302 are symmetrically distributed in crushing dress Set 50 opposite two sides.

Pellet transportation component 82 includes pellet transportation pipe 821, pellet transportation part 822 and particle actuator 823.Pellet transportation Pipe 821 includes particulate charge mouth 8211 and particle discharge port 8212, and particulate charge mouth 8211 and particle discharge port 8212 are located at The opposite both ends of grain transfer tube 821.The outlet of particulate charge mouth 8211 and particle hopper 302, particle discharge port 8212 with The entrance of grinding device 50 is connected to.Pellet transportation part 822 is rotatably mounted in pellet transportation pipe 821, specifically, Grain transmission assembly 822 is rotatably mounted on the opposite end of pellet transportation pipe 821.Particle actuator 823 and pellet transportation Part 822 connects and for driving pellet transportation part 822 to rotate.The height of particulate charge mouth 8211 is lower than particle discharge port 8212 Height, that is to say, that the outlet height of particle hopper 302 be lower than grinding device 50 entrance height.

In another embodiment, particle hopper 302 can also be directly connected to grinding device 50, at this point, particle hopper Setting pellet transportation component 82 is not needed between 302 and grinding device 50 to be connected to.Specifically, the outlet of particle hopper 302 (i.e. big bucket discharge port 3122) is located at the surface of disintegrating bucket entrance 511 and is connected to disintegrating bucket entrance 511, in other words, greatly The distance between discharge port 3122 and supporting surface struggle against greater than the distance between disintegrating bucket entrance 511 and supporting surface；In other words, powder Broken bucket entrance 511 is located between big bucket discharge port 3122 and supporting surface.Under gravity, in particle hopper 302 to mixed The raw material of conjunction can successively fall to from big bucket discharge port 3122 and disintegrating bucket entrance 511 and crush in hopper 51.

Fig. 2 and Fig. 7 is please referred to, in some embodiments, multiple particle hoppers 302 and multiple powder buckets 301 are distributed In the opposite two sides of auxiliary feeding apparatus 60 and grinding device 50 and it is located in running space 113.Positioned at auxiliary feeding apparatus 60 The particle hopper 302 and powder bucket 301 of the same side are located along the same line, also, are located at 60 the same side of auxiliary feeding apparatus Particle hopper 302 and powder bucket 301 are installed on same bracket.In present embodiment, it is same to be located at auxiliary feeding apparatus 60 The particle hopper 302 and powder bucket 301 of side are installed on same bracket (hopper base 32), to make the knot in essence hello mill 100 Structure is more compact.Specifically, hopper base 32 is formed with multiple hopper accepting holes 323, and multiple hopper accepting holes 323 are at equal intervals Distribution, the center of multiple hopper accepting holes 323 are located along the same line, and each particle hopper 302 and each powder bucket 301 divide It is not mounted in a hopper accepting hole 323.

The essence of the application is fed in mill 100, and multiple particle hoppers 302 are symmetrically distributed in the opposite two sides of grinding device 50, from And the element distribution for making essence feed mill 100 is more compact.Meanwhile the height of particulate charge mouth 8211 is lower than particle discharge port 8212 Height, so that the height of particle hopper 302 be made to can be set relatively low, and then the height for making essence feed mill 100 can be set It obtains relatively low.

Incorporated by reference to Figure 31, the particle hopper 302 of the application can be broken bag hopper 303, and particle hopper 302 includes big hopper 31 and the broken bag component 33 that is arranged on big hopper 31.It is needing raw material to be mixed in jumbo bag 101 being poured into particulate material When in bucket 302, the jumbo bag 101 equipped with raw material is carried to the top of powder bucket 301 by handling device 10, and jumbo bag 101 is placed On broken bag component 33, so that jumbo bag 101 is in close contact with broken bag component 33 under the effect of gravity, so as to by broken bag component 33 It punctures, so as to which the raw material in jumbo bag 101 to be poured into big hopper 31, therefore, using broken bag component 33 by jumbo bag 101 Interior raw material is poured into particle hopper 302, does not need manpower intervention, to improve the degree of automation of Feed Manufacturing simultaneously Improve the efficiency of Feed Manufacturing.

The raw material to be comminuted stored in each particle hopper 302 can be all different.In multiple particle hoppers 302 to The raw material difference of crushing is added in grinding device 50 (when different), and grinding device 50 can be weighed respectively from different particulate materials The weight for the raw material to be comminuted that bucket 302 enters, and be stored in grinding device 50 (crushing hopper 51).In other embodiment party In formula, raw material to be comminuted in multiple particle hoppers 302 can also identical or part it is identical.

The grinding device 50 of present embodiment can weigh it is all, from multiple particle hoppers 302 enter it is to be mixed After raw material, then it is transmitted in pulverizer 54 and is crushed together.In other embodiments, grinding device 50 can also be with every title As soon as amount after the raw material to be comminuted entered in particle hopper 302, by material transport to be comminuted into pulverizer 54 into Row crushes, and then weighs the raw material to be mixed entered in next particle hopper 302 again.

The essence of the application is fed in mill 100, and grinding device 50 can weigh and crush raw material to be comminuted, thus grinding device 50 can weigh the weight of the raw material to be mixed entered from different particle hoppers 302 respectively, and will be a variety of different to be mixed Raw material export into mixing arrangement 70 mixing to obtain mixed fodder, improve essence feed mill 100 the degree of automation.

Fig. 3, Figure 10 and Figure 11 are please referred to, in some embodiments, grinding device 50 further includes crushing machine support 55, powder Broken machine 54, which is mounted on, to be crushed on machine support 55.Crush the installation of machine support 55 on the support surface, powder can be absorbed by crushing machine support 55 The vibration that broken machine 54 generates when working.Specifically, crushing machine support 55 can be set shock-absorbing piece, and the setting of pulverizer 54 is being inhaled It shakes on part, shock-absorbing piece can be rubber parts.

Fig. 3, Figure 10 and Figure 11 are please referred to, in some embodiments, grinding device 50 further includes pulse dust removal component 56, Pulse dust removal component 56 is formed with dedusting including blower 561 and the dedusting ontology 562 connecting with blower 561, dedusting ontology 562 Storehouse 563, dedusting feeding inlet 564, air outlet 565 and dedusting discharge port 566, dedusting feeding inlet 564, air outlet 565 and dedusting go out Material mouth 566 is connected to dedusting cabin 563, outlet (i.e. pulverizer outlet 542) connection transmitting device 81 of pulverizer 54, blower The outlet of 561 connection dedusting feeding inlets 564 and pulverizer 54, dedusting discharge port 566 are connected to transmitting device 81, blower 561 for transporting to the pulverized raw material in part and hearsay in dedusting cabin 563, into the wind in dedusting cabin 563 from air outlet Outside 565 outputs to dedusting ontology 562, the pulverized raw material in part is transmitted to transmitting device 81 from dedusting discharge port 566.At it In his embodiment, dedusting discharge port 566 can not also be connected to transmitting device 81 but be connected to accommodating device, accommodating dress Setting can be sack, hopper or storage silo, and accommodating device is pulverized into pulse dust removal component 56 for temporarily storing Raw material.

Specifically, outlet (i.e. pulverizer outlet 542) connection second charging aperture 8112 of pulverizer 54.Dedusting discharge port 566 can be connected to second charging aperture 8112；Alternatively, the position in addition to second charging aperture 8112 on transmitting device 81 connects It is logical.Dedusting ontology 562 includes the first noumenon 567 and the second ontology 568 being connected.The first noumenon 567 it is cylindrical and enclose At cylindrical cavity, dedusting feeding inlet 564 is provided on the outer peripheral surface of the first noumenon 567, the axis of dedusting feeding inlet 564 Direction and the inner wall of the first noumenon 567 are tangent.Air outlet 565 is provided with one far from the second ontology 568 of the first noumenon 567 End, the axis of air outlet 565 are overlapped with the axis of the first noumenon 567.Second ontology 568 is in cone tube shape, the second ontology 568 Axis be overlapped with the axis of the first noumenon 567.Dedusting discharge port 566 is provided with the separate the first noumenon of the second ontology 568 567 one end.Dedusting feeding inlet 564 is circular open, and air outlet 565 is circular open.

Incorporated by reference to Figure 12, when pulse dust removal component 56 works, the raw material and wind that part is crushed are by blower 561 by dedusting Feeding inlet 564 is drawn into the first noumenon 567, and the air-flow (wind, air) containing raw material is by dedusting feeding inlet 564 along first After the tangential direction of ontology 567 enters in the first noumenon 567, from top to bottom make rotation fortune along the inner wall of the first noumenon 567 It is dynamic, the downward air-flow of this burst of rotation be known as it is outer be vortexed (outer vortex), it is outer be vortexed behind the bottom for reaching the second ontology 568 then edge Axis rotate upwards.The air that this strand rotates upwards is known as inside vortex (interior vortex).Air in inside vortex is by air outlet Outside 565 outputs to dedusting ontology 562.Since outer vortex is identical with the direction of rotation of inside vortex, the air-flow containing raw material rotates When movement, raw material shifts to the inner wall of the second ontology 568 under inertial centrifugal promotion, reaches the raw material of the inner wall of the second ontology 568 Decline in the inner wall of air-flow and the second ontology of gravity collective effect lower edge 568 and by the output of dedusting discharge port 566 to dedusting ontology Outside 562.

During the work time, pulverizer 54 obtains pulverized raw material, portion after crushing raw material to be comminuted to grinding device 50 Pulverized raw material is divided to be entered in dedusting ontology 562 by blower 561, into the pulverized raw material sedimentation in dedusting ontology 562 It is entered in transmitting device 81 by dedusting discharge port 566 afterwards；Another part is not drawn into dedusting ontology 562 by blower 561 Pulverized raw material directly entered in transmitting device 81 by second charging aperture 8112.Specifically, 561 suction particles of blower The lesser pulverized raw material of size, the biggish pulverized raw material of particle size can directly be entered by second charging aperture 8112 Into transmitting device 81.

The essence of present embodiment is fed in mill 100, by the way that pulse dust removal component is arranged on pulverizer, so as to reduce powder The dust that crushing device generates improves the air quality that essence feeds mill local environment.In the grinding device 50 of present embodiment, by The pulverized raw material in part is inhaled in pulse dust removal component 56 to enter in pulse dust removal ontology 562, thus, the power of blower 561 It can be set smaller, and blower can be not provided at air outlet 565, can also be not provided with closing at dedusting discharge port 566 Blower can be set fewer, and can reduce grinding device 50 so as to reduce the element of pulse dust removal component 56 Manufacturing cost.

Figure 13 and Figure 14 is please referred to, in some embodiments, it further includes small hopper 41 and micro- hopper 49 that essence, which feeds mill 100, Small hopper 41 is arranged on mixing arrangement 70 and be connected to mixing arrangement 70, micro- setting of hopper 49 on mixing arrangement 70 and with Mixing arrangement 70 is connected to.

Small hopper 41 is used to store the raw material to be mixed of the powderies such as protein, minerals, and protein can be fish meal, beans The raw materials such as cake, minerals can be the raw materials such as bone meal, mountain flour.Micro- hopper 49 can be used for storing microelement, and microelement can be with For amino acid.

The quantity of small hopper 41 can store different originals to be mixed for one or more, each small hopper 41 Material.The quantity of micro- hopper 49 can store different raw materials to be mixed for one or more, each micro- hopper 49.Under The quantity of hopper 41 and the quantity of micro- hopper 49 each depend on the formula of feed.

In present embodiment, the outlet of small hopper 41 is located at the surface of the entrance of mixing arrangement 70, and micro- hopper 49 goes out Mouth is located at the surface of the entrance of mixing arrangement 70, and the height of small hopper 41 is less than the height of powder bucket 301, micro- hopper 49 Height is less than the height of powder bucket 301.The structure that the essence of present embodiment feeds mill 100 is more compact.

Figure 15 and Figure 16 is please referred to, in some embodiments, it further includes job platform 20, job platform that essence, which feeds mill 100, 20 are surrounded by installation space 214, and mixing arrangement 70, auxiliary feeding apparatus 60 and grinding device 50 are mounted on installation space 214 Interior, job platform 20 is formed with the bracket accepting hole 220 being connected to installation space 214, and small hopper 41 is accommodated with micro- hopper 49 In bracket accepting hole 220.

Platform 22 can be used for storing raw material to be mixed, which can be added to small hopper 41 and micro- hopper 49 It is interior, and be added in mixing arrangement 70 by small hopper 41 and micro- hopper 49.

The bracket that the job platform 20 of the application embodiment is formed with installation space 214 and is connected to installation space 214 Accepting hole 220, mixing arrangement 70 are housed in installation space 214, and small hopper 41 and micro- hopper 49 are housed in bracket accepting hole In 220, and small hopper 41 is made to be connected to mixing arrangement 70 with micro- hopper 49, so that the structure for making essence feed mill 100 is more compact.

Figure 17 is please referred to, in some embodiments, it further includes heating device 91 and stockline 92, heating dress that essence, which feeds mill 100, It sets 91 to be connected to mixing arrangement 70, stockline 92 is connected to heating device 91, and heating device 91 passes through mixing arrangement 70 for heating Mixed raw material, stockline 92 is in the material transport to the room of animal after heating.

In some embodiments, heating device 91 is directly connected to mixing arrangement 70, at this point, the entrance position of heating device 91 In the outlet (i.e. blending bin outlet 7112) of mixing arrangement 70 lower section and be connected to blending bin outlet 7112.In the work of gravity Under, the raw material (feed) in mixing arrangement 70 can successively be fallen from the entrance of blending bin outlet 7112 and heating device 91 To heating device 91.

When the nutritional need of the animal in room changes, mixing arrangement 70, grinding device 50, auxiliary feeding apparatus 60, transmitting device 81 is provided commonly for production feed corresponding with the nutritional need of animal, is then directly transmitted to feed and adds Thermal 91 heats, then the feed after heating is transmitted to by stockline the room of animal again.

The essence of the application is fed in mill 100, and mixing arrangement 70, which is mixed to get after feed, directly to be heated by heating device 91, so Feed after heating is transmitted to the room of animal by stockline 92 again afterwards, so that essence hello mill 100 can be according to the nutrition of animal Demand produces feed in time and is transmitted to the room of animal to feed the animal in room；Meanwhile essence feeds what mill 100 produced Feed can be directly transferred to nutrition purposes, especially for feeding animals in the room of animal, and then improve the degree of automation of animal feeding.

In some embodiments, it further includes the feed transmission for being connected to heating device 91 and mixing arrangement 70 that essence, which feeds mill 100, Component 84, feed transmission assembly 84 include that (figure is not for feed transfer tube 841, feed Transmission Part (not shown) and feed actuator Show)；Feed transfer tube 841 is connected to outlet (i.e. blending bin outlet 7112) and the entrance of heating device 91 of mixing arrangement 70；It raises Material Transmission Part is rotatably mounted in feed transfer tube 841, and feed actuator connect with feed Transmission Part and is used to drive The rotation of feed Transmission Part.Feed transmission assembly 84 can be spiral conveyor (auger).

The essence of present embodiment feeds mill 100 by setting feed transmission assembly 84, at this point, the outlet of heating device 91 is arranged It is not arranged in the lower section of blending bin outlet 7112, consequently facilitating heating device 91 is mounted in place.

Figure 18 to Figure 20 is please referred to, the job platform 20 of the application includes frame 21, platform 22 and staircase 23.21 He of frame Platform 22 is surrounded by installation space 214 jointly, and for accommodating device to be installed, platform 22 is offered and installed installation space 214 The bracket accepting hole 220 that space 214 is connected to, hopper to be installed are mounted on job platform 20 and are housed in bracket accepting hole 220 It is interior so that hopper to be installed is corresponding with device to be installed.Staircase 23 is arranged on frame 21 and connect with platform 22.

In present embodiment, device to be installed includes mixing arrangement 70, auxiliary feeding apparatus 60 and grinding device 50.Wait pacify Charging hopper includes small hopper 41 and micro- hopper 49.Hopper to be installed is corresponding with device to be installed to be referred to: the discharging of small hopper 41 Mouth (i.e. feed opening 452) is located at the top of blending bin entrance 7111, and the outlet of micro- hopper 49 also is located at blending bin entrance 7111 top.

Platform 22 can be used for storing raw material to be mixed, which can be added to small hopper 41 and micro- hopper 49 It is interior, and be added in mixing arrangement 70 by small hopper 41 and micro- hopper 49.

The bracket that the job platform 20 of the application embodiment is formed with installation space 214 and is connected to installation space 214 Accepting hole 220, device to be installed are housed in installation space 214, and hopper to be installed is housed in bracket accepting hole 220 And it is corresponding with device to be installed to make hopper to be installed, to keep the structure of job platform 20 more compact and make job platform 20 The space occupied is smaller.

Please refer to Figure 18 to Figure 20, the job platform 20 of the application include frame 21, platform 22, staircase 23, mounting rack 24, Mounting plate 25, fixed frame 26 and platform guardrail 27.

Frame 21 includes multiple crossbearers 211, multiple support frames 212 and multiple hog frames 213.Multiple crossbearers 211 are connected An entirety is formed, multiple crossbearers 211 are in the same plane.One end of support frame 212 is fixed on crossbearer 211, support frame 212 other end is for being fixed on the supporting surface for being used to support job platform 20.The both ends of hog frame 213 are separately fixed at On crossbearer 211 and support frame 212.Crossbearer 211, support frame 212 and hog frame 213 are surrounded by installation space 214 jointly, installation Space 214 is for installing device to be installed.

Multiple crossbearers 211 of the application include four outer crossbearers 2111 and multiple interior crossbearers 2112.Four outer crossbearers 2111 Head and the tail be sequentially connected with the side's of being formed ring structure, multiple interior crossbearers 2112 are connected on outer crossbearer 2111 and are housed in four In the space that outer crossbearer 2111 is surrounded.

Support frame 212 includes the support rod 2121 being connected and support plate 2122, and support plate 2122 is arranged in support rod 2121 one end, support plate 2122 can releasably be installed on the support surface, and the one of the separate support plate 2122 of support rod 2121 End is arranged on crossbearer 211.The quantity of support frame 212 is at least four, wherein four support frames 212 are separately mounted to be connected The junction of the outer crossbearer 2111 of two connect, remaining support frame 212 are mounted on the intermediate position of outer crossbearer 2111.Reinforce One end of frame 213 is arranged on support frame 212, and the other end is arranged on the outer crossbearer 2111 being connected with support frame 212.

Platform 22 is mounted on the side on crossbearer 211 and being located at the separate support frame 212 of crossbearer 211.Platform 22, crossbearer 211, support frame 212 and hog frame 213 are surrounded by installation space 214 jointly.Platform 22 is offered to be connected to installation space 214 Bracket accepting hole 220, bracket accepting hole 220 is connected to the space that four outer crossbearers 2111 are surrounded.Hopper installation to be installed On job platform 20 and it is housed in bracket accepting hole 220 and corresponding with device to be installed.In present embodiment, platform 22 In rectangle, bracket accepting hole 220 is provided with the middle position of 22 one end of platform.In other embodiments, bracket accepting hole 220 can also be provided with the center of platform 22.

Mounting rack 24 is arranged on frame 21, and mounting rack 24 is formed with the first fixation hole being connected to bracket accepting hole 220 241, hopper to be installed includes the first hopper to be installed, and the first hopper to be installed is mounted on mounting rack 24 and is threaded through first In fixation hole 241.Specifically, mounting rack 24 can be plurality of rods part 240, and plurality of rods part 240 is arranged at intervals on crossbearer 211, Wherein the first fixation hole 241 is formed between more adjacent rod piece 240.In the application embodiment, mounting rack 24 includes four Rod piece 240, wherein more adjacent two rod pieces 240 form first fixation hole 241, other two more adjacent bars Part 240 forms another first fixation hole 241, and two the first fixation holes 241 are located at the opposite end of bracket accepting hole 220.It is flat Platform 22 includes a plane of symmetry, which is defined as platform plane of symmetry P0, and two the first fixation holes 241 are about the platform plane of symmetry P0 is symmetrical.

Mounting plate 25 is plate structure, and mounting plate 25 is arranged on frame 21 and covering part bracket accepting hole 220.Specifically Ground, mounting plate 25 covers the center of bracket accepting hole 220, at this point, two the first fixation holes 241 are located at mounting plate 25 opposite two sides.Mounting plate 25 offers multiple second fixation holes 251 being connected to bracket accepting hole 220.

Incorporated by reference to Figure 21, hopper to be installed includes the first installation hopper and the second installation hopper.First hopper peace to be installed It on mounting rack 24 and is housed in bracket accepting hole 220 and the first fixation hole 241, the first hopper to be installed can be with small powder Bucket 41.Incorporated by reference to Figure 22, when small hopper 41 is mounted on mounting rack 24, two support constructions 46 of small hopper 41 respectively with Two rod pieces 240 for forming the first fixation hole 241 combine.The quantity of the hopper to be installed of the first of the application is eight, wherein four A first hopper to be installed is mounted in first fixation hole 241.Second hopper to be installed is mounted on mounting plate 25 and receives Hold in bracket accepting hole 220 and the second fixation hole 251, the second hopper to be installed can be micro- hopper 49.

Multiple fixed frames 26 are arranged on support frame 212, and multiple fixed frames 26 are surrounded by accommodating hole 261, device to be installed It is arranged on fixed frame 26 and is threaded through in accommodating hole 261.The one of the close crossbearer 211 of support frame 212 is arranged in fixed frame 26 Hold and with crossbearer 211 separately.The central axis of accommodating hole 261 is parallel to the central axis of bracket accepting hole 220, and accommodating hole 261 central axis and the central axis of bracket accepting hole 220 are respectively positioned in platform plane of symmetry P0.

Incorporated by reference to Figure 20 and Figure 21, device to be installed includes mixing arrangement 70, auxiliary feeding apparatus 60 and grinding device 50. Mixing arrangement 70 includes blending bin entrance 7111.Hopper to be installed is corresponding with device to be installed to be referred to: the discharging of small hopper 41 Mouth (i.e. feed opening 452) is located at the top of blending bin entrance 7111, and the outlet of micro- hopper 49 also is located at blending bin entrance 7111 top.Raw material in small hopper 41 can fall into mixing arrangement 70 from feed opening 452 and blending bin entrance 7111 It is interior, raw material in micro- hopper 49 can outlet from micro- hopper 49 and blending bin entrance 7111 fall into mixing arrangement 70.

The auxiliaring bucket 61 of auxiliary feeding apparatus 60 is mounted on fixed frame 26 and is housed in accommodating hole 261.Assist into Material device 60 is for weighing and storing raw material to be mixed, and auxiliary feeding apparatus 60 is connected to mixing arrangement 70, mixing arrangement 70 The powder in auxiliaring bucket 61 can be obtained.Grinding device 50 is crushed for weighing, storing and crushing raw material to be mixed Device 50 is connected to mixing arrangement 70.

The crushing hopper 51 of grinding device 50 is mounted on fixed frame 26 and is housed in accommodating hole 261.Grinding device 50 For weighing, storing and crush raw material to be mixed (crushing particulate material for powder), grinding device 50 and mixing arrangement 70 Connection, mixing arrangement 70 can be obtained from the powder crushed in hopper 51.Finally, mixing arrangement 70 is for mixing from small hopper 41 enter in mixing arrangement 70 raw material (usually fine fodder), enter from grinding device 50 powder in mixing arrangement 70, With the powder entered in mixing arrangement 70 from auxiliary feeding apparatus 60, and the raw material in source can not be allowed to blend by three kinds Different ratio, so as to scientifically feed material culture (pig) with optimal proportion.

Incorporated by reference to Figure 23, platform 22 can be used for storing raw material to be mixed, specifically, multiple to be stored with depositing for raw material to be mixed Storage device is shelved over the platform 22, and the raw material to be mixed is if desired used, and worker can then climb up platform 22 and wait mixing by this manually It closes raw material to be added in small hopper 41, or the raw material to be mixed is added to automatically by small powder by handling device (not shown) In bucket 41, after being added to the raw material to be mixed in small hopper 41 from the communication port 453 of small hopper 41 into blanking channel 450, drive Moving part 431 drive guide member 430 to rotate in blanking channel 450 with by the raw material to be mixed in blanking channel 450 toward feed opening 452 direction is transported out until raw material to be mixed is fallen into mixing arrangement 70.

Staircase 23 includes ladder 231 and ladder guardrail 232, and one end of ladder 231 is arranged on crossbearer 211, ladder 231 For the other end for fixing on the support surface, the opposite sides of ladder 231 is arranged in ladder guardrail 232.Specifically, ladder 231 is set Set the end on one side of platform 22, in present embodiment, the separate bracket accepting hole 220 of platform 22 is arranged in ladder 231 One end.

Platform guardrail 27 is arranged on frame 21 and around platform 22, connection of the platform guardrail 27 in staircase 23 and platform 22 Place forms jagged.Specifically, platform guardrail 27 is arranged on outer crossbearer 211.

The bracket that the job platform 20 of the application embodiment is formed with installation space 214 and is connected to installation space 214 Accepting hole 220, device to be installed are housed in installation space 214, and hopper to be installed is housed in bracket accepting hole 220 And it is corresponding with device to be installed to make hopper to be installed, to keep the structure of job platform 20 more compact and make job platform 20 The space occupied is smaller.

The essence of the application embodiment feed mill 100 further include the job platform 20 of above embodiment, mixing arrangement 70 and Small hopper 41, mixing arrangement 70 are mounted in installation space 214, and small hopper 41 is mounted on job platform 20 and is housed in branch It is in frame accepting hole 220 and corresponding with mixing arrangement 70.

Small hopper 41 is corresponding with mixing arrangement 70 to be referred to: the outlet (i.e. feed opening 452) of small hopper 41 and mixing arrangement The corresponding connection of 70 entrance (i.e. blending bin entrance 7111), more specifically, the outlet of small hopper 41 is located at entering for mixing arrangement 70 The surface of mouth.

The essence of the application embodiment is fed in mill 100, and job platform 20 is formed with installation space 214 and and installation space The bracket accepting hole 220 of 214 connections, mixing arrangement 70 are mounted in installation space 214, and small hopper 41 is mounted on bracket receiving It is in hole 220 and corresponding with mixing arrangement 70, so that the structure for making essence feed mill 100 is more compact.

Figure 22 and Figure 23 are please referred to, the small hopper 41 of the application embodiment includes hopper component 42 and guiding structure 43.

Hopper component 42 includes hopper ontology 44 and guide wire 45.Hopper ontology 44 include small bucket storage bin 442, it is small struggle against into Material mouth 4401 and small bucket discharge port 4412.Small bucket feed inlet 4401 and small bucket discharge port 4412 are located at small bucket storage bin 442 Opposite both ends.Guide wire 45 is arranged on hopper ontology 44, and guide wire 45 includes interconnected blanking channel 450, transport Mouthfuls 451, feed opening 452 and communication port 453, transport mouth 451 and feed opening 452 are separately positioned on the opposite both ends of guide wire 45 End face, communication port 453 are arranged on the side wall 454 of guide wire 45, and small bucket discharge port 4412 connects with communication port 453, small bucket storage Feed bin 442 is connected to blanking channel 450.Guiding structure 43 includes guide member 430 and actuator 431, and guide member 430 transports certainly It is protruded at mouth 451 in blanking channel 450 and extends to feed opening 452, actuator 431 is connect with guide member 430, actuator 431 For drive guide member 430 to rotate in blanking channel 450 with by the raw material in blanking channel 450 toward the direction of feed opening 452 Transport.

Wherein, hopper ontology 44 is connected to by being located at the communication port 453 of 45 side wall 454 of guide wire with guide wire 45, favorably During guiding structure 43 is installed on blanking channel 450, the joint pair of hopper ontology 44 Yu guide wire 45 can be avoided Guiding structure 43 causes to hinder, and the position for being conducive to the installation of guiding structure 43 is more convenient.Guiding structure 43 can be belt biography Dynamic structure, drive structure of gear worm, crankshaft-link rod drive mechanism, auger drive mechanism etc..Guide member 430 can be used for transporting Defeated raw material, actuator 431 can be used for driving the movement of guide member 430 to transport raw material.Wherein, guide member 430 can be belt, Worm and gear, crankshaft-link rod, auger etc., actuator 431 can be motor.

In the small hopper 41 of the application embodiment, by the way that guiding structure 43 is arranged in blanking channel 450, so that Raw material can be transported at feed opening 452 by guiding structure 43, and the raw material for avoiding hopper component 42 is deposited in guide wire 45 It is interior, so that worker does not need the work for the accumulation raw material for continually going dredging to clear up in small hopper 41, not only alleviate worker's Work load, and improve production efficiency.

Incorporated by reference to Figure 23, guide member 430 includes shaft 4300 and helical blade 4301.Shaft 4300 and actuator 431 connect It connects, actuator 431 is able to drive the rotation of shaft 4300.Helical blade 4301 surround and is fixed on the outer peripheral surface of shaft 4300, such as This, when actuator 431 works, actuator 431 rotates and drives shaft 4300 and helical blade 4301 to rotate, helical blade 4301 during rotation, can transport raw material toward the direction of feed opening 452, so that raw material is flowed out of small hopper 41 Out.

Hopper ontology 44 can be structure as a whole with guide wire 45.Specifically, hopper ontology 44 can lead to guide wire 45 The mode for crossing welding links into an integrated entity structure；Alternatively, hopper ontology 44 and guide wire 45 are integrated injection molding structure.One The hopper ontology 44 and the leakproofness of guide wire 45 of structure are preferable, and the joint of hopper ontology 44 and guide wire 45 is not easy Existing crack, reduce small hopper 41 be scattered raw material the case where.In addition, the hopper ontology 44 of integral structure and guide wire 45 are also Conducive to the number of parts for reducing small hopper 41.

Hopper ontology 44 includes small feed hopper 440 and discharge bucket 441.Small feed hopper 440 includes small bucket feeding warehouse 4400, small Struggle against feed inlet 4401 and small bucket outlet 4402, and small bucket feed inlet 4401 and small bucket outlet 4402 are located at small bucket feeding warehouse 4400 opposite both ends.Discharge bucket 441 includes small bucket discharging bin 4410, small bucket entrance 4411 and small bucket discharge port 4412, small bucket Entrance 4411 and small bucket discharge port 4412 are located at the opposite both ends of small bucket discharging bin 4410, small bucket outlet 4402 and small bucket Entrance 4411 connects.Small bucket feeding warehouse 4400 is connected to so that small bucket storage bin 442 is collectively formed with small bucket discharging bin 4410.In this way, Small feed hopper 440 can be used for accommodating raw material, and discharge bucket 441 can be used for adjusting the quantity and stream that raw material flows out within the unit time Speed out.

Incorporated by reference to Figure 23, on the direction of small bucket feed inlet 4401 to small bucket outlet 4402, the cross of small bucket feeding warehouse 4400 The area in section remains unchanged；On small bucket entrance 4411 to the direction of small bucket discharge port 4412, the cross of small bucket discharging bin 4410 The area in section is gradually reduced.In this way, the space of small bucket feeding warehouse 4400 is different from the small bucket space structure of discharging bin 4410, Enable small bucket feeding warehouse 4400 preferably to load more raw material, and small bucket discharging bin 4410 struggles against from childhood entrance 4411 to The tapered formula structure in small bucket 4412 direction of discharge port is conducive to the wave for the quantity or speed for avoiding raw material from entering blanking channel 450 Dynamic range is big, unstable, is conducive to raw material and more uniformly enters blanking channel 450.Wherein, small bucket discharging bin 4410 is gradually The width amplitude of narrow formula structure can do the caliber size of adaptive change and small bucket discharge port 4412 or adapt to The change of property, to be adapted to different types of raw material.

Hopper ontology 44 includes this body sidewall 444, and hopper component 42 further includes two support constructions 46, two support constructions 46 are arranged on this body sidewall 444 and are located at the opposite sides of this body sidewall 444, and support construction 46 is combined including small bucket Portion 461 and small bucket fixed part 462, small bucket engaging portion 461 are arranged on this body sidewall 444, and small bucket fixed part 462 struggles against knot from childhood The one end in conjunction portion 461 extends towards the direction far from hopper ontology 44, and small bucket fixed part 462 is for being mounted on part to be installed.Such as This, hopper ontology 44 in conjunction with part to be installed after can enhance the stability of small hopper 41 so that small hopper 41 is not easy to topple over. Wherein, the small bucket fixed part 462 in support construction 46 can be snap-in structure, buckle structure, helicitic texture or other energy It is enough that small hopper 41 is mounted on the mechanical structure on part to be installed, it is numerous to list herein.Certainly, in other embodiments In, small hopper 41 can also be mounted on by welding on part to be installed.Part to be installed can be job platform 20 (referring to fig. 2 0).

In some embodiments, hopper ontology 44 includes this body sidewall 444, and hopper component 42 further includes support construction 46, support construction 46 is on setting this body sidewall 444.Support construction 46 includes cricoid small bucket engaging portion 461 and two small Struggle against fixed part 462, and the small setting of bucket engaging portion 461 is in this body sidewall 444 and around this body sidewall 444, and small bucket fixed part 462 is certainly One end of small bucket engaging portion 461 extends towards the direction far from hopper ontology 44, the setting of the two small interval of bucket fixed part 462 and position In the opposite sides of hopper ontology 44, small bucket fixed part 462 is for being mounted on part to be installed.In this way, hopper ontology 44 with to Installation part can enhance the stability of small hopper 41 after combining, so that small hopper 41 is not easy to topple over.Wherein, in support construction 46 Small bucket fixed part 462 can be snap-in structure, buckle structure, helicitic texture or other small hopper 41 can be mounted on Mechanical structure on part to be installed, it is numerous to list herein.Certainly, in other embodiments, small hopper 41 can also It is mounted on part to be installed by welding.Part to be installed can be job platform 20.In addition, small 461 ring of bucket engaging portion Around this body sidewall 444, the intensity of this body sidewall 444 is strengthened.

Incorporated by reference to Figure 22, hopper component 42 further includes hopper cover 47, and the movement of hopper cover 47 ground is arranged on hopper ontology 44 Selectively to open wide or block small bucket feed inlet 4401.In this way, hopper cover 47 plays a certain protective role raw material, material Bucket cover 47 can be avoided introduced contaminants and enter in small bucket storage bin 442 directly from small bucket feed inlet 4401.In addition, needing When adding raw materials, it is arranged on hopper ontology 44 due to the movement of hopper cover 47, in other words, hopper cover 47 can releasably pacify On hopper ontology 44, in this way, worker can open hopper cover 47, to pour into raw material in small bucket storage bin 442. Wherein, hopper cover 47 can be slidably arranged on hopper ontology 44, alternatively, hopper cover 47 can be rotatably arranged at hopper On ontology 44.

In some embodiments, hopper cover 47 includes hopper cover ontology 470 and handle 471.Hopper cover ontology 470 is in plate The surface of hopper cover ontology 470 is arranged in shape structure, handle 471.When hopper cover 47 blocks small bucket feed inlet 4401, handle 471 are located at the side opposite with small bucket feed inlet 4401 of hopper cover ontology 470.In this way, worker can will be expected by handle 471 Bucket cover 47 opens wide or blocks small bucket feed inlet 4401.

Hopper ontology 44 includes roof 443 and multiple body sidewalls 444, and multiple body sidewalls 444 successively join end to end, and is pushed up One end of this body sidewall 444 is arranged in wall 443, and multiple body sidewalls 444 are around roof 443, roof 443 and this multiple side Wall 444 surrounds small bucket storage bin 442 jointly, and one end of roof 443 and this body sidewall 444 surrounds small bucket feed inlet 4401 jointly, Hopper cover 47 is rotatably mounted on roof 443.In this way, the structure of rotation connection is simple, it is easy for installation.Wherein, hopper Lid 47 can be rotated around roof 443, and hopper cover 47 and 443 joint of roof can be used as hopper cover 47 and turn around what roof 443 rotated Axis.Wherein one end of hopper cover 47 is rotationally arranged on roof 443, when needing to open wide small bucket feed inlet 4401, worker Ke Tong It crosses handle 471 and controls the rotation of hopper cover 47.

Mouth 451 is transported towards the direction of feed opening 452 as first direction, small bucket discharge port 4412 is towards small bucket feed inlet 4401 Direction as second direction, the angle theta of first direction and second direction is greater than or equal to 90 ° and less than 150 °.In this way, folder Angle θ is unlikely to too small, makes original so as to avoid the structure of joint of hopper ontology 44 and guide wire 45 from excessively bending Material is piled up in the bending place, is conducive to guiding structure 43 and as much as possible transports the raw material of accumulation toward the direction of feed opening 452. In addition, angle theta is unlikely to excessive, so as to directly be flowed from feed opening 452 after avoiding raw material from pouring into from small bucket feed inlet 4401 Out, be conducive to the speed that guiding structure 43 preferably controls quantity and outflow that raw material is flowed out from feed opening 452.

In other embodiments, 4520 institute of central axis of the central axis 4403 of small bucket feed inlet 4401 and feed opening 452 The angle theta of formation is greater than 90 ° and less than 150 °.Wherein, the central axis 4403 of small bucket feed inlet 4401 can be towards feed opening 452 Direction inclination, it is small bucket feed inlet 4401 central axis 4403 can also towards far from feed opening 452 direction tilt.In this way, logical It crosses and the angle theta of small bucket feed inlet 4401 and feed opening 452 is set greater than 90 ° and less than 150 °, so that angle theta is unlikely to It is too small, so as to avoid the structure of hopper ontology 44 and the joint of guide wire 45 from excessively bending raw material is piled up in The bending place is conducive to guiding structure 43 and as much as possible transports the raw material of accumulation toward the direction of feed opening 452.In addition, angle θ is unlikely to excessive, so as to avoid raw material from small bucket feed inlet 4401 pour into after directly from feed opening 452 flow out, be conducive to Guiding structure 43 preferably controls the speed of quantity and outflow that raw material is flowed out from feed opening 452.

Figure 22 and Figure 23 is please referred to, in some embodiments, feed opening 452 protrudes from this body sidewall 444.In this way, leading Skirt 45 can be easily connected to (such as mixing arrangement 70 in Figure 20) with to attachment device, and raw material can be transported to To in attachment device.

In some embodiments, hopper component 42 further includes small hopper valve (not shown) and small powder weighing sensor (not shown), small hopper valve can be movably arranged at one end close to small bucket discharge port 4412 of hopper ontology 44, with choosing Selecting property makes small bucket storage silo 442 be connected to or not be connected to blanking channel 450, and small powder weighing sensor is arranged in storage silo 442 Weight interior and for weighing the raw material in storage silo 442.

Figure 24 is please referred to, the application embodiment provides a kind of broken bag component 33.Broken bag component 33 includes 330 He of knife rest Main blade 331.Knife rest 330 offers through-hole 3300.Main blade 331 is mounted on knife rest 330.Main blade 331 surrounds through-hole 3300 are arranged and are formed the first annular structure 3314 of non-close, direction and the through-hole 3300 of the blade 3311 of main blade 331 3302 direction of axis is consistent.

Wherein, the chamfered shape of knife rest 330 can be circle, ellipse, triangle, rectangular or other polygons etc., This is not listed one by one.Accordingly, the shape of through-hole 3300 can be circle, ellipse, triangle, rectangular or other polygons Deng.

The first annular structure 3314 that main blade 331 forms non-close refers to: the shape of main blade 331 is also possible to above-mentioned Circle, ellipse, triangle, rectangular or other polygons etc. shape, and the shape of main blade 331 forms notch 3313, so that the head and the tail both ends of first annular structure 3314 are non-contact setting or interval setting between each other.For example, please join See Figure 24, the chamfered shape of knife rest 330 and the shape of through-hole 3300 are rectangular；The rectangular knot of the formation non-close of main blade 331 Structure, the square structure form notch 3313.Alternatively, Figure 25 is referred to, the chamfered shape of knife rest 330 and the shape of through-hole 3300 It is circle；Main blade 331 forms the circular configuration of non-close, which forms notch 3313.

Blade 3311 is consistent with 3302 direction of axis of through-hole 3300 to be referred to: the direction of blade 3311 can be with axis 3302 In parallel, the direction of blade 3311 can also form certain tilt angle with axis 3302.For example, the blade of main blade 331 3311 it is outstanding set, the jumbo bag (jumbo bag) equipped with raw material is placed on the side on broken bag component 33, blade towards worker by blade 3311 3311 direction is parallel with axis 3302；Alternatively, the central axis direction of blade 3311 towards through-hole 3300 tilts；Alternatively, blade 3311 tilt towards the central axis direction far from through-hole 3300.Which kind of wherein, either tilted with inclined direction, blade Angle between 3311 and axis is generally within 30 degree.Raw material can be the agricultural product such as corn, wheat, wheat bran, chaff.

In the broken bag component 33 of the application embodiment, when needing for the raw material in jumbo bag to be poured into hopper, pass through Jumbo bag is placed on broken bag component 33, so that jumbo bag is in close contact with broken bag component 33 under the effect of gravity, so as to by broken bag Component 33 punctures, and so as to which the raw material in jumbo bag to be poured into big hopper 31 (shown in Figure 34), therefore, uses broken bag group Raw material in jumbo bag is poured into big hopper 31 by part 33, does not need manpower intervention, to improve the automation of Feed Manufacturing Degree and the efficiency for improving Feed Manufacturing；Meanwhile broken bag component 33 is by setting the first of non-close for main blade 331 Ring structure 3314, so that broken bag component 33, during destroying jumbo bag, the blade 3311 of main blade 331 punctures jumbo bag, Fallen without slicing off the part of jumbo bag breakage completely, avoid jumbo bag fragment and be mixed into raw material, so as to reduce because Raw material doping jumbo bag fragment and cause the situation of material culture physical condition exception.

Please refer to Figure 24 and Figure 25, knife rest 330 is in closed second ring structure 3304, first annular structure 3314 and the Second ring structure 3304 is consistent.First annular structure 3314 and the second ring structure 3304 are consistent it is to be understood that main blade 331 are respectively positioned on knife rest 330 in the orthographic projection on knife rest 330；Alternatively, main blade 331 extends perpendicularly to knife rest 330 Locating plane.The structure in a closed ring shape of knife rest 330 (i.e. closed second ring structure 3304), to make knife rest 330 Structure is stronger.

Please refer to Figure 26, knife rest 330 can also be in not closed second ring structure 3304, first annular structure 3314 with Second ring structure 3304 is consistent.In other words, the shape of the second ring structure 3304 is also possible to above-mentioned circle, ellipse The shape of shape, triangle, rectangular or other polygons etc., and the shape of the second ring structure 3304 forms notch 3303, makes The head and the tail both ends for obtaining the second ring structure 3304 are non-contact setting or interval setting between each other.In this way, the wheel of knife rest 330 Profile shape is consistent or close with the chamfered shape of main blade 331, be conducive to the monnolithic case of broken bag component 33 more completely with it is whole Together.Certainly, in other embodiments, the second ring structure 3304 can also be not identical as first annular structure 3314, example Such as, first annular structure 3314 forms the position of notch 3313 and the second ring structure 3304 forms the position of notch 3303 not Together.

Knife rest 330 can be continuous continual integral structure (as shown in Figure 25 or Figure 26), knife rest 330 or company Continue continual multiple hull construction (as shown in Figure 24 or Figure 27).Main blade 331 can be for continuous continual integral structure (such as Shown in Figure 22), main blade 331 can also be seperated continuous continual multi-sheet structure (as shown in Figure 24, Figure 26 and Figure 27). Wherein, continuous continual integral structure refers to: knife rest 330 (or main blade 331) is the structure of an one, is not isolated Open the structure of multiple fissions.Knife rest 330 is that continuous continual multiple hull construction refers to: knife rest 330 is by multiple separate structure phases It connects and forms a whole.Main blade 331 is that continuous continual multi-sheet structure refers to: main blade 331 is by multiple fissions Structure interconnection group is into a single integrated structure.In this way, knife rest 330 and the structure type of main blade 331 are changeable, be conducive to different knots The knife rest 330 of structure type adapts to the different types of main blade 331 of various structures, is also beneficial to knife rest 330 and 331 phase of main blade Mutually combination forms multiple combinations mode to adapt to different types of raw material jumbo bag, alternatively, knife rest 330 and main blade 331 is a variety of Combination is also beneficial to broken bag component 33 can be in conjunction with the hopper of different types of structure.Wherein, the main blade 331 of Figure 27 It is continuous, continual multiple hull construction.Figure 24 is please referred to, broken bag component 33 further includes multiple installation parts 332, multiple installation parts 332 are spaced apart and arranged on knife rest 330, and main blade 331 can releasably be mounted on knife rest 330 by multiple installation parts 332 On.In this way, being conducive to worker can be according to difference since main blade 331 and knife rest 330 can be by 332 dismantling connections of installation part The raw material jumbo bag of type replaces different types of main blade 331, so that broken bag component 33 can preferably destroy jumbo bag.Its In, installation part 332 can be snap-in structure, buckle structure, helicitic texture or other main blade 331 can be mounted on knife Mechanical structure on frame 330, it is numerous to list herein.Certainly, in other embodiments, main blade 331 can also pass through The mode of welding is mounted on knife rest 330.

Incorporated by reference to Figure 28, installation part 332 is only illustrated with the example of one of structure below, specifically, each installation Part 332 includes mounting base 3320 and mounting rod 3321.Mounting base 3320 can be releasably mounted on knife rest 330.Mounting rod 3321 self installation seats 3320 extend, and one end of the separate mounting base 3320 of mounting rod 3321 offers mounting groove 3326, main blade 331 cutter hub 3310 is fixed in mounting groove 3326, blade 3311 corresponding with the cutter hub 3310 being mounted in mounting groove 3326 Expose from mounting groove 3326.In this way, the cutter hub 3310 of main blade 331 is fixed in mounting groove 3326, and exposed by blade 3311 Outside mounting groove 3326, the overall structure for being conducive to main blade 331 is not easy to be pressed to obtain deformation by raw material and raw material bag.

Wherein, the type of mounting groove 3326 can carry out adaptive change according to the type of main blade 331.For example, installation Slot 3326 can be the structure of through slot, i.e. mounting groove 3326 is provided with the end face 3328 of mounting base 3320 and through mounting base The side 3329 of 3320 opposite sides.Mounting groove 3326 is also possible to the structure of non-through slot, i.e. mounting groove 3326 is provided with installation Seat 3320 end face 3328 and not through the side of mounting base 3,320 3329；Alternatively, mounting groove 3326 is provided with mounting base 3320 End face 3328 and through mounting base 3320 wherein side side 3329.

Incorporated by reference to Figure 24 and Figure 28, the first mounting hole 3315 is offered on cutter hub 3310, mounting rod 3321 offers second Mounting hole 3327, the second mounting hole 3327 are connected to through mounting rod 3321 and with mounting groove 3326, and each installation part 332 also wraps Fastener (not shown) is included, fastener is threaded through in the first mounting hole 3315 and the second mounting hole 3327.In this way, the structure in hole Simply, manufacture is easy, and main blade 331 and mounting rod 3321 can be fixed by fastener, so that broken bag component 33 Assembly and disassembly are more convenient.

Wherein, the first mounting hole 3315 and the second mounting hole 3327 can be threaded hole, and fastener can be screw, operator Piece 331 is connected by screw to mounting rod 3321.Certainly, in other embodiments, the first mounting hole 3315 and the second mounting hole 3327 are also possible to common hole, and screw thread is not formed in hole, and fastener includes screw and nut, and screw wears the first installation Behind hole 3315 and the second mounting hole 3327, screw is fixed in conjunction with nut again.

Incorporated by reference to Figure 24 and Figure 29, knife rest 330 includes seperated or one multiple sub- knife rests 3301, multiple sub- knife rests 3301 Be sequentially connected, the sub- knife rest 3301 of adjacent two be in the first angle (first angle can be described as knife rest angle α), adjacent two The joint of a sub- knife rest 3301 is provided with an installation part 332, and the mounting base 3320 of installation part 332 includes connect first Pedestal 3323 and the second pedestal 3324, the first pedestal 3323 and the second pedestal 3324 are separately mounted to two adjacent sub- knife rests On 3301；It is between first pedestal 3323 and the second pedestal 3,324 second angle (second angle can be described as pedestal angle β), The angle (or pedestal angle β) and the angle (or knife rest angle α) are identical or different.In this way, the structure of mounting base 3320 and son Arrangement position between knife rest 3301 is adapted, the structure more adduction after being conducive to the combination of mounting base 3320 and knife rest 330 Reason.

Wherein, knife rest 330 includes that seperated multiple sub- knife rests 3301 refer to: every sub- knife rest 3301 is knot independent Structure, multiple sub- knife rests 3301 connect the knife rest 330 to form a whole, as shown in figure 24.Knife rest 330 includes the multiple of one Sub- knife rest 3301 refers to: every sub- knife rest 3301 is not independent structure, and every sub- knife rest 3301 is whole as knife rest 330 A part, as shown in Figure 26.

Incorporated by reference to Figure 24, the joint of every two adjacent sub- knife rest 3301 is provided with an installation part 332, is connecting Being additionally provided at least one installation part 332 between two installation parts 332 at place, (structure of such installation part 332 can be Figure 28 Shown in structure).In this way, a fairly large number of installation part 332 can preferably fix main blade 331, when utilization broken bag component 33 When destroying jumbo bag, the deformation of the generation of main blade 331 can be reduced.

Wherein, the structure of installation part 332 can there are many, knife rest 330 is arranged in the installation part 332 of different types of structure On different location.For example, being located at the mounting base 3320 (the of the installation part 332 of the joint of every two adjacent sub- knife rest 3301 One pedestal 3323 and the second pedestal 3324) it L-shaped can be distributed (as shown in figure 29), i.e. the first pedestal 3323 and second Body 3324 is in non-linear structure, and the center line of the center line of the first pedestal 3323 and the second pedestal 3324 is in the second angle.And position The mounting base 3320 of installation part 332 between two installation parts 332 of joint can be distributed in " one " shape (such as Figure 28 institute Show), it can it is interpreted as the first pedestal 3323 and the second linearly arrangement of pedestal 3324, in other words, positioned at two of joint Installation part 332 between installation part 332 does not distinguish the first pedestal 3323 and the second pedestal 3324.In this way, worker can be according to knife rest The structure of different location on 330 selects adaptable installation part 332 so that installation part 332 is more steadily by main blade 331 are fixed on knife rest 330.

It include the first pedestal 3323 and the second pedestal in mounting base 3320 in some embodiments incorporated by reference to Figure 30 In the case where 3324, the quantity of mounting rod 3321 can be two, and two mounting rods 3321 are respectively first body of rod and the second bar Body, first body of rod extend from the first pedestal 3323, and second body of rod extends from the second pedestal 3324, first body of rod and second body of rod It can be spaced or connect, first body of rod and second body of rod are used equally for installation main blade 331.The installation opened up on first body of rod The extending direction of the mounting groove 3326 opened up on the extending direction of slot 3326 and second body of rod is in third angle, the third angle Size it is identical as the second angle formed between the first pedestal 3323 and the second pedestal 3324.

Incorporated by reference to Figure 27, for knife rest 330 in side's annular, broken bag component 33 further includes support 333 and auxiliary-blade 334.Support 333 It is arranged on knife rest 330 and is housed in through-hole 3300, support 333 is located at the diagonal angle of side's annular.Auxiliary-blade 334 passes through peace Piece installing 332 can be releasably mounted on support 333 and be housed in the accommodating space 3312 that main blade 331 surrounds, auxiliary-blade 334 one end is connect with main blade 331, and the other end and main blade 331 of auxiliary-blade 334 are separately.In this way, by adding pair Blade 334 is conducive to increase broken bag component 33 and punctures the region of jumbo bag, so that raw material is when identical after puncturing raw material jumbo bag The quantity of interior outflow increases, so as to accelerate production efficiency.Wherein, auxiliary-blade 334 can also be fixed by installation part 332 On support 333.

Incorporated by reference to Figure 27 and Figure 31, each diagonal angle is provided with an installation part 332, the mounting base 3320 of installation part 332 Including the first pedestal 3323, the second pedestal 3324 and third pedestal 3325 to connect, the first pedestal 3323, the second pedestal 3324, And third pedestal 3325 is separately mounted on the sub- knife rest 3301 of connected two and support 333.In this way, the knot of mounting base 3320 Arrangement position between structure and sub- knife rest 3301 is adapted, and is conducive to after the structure of mounting base 3320 and the combination of knife rest 330 more Adduction reason.

It in some embodiments, include the first pedestal 3323, the second pedestal 3324 and third pedestal in mounting base 3320 In the case where 3325, the quantity of mounting rod 3321 can be three, and three mounting rods 3321 are respectively first body of rod, the second bar Body and the third body of rod, first body of rod extend from the first pedestal 3323, and second body of rod extends from the second pedestal 3324, the third body of rod Extend from third pedestal 3325.It can be mutually spaced between first body of rod, second body of rod and third body of rod three；Alternatively, three Connect between person；Alternatively, any two connect in three；Alternatively, in three any two connect and any two with Another interval.First body of rod and second body of rod are used equally for installation main blade 331, and wherein one end of auxiliary-blade 334 can be with It is mounted on the third body of rod.

Certainly, in other embodiments, third pedestal 3325 can in other two pedestal any one (first Pedestal 3323 or the second pedestal 3324) connect as a pedestal.Alternatively, the first pedestal 3323, the second pedestal 3324 and third 3325 three of pedestal mutually connects as a pedestal, i.e. mounting base 3320 does not distinguish the first pedestal 3323, the second pedestal 3324 And third pedestal 3325.

Figure 32 and Figure 33 are please referred to, the big hopper 31 of the application embodiment may include big feed hopper 311 and big discharging Bucket 312.Big feed hopper 311 includes big bucket feeding warehouse 3110, big bucket feed inlet 3111 and big bucket outlet 3112, greatly bucket feed inlet 3111 and big bucket outlet 3112 be located at the opposite both ends of big bucket feeding warehouse 3110.Big discharge bucket 312 includes big bucket discharging bin 3120, big bucket entrance 3121 and big bucket discharge port 3122, big bucket entrance 3121 and big bucket discharge port 3122 are located at and struggle against out greatly The opposite both ends of feed bin 3120, big bucket outlet 3112 connect (connection) with big bucket entrance 3121.

Wherein, under normal circumstances, in the case where sealing material mouth, the feeding warehouse and discharging bin of hopper can hold hopper Receive the raw material of certain specification size, worker can pour into the material quantity to match without making original according to the receiving capacity of hopper Material overflows.For hopper when just starting to come into operation, worker can be whole from feed inlet by one bag of raw material of corresponding specification size It pours into hopper, raw material fills in feeding warehouse and discharging bin without overflowing.However, hopper is in use for some time, material Easily deformation occurs for bucket capacity, and the capacity of hopper is caused to change, if at this point, worker is again by one bag of original of same size size After material pours into feeding warehouse, the raw material for some overflows from feed inlet.Load structure general is hung since worker usually passes through operation Raw material pours into hopper, and worker causes worker to be generally difficult to find the case where raw material overflows in time not near hopper.

In addition, can only recognize to may be that load knot is hung in oneself manipulation by the light of nature even if worker has found that raw material is fallen on the ground The operation technique of structure is improper, without will recognize that other reasons.In this way, causing the serious waste of raw material.It is sent out after applicant studies Existing, the reason of raw material overflows, is hopper, due to raw material from the top of the feed inlet of hopper (i.e. feed inlet with discharge port Opposite side) feed inlet is poured into, raw material is impacted caused by the periphery wall of feed hopper, along with raw material is not pouring into completely During in hopper, the jumbo bag or Raw material pail for loading raw material are mounted on feed inlet, are caused the overload of hopper, are tired out all the year round Month, so that generating different degrees of deformation everywhere in the periphery wall of feeding warehouse.

Based on this, the big hopper 31 of the application embodiment can also include reinforcer 313, and reinforcer 313 is around setting On the periphery wall 3113 of big feed hopper 311 and it is located between big bucket feed inlet 3111 and big bucket outlet 3112.Wherein, reinforce Part 313 can be the strengthening rib strip being arranged on periphery wall 3113, and reinforcer 313 is also possible to be arranged on periphery wall 3113 Steel plate or sheet steel.Certainly, reinforcer 313 is also possible to other periphery walls 3113 that can reinforce bucket feeding warehouse 3110 greatly Intensity or make greatly struggle against feeding warehouse 3110 the on-deformable structure of periphery wall 3113, it is numerous to list herein.

The big hopper 31 of the application embodiment by the periphery wall 3113 of big feed hopper 311 formed reinforcer 313, Reinforcer 313 around big feed hopper 311 periphery wall 3113 be arranged, when periphery wall 3113 by radially collision or by When along the pressure in axial (3115 direction of axis), the periphery wall 3113 of big feed hopper 311 is not easy depressed deformation, is conducive to big Bucket feeding warehouse 3110 bulk remain unchanged, even if worker again by one bag of raw material of same size size pour into greatly struggle against into After feed bin 3110, also it is not easy the case where raw material overflows from big bucket feed inlet 3111 occur, reduces the waste of raw material.

Please continue to refer to Figure 32 and Figure 33, big hopper 31 further includes supporting element 314, supporting element 314 be circumferentially positioned at greatly into The periphery wall 3113 of hopper 311 is simultaneously located at big bucket outlet 3112 and/or at big bucket entrance 3121, supporting element 314 be used for to Mounting rack is combined so that big hopper 31 to be mounted on frame to be installed.In this way, big hopper 31 in conjunction with frame to be installed after can enhance The stability of big hopper 31, so that big hopper 31 is not easy to topple over.In addition, supporting element 314 surround periphery wall 3113, it also can be right Periphery wall 3113 plays the role of reinforcing, can be further reduced the case where periphery wall 3113 deforms.

Wherein, supporting element 314 can be snap-in structure, buckle structure, helicitic texture or other can be by big hopper 31 The mechanical structure being mounted on frame to be installed, it is numerous to list herein.Certainly, in other embodiments, big hopper 31 is gone back It can also be mounted on by welding on frame to be installed.Frame to be installed can be hopper base 32 (see Figure 25).

Big feed hopper 311 connects to forming big bucket storage bin 319 with big discharge bucket 312, and supporting element 314 includes big bucket engaging portion 3140 and big bucket fixed part 3141, big engaging portion 3140 of struggling against be arranged on the periphery wall 3113 of big feed hopper 311 and around greatly into One end of hopper 311, the big arrogant bucket engaging portion 3140 of the fixed part 3141 that struggles against extends towards the direction far from big bucket storage bin 319, greatly Fixed part 3141 struggle against around big bucket engaging portion 3140.In this way, engaging portion 3140 of struggling against greatly surround the periphery wall of big feed hopper 311 3113, the intensity of the periphery wall 3113 (or big bucket outlet 3112 and big bucket entrance 3121) of big feed hopper 311 is obtained It is further to reinforce.Big hopper 31 can be fixed on frame to be installed (or hopper base 32) by the fixed part 3141 that struggles against greatly.

Figure 33 is please referred to, on the direction of bucket feed inlet 3111 greatly to big bucket outlet 3112, the cross of the big feeding warehouse 3110 that struggles against The area in section remains unchanged.On bucket entrance 3121 greatly to the direction of big bucket discharge port 3122, the cross of the big discharging bin 3120 that struggles against The area in section is gradually reduced.In this way, the space of bucket feeding warehouse 3110 greatly is different from the big bucket space structure of discharging bin 3120, Enable big bucket feeding warehouse 3110 preferably to accommodate more raw material, and struggle against greatly the arrogant bucket entrance 3121 of discharging bin 3120 to The fluctuation range that the tapered formula structure in big bucket 3122 direction of discharge port is conducive to the quantity for avoiding raw material from flowing out or speed is big, no Stablize, is conducive to raw material and more uniformly flows out.Wherein, the width amplitude of the tapered formula structure of bucket discharging bin 3120 greatly can be with Adaptive change is done, and the big caliber size for struggling against discharge port 3122 can also make the change of adaptability, to be adapted to variety classes Raw material.

Big hopper 31 further includes firmware 315, and firmware 315 is circumferentially positioned on the periphery wall 3113 of big feed hopper 311 And be located at big bucket feed inlet 3111, the periphery wall 3113 of the arrogant feed hopper 311 of firmware 315 is towards far from big bucket feeding warehouse 3110 direction extends.In this way, periphery wall 3113 of the firmware 315 around big feed hopper 311, so that big feed hopper 311 is outer The intensity of peripheral wall 3113 (or big bucket feed inlet 3111) is further reinforced.Wherein, firmware 315 can be setting and exist The strengthening rib strip of big bucket feed inlet 3111, firmware 315 are also possible to that the steel plate or steel plate of big bucket feed inlet 3111 is arranged in Piece.Certainly, firmware 315 be also possible to other can reinforce greatly struggle against feeding warehouse 3110 big bucket feed inlet 3111 intensity or So that the on-deformable structure of big bucket feed inlet 3111 of bucket feeding warehouse 3110 greatly, numerous to list herein.

Big hopper 31 further includes at least one connector 316, and the periphery wall of big feed hopper 311 is arranged in connector 316 Extend (the two is parallel to each other) on 3113 and along 3115 direction of axis of big bucket feeding warehouse 3110.In present embodiment, connection The opposite both ends of part 316 are separately connected firmware 315 and supporting element 314.In other embodiments, connector 316 is opposite Both ends can also be separately connected firmware 315 and reinforcer 313；Or, the opposite both ends of connector 316 are separately connected supporting element 314 and reinforcer 313；Or, the opposite both ends of connector 316 are separately connected firmware 315 and supporting element 314, and reinforcer 313 connect with connector 316.The quantity of connector 316 be can be it is one or more, when the quantity of connector 316 is multiple When, multiple connectors 316 are distributed on periphery wall 3113.In this way, connector 316 can be from big bucket feeding warehouse 3110 The periphery wall 3113 of big feed hopper 311 is strengthened on 3115 direction of axis, connector 316 strengthens the side of periphery wall 3113 It is all different to the direction for strengthening periphery wall 3113 with reinforcer 313, supporting element 314, firmware 315, is conducive to the charging that struggles against greatly It is strengthened as much as possible everywhere in the periphery wall 3113 in storehouse 3110, so that the periphery wall 3113 of bucket feeding warehouse 3110 greatly is not easy Deformation.

Wherein, connector 316 can be the strengthening rib strip being arranged on the periphery wall 3113 of big bucket feeding warehouse 3110, connection Part 316 is also possible to be arranged in steel plate or sheet steel on the periphery wall 3113 of big bucket feeding warehouse 3110.Certainly, connector 316 The intensity of the periphery wall 3113 of bucket feeding warehouse 3110 greatly can be reinforced or make the outer of feeding warehouse 3110 that struggle against greatly by being also possible to other The on-deformable structure of peripheral wall 3113, it is numerous to list herein.

In some embodiments, reinforcer 313, connector has also can be set in the periphery wall 3123 of big discharge bucket 312 316 etc., herein with no restrictions.

Big feed hopper 311 is in rectangular configuration, and the joint of the adjacent two sidewalls of big feed hopper 311 is arranged in connector 316. In this way, the bending place of the periphery wall 3113 of big feed hopper 311 is arranged in connector 316, two neighboring side can be preferably avoided The case where wall cracks.Wherein, big feed hopper 311 can also with rounded structure, ellipsoidal structure, triangular structure or Other polygonized structures, it is numerous to list herein.

Big hopper 31 further includes engaging member 317, and the periphery wall 3123 of the arrogant discharge bucket 312 of engaging member 317 is towards far from big bucket The side of discharging bin 3120 extends, and engaging member 317 is around big bucket discharge port 3122, and engaging member 317 with to connecting element for connecting It connects.In this way, periphery wall 3123 of the engaging member 317 around big discharge bucket 312 so that big discharge bucket 312 periphery wall 3123 (or Big bucket discharge port 3122) intensity strengthened and be unlikely to deform.Wherein, engaging member 317 may include snap-in structure, lock Structure, helicitic texture or other can be by big hopper 31 and the mechanical structure being attached to connecting element, herein not It enumerates.It can be auger to connecting element, in this way, can be transported from the raw material that big bucket discharge port 3122 flows out by auger To other hoppers to be mixed with other raw materials.

Figure 32 is please referred to, big hopper 31 further includes carrying part 318, carries the inner wall that big feed hopper 311 is arranged in part 318 On 3114 and across big bucket feed inlet 3111, carry part 318 for installing broken bag component 33 (shown in Figure 34).In this way, broken bag group Part 33 can be arranged at the big bucket feed inlet 3111 of big hopper 31 by carrying part 318, to eliminate worker for jumbo bag unbundlings etc. Troublesome operation improves work task efficiency and production efficiency；Meanwhile carrying part 318 can also support inner wall 3114, with Further decrease the deformation that big bucket feed inlet 3111 is collided or generates when squeezing.Wherein, engaging can be passed through by carrying part 318 Big hopper 31 is attached by mode, snap close mode, engagement thread or other mechanical systems with broken bag component 33.

In some embodiments, broken bag component 33 can be the broken bag component 33 of any of the above-described embodiment (referring to figure 24 to Figure 27), broken bag component 33, which is also possible to other, can destroy the structure for loading the container of raw material, numerous to list herein.

Incorporated by reference to Figure 24 and Figure 34, the broken bag hopper 303 of the application embodiment includes the big of any of the above-described embodiment Hopper 31 and broken bag component 33, broken bag component 33 are mounted on big hopper 31.

Broken bag component 33 is mounted on big hopper 31 and corresponding with big bucket feed inlet 3111.Specifically, broken bag component 33 can To be mounted on big hopper 31 and be housed in big hopper 31 completely, at this point, the height of broken bag hopper 303 and big hopper 31 It is highly equal, be put into big hopper 31 when by the jumbo bag (for example, jumbo bag) for being mounted with raw material, and by broken bag component 33 into When row broken bag, the raw material in jumbo bag will not be spread to the outside of big hopper 31.In other embodiments, broken bag component 303 can also To be mounted on big hopper 31 and be completely exposed outside big hopper 31, and the central axis of broken bag component 33 is (with 3302 weight of axis Close) it is overlapped with the axis 3115 of big hopper 31, at this point, broken bag component 33 will not occupy the accommodating space of big hopper 31, thus greatly Hopper 31 can reprint more raw materials.

It is appreciated that due to broken bag component 33 can be any of the above-described embodiment broken bag component 33 (referring to fig. 24 to Figure 31), in other words, broken bag component 33 may include knife rest 330 and main blade 331.Knife rest 330 offers through-hole 3300, knife Frame 330 is mounted on big hopper 31, and through-hole 3300 is corresponding with big bucket feed inlet 3111.Main blade 331 is mounted on knife rest 330, Main blade 331 is arranged around through-hole 3300 and forms the first annular structure 3314 of non-close.Big hopper 31 further includes carrying part 318, it carries part 318 and is arranged on the inner wall 3114 of big feed hopper 311 and pacifies across bucket feed inlet 3111, broken bag component 33 greatly On carrying part 318.

In this way, broken bag component 33 is by setting main blade 331 to the first annular structure 3314 of non-close, so that broken bag For component 33 during destroying jumbo bag, the blade 3311 of main blade 331 punctures jumbo bag, without by the portion of jumbo bag breakage Divide to slice off completely and fall, avoid jumbo bag fragment and be mixed into raw material, is made so as to reduce because raw material adulterates jumbo bag fragment At the situation of material culture physical condition exception.

Wherein, the chamfered shape of knife rest 330 can be circle, ellipse, triangle, rectangular or other polygons etc., This is not listed one by one.Accordingly, the shape of through-hole 3300 can be circle, ellipse, triangle, rectangular or other polygons Deng.The first annular structure 3314 that main blade 331 forms non-close refers to: the shape of main blade 331 is also possible to above-mentioned circle The shape of shape, ellipse, triangle, rectangular or other polygons etc., and the shape of main blade 331 forms notch 3313, makes The head and the tail both ends for obtaining first annular structure 3314 are non-contact setting or interval setting between each other.For example, Figure 24 is referred to, The chamfered shape of knife rest 330 and the shape of through-hole 3300 are rectangular；Main blade 331 forms the square structure of non-close, the party Shape structure forms notch 3313.Alternatively, referring to Figure 22, the chamfered shape of knife rest 330 and the shape of through-hole 3300 are circle； Main blade 331 forms the circular configuration of non-close, which forms notch 3313.The axis of blade 3311 and through-hole 3300 3302 direction of line unanimously refers to: the direction of blade 3311 can be parallel with axis 3302, and the direction of blade 3311 can also be with axis Line 3302 forms certain tilt angle.It is set for example, the blade 3311 of main blade 331 is outstanding, blade 3311 will be equipped with towards worker The jumbo bag (jumbo bag) of raw material is placed on the side on broken bag component 33, and the direction of blade 3311 is parallel with axis 3302；Alternatively, The central axis direction of blade 3311 towards through-hole 3300 tilts；Alternatively, blade 3311 inclines towards the central axis direction far from through-hole 3300 Tiltedly.Which kind of wherein, either tilted with inclined direction, the angle between blade 3311 and axis is generally within 30 degree. Raw material can be the agricultural product such as corn, wheat, wheat bran, chaff.

Please refer to Figure 35, the magazine-less system 30 of the application embodiment includes the big of hopper base 32 and above embodiment Hopper 31 (see Figure 32) or broken bag hopper 303 (see Figure 34), big hopper 31 or broken bag hopper 303 are arranged on hopper base 32.

Incorporated by reference to Figure 32, in the magazine-less system 30 of the application embodiment, when magazine-less system 30 includes above embodiment Big hopper 31 when, big hopper 31 pass through on the periphery wall 3113 of big feed hopper 311 formed reinforcer 313, reinforcer 313 Periphery wall 3113 around big feed hopper 311 is arranged, and is conducive to big hopper 31 after using long period of time, big to feed The periphery wall 3113 of bucket 311 is not easy depressed deformation, and the bulk for being conducive to bucket feeding warehouse 3110 greatly remains unchanged, worker After even if one bag of raw material of same size size is poured into big bucket feeding warehouse 3110 again, be also not easy to occur raw material from struggle against greatly into The case where overflowing at material mouth 3111, reduces the waste of raw material.

Incorporated by reference to Figure 34, in the magazine-less system 30 of the application embodiment, when magazine-less system 30 includes above embodiment Broken bag hopper 303 when, when needing for the raw material in jumbo bag to be poured into hopper, by the way that jumbo bag is placed on broken bag component On 33, so that jumbo bag is in close contact with broken bag component 33 under the effect of gravity, to be punctured by broken bag component 33, so as to Raw material in jumbo bag is poured into big hopper 31, therefore, the raw material in jumbo bag is poured into big hopper using broken bag component 33 In 31, manpower intervention is not needed, to improve the degree of automation of Feed Manufacturing and improve the efficiency of Feed Manufacturing；Together When, broken bag component 33 is by setting main blade 331 to the first annular structure 3314 of non-close, so that broken bag component 33 exists During destroying jumbo bag, the blade 3311 of main blade 331 punctures jumbo bag, without cutting the part of jumbo bag breakage completely It falls down, avoids jumbo bag fragment and be mixed into raw material, cause material culture because raw material adulterates jumbo bag fragment so as to reduce The situation of physical condition exception.

In some embodiments, hopper base 32 includes supporting part 320 and support portion 321, and the setting of supporting part 320 is being propped up One end of support part 321, hopper base 32 are surrounded by hopper installation space 322, and supporting part 320 is formed with and big hopper 31 or broken The hopper accepting hole 323 of 303 installation space 322 of Bag Material bucket connection, big hopper 31 or broken bag hopper 303 are threaded through hopper receiving In hole 323, supporting element 314 is mounted on hopper base 32, and the big discharge port 3122 that struggles against is located in hopper installation space 322.

In the description of this specification, reference term " certain embodiments ", " embodiment ", " some embodiment party The description of formula ", " exemplary embodiment ", " example ", " specific example " or " some examples " means in conjunction with the embodiment party Formula or example particular features, structures, materials, or characteristics described are contained at least one embodiment or example of the application In.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment or example.Moreover, Particular features, structures, materials, or characteristics described can be in any one or more embodiments or example with suitable Mode combine.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Person implicitly includes at least one described feature.In the description of the present application, the meaning of " plurality " is at least two, such as two It is a, three, unless otherwise specifically defined.

Although embodiments herein has been shown and described above, it is to be understood that above-described embodiment is example Property, it should not be understood as the limitation to the application, those skilled in the art within the scope of application can be to above-mentioned Embodiment is changed, modifies, replacement and variant, and scope of the present application is defined by the claims and their equivalents.

Claims (10)

1. a kind of essence feeds mill, which is characterized in that it includes mixing arrangement, grinding device, auxiliary feeding apparatus and biography that the essence, which feeds mill, Defeated device, the grinding device is for weighing and crushing raw material to be comminuted, and the auxiliary feeding apparatus is for weighing and storing Raw material to be mixed, the transmitting device are sequentially communicated the grinding device, the auxiliary feeding apparatus and the mixing arrangement, The transmitting device is used to mix the material transport in the raw material and the auxiliary feeding apparatus in the grinding device to described It attaches together in setting, the mixing arrangement is used to mix the raw material in the mixing arrangement.

2. essence according to claim 1 feeds mill, which is characterized in that the transmitting device includes mixed transport pipe, mixing biography Defeated part and combined drive moving part, the mixed transport part are rotatably mounted in the mixed transport pipe, the combination drive For part for driving the mixed transport part to rotate, the mixed transport pipe is connected to the grinding device, the auxiliary feeding apparatus And the mixing arrangement.

3. essence according to claim 2 feeds mill, which is characterized in that the mixed transport pipe offers first charging aperture, the Two material mouths and mixing discharge port, the second charging aperture is connected to the grinding device, the first charging aperture with it is described auxiliary Feeding device is helped to be connected to, the mixing discharge port is connected to the mixing arrangement；Relative to the branch for being used to support essence hello the mill Support face, the first charging aperture are higher than the second charging aperture, and the first charging aperture is lower than the mixing discharge port.

4. essence according to claim 1 feeds mill, which is characterized in that the grinding device includes crushing hopper, particle weighing Sensor, disintegrating bucket valve and pulverizer, the crushing hopper are connected to the pulverizer, and the disintegrating bucket valve can move Ground is arranged on the disintegrating bucket or on the pulverizer, and the disintegrating bucket valve can select when mobile relative to the disintegrating bucket Property so that the crushing hopper is connected to or is not connected to the pulverizer, the particle weighing sensor is arranged in the crushed material In bucket and for weighing the raw material to be comminuted in the disintegrating bucket.

5. essence according to claim 1 feeds mill, which is characterized in that the auxiliary feeding apparatus includes auxiliaring bucket, powder Weighing sensor and auxiliary bucket valve, the auxiliaring bucket are connected to the transmitting device, and the auxiliary bucket valve can move Ground is arranged on the auxiliaring bucket, can selectively make when the auxiliary bucket valve is relative to auxiliaring bucket movement described Auxiliaring bucket is connected to the transmitting device or is not connected to, and the powder material weighing sensor setting is used in combination in the auxiliaring bucket The raw material to be mixed in the weighing auxiliaring bucket.

6. essence according to claim 1 feeds mill, which is characterized in that it further includes particle hopper and powder bucket that the essence, which feeds mill, The particle hopper is connected to the grinding device, and the powder bucket is connected to the auxiliary feeding apparatus.

7. essence according to claim 6 feeds mill, which is characterized in that the quantity of the particle hopper includes multiple, the powder The quantity of hopper include it is multiple, multiple particle hoppers and multiple powder buckets are distributed in opposite the two of the grinding device Side, multiple particle hoppers and multiple powder buckets are distributed in the opposite two sides of the auxiliary feeding apparatus；Positioned at described The multiple particle hoppers and multiple powder buckets of auxiliary feeding apparatus are located along the same line.

8. essence according to claim 7 feeds mill, which is characterized in that it further includes pellet transportation component and powder that the essence, which feeds mill, The quantity of transmission assembly, the pellet transportation component is consistent with the quantity of the particle hopper, each pellet transportation component It is connected to the grinding device and a corresponding particle hopper；The quantity of the powder transmission assembly and the powder bucket Quantity is consistent, and each powder transmission assembly is connected to the auxiliary feeding apparatus and a corresponding powder bucket.

9. it is according to claim 8 essence feed mill, which is characterized in that the pellet transportation component include pellet transportation pipe and Grain Transmission Part, the pellet transportation part are rotatably mounted in the pellet transportation pipe, and the pellet transportation pipe includes Grain feed inlet and particle discharge port, the particulate charge mouth are connected to the particle hopper, the particle discharge port and the powder Crushing device connection, relative to the supporting surface for being used to support essence hello the mill, the particulate charge mouth is lower than the particle discharge port.

10. it is according to claim 8 essence feed mill, which is characterized in that the powder transmission assembly include powder transfer tube and Powder Transmission Part, the powder Transmission Part are rotatably mounted in the powder transfer tube, and the powder transfer tube includes Powder feed inlet and discharge of fine material mouth, the powder feed inlet are connected to the powder bucket, the discharge of fine material mouth with it is described auxiliary Feeding device is helped to be connected to, relative to the supporting surface for being used to support essence hello the mill, the powder feed inlet goes out lower than the powder Material mouth.