CN206184555U - A reducing mechanism and feed processing system for feed processing system - Google Patents

Abstract

The utility model provides a reducing mechanism and feed processing system for feed processing system, the reducing mechanism includes smash room, crushing unit and be used for driving crushing unit pivoted driver, smashes the room and has feed inlet and crushing chamber, and crushing unit locates crushing chamber, crushing unit includes first pivot, second pivot, first axle sleeve, second axle sleeve and cutter, and the one end and the one end of second pivot of first pivot are connected, and first axle sleeve and second axle sleeve are located to the cutter, and first pivot is located to primary shaft ways, and the second pivot is located to the secondary shaft ways, the rotation in the opposite direction of first axle sleeve and second axle sleeve. It can be once only fully crushing with the fodder, and is crushing effectual, need not repeated smashing. Feed processing system includes this reducing mechanism, and it can be once only fully crushing with the fodder, and is crushing effectual, need not repeated smashing.

Description

For the reducing mechanism and feed processing system of feed processing system

Technical field

The utility model is related to field of feed processing, in particular to a kind of crushing dress for feed processing system Put and feed processing system.

Background technology

When current feed processing system is processed to feed, crushing effect is unstable, and its reducing mechanism is crushed and obtained Crushed material many times its crush it is insufficient, it is necessary to repeat crush, increased processing cost and crudy and efficiency be low.

Also have at present using the feed processing system of knockdown reducing mechanism, it passes through continuously to set some identical powder Crushing device, carries out repeating to crush to reach crushing purpose to feed, which results in the wasting of resources and increased tooling cost.

Utility model content

The purpose of this utility model is to provide a kind of reducing mechanism for feed processing system, and it can be by once Crushing process fully crushes feed, without repeating to crush or device being continuously repeated into setting, and can effectively prevent grinders The deposition and blocking of feed powder or particle in journey；It is not only cost-effective and crush efficiency is high.

Another object of the present utility model is to provide a kind of feed processing system, and it can disposably by the abundant powder of feed It is broken, it is high in machining efficiency without repeating to process, it is cost-effective, and can effectively prevent feed powder in comminution engineering or particle Deposition and blocking.

What embodiment of the present utility model was realized in：

A kind of reducing mechanism for feed processing system, it includes pulverizing chamber, shredder assemblies and for driving crushing group The driver that part is rotated, pulverizing chamber has charging aperture and crushing chamber, and shredder assemblies are located at crushing chamber；Shredder assemblies include first turn Axle, the second rotating shaft, the first axle sleeve, the second axle sleeve and cutter, one end of first rotating shaft are connected with one end of the second rotating shaft, and cutter sets In the first axle sleeve and the second axle sleeve, the first axle sleeve is sheathed on first rotating shaft, and the second axle sleeve is sheathed on the second rotating shaft；First axle sleeve with The rotation direction of the second axle sleeve is opposite.It can fully be crushed feed by a crushing process, without repeatedly crushing or inciting somebody to action Device continuously repeats setting, and can effectively prevent the deposition and blocking of feed powder or particle in comminution engineering；Not only save Cost and crush efficiency is high.

A kind of feed processing system, it includes above-mentioned reducing mechanism, and it disposably can fully crush feed, without weight Work is added with, it is high in machining efficiency, it is cost-effective, and can effectively prevent the deposition of feed powder in comminution engineering or particle and stifled Plug.

The beneficial effect of the utility model embodiment is：The reducing mechanism cutter different by setting rotation direction, to raising Material carries out Double Directional Cutting, on the one hand enhances cutting effect, on the other hand prevents from producing orientation vortex in crushing chamber, further increases Strong cutting effect of the cutter to feed；When feed is by that after the cutter cutting that first axle puts, can have and be put with first axle Cutter rotation direction identical momentum, the momentum can strengthen the impact strength of the cutter of feed and the second axle sleeve so that The cutter of two axle sleeves is stronger to the dissection of feed, and crushing effect is more preferable.Feed processing system, it includes above-mentioned crushing dress Put, disposably can fully crush feed, high in machining efficiency without repeating to process, the feed granules for obtaining crush abundant, and It is cost-effective, and can effectively prevent the deposition and blocking of feed powder or particle in comminution engineering.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme of the utility model embodiment, below will be to be used needed for embodiment Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only some embodiments of the present utility model, therefore should not be by Regard the restriction to scope as, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also Other related accompanying drawings are obtained with according to these accompanying drawings.

Fig. 1 is the schematic diagram of the reducing mechanism in the utility model first embodiment；

Fig. 2 is the schematic diagram of the support frame in the reducing mechanism in Fig. 1；

Fig. 3 is the first rotating shaft and the sectional view of the first axle sleeve in the reducing mechanism in Fig. 1；

Fig. 4 is the second rotating shaft in the reducing mechanism in Fig. 1 and the sectional view of the second axle sleeve.

In figure：

Reducing mechanism 100, pulverizing chamber 110, charging aperture 111, crushing chamber 112, support frame 113, support bar 113a, support base 113b, discharging opening 114, shredder assemblies 120, first rotating shaft 121, the first axle sleeve 122, the second rotating shaft 123, the second axle sleeve 124, knife Tool the 125, first cutter 125a, the second cutter 125b, first gear unit 126, first gear 126a, second gear unit 127, Second gear 127a, driver 130.

Specific embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, is clearly and completely described, it is clear that retouched to the technical scheme in the utility model embodiment The embodiment stated is a part of embodiment of the utility model, rather than whole embodiments.Generally described in accompanying drawing herein and The component of the utility model embodiment for showing can be arranged and designed with a variety of configurations.

Therefore, the detailed description of embodiment of the present utility model below to providing in the accompanying drawings is not intended to limit requirement The scope of the present utility model of protection, but it is merely representative of selected embodiment of the present utility model.Based in the utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, all Belong to the scope of the utility model protection.

It should be noted that：Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then it need not be further defined and explained in subsequent accompanying drawing.

, it is necessary to explanation in description of the present utility model, term " in ", " on ", D score, " vertical ", " level ", The orientation or position relationship of the instructions such as " interior ", " outward " are that, based on orientation shown in the drawings or position relationship, or the practicality is new Orientation or position relationship that type product is usually put when using, are for only for ease of description the utility model and simplify description, and Be not indicate or imply meaning device or element must have specific orientation, with specific azimuth configuration and operation, therefore It is not intended that to limitation of the present utility model.Additionally, term " first ", " second " etc. are only used for distinguishing description, and can not manage Solve to indicate or implying relative importance.

Additionally, term " level ", " vertical ", " vertical " etc. are not offered as requiring part abswolute level or pendency, but can To be slightly tilted.It is not certain expression structure if " level " refers to only its direction with respect to more level for " vertical " It is fully horizontal, and can be to be slightly tilted.

In description of the present utility model, in addition it is also necessary to explanation, unless otherwise clearly defined and limited, term " sets Put ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can mechanically connect, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Can be two connections of element internal.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

First embodiment

Fig. 1, Fig. 3 and Fig. 4 are refer to, the present embodiment provides a kind of reducing mechanism 100 for feed processing system, crushes Device 100 includes pulverizing chamber 110, shredder assemblies 120 and the driver 130 for driving shredder assemblies 120 to rotate, pulverizing chamber 110 have charging aperture 111 and crushing chamber 112, and the madial wall of pulverizing chamber 110 defines crushing chamber 112, and shredder assemblies 120 are located at In crushing chamber 112.

Shredder assemblies include first rotating shaft 121, the first axle sleeve 122, the second rotating shaft 123, the second axle sleeve 124 and for crushing The cutter 125 of feed；The one end of first rotating shaft 121 is connected with the one end of the second rotating shaft 123.Cutter 125 includes the first knife Tool 125a and the second cutter 125b, the first cutter 125a are located at the first axle sleeve 122, and the second cutter 125b is located at the second axle sleeve 124, First axle sleeve 122 is sheathed on first rotating shaft 121, and the second axle sleeve 124 is sheathed on the second rotating shaft 123.In the middle of the present embodiment, first The rotating shaft 123 of rotating shaft 121 and second is along the direction setting of general vertical, the i.e. rotational axis line of first rotating shaft 121 and second turn The rotational axis line of axle 123 is vertically set.

First rotating shaft 121 is driven by driver 130, and drive shaft and the first rotating shaft 121 of driver 130 pass through transmission belt 131 connections, in other embodiment of the present utility model, drive shaft and the first rotating shaft 121 of driver 130 can also be by chains Bar is connected, or the drive shaft of driver 130 can also be coaxially connected with first rotating shaft 121.One end of second rotating shaft 123 and the One rotating shaft 121 is connected, and the other end of the second rotating shaft 123 is flexibly connected with the support frame 113 being arranged in crushing chamber 112, and second Rotating shaft 123 can be rotated under the support of support frame 113 with first rotating shaft 121, and the supporting role of support frame 113 increased first turn Stability of the rotating shaft 123 of axle 121 and second when rotating, it is ensured that the carrying out of the continuous and effective of feed manufacturing.

Charging aperture 111 is located at the top of the rotating shaft 123 of first rotating shaft 121 and second；As shown in Figure 1.It is arranged such, when to be added When work feed is put into by charging aperture 111, feed from top to bottom by the rotating shaft 123 of first rotating shaft 121 and second, by first turn When axle 121 and the second rotating shaft 123, the cutting and grinding of the first cutter 125a and the second cutter 125b can be successively subject to act on.

As shown in figure 1, when feed is put into by charging aperture 111, feed is directly contacted with the first cutter 125a and receives The cutting of one cutter 125a, and feed from top to bottom receives the first cutter 125a and the first cutter due to Action of Gravity Field respectively 125a, makes the first cutter 125a effectively can be cut to feed and be crushed with the second cutter 125b, not only increases knife The utilization rate of tool, also causes that the crush efficiency of feed is greatly improved.

The rotating shaft 123 of first rotating shaft 121 and second sets along the direction of general vertical and increased feed to be processed by cutter The time of 125 cuttings so that the crushing to generation processing feed is more abundant, substantially increases crush efficiency.And feed is by upper To lower movement, can effectively prevent feed from depositing or blocking in crushing chamber 112, improve the processing efficiency of feed and adding for feed The work rate of recovery, it is to avoid the feed loss produced because feed is deposited.

It should be noted that in other embodiment of the present utility model, charging aperture 111 can also be arranged on pulverizing chamber 110 other positions, such as charging aperture 111 can also be arranged on the side wall of pulverizing chamber 110 and with first rotating shaft 121 or second turn The flush in the horizontal direction of axle 123；Now, with charging aperture 111 located at first rotating shaft 121 compared with the top of the second rotating shaft 123, The crushing effect of feed can decline.

Fig. 1 and Fig. 2 is referred to, support frame 113 includes that support bar 113a and support base 113b, support bar 113a are used to connect Support base 113b is uniformly distributed in support base 113b in the madial wall and support base 113b of pulverizing chamber 110, support bar 113a for three Periphery support bar, support base 113b is used to directly supporting the one end of the second rotating shaft 123, and support base 113b is in substantially It is cylindric.

It should be noted that in other embodiment of the present utility model, the quantity of the support bar of support bar 113a can be with Difference, support bar can also be uneven distribution；Support base 113b also can also be other shapes, be not limited to that.In addition, Can also be without setting support frame 113 in crushing chamber 112.

It should be noted that lubricated can also be made between support base 113b and the second rotating shaft 123, reduce support base Frictional force between 113b and the second rotating shaft 123, rotates the rotating shaft 123 of first rotating shaft 121 and second and more stablize and reduce the The mechanical wear of two rotating shafts 123 and support base 113b, is conducive to prolonging for the second rotating shaft 123 and the service life of support base 113b It is long.

First rotating shaft 121 can also be without vertically setting with the second rotating shaft 123, the rotating shaft of first rotating shaft 121 and second 123 can be being obliquely installed or horizontally disposed for opposed vertical direction, i.e. the rotational axis line of first rotating shaft 121 and the It is obliquely installed or is horizontally disposed with for the rotational axis line opposed vertical direction of two rotating shafts 123.

Fig. 1 is referred to, in the middle of the present embodiment, driver 130 drives first rotating shaft 121 to rotate by transmission belt, at this In the other embodiment of utility model, driver 130 can also be set directly at one end of first rotating shaft 121 and and first rotating shaft 121 are connected, and the direct drive of driver 130 first rotating shaft 121 is rotated.Driver 130 can also be driven by chain or gear etc. First rotating shaft 121 is rotated, but not limited to this.

Fig. 1 is referred to, in the middle of the present embodiment, pulverizing chamber 110 also has discharging opening 114, and discharging opening 114 is located at second turn The relative lower section of axle 123.Discharging opening 114 can fully be derived the feed after crushing, be less prone to deposition, be conducive to improving The processing rate of recovery of feed.

Fig. 1 is referred to, in the middle of the present embodiment, crushing chamber 112 is cylindric in substantially, and the internal diameter of crushing chamber 112 is omited More than the external diameter of shredder assemblies 120.When the rotating shaft 123 of first rotating shaft 121 and second rotates in crushing chamber 112, due to crushing Chamber 112 is cylindric in substantially, and the gap between the madial wall of cutter 125 and pulverizing chamber 110 is smaller, and pulverizing chamber 110 is interior Side wall does not exist dead angle, it is to avoid when the rotating shaft 123 of first rotating shaft 121 and second rotates in crushing chamber 112, and feed granules are received The situation at dead angle is snapped in swirling eddy motion to shock or feed granules, the processing rate of recovery of feed is further increased.

Due to the external diameter of the internal diameter slightly larger than shredder assemblies 120 of crushing chamber 112, the madial wall of cutter 125 and pulverizing chamber 110 Between gap it is smaller, in crushing process, feed is more vulnerable to the cutting of cutter 125, crushes more fully, substantially increases Crushing effect.

Fig. 3 and Fig. 4 is referred to, in the middle of the present embodiment, the first axle sleeve 122 and the second axle sleeve 124 are hollow tubular knot Structure, the first axle sleeve 122 is sheathed on first rotating shaft 121, and the second axle sleeve 124 is sheathed on the second rotating shaft 123；The one of first rotating shaft 121 End is connected with one end of the second rotating shaft 123, the rotational axis line weight of the rotational axis line of first rotating shaft 121 and the second rotating shaft 123 Close.

Because one end of first rotating shaft 121 is connected with one end of the second rotating shaft 123, and first rotating shaft 121 center of rotation Line overlaps with the rotational axis line of the second rotating shaft 123, when 121 and second rotating shaft of first rotating shaft 123 rotates, it is ensured that first turn Rotational stabilization and synchronism between the rotating shaft 123 of axle 121 and second.

Shredder assemblies 120 also include two first gear units 126, and two first gear units 126 are spaced sets for this Within the gap being placed between the first axle sleeve 122 and first rotating shaft 121, and first gear unit 126 simultaneously with the first axle sleeve 122 Engaged with first rotating shaft 121.

Shredder assemblies 120 also include two second gear units 127, and two second gear units 127 are spaced sets for this Within the gap being placed between the second axle sleeve 124 and the second rotating shaft 123, and second gear unit 127 simultaneously with the second axle sleeve 124 Engaged with the second rotating shaft 123.

Due to being provided with two first gear units 126 and two second gear units 127, when first rotating shaft 121 and the After two rotating shafts 123 start to rotate, first rotating shaft 121 can indirectly drive first axle to cover 122 turns by two first gear units 126 It is dynamic.Second rotating shaft 123 can indirectly drive the second axle sleeve 124 to rotate by two second gear units 127.Due to first rotating shaft 121 is synchronously to start to rotate and synchronously stop operating with the second rotating shaft 123, therefore the first axle sleeve 122 is also same with the second axle sleeve 124 Step starts to rotate and synchronously stop operating.Ensure that the synchronism to fodder crushing.

It is arranged such, two first gear units, 126 pairs of the first axle sleeves 122 not only have induced effect, and with support Effect, due to two spaced gaps being arranged between the first axle sleeve 122 and first rotating shaft 121 of first gear unit 126 Within so that the support force of two first gear units, 126 pairs of the first axle sleeves 122 tends to balance, uniformly, is not in because of part Stress is excessive and causes the rotation of the first axle sleeve 122 unstable.

Similarly, two second gear units, 127 pairs of the second axle sleeves 124 equally not only have induced effect, while having branch Support is acted on, between being arranged between the second axle sleeve 124 and the second rotating shaft 123 because two second gear units 127 are spaced Be not in because of office within gap so that the support force of two second gear units, 127 pairs of the second axle sleeves 124 tends to balance, uniformly Portion's stress is excessive and causes the rotation of the second axle sleeve 124 unstable.

It should be noted that in other embodiment of the present utility model, between the first axle sleeve 122 and first rotating shaft 121 Can also be and be fixedly connected, now, second gear unit 127 is engaged with the second axle sleeve 124 and the second rotating shaft 123 simultaneously；Or It is also possible that be fixedly connected between the second axle sleeve 124 and the second rotating shaft 123, first gear unit 126 simultaneously with the first axle sleeve 122 and first rotating shaft 121 engage.

In other embodiment of the present utility model, the quantity of first gear unit 126 and second gear unit 127 With difference, the relative position relation between multiple first gear units 126, between multiple second gear units 127 can not also Together.Can be uniformly distributed between multiple first gear units 126, between multiple second gear units 127, it is also possible to random point Cloth, but it is not limited only to this.

Fig. 3 and Fig. 4 is referred to, in the middle of the present embodiment, first gear unit 126 includes a first gear 126a, the One gear 126a be arranged within the gap between the axle sleeve 122 of first rotating shaft 121 and first and simultaneously with first rotating shaft 121 and the One axle sleeve 122 is engaged.

Second gear unit 127 includes two identicals and intermeshing second gear 127a, two second gear 127a In one set and engaged with the second rotating shaft 123 near the second rotating shaft 123, another set near second axle sleeve 124 and with Second axle sleeve 124 is engaged.

It is arranged such, when the rotating shaft 123 of first rotating shaft 121 and second is rotated coaxially, due to each first gear unit 126 First gear 126a one fewer than the quantity of the second gear 127a of each second gear unit 127 of quantity, so by The rotation direction of the first axle sleeve 122 that one gear unit 126 drives indirectly and second driven indirectly by second gear unit 127 The rotation direction of axle sleeve 124 is opposite.

Due to the rotation direction of the first axle sleeve 122 and the rotation direction of the second axle sleeve 124 conversely, therefore the first cutter 125a with The rotation direction of the second cutter 125b conversely,

Due to the rotation direction of the first axle sleeve 122 and the rotation direction of the second axle sleeve 124 conversely, the first cutter 125a and the The rotation direction of two cutter 125b is conversely, the air-flow whirlpools that are produced due to rotation of both the first cutter 125a and the second cutter 125b The flow direction of stream is also conversely, because the vortex in counter current direction causes that the whirlpool of unified flow direction cannot be formed in crushing chamber 112 It is attached with the second axle sleeve 124 that stream, feed and feed granules will not be gathered in the first axle sleeve 122 by the vortes interference of single flow direction Closely, will not also be gathered near the madial wall of pulverizing chamber 110, considerably increase feed and feed granules receive cutter 125 and cut The probability of crushing is cut, crushing effect is substantially increased.

Easily there is the rotation direction identical momentum with the first cutter 125a through the feed of the first cutter 125a cutting and crushings, Because the rotation direction of the first cutter 125a and the second cutter 125b is conversely, so through the feed of the first cutter 125a cutting and crushings Can be more than impact between feed and the first cutter 125a with the impact between the second cutter 125b so that feed be more easy to by Crush and cut, advantageously the cutting in cutter 125 to feed, also considerably increases cutting effect, increased degree of grinding.

It should be noted that in other embodiment of the present utility model, the quantity and second gear of first gear 126a The quantity of 127a can be with difference, if first gear 126a and second gear 127a is each according to the connection side in the present embodiment Formula, then each first gear unit 126 first gear 126a quantity and each second gear unit 127 second gear The quantity difference odd number of 127a, you can ensure the rotation direction of the first axle sleeve 122 and the rotation direction phase of the second axle sleeve 124 Instead.

It should be noted that in other embodiment of the present utility model, if the first axle sleeve 122 is solid with first rotating shaft 121 Fixed connection, the second axle sleeve 124 is then engaged with the second rotating shaft 123 by second gear unit 127；If the second axle sleeve 124 and second Rotating shaft 123 is fixedly connected, and the first axle sleeve 122 is then engaged with first rotating shaft 121 by first gear unit 126.Now, each The quantity of the first gear 126a of one gear unit 126 is equal with the quantity of the second gear 127a of each second gear unit 127 Can also ensure that the rotation direction of the first axle sleeve 122 is opposite with the rotation direction of the second axle sleeve 124 for odd number.

It should be noted that in other embodiment of the present utility model, the first gear 126a of first gear unit 126 To the second gear 127a of second gear unit 127 can by the rotational axis line positioned at corresponding first gear 126a and/ Or the rotating shaft at the rotational axis line of second gear 127a is flexibly connected, rotating shaft one end is connected to support frame 113, other end connection In the top of crushing chamber 112.Due to setting rotating shaft, the position of first gear 126a and/or second gear 127a gears is with respect to quilt It is fixed, can only be circled along rotating shaft, prevent from causing rotating shaft to be moved and preventing gear from being normally driven due to vibrations, Ensure that the continuous and effective of crushing is carried out.

The operation principle of reducing mechanism 100 is：Feed enters pulverizing chamber 110 through charging aperture 111, through the first knife after feed elder generation Tool 125a and the second cutter 125b cutting and grinding, and the second cutter 125b is more preferable to the crushing effect of feed, feed is from top to bottom Sufficient crushing is obtained, the feed granules degree of grinding obtained at discharging opening 114 is high.Reducing mechanism 100 can be by one Secondary crushing process fully crushes feed, without repeating to crush or device being continuously repeated into setting, and can effectively prevent grinders The deposition and blocking of feed powder or particle in journey；Not only cost-effective and crush efficiency is also very high.

Second embodiment

The present embodiment provides a kind of feed processing system, and the feed processing system includes reducing mechanism 100.

The feed processing system is provided with reducing mechanism 100, and the feed granules that feed processing system processing is obtained are crushed Fully, the feed manufacturing rate of recovery is high.

In sum, the reducing mechanism 100 for feed processing system that the utility model is provided, it can be by once Crushing process fully crushes feed, without repeating to crush or device being continuously repeated into setting, and can effectively prevent grinders The deposition and blocking of feed powder or particle in journey；It is not only cost-effective and crush efficiency is high.One kind that the utility model is provided Feed processing system, the system has reducing mechanism 100, and it disposably can fully crush feed, without repeating to process, plus Work efficiency high, it is cost-effective, and can effectively prevent the deposition and blocking of feed powder or particle in comminution engineering.

Preferred embodiment of the present utility model is the foregoing is only, the utility model is not limited to, for this For the technical staff in field, the utility model can have various modifications and variations.It is all it is of the present utility model spirit and principle Within, any modification, equivalent substitution and improvements made etc. should be included within protection domain of the present utility model.

Claims (10)

1. a kind of reducing mechanism for feed processing system, it is characterised in that the reducing mechanism includes pulverizing chamber, crushing group Part and the driver for driving the shredder assemblies to rotate, the pulverizing chamber have charging aperture and crushing chamber, the crushing group Part is located at the crushing chamber；The shredder assemblies include first rotating shaft, the second rotating shaft, the first axle sleeve, the second axle sleeve and cutter, institute The one end for stating first rotating shaft is connected with one end of second rotating shaft, and the cutter is located at first axle sleeve and second axle Set, first axle sleeve is sheathed on the first rotating shaft, and second axle sleeve is sheathed on second rotating shaft；First axle sleeve Rotation direction with second axle sleeve is opposite.

2. reducing mechanism according to claim 1, it is characterised in that between the first rotating shaft and first axle sleeve Be provided with least one first gear unit in gap, the first gear unit simultaneously with the first rotating shaft and the first axle Set engagement；At least one second gear unit, described are provided with gap between second rotating shaft and second axle sleeve Two gear units are engaged with second rotating shaft and second axle sleeve simultaneously.

3. reducing mechanism according to claim 1, it is characterised in that between the first rotating shaft and first axle sleeve Be provided with least one first gear unit in gap, the first gear unit simultaneously with the first rotating shaft and the first axle Set engagement；Second rotating shaft is fixedly connected with second axle sleeve.

4. reducing mechanism according to claim 1, it is characterised in that the first rotating shaft and first axle sleeve are fixed and connected Connect, at least one second gear unit, second tooth are provided with the gap between second rotating shaft and second axle sleeve Wheel unit is engaged with second rotating shaft and second axle sleeve simultaneously.

5. reducing mechanism according to claim 2, it is characterised in that the first gear unit includes first tooth Wheel, the first gear is engaged with the first rotating shaft and first axle sleeve simultaneously；The second gear unit is included at least Two intermeshing second gears, one in two second gears is set and with described the near second rotating shaft Two rotating shafts are engaged, and another sets near second axle sleeve and is engaged with second axle sleeve.

6. reducing mechanism according to claim 2, it is characterised in that the first gear unit includes two intermeshings First gear, one in two first gears sets near the first rotating shaft and is engaged with the first rotating shaft, Another covers near the first axle and sets and engaged with first axle sleeve；The second gear unit includes second tooth Wheel, the second gear is engaged with second rotating shaft and second axle sleeve simultaneously.

7. reducing mechanism according to claim 3, it is characterised in that the first gear unit includes first tooth Wheel, the first gear is engaged with the first rotating shaft and first axle sleeve simultaneously.

8. reducing mechanism according to claim 4, it is characterised in that the second gear unit includes second tooth Wheel, the second gear is engaged with second rotating shaft and second axle sleeve simultaneously.

9. reducing mechanism according to claim 1, it is characterised in that the drive shaft of the driver and the first rotating shaft Connected by transmission belt.

10. a kind of feed processing system, it is characterised in that the feed processing system includes claim 1-9 any one institute The reducing mechanism stated.