CN209226178U - A kind of siccative storehouse being processed as brid guano in the production line of organic fertilizer particles - Google Patents

Abstract

The utility model relates to brid guano processing equipment technical field, in particular to a kind of siccative storehouse being processed as brid guano in the production line of organic fertilizer particles.A kind of siccative storehouse being processed as brid guano in the production line of organic fertilizer particles that utility model provides, including siccative storehouse ontology and siccative discharging auger, siccative storehouse bodies top is opening, siccative discharging auger is located at siccative storehouse body bottom portion, siccative discharge port is arranged in the wherein any end of siccative discharging auger, and one end that siccative discharging auger corresponds to siccative discharge port is fixedly connected with siccative auger motor.A kind of siccative storehouse being processed as brid guano in the production line of organic fertilizer particles provided by the utility model, dry manure is stored in the ontology of siccative storehouse, the excrement in the ontology of siccative storehouse is driven to be discharged from siccative discharge port by siccative discharging auger rotation, since siccative discharges auger uniform rotation, siccative discharge port being capable of discharge excrement equably.

Description

A kind of siccative storehouse being processed as brid guano in the production line of organic fertilizer particles

Technical field

It is the utility model relates to brid guano processing equipment technical field, in particular to a kind of that brid guano is processed as organic fertilizer Siccative storehouse in the production line of particle.

Background technique

It is more more and more urgent to the environmental quality of fowl and livestock farm with the enhancing of mankind's environmental consciousness, a large amount of fecaluria etc. High concentrated organic wastewater pollutes increasingly severe caused by the water body, soil and air of surrounding, constitutes to the biology of surrounding It cannot be neglected threat, excrement needs to store excrement before as Fertilizer application at present.

Excrement only is prevented from storing in feed bin by excrement during storage at present, and the excrement of such feed bin enters system It is uneven that grain equipment will lead to discharging.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of production line that brid guano is processed as to organic fertilizer particles In siccative storehouse, be able to achieve excrement in feed bin and discharge uniform purpose.

In order to realize above-mentioned purpose of utility model, the utility model, which provides, a kind of is processed as organic fertilizer particles for brid guano Siccative storehouse in production line, including siccative storehouse ontology and siccative discharging auger, siccative storehouse bodies top are opening, siccative discharging stranding Dragon is located at siccative storehouse body bottom portion, and siccative discharge port, siccative discharging auger pair is arranged in the wherein any end of siccative discharging auger One end of siccative discharge port is answered to be fixedly connected with siccative auger motor.

In order to make no matter siccative storehouse body interior stores how much excrement, the excrement of bottom can connect with siccative discharging auger Touching, preferred technical solution are that the inclined bottom surface setting of siccative storehouse ontology, siccative storehouse ontology is close to one end of siccative discharge port Height is higher than the height of one end far from siccative discharge port；Siccative storehouse ontology correspond to siccative discharging auger two sides by up to Under width be gradually reduced, until siccative storehouse ontology side wall close to siccative discharging auger side.

In order to improve discharging speed and discharging stability, preferred technical solution is that the number of siccative discharging auger is two A, two siccative discharging augers are arranged in parallel, and one end that each siccative discharging auger corresponds to siccative discharge port is fixedly connected with dry Expect auger motor.

Since the speed of siccative discharging auger discharge excrement residue is slow, excessive excrement is accumulated in the ontology of siccative storehouse in order to prevent Residue, preferred technical solution are to be fixedly connected with residue storehouse below the ontology of siccative storehouse, siccative storehouse body bottom portion is uniformly arranged several Material spilling hole.

Residue storehouse is drained in order to accelerate excrement residue in the ontology of siccative storehouse, preferred technical solution is siccative storehouse ontology bottom Vibrating motor is fixedly installed in portion.

It is processed to make the excrement residue in residue storehouse be able to enter subsequent processing, preferred technical solution is, residual Conveyor belt is set in slag storehouse, and conveyor belt is parallel to the setting of siccative storehouse ontology bottom surface, and the inner ring both ends of conveyor belt are respectively provided with Roller, roller are fixed on residue storehouse by shaft, and the side wall in residue storehouse is fixedly connected with rotating electric machine, and one of roller turns Axis is fixedly connected with the output shaft of rotating electric machine, and residue storehouse is connected to siccative discharge port, and belt corresponds to the end of siccative discharge port It protrudes into siccative discharge port.

In order to accelerate the velocity of discharge of excrement residue in residue storehouse, preferred technical solution is, vertical equal in conveyor belt Even several striker plates of setting.

In order to avoid, there are the material that can not convey of siccative discharging auger, preferred technical solution is in the ontology of siccative storehouse, Siccative storehouse ontology top setting sieve flitch, sieves and is uniformly arranged several drain spouts on flitch.

It is fallen into the ontology of siccative storehouse to accelerate to sieve the material on flitch, preferred technical solution is siccative storehouse ontology pair The two side walls of siccative discharging auger length direction are answered to be oppositely arranged sieve material sliding groove, sieve flitch corresponds to siccative discharging auger length The two side walls setting in direction sieves flitch one end and this side of siccative storehouse far from siccative discharge port in two sieve material sliding grooves Setting sieve material push rod between wall, this body sidewall is fixedly connected the pedestal of sieve material push rod with siccative storehouse, sieve material push rod telescopic end and sieve Flitch is fixedly connected, and siccative this body sidewall of storehouse setting sieve material controller, sieve material push rod is electrically connected with sieve material controller.

In order to which the bulk materials crushing sieved on flitch to be placed into the ontology of siccative storehouse, preferred technical solution is sieve material Plate center opens up center material mouth, and particle net is arranged in the underface of center material mouth, and particle net is fixed with this body sidewall of siccative storehouse Connection, the area of particle net are less than the area of center material mouth, and the side of particle net and the side of center material mouth are soft by boss type Casing connection, particle uniformly open up several particle mouths on the net, and particle push rod, particle push rod bottom end pair is arranged in the surface of particle net Answer particle mouth that several particle blocks are set, particle block sectional area is less than particle open area, and particle push rod top passes through particle support frame It is fixedly connected on the ontology of siccative storehouse, particle push rod is electrically connected with sieve material controller.

The utility model compared with prior art, has the beneficial effect that

It is provided by the utility model a kind of brid guano to be processed as the siccative storehouse in the production line of organic fertilizer particles, siccative storehouse sheet Dry manure is stored in body, drives the excrement in the ontology of siccative storehouse to be discharged from siccative discharge port by siccative discharging auger rotation, by It discharges auger uniform rotation in siccative, siccative discharge port being capable of discharge excrement equably.

Other features and advantages of the utility model will illustrate in the following description, also, partly from specification In become apparent, or understood and implementing the utility model.The purpose of this utility model and other advantages can pass through Structure specifically indicated in the written description, claims, and drawings is achieved and obtained.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.

In the accompanying drawings:

Fig. 1 is the side view of the utility model embodiment 1；

Fig. 2 is the top view of the utility model embodiment 1；

Fig. 3 is the side view of the utility model embodiment 2；

Fig. 4 is the schematic diagram of internal structure in residue storehouse in the utility model embodiment 2；

Fig. 5 is the side sectional view of the utility model embodiment 3；

Fig. 6 is the top view that flitch is sieved in the utility model embodiment 3.

In figure, 110- siccative storehouse ontology；111- siccative discharging auger；112- siccative discharge port；113- siccative auger motor； 114- residue storehouse；115- material spilling hole；116- vibrating motor；117- conveyor belt；118- rotating electric machine；119- striker plate；120- Sieve flitch；121- drain spout；122- sieve material sliding groove；123- sieve material push rod；124- sieve material controller；The center 125- material mouth； 126- particle net；127- boss type teleflex；128- particle mouth；129- particle push rod；130- particle block；The support of 131- particle Frame.

Specific embodiment

It is illustrated below in conjunction with preferred embodiment of the attached drawing to the utility model, it should be understood that described herein excellent It selects embodiment to be only used for describing and explaining the present invention, is not used to limit the utility model.

Embodiment 1

As shown in Figure 1, 2, the utility model provide it is a kind of brid guano is processed as it is dry in the production line of organic fertilizer particles Feed bin, including siccative storehouse ontology 110 and siccative discharge auger 111, be at the top of siccative storehouse ontology 110 it is open, siccative discharges auger 111 are located at 110 bottom of siccative storehouse ontology, and siccative discharge port 112, siccative is arranged in the wherein any end of siccative discharging auger 111 One end of the corresponding siccative discharge port 112 of discharging auger 111 is fixedly connected with siccative auger motor 113.

Above-mentioned technical proposal stores dry manure in siccative storehouse ontology 110, by siccative discharge the rotation of auger 111 drive it is dry Excrement in feed bin ontology 110 is discharged from siccative discharge port 112, due to siccative discharging 111 uniform rotation of auger, siccative discharge port 112 being capable of discharge excrement equably.In order to make how much excrement no matter stored inside siccative storehouse ontology 110, the excrement of bottom is total The auger 111 that can discharge with siccative contacts, and the inclined bottom surface setting of siccative storehouse ontology 110, siccative storehouse ontology 110 discharges close to siccative The height of one end of mouth 112 is higher than the height of one end far from siccative discharge port 112；The corresponding siccative discharging of siccative storehouse ontology 110 The width of two sides of auger 111 from top to bottom is gradually reduced, until the side wall of siccative storehouse ontology 110 is close to siccative discharging stranding The side of dragon 111.

Above-mentioned technical proposal, 110 internal storage excrement of siccative storehouse ontology, excrement are enable excrement clock by gravity Enough to contact with discharging auger, the excrement in siccative storehouse ontology 110 can be contacted with siccative discharging auger 111, excrement discharge speed It spends more stable.

In order to improve discharging speed and discharging stability, the number of siccative discharging auger 111 is two, two siccatives dischargings Auger 111 is arranged in parallel, and one end of each corresponding siccative discharge port 112 of siccative discharging auger 111 is fixedly connected with siccative auger Motor 113.

Two siccative discharging augers 111 disposed in parallel are rotated towards direction between the two, in siccative storehouse ontology 110 Excrement is preferentially discharged by two siccative discharging augers 111 disposed in parallel from intermediate.Two siccatives discharging augers disposed in parallel 111 rotate towards direction between the two, and the excrement in siccative storehouse ontology 110 is from centre preferentially by two siccatives disposed in parallel The auger 111 that discharges is discharged, and the excrement in siccative storehouse ontology 110 can be more uniformly discharged.

Embodiment 2

As shown in Figure 3,4, the speed for excrement residue being discharged due to siccative discharging auger 111 is slow, siccative storehouse sheet in order to prevent Excessive excrement residue is accumulated in body 110, preferred technical solution is to be fixedly connected with residue storehouse 114 below siccative storehouse ontology 110, Ontology 110 bottom in siccative storehouse is uniformly arranged several material spilling holes 115.

Residue storehouse 114 is drained in order to accelerate excrement residue in siccative storehouse ontology 110, preferred technical solution is siccative storehouse Vibrating motor 116 is fixedly installed in 110 bottom of ontology.

It is processed to make the excrement residue in residue storehouse 114 be able to enter subsequent processing, preferred technical solution is, Conveyor belt 117 is set in residue storehouse 114, and conveyor belt 117 is parallel to the setting of 110 bottom surface of siccative storehouse ontology, conveyor belt 117 Inner ring both ends be respectively provided with roller, roller is fixed on residue storehouse 114 by shaft, and the side wall in residue storehouse 114 is fixedly connected with rotation The shaft of rotating motor 118, one of roller is fixedly connected with the output shaft of rotating electric machine 118, and residue storehouse 114 and siccative discharge Mouth 112 is connected to, and the end that belt corresponds to siccative discharge port 112 is protruded into siccative discharge port 112.

In order to accelerate the velocity of discharge of excrement residue in residue storehouse 114, preferred technical solution is, in conveyor belt 117 Vertical uniform several striker plates 119 of setting.

Above-mentioned technical proposal shakes motor vibrations, drains to the excrement residue of bottom on the belt in residue storehouse 114, leads to Crossing belt rotation drives excrement residue to be discharged to siccative discharge port 112, so that excrement residue is fully utilized, while siccative storehouse sheet Body 110 will not influence discharging speed by excrement residue.

Embodiment 3

As shown in Figure 5,6, in order to avoid in siccative storehouse ontology 110 there are the material that can not convey of siccative discharging auger, it is excellent The technical solution of choosing is that setting sieve flitch 120 in 110 top of siccative storehouse ontology sieves and is uniformly arranged several drain spouts on flitch 120 121。

It is fallen into siccative storehouse ontology 110 to accelerate to sieve the material on flitch 120, preferred technical solution is siccative storehouse The two side walls of corresponding siccative discharging 111 length direction of auger of ontology 110 are oppositely arranged sieve material sliding groove 122, and sieve flitch 120 is right Answer the two side walls setting of siccative discharging 111 length direction of auger in two sieve material sliding grooves 122, sieve flitch 120 is far from dry Expect that material push rod 123 is sieved in setting between 110 side wall of one end and siccative storehouse ontology of discharge port 112, sieves the pedestal of material push rod 123 and do 110 side wall of feed bin ontology is fixedly connected, and sieve material 123 telescopic end of push rod is fixedly connected with sieve flitch 120,110 side of siccative storehouse ontology Wall setting sieve material controller 124, sieve material push rod 123 are electrically connected with sieve material controller 124.

In order to which the bulk materials crushing sieved on flitch 120 is placed into siccative storehouse ontology 110, preferred technical solution For sieve 120 center of flitch opens up center material mouth 125, and particle net 126, particle net is arranged in the underface of center material mouth 125 126 are fixedly connected with 110 side wall of siccative storehouse ontology, and the area of particle net 126 is less than the area of center material mouth 125, particle net 126 Side and the side of center material mouth 125 connect by boss type teleflex 127, several particles are uniformly opened up on particle net 126 Particle push rod 129 is arranged in the surface of mouth 128, particle net 126, if 129 bottom end of particle push rod corresponds to particle mouth 128 and dry crushing is arranged Expect that block 130,130 sectional area of particle block are less than 128 area of particle mouth, 129 top of particle push rod is fixed by particle support frame 131 It is connected on siccative storehouse ontology 110, particle push rod 129 is electrically connected with sieve material controller 124.

Above-mentioned technical proposal, material are fallen on sieve flitch 120, and it is reciprocal to lead to the control sieve material push rod 123 of sieving materials controller 124 Movement moves back and forth sieve flitch 120 in sieve material sliding groove 122, so that piece material be made to drain to siccative by drain spout 121 In storehouse ontology 110；Then since sieve flitch 120 moves back and forth, so that bulk materials are assembled among sieve flitch 120, it is then logical It crosses boss type teleflex 127 to fall on particle net 126, controller control particle push rod 129 pumps, and makes particle block In 130 reciprocal insertion particle mouths 128, so that the bulk materials on particle net 126 are by the extruding of particle block 130 and particle net 126 And crush, it eventually falls into siccative storehouse ontology 110.

Above-mentioned technical proposal is moved back and forth by sieve flitch 120, piece material is made to drain to siccative storehouse by drain spout 121 In ontology 110, bulk materials are crushed by particle block 130 and the extruding of particle net 126, the material of crushing enters siccative storehouse sheet It in body 110, prevents in siccative storehouse ontology 110 that there are bulk materials to influence discharging speed, and then improves speed of production.

Obviously, it is practical without departing from this can to carry out various modification and variations to the utility model by those skilled in the art Novel spirit and scope.If in this way, these modifications and variations of the present invention belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to include these modifications and variations.

Claims (10)

1. a kind of be processed as the siccative storehouse in the production line of organic fertilizer particles, including siccative storehouse ontology (110) and siccative for brid guano It discharges auger (111), which is characterized in that be opening at the top of siccative storehouse ontology (110), siccative discharging auger (111) is located at siccative Siccative discharge port (112) are arranged in the wherein any end of storehouse ontology (110) bottom, siccative discharging auger (111), siccative discharging stranding The one end of imperial (111) corresponding siccative discharge port (112) is fixedly connected with siccative auger motor (113).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 2. according to claim 1 It is, the inclined bottom surface setting of siccative storehouse ontology (110), one end of siccative storehouse ontology (110) close siccative discharge port (112) Height is higher than the height of one end far from siccative discharge port (112)；Corresponding siccative discharging auger (111) of siccative storehouse ontology (110) Two sides width from top to bottom be gradually reduced, until the side wall of siccative storehouse ontology (110) discharges auger close to siccative (111) side.

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 3. according to claim 1 It is, the number of siccative discharging auger (111) is two, and two siccatives dischargings auger (111) are arranged in parallel, each siccative discharging One end of auger (111) corresponding siccative discharge port (112) is fixedly connected with siccative auger motor (113).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 4. according to claim 2 It is, is fixedly connected residue storehouse (114) below siccative storehouse ontology (110), siccative storehouse ontology (110) bottom is uniformly arranged several leakages Expect hole (115).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 5. according to claim 4 It is, vibrating motor (116) are fixedly installed in siccative storehouse ontology (110) bottom.

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 6. according to claim 4 It is, conveyor belt (117) are arranged in residue storehouse (114), and conveyor belt (117) is parallel to siccative storehouse ontology (110) bottom surface and sets It sets, the inner ring both ends of conveyor belt (117) are respectively provided with roller, and roller is fixed on residue storehouse (114) by shaft, residue storehouse (114) side wall is fixedly connected rotating electric machine (118), and the shaft of one of roller and the output shaft of rotating electric machine (118) are solid Fixed connection, residue storehouse (114) are connected to siccative discharge port (112), and siccative is protruded into the end that belt corresponds to siccative discharge port (112) In discharge port (112).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 7. according to claim 6 It is, vertical uniform several striker plates (119) of setting in conveyor belt (117).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 8. according to claim 1 It is, siccative storehouse ontology (110) top setting sieve flitch (120), is uniformly arranged several drain spouts (121) on sieve flitch (120).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 9. according to claim 8 It is, the two side walls of corresponding siccative discharging auger (111) length direction of siccative storehouse ontology (110) are oppositely arranged sieve material sliding groove (122), the two side walls setting of corresponding siccative discharging auger (111) length direction of sieve flitch (120) expects sliding groove in two sieves (122) in, sieve flitch (120) is far from setting sieve material between the one end and siccative storehouse ontology (110) side wall of siccative discharge port (112) The pedestal of push rod (123), sieve material push rod (123) is fixedly connected with siccative storehouse ontology (110) side wall, and sieve material push rod (123) is flexible End is fixedly connected with sieve flitch (120), siccative storehouse ontology (110) side wall setting sieve material controller (124), sieve material push rod (123) It is electrically connected with sieve material controller (124).

A kind of brid guano is processed as the siccative storehouse in the production line of organic fertilizer particles, feature 10. according to claim 9 It is, sieve flitch (120) center opens up center material mouth (125), and particle net is arranged in the underface of center material mouth (125) (126), particle net (126) is fixedly connected with siccative storehouse ontology (110) side wall, and the area of particle net (126) is less than center material mouth (125) side of area, particle net (126) is connect with the side of center material mouth (125) by boss type teleflex (127), Several particle mouths (128) are uniformly opened up on particle net (126), particle push rod (129) are arranged in the surface of particle net (126), broken Material push rod (129) bottom end corresponds to particle mouth (128) and several particle blocks (130) is arranged, and particle block (130) sectional area is less than particle mouth (128) area, particle push rod (129) top is fixedly connected on siccative storehouse ontology (110) by particle support frame (131), broken Material push rod (129) is electrically connected with sieve material controller (124).