CN213784924U - Quantitative device is put in to heisui river horsefly foodstuff - Google Patents

Abstract

The utility model discloses a black soldier fly foodstuff putting and quantifying device, which comprises a quantitative feeding mechanism, wherein the quantitative feeding mechanism comprises a quantitative feeding cylinder, one end of the quantitative feeding cylinder is sequentially connected with a one-way feeding valve and a feeding valve, the other end of the quantitative feeding cylinder is provided with an air inlet hole, a discharge hole of the feeding valve is connected with a feeding pipe, and a piston is arranged in the quantitative feeding cylinder; and a piston in the quantitative feeding cylinder is provided with a magnetic ring, and a cylinder body of the quantitative feeding cylinder is provided with a magnetic sensor. The metering device is put in to heisui river horsefly foodstuff of this kind of structure, can carry out the automatic timing ration to heisui river horsefly that the scale was bred and throw something and feed, realize that the industry is automatic to be bred, throw something and feed effectually, work efficiency is high.

Description

Quantitative device is put in to heisui river horsefly foodstuff

Technical Field

The utility model relates to a cultured equipment technical field, specifically speaking relates to a proportioning device is put in to heisui river horsefly foodstuff.

Background

At present, more and more kitchen waste treatment plants and animal husbandry companies choose to treat kitchen waste and livestock and poultry manure by hermetia illucens, and the added value obtained by the mode of abdominocentesis transformation by the hermetia illucens is higher. The black soldier fly absorbs nutrient substances in the organic waste and converts the nutrient substances into self high-value protein, and the discharged insect manure is also a good fertilizer. Of course, large-scale cultivation is necessary to achieve high conversion and high return. However, the black soldier flies need to be regularly and quantitatively fed in the breeding process, large-scale industrialized breeding cannot be easily realized, regular and quantitative feeding is uniformly achieved, the manual feeding work efficiency is low, the speed is low, the uniformity is poor, the feeding effect is poor, and the requirement of large-scale breeding cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a ration device is put in to heisui river horsefly foodstuff can carry out automatic timing ration to the heisui river horsefly that the scale was bred and throw something and feed, realizes that the industrial automation is bred, throws something and feeds effectually, and work efficiency is high, has reduced the work burden of feeding personnel.

In order to solve the technical problem, the technical scheme of the utility model is that:

a quantitative device for feeding black soldier fly foodstuff comprises a quantitative feeding mechanism, wherein the quantitative feeding mechanism comprises a quantitative feeding cylinder, one end of the quantitative feeding cylinder is sequentially connected with a one-way feeding valve and a feeding valve, the other end of the quantitative feeding cylinder is provided with an air inlet hole, a discharge hole of the feeding valve is connected with a feeding pipe, and a piston is arranged in the quantitative feeding cylinder; and a piston in the quantitative feeding cylinder is provided with a magnetic ring, and a cylinder body of the quantitative feeding cylinder is provided with a magnetic sensor.

As a preferred technical scheme, the feeding valve is an angle seat valve.

The preferable technical scheme is that the quantitative feeding device comprises a mounting frame, wherein a hopper is arranged on the mounting frame, a feeding port and a discharging port are arranged on the hopper, the discharging port is connected with a conveying pump, a plurality of layers of quantitative feeding mechanisms are arranged below the hopper, and the feeding port of a one-way feeding valve of each quantitative feeding mechanism is connected with the output port of the conveying pump.

The feeding device comprises a controller, wherein the magnetic sensor, the feeding valve and the delivery pump are all electrically connected with the controller.

As a preferred technical scheme, be equipped with even cloth mechanism on the hopper, even cloth mechanism including install in the agitator motor at hopper top, the vertical transmission shaft that is connected with of output of agitator motor, the bottom transversely rotates and is equipped with the (mixing) shaft in the hopper, the interval is installed at least two sets of stirring units on the (mixing) shaft, the commutator is installed to a tip of (mixing) shaft, this tip of (mixing) shaft passes through the commutator with the lower tip transmission of transmission shaft is connected.

As a preferable technical scheme, the stirring shaft extends from one side in the hopper to the other side in the hopper, and the bottom wall of the hopper is provided with at least two discharge holes at intervals; every group the stirring unit includes a plurality of stirring paddle leaf, every group stirring paddle leaf is followed the circumference interval of (mixing) shaft sets up, the both ends of (mixing) shaft correspond all install the fixed plate on the inside wall of hopper, the both ends of (mixing) shaft with correspond the end the fixed plate rotates to be connected

As a preferable technical solution, the stirring motor is electrically connected to the controller.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

the utility model discloses a proportioning device is put in to heisui river horsefly foodstuff, inlet port connection air supply pipe during in-service use, the feed inlet of one-way feed valve is connected with the delivery outlet of delivery pump, and the fodder that the delivery pump sent out just gets into quantitative feeding cylinder through this one-way feed valve in, the discharge gate of throwing the material valve is connected with the batch feed pipe, is equipped with the piston in the quantitative feeding cylinder. The piston in the quantitative feeding cylinder is provided with a magnetic ring, the quantitative feeding cylinder is provided with a magnetic sensor, the quantity of foodstuff input into the quantitative feeding cylinder and the quantity of material reduction during feeding can be determined according to the detection result of the magnetic sensor, and the feeding ration can be adjusted by adjusting the position of the magnetic sensor. The automatic quantitative feeding is realized, the feeding effect is good, and the labor burden of feeding personnel is reduced.

The utility model discloses in, can be according to breeding the number of piles of putting up the breed box, set up the quantitative feeding mechanism on the same quantity layer below the hopper, utilize the delivery pump simultaneously to the feeding in the quantitative feed cylinder in a plurality of quantitative feeding mechanisms, open the material valve of throwing in a plurality of quantitative feeding mechanisms simultaneously, can breed the box quantitative feed simultaneously to the multilayer simultaneously, once only feed the box of breeding, work efficiency is high, can satisfy the feeding requirement that industrial automation was bred on a large scale.

The utility model discloses in, the transmission shaft is connected to the agitator motor at hopper top, cooperate through using transmission shaft and commutator, can convert the vertical ascending rotation of transmission shaft into the rotation of horizontal (mixing) shaft, at least two sets of stirring units are installed to the (mixing) shaft interval of horizontal setting, cover the bottom in the stirring hopper completely, the stirring volume is big, can carry out abundant rapid mixing to the foodstuff in the hopper, guarantee the foodstuff misce bene, guarantee that the humidity of foodstuff is even, effectively avoided because the local too wet jam feed opening of foodstuff, the ejection of compact is not smooth and easy, the poor problem of continuity, the smoothness of the ejection of compact has been improved greatly, the continuity, guarantee that subsequent delivery pump can not managed to find time, the cloth effect has been improved, guarantee to throw and feed the effect.

The utility model discloses in, the interval is equipped with two at least on the diapire of hopper the discharge gate has increased the delivery scope.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a black soldier fly foodstuff putting and dosing device according to the present invention;

FIG. 2 is a schematic perspective view of FIG. 1;

fig. 3 is a schematic structural view of another embodiment of the black soldier fly feed putting and dosing device according to the invention;

FIG. 4 is a schematic perspective view of the transfer pump of FIG. 3;

FIG. 5 is a schematic view showing the internal structure of the transfer pump of FIG. 4;

FIG. 6 is a schematic view of the structure within the hopper;

FIG. 7 is a schematic view of the connection of the stirring shaft, stirring unit, commutator and drive shaft of FIG. 6;

fig. 8 is a schematic view of the feeding operation of the black soldier fly feed dosing device in fig. 3 to the breeding boxes on the breeding rack;

FIG. 9 is a schematic perspective view of FIG. 8;

fig. 10 is a control schematic block diagram of the heisui river horsefly feed delivery dosing device of the present invention;

reference numbers in the figures: 1. a quantitative feeding mechanism; 11. a quantitative feeding cylinder; 111. an air inlet; 112. a feed inlet and a feed outlet; 12. a piston; 13. a one-way feed valve; 14. a feeding valve; 15. a feeding pipe; 16. a magnetic sensor; 2. a mounting frame; 3. a uniform material distribution mechanism; 31. a support; 32. a stirring motor; 33. a drive shaft; 34. A fixing plate; 35. a stirring shaft; 36. a commutator; 37. a stirring unit; 38. a coupling; 4. a hopper; 41. A feed inlet; 42. a discharge port; 5. a delivery pump; 51. a pump body; 511. a driving gear; 512. a driven gear; 513. a feed inlet; 514. a discharge port; 52. a hydraulic motor; 4. a hopper; 5. a controller; 6. a culture rack; 7. and (5) breeding boxes.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

Referring to fig. 1 and fig. 2, the quantitative feeding device for putting black soldier fly foodstuff in the embodiment includes a quantitative feeding mechanism 1, the quantitative feeding mechanism 1 includes a quantitative feeding cylinder 11, one end of the quantitative feeding cylinder 11 is sequentially connected with a one-way feeding valve 13 and a feeding valve 14, the other end of the quantitative feeding cylinder 11 is provided with an air inlet 111, a discharge port of the feeding valve 14 is connected with a feeding pipe 15, and a piston 12 is arranged in the quantitative feeding cylinder 11; the piston 12 in the quantitative feeding cylinder 11 is provided with a magnetic ring, the cylinder body of the quantitative feeding cylinder 11 is provided with a magnetic sensor 16, and the magnetic sensor 16 can adopt a magnetic switch arranged at a set position on the quantitative feeding cylinder 11. The quantitative feeding cylinder 11 adopts an elastic capsule structure made of elastic materials such as plastics, silica gel and the like, so that the leakage problem caused by sliding abrasion is avoided.

During actual use, the air inlet 111 is connected with the air supply pipe, the valve can be arranged on the air supply pipe, the feed inlet of the one-way feed valve 13 is connected with a foodstuff supply source, foodstuff enters the quantitative feeding cylinder 11 through the one-way feed valve 13, the quantity of foodstuff entering the quantitative feeding cylinder 11 can be determined according to the detection result of the magnetic sensor 16, the material reduction quantity during feeding can be determined, and the feeding ration can be adjusted by adjusting the position of the magnetic sensor 16.

The feeding valve 14 can be an angle seat valve, the one-way feeding valve 13 can be formed by arranging a one-way valve core in a feeding hole of the angle seat valve, the feeding hole of the angle seat valve is a one-way feeding hole, the one-way feeding hole is connected with an inlet and an outlet of the quantitative feeding barrel 11, and a discharging hole of the angle seat valve is connected with a feeding pipe 15. When the quantitative feeding device works, the angle seat valve is closed firstly, and the piston 12 is arranged at the leftmost end in the quantitative feeding cylinder 11. Foodstuff enters the cylinder body of the quantitative feeding cylinder 11 through the one-way feed inlet, and the piston 12 is pushed by the material to move rightwards due to the relatively high pressure of the pumped feed. When the piston 12 moves to the position of the magnetic sensor 16 and the magnetic sensor 16 detects the piston 12, the feed pump stops feeding. By adjusting the position of the magnetic sensor 16, the amount of material entering the dosing cartridge 11 can be adjusted. Then, the material is thrown to the outside, the angle seat valve is opened, and then air is introduced into the quantitative feeding cylinder 11 from the air inlet hole 111 of the quantitative feeding cylinder 11, at this time, the piston 12 is pushed to move leftward. The unidirectional feeding hole is unidirectional, so that materials cannot be conveyed back from the unidirectional feeding hole, the materials can only enter the feeding pipe 15 through the angle seat valve, and then the feed is pumped into the breeding box 7, and the quantitative feeding process is completed. So realized to breeding box ration feed, automatic ration, the ration is accurate, easy operation, fast, efficient, reduced the burden of feeding personnel.

Example two

Referring to fig. 3 to 10, the quantitative device for feeding black soldier fly foodstuff of the embodiment includes a mounting frame 2, a hopper 4 is arranged at an upper portion in the mounting frame 2, a plurality of layers of quantitative feeding mechanisms 1 are arranged at a lower portion in the mounting frame 2, the structure of the quantitative feeding mechanisms 1 is the same as that of the first embodiment, a feeding port 41 is arranged on the hopper 4, five discharging ports 42 are arranged at the bottom of the hopper 4, and the number of the discharging ports 42 can be changed according to actual conditions. A delivery pump 5 is connected to each discharge port 42.

Referring to fig. 6 and 7, a uniform distribution mechanism 3 is arranged in the hopper 4, the uniform distribution mechanism 3 comprises a stirring motor 32 arranged at the top of the hopper 4, a support 31 is arranged at the top of the hopper 4, the support 31 is fixedly arranged on the inner walls of two sides of the hopper 4, and the top of the support 31 extends out of the hopper 4; the stirring motor 32 is mounted on the bracket 31, and the stirring motor 32 is located outside the hopper 4. The output end of the stirring motor 332 is vertically connected with a transmission shaft 33. The stirring motor 32 is connected with a speed reducer, the top end of the transmission shaft 33 penetrates through the support 31 and is fixedly connected with an output shaft of the speed reducer of the stirring motor 32, the lower portion of the transmission shaft 33 is inserted into the hopper 4, the stirring shaft 35 is transversely and rotatably arranged at the bottom in the hopper 4, at least two groups of stirring units 37 are arranged on the stirring shaft 35 at intervals, a commutator 36 is arranged at one end of the stirring shaft 35, and the end of the stirring shaft 35 is in transmission connection with the lower end portion of the transmission shaft 33 through the commutator 36. Specifically, the lower end of the transmission shaft 33 is provided with a coupler 38, the coupler 38 is fixedly connected with the input shaft of the reverser 36, and the stirring shaft 35 is connected with the output end of the reverser 36. The stirring shaft 35 extends from one side in the hopper 4 to the other side in the hopper 4, and five discharge holes 42 are formed in the bottom wall of the hopper 4 at intervals; each group of stirring units 37 comprises a plurality of stirring blades, the stirring blades of each group are arranged along the circumferential interval of the stirring shaft 35, the inner side walls of the hoppers 4 corresponding to the two ends of the stirring shaft 35 are provided with fixing plates 34, and the two ends of the stirring shaft 35 are rotatably connected with the fixing plates 34 corresponding to the ends. Specifically, the following structure may be adopted: the fixing plate 34 is provided with a through hole, a bearing can be arranged in the through hole, and the end part of the stirring shaft 35 is rotatably arranged in the through hole of the fixing plate 34 at the corresponding end and is rotatably connected with the corresponding bearing.

The hopper 4 in this embodiment may be a roller type. At least two groups of stirring units 37 are arranged on the stirring shaft 35 at intervals. In fig. 7, eleven sets of stirring units 37 are shown, and the eleven sets of stirring units 37 are uniformly spaced from one end of the stirring shaft 35 to the other end, but the number of the stirring units 37 may be specifically set according to actual conditions. The structure greatly increases the stirring range in the hopper 4, can completely cover the bottom in the stirring hopper 4, can completely stir, has good mixing effect, and increases the stirring amount.

In the actual working process, the working principle of the uniform material distribution mechanism 3 is as follows: open agitator motor 32, agitator motor 32 drives transmission shaft 33 and rotates, transmission shaft 33 drives shaft coupling 38 simultaneously and rotates, make the input shaft of commutator 36 driven by shaft coupling 38 and rotate, the input shaft of commutator 36 drives (mixing) shaft 35 and rotates on two fixed plates 34 simultaneously, make a plurality of stirring unit 39 all drive the rotation by (mixing) shaft 35, foodstuff in the hopper 4 is by a plurality of stirring unit 37 stirring misce bene, the foodstuff of misce is through a plurality of discharge gates 42 outputs, and then accomplish even cloth. Cooperate through using transmission shaft 33 and commutator 36, can convert the rotation of transmission shaft 33 vertical upward into horizontal (mixing) shaft 35, through multiunit stirring unit 37, cover stirring hopper 4 bottom completely, can carry out abundant rapid mixing to the foodstuff in the hopper 4, guarantee foodstuff misce bene, guarantee the humidity uniformity of foodstuff, effectively avoided because the foodstuff part is too wet to block up the feed opening, the ejection of compact is not smooth and easy, the poor problem of continuity, the smoothness of the ejection of compact has been improved greatly, the continuity, guarantee that subsequent delivery pump can not be evacuated, the cloth effect is improved.

With reference to fig. 4 and 5, the transfer pump 5 is a gear pump, which functions to pump the feed in the hopper to a given amount of the feeding mechanism 1. The gear pump is driven by the hydraulic motor 52 to rotate, the torque is large, and the material conveying ratio is stable. The hydraulic motor 52 is mounted on the pump body 51 and connected to the driving gear shaft through a coupling, and when the hydraulic motor 52 rotates, the driving gear 511 is driven to rotate, so as to drive the driven gear 512 to rotate. The drive gear 511 and the driven gear 512 are helical gears. The feed inlet 513 of the gear pump is butted with the corresponding discharge outlet 42 of the hopper 4, and the discharged feed directly enters the gear pump. The fodder gets into the tooth's socket of gear pump, and two gears of gear pump are rotatory dorsad, and the material is carried the discharge gate 514 position of gear pump from the cavity that tooth's socket and casing inner wall formed, then extrudes the material through two gear engagement, and through two continuous rotations of gear, the material is constantly pumped out. The pumped feed is conveyed to the quantitative feeding barrel 11 by a steel pipe.

Referring to fig. 1 and 2, the structure of the quantitative feeding mechanism in this embodiment is the same as that of the quantitative feeding mechanism in the first embodiment, the quantitative feeding mechanism 1 includes a quantitative feeding cylinder 11, one end of the quantitative feeding cylinder 11 is sequentially connected with a one-way feeding valve 13 and a feeding valve 14, the other end of the quantitative feeding cylinder 11 is provided with an air inlet 111, the air inlet 111 is connected with an air supply pipe during actual use, a feeding port of the one-way feeding valve is connected with an output port of the delivery pump 5, the feed pumped by the delivery pump 5 enters the quantitative feeding cylinder 11 through the one-way feeding valve, a discharging port of the feeding valve 14 is connected with a feeding pipe 15, and a piston 12 is arranged in the quantitative feeding cylinder 11. A magnetic ring is arranged on a piston in the quantitative feeding cylinder 11, a magnetic sensor 16 is arranged on the quantitative feeding cylinder 11, and the magnetic sensor 16 can be a magnetic switch arranged at a set position on the quantitative feeding cylinder 11. The amount of foodstuff fed into the quantitative feeding cylinder 11 and the amount of material reduction during feeding can be determined based on the detection result of the magnetic sensor 16, and the feeding amount can be adjusted by adjusting the position of the magnetic sensor 16.

The feeding valve 14 can be an angle seat valve, the one-way feeding valve 13 can be formed by arranging a one-way valve core in one feeding hole of the angle seat valve, the feeding hole of the angle seat valve is made to be a one-way feeding hole, the other feeding hole of the angle seat valve is connected with the inlet and the outlet of the quantitative feeding barrel 11, and the discharging hole of the angle seat valve is connected with the feeding pipe 15. When the quantitative feeding device works, the angle seat valve is closed firstly, and the piston 12 is arranged at the leftmost end in the quantitative feeding cylinder 11. The conveying pump 5 is started, feed discharged from the conveying pump 5 enters the cylinder body of the quantitative feeding cylinder 11 through the one-way feed inlet, and the piston 12 is pushed by the material to move rightwards due to the fact that the pressure of the pumped feed is high. When the piston 12 moves to the position of the magnetic sensor 16 and the magnetic sensor 16 detects the piston 12, the feed pump 5 stops feeding. By adjusting the position of the magnetic sensor 16, the amount of material entering the dosing cylinder 11 can be adjusted. Then, the material is thrown to the outside, the angle seat valve is opened, and then air is introduced into the quantitative feeding cylinder 11 from the air inlet hole 111 of the quantitative feeding cylinder 11, at this time, the piston 12 is pushed to move leftward. The one-way feed inlet is one-way, so materials cannot be conveyed back from the one-way feed inlet, the materials can only enter the feeding pipe 15 through the angle seat valve, and then the feed is pumped into the culture box, and the quantitative feeding process is finished. Realizes automatic quantitative feeding and automatically feeds materials to the culture box.

Referring to fig. 3, 8 and 9, 10 layers of cultivation boxes 7 are arranged on the cultivation frame 6, ten sets of quantitative feeding mechanisms 1 can be arranged on the mounting frame 2 up and down, and quantitative feeding can be carried out on the ten layers of cultivation boxes 7 arranged up and down at one time.

Referring to fig. 10, in order to realize full automation control, a programmable controller 6, such as a PLC, a single chip microcomputer, or an industrial personal computer, may be provided, such that the magnetic sensor 16, the feed valve 14, the transfer pump 5, and the stirring motor 32 are all electrically connected to the controller 6. Industrial controllers such as a PLC and a single chip microcomputer are provided with logic control functions, the industrial controllers such as the PLC and the single chip microcomputer are used for realizing logic control, and the type selection and the electric connection mode of electric elements such as a magnetic sensor and a position sensor are well known in the art, and are not described in detail herein. The feeding device and the breeding rack moving device can be controlled to operate according to the controller, automatic feeding at regular time and quantity is achieved, industrial automatic breeding is achieved, feeding effect is good, and working efficiency is high.

The number of the cultivation boxes is only an example, and the number of the cultivation boxes on the cultivation shelf is only an example, and each number can be specifically set according to actual needs.

The foodstuff putting machine of the utility model can be applied to putting and using the foodstuff in the large-scale breeding process of the hermetia illucens or other species.

The foregoing is illustrative of the best mode of the invention, and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The protection scope of the present invention is subject to the content of the claims, and any equivalent transformation based on the technical teaching of the present invention is also within the protection scope of the present invention.

Claims (7)

1. The utility model provides a proportioning device is put in to heisui river horsefly foodstuff which characterized in that: the quantitative feeding mechanism comprises a quantitative feeding cylinder, one end of the quantitative feeding cylinder is sequentially connected with a one-way feeding valve and a feeding valve, the other end of the quantitative feeding cylinder is provided with an air inlet, a discharge hole of the feeding valve is connected with a feeding pipe, and a piston is arranged in the quantitative feeding cylinder; and a piston in the quantitative feeding cylinder is provided with a magnetic ring, and a cylinder body of the quantitative feeding cylinder is provided with a magnetic sensor.

2. The heisui river fly foodstuff dosing device according to claim 1, wherein: the feeding valve is an angle seat valve.

3. The heisui river fly foodstuff dosing device according to claim 2, wherein: the quantitative feeding device comprises a mounting frame, wherein a hopper is arranged on the mounting frame, a feeding hole and a discharging hole are formed in the hopper, the discharging hole is connected with a conveying pump, a plurality of layers of quantitative feeding mechanisms are arranged below the hopper, and each feeding hole of a one-way feeding valve of each quantitative feeding mechanism is connected with an output port of the conveying pump.

4. The heisui river fly foodstuff dosing device according to claim 3, wherein: the device comprises a controller, wherein the magnetic sensor, the feeding valve and the delivery pump are all electrically connected with the controller.

5. The heisui river fly foodstuff dosing device according to claim 4, wherein: the hopper is provided with an even material distribution mechanism, the even material distribution mechanism comprises an agitating motor arranged at the top of the hopper, the output end of the agitating motor is vertically connected with a transmission shaft, the bottom of the hopper is transversely rotated to form an agitating shaft, at least two groups of agitating units are arranged on the agitating shaft at intervals, a commutator is arranged at one end of the agitating shaft, and the commutator is in transmission connection with the lower end of the transmission shaft.

6. The heisui river fly foodstuff dosing device according to claim 5, wherein: the stirring shaft extends from one side in the hopper to the other side in the hopper, and the bottom wall of the hopper is provided with at least two discharge holes at intervals; every group the stirring unit includes a plurality of stirring paddle leaf, every group stirring paddle leaf is followed the circumference interval of (mixing) shaft sets up, the both ends of (mixing) shaft correspond all install the fixed plate on the inside wall of hopper, the both ends of (mixing) shaft with correspond the end the fixed plate rotates and connects.

7. The heisui river fly foodstuff dosing device according to claim 6, wherein: the stirring motor is electrically connected with the controller.

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