CN110547212A

CN110547212A - Fodder ration glassware down

Info

Publication number: CN110547212A
Application number: CN201910940007.4A
Authority: CN
Inventors: 张凤鸣; 王金勇; 柴捷; 陈四清; 郭宗义; 王可甜; 涂志; 朱丹; 廖琪; 杜娟; 潘红梅; 白小青; 张得娟; 邱进杰
Original assignee: Chongqing Academy of Animal Sciences
Current assignee: Chongqing Academy of Animal Sciences
Priority date: 2019-09-30
Filing date: 2019-09-30
Publication date: 2019-12-10
Anticipated expiration: 2039-09-30
Also published as: CN110547212B

Abstract

The invention provides a feed quantitative feeder, which comprises a feed barrel arranged above a feed trough, wherein a discharge hole is formed in the bottom of the feed barrel, and a material blocking ball is arranged in the feed barrel; the upper part of the charging barrel is provided with a cover body and a pull rod, the cover body is provided with a feeding hole and a switch board, the switch board is connected to the cover body through a lever fulcrum, the lower end of the pull rod is connected with the charging barrel, and the upper end of the pull rod is connected with the switch board; the cover body is fixedly arranged at a proper position on the material line, the charging barrel can move up and down relative to the cover body, when the charging barrel is stressed to descend, the pull rod descends along with the charging barrel and drives the switch plate to overturn around a lever fulcrum on the cover body, so that the switch plate closes the feeding hole to realize the closing of the feeding channel; when the charging barrel is stressed to rise, the pull rod rises along with the charging barrel and drives the switch plate to turn over around a lever fulcrum on the cover body, so that the switch plate is back to the feeding hole to open the feeding channel. The feeding device has the advantages of good feeding accuracy and high precision, meets the accurate feeding of pig production, can meet the requirements of pig production in each stage, and can avoid feed waste.

Description

Fodder ration glassware down

Technical Field

The invention relates to a livestock feeding device, in particular to a quantitative feeder for feed.

Background

Document CN207870020U discloses a feed discharging device, which comprises a discharging bin, a storage bin and an adjusting device, wherein a discharging port is arranged at the bottom of the discharging bin, the storage bin is arranged at one side of the discharging bin, the bottom of the storage bin is communicated with the discharging bin, and a feeding port is arranged at the top of the storage bin; the height of quantitative dish is adjusted through supporting seat and bracing piece, can adjust the addition of fodder according to the growth period of pig, is provided with the scale on the surface of adjusting the pole, and the unloading volume of the ration control fodder of being convenient for controls the unloading through the closed condition of control feed opening. This fodder unloader comes ration unloading according to the volume, has following problem: the feed volume is inaccurate due to the size and the quantity of the feed particles; the volume metering error is large due to different feed batches or types and density differences; when the volume is adjusted each time, the volume weight of the materials needs to be calculated, and the materials can be adjusted according to the volume average value of multiple times of blanking each time, so that the labor and the time are wasted; needs to be adjusted by hand and experience of corresponding feeding animals, and can not be automatically produced to meet the production requirement.

In addition, document CN107494304A discloses a feeding trough for stock raising, in operation, the material enters into the trough along the discharging pipe, when the material in the trough reaches a preset weight, under the action of the gravity of the trough, the trough will overcome the return spring to do work and then descend along the guide rod and the guide sleeve, the side rod on the right side of the trough pulls the right end of the lever to descend through the connecting rod, according to the lever principle, the left end of the lever will ascend to drive the supporting rod and the sealing ball to ascend, thereby sealing the lower port of the discharging pipe and stopping the discharging, otherwise, when the material in the trough is insufficient, under the action of the return spring, the trough ascends, so that the side rod will drive the right end of the lever to ascend through the connecting rod, thereby making the left end of the lever descend, the left end of the lever drives the sealing ball to separate from the lower port of the discharging pipe through the supporting rod, thereby making the, be equipped with weighing device on the base at support column place, weighing device's effect is what of detecting feed in the storage box, and weighing device is connected with control panel's input, and control panel's output still electric connection has the alarm, and when the material in the storage box was less than preset value, the alarm then can send alarm prompt signal, and then reminds the staff in time reinforced. Although this feed trough can be according to the weight unloading, it can't realize that different pigs only fix the feed intake every day, can only guarantee to keep predetermineeing the material in the feed trough heavy, can cause a large amount of fodder extravagant at the pig in-process of feeding, and the feed trough ann is subaerial, receives the influence of pig only action and ground filth easily.

Disclosure of Invention

The invention aims to provide a feed quantitative feeder which can feed quantitatively and does not waste feed.

The purpose of the invention is realized by adopting the technical scheme as follows.

A fodder quantitative feeder comprises a feed cylinder arranged above a feed trough, wherein a discharge hole is formed in the bottom of the feed cylinder, and a material blocking ball is arranged inside the feed cylinder; the upper part of the charging barrel is provided with a cover body and a pull rod, the cover body is provided with a feeding hole and a switch board, the switch board is connected to the cover body through a lever fulcrum, the lower end of the pull rod is connected with the charging barrel, and the upper end of the pull rod is connected with the switch board; the cover body is fixedly arranged at a proper position on the material line, the charging barrel can move up and down relative to the cover body, when the charging barrel is stressed to descend, the pull rod descends along with the charging barrel and drives the switch plate to overturn around a lever fulcrum on the cover body, so that the switch plate closes the feeding hole to realize the closing of the feeding channel; when the charging barrel is stressed to rise, the pull rod rises along with the charging barrel and drives the switch plate to turn over around a lever fulcrum on the cover body, so that the switch plate is back to the feeding hole to open the feeding channel.

In order to automatically realize quantitative blanking, a spring is arranged at the connecting part of the charging barrel and the cover body, one end of the spring is connected with the charging barrel, and the other end of the spring is connected with the cover body; when the weight of the feed in the feed cylinder is smaller than the preset force of the spring, the spring drives the feed cylinder to ascend, so that the switch board is away from the feed inlet to open the feed channel and continue to feed; when the weight of the feed in the feed barrel is larger than the preset force of the spring, the feed barrel is driven to descend by means of the gravity of the feed and the feed barrel, so that the feed inlet is closed by the switch plate, and the feed channel is closed and the feeding is stopped.

As a preferred scheme of the invention, two sets of the pull rod, the switch plate and the lever fulcrum are symmetrically arranged; when the charging barrel is stressed to descend, the pull rod descends along with the charging barrel and drives the two sets of switch plates to turn over around a lever fulcrum on the cover body, so that the inner side ends of the switch plates are mutually close to realize the closing of the feeding channel; when the charging barrel is stressed to rise, the pull rod rises along with the charging barrel and drives the switch plates to turn over around the lever fulcrum on the cover body, so that the inner side ends of the two sets of switch plates are mutually separated to open the feeding channel.

In order to carry out quantitative blanking according to different weight requirements, the blanking device also comprises an adjusting part for adjusting the prepressing amount of the spring.

As a preferable scheme of the invention, a step is arranged at the upper part of the charging barrel, the lower end of the pull rod is connected to the step, a thread is arranged on the outer wall of the charging barrel above the step and used for matching with a thread adjusting part for adjusting the pre-pressing amount of the spring, the lower end of the spring is connected with the cover body through a bearing plate, and the upper end of the spring is connected with the charging barrel through the thread adjusting part.

As a preferable scheme of the invention, the pull rod movably penetrates through the cover body and is connected with the switch board.

As a preferred scheme of the invention, the lower part of the cover body is a bearing plate with a hole at the center, the upper part of the cover body is a frustum, and the feed inlet is arranged at the top end of the frustum.

In a preferred embodiment of the present invention, the fulcrum is located near and below the top end of the lid body.

As a preferred scheme of the invention, the bearing plate is fixedly connected to the bottom end of the cover body.

In a preferred embodiment of the present invention, the bearing plate is integrally formed with the bottom end of the lid body.

Has the advantages that: the blanking device is mainly suitable for blanking pigs by pig feed equipment, and is particularly suitable for blanking sows; the feeder can realize quantitative feeding, and has good feeding accuracy and high precision; the feeder can put the required feed in place at one time, so that the pig can put in a certain amount of data only by using a certain amount of feed, the pig can continue to feed in the feeding process without eating a part of feed, and the pig can continue to feed in the feeding process without moving a feeding trough in an arching way, so that the waste of the feed is avoided in the aspect of feeding; the weight-counting feeding mode adopted by the invention is more in line with the accurate feeding of the production of the pigs, can meet the requirements of all stages of the production of the pigs, and can avoid the feed waste caused by the fact that the body conditions of the pigs are not in line with all stages of the production; by adopting the feeder, the deviation between the volume weight and the volume of the feed does not need to be considered, the required nutrition standard of each stage can be directly reached, the difficulty and the times of adjusting the feeding amount are reduced, and the labor and the time are saved; the feeder is ingenious and simple in borrowing, easy to install and maintain, convenient to move, low in price and easy to popularize.

Drawings

FIG. 1 is a schematic view of a quantitative feeder for fodder in example 1 (stopped feeding state),

FIG. 2 is a schematic view of a quantitative feeder for fodder according to example 1 (in a feeding state);

FIG. 3 is a schematic view of a quantitative feeder for fodder according to example 2 (stopped feeding state).

Detailed Description

The present invention is further illustrated by the following examples, which are not to be construed as limiting the scope of the invention, and that modifications and variations that are not essential to the invention may be made by those skilled in the art in light of the teachings herein.

example 1

A fodder quantitative feeder, as shown in figure 1 and figure 2, comprises a feed cylinder 2 arranged above a feeding trough 16, a discharge hole 14 is arranged at the bottom of the feed cylinder 2, and a material blocking ball 1 is arranged inside the feed cylinder 2; a cover body 7 and a pull rod 9 are arranged at the upper part of the charging barrel 2, a feeding hole 13 and a switch plate 8 are arranged on the cover body 7, the switch plate 8 is connected to the cover body 7 through a lever fulcrum 10, the lower end of the pull rod 9 is connected with the charging barrel 2, and the upper end of the pull rod is connected with the switch plate 8; the cover body 7 is fixedly arranged at a proper position, the charging barrel 2 can move up and down relative to the cover body 7, when the charging barrel 2 is stressed to descend, the pull rod 9 descends along with the charging barrel 2 and drives the switch plate 8 to overturn around a lever fulcrum 10 on the cover body 7, so that the switch plate 8 seals the feeding hole 13 to close the feeding channel 13; when the charging barrel 2 is stressed to rise, the pull rod 9 rises along with the charging barrel 2 and drives the switch plate 8 to overturn around a lever fulcrum 10 on the cover body 7, so that the switch plate 8 deviates from the charging hole 13 to realize the opening of the charging channel 13.

A spring 5 is arranged at the connecting part of the charging barrel 2 and the cover body 7, one end of the spring 5 is connected with the charging barrel 2, and the other end is connected with the cover body 7; when the weight of the feed in the feed cylinder 2 is smaller than the preset force of the spring 5, the spring 5 drives the feed cylinder 2 to ascend, so that the switch plate 8 deviates from the feed port 13 to realize the opening of the feed channel 13 and continuous feeding; when the weight of the feed in the feed barrel 2 is larger than the preset force of the spring 5, the feed barrel 2 is driven to descend by the aid of the feed and the gravity of the feed barrel 2, the feed opening 13 is closed by the switch plate 8, and the feed channel 13 is closed and stops feeding.

In this embodiment, two sets of the pull rod 9, the switch plate 8 and the lever fulcrum 10 are symmetrically arranged; when the charging barrel 2 is stressed to descend, the pull rod 9 descends along with the charging barrel 2 and drives the two sets of switch plates 8 to overturn around the lever fulcrum 10 on the cover body 7, so that the inner side ends of the switch plates 8 are mutually close to realize the closing of the feeding channel 13; when the charging barrel 2 is stressed to rise, the pull rod 9 rises along with the charging barrel 2 and drives the switch plates 8 to overturn around the lever fulcrum 10 on the cover body 7, so that the inner side ends of the two sets of switch plates 8 are mutually separated to realize the opening of the feeding channel 13 (after the two switch plates 8 overturn around the lever fulcrum 10, the gap between the two switch plates 8 is enlarged, and the enlarged gap is used as a part of the feeding channel, so that the feeding channel is opened).

In this embodiment, the feeder further comprises an adjusting part with scale marks for adjusting the pre-pressing amount of the spring 5. Specifically, a step 11 is arranged at the upper part of the charging barrel 2, the lower end of the pull rod 9 is connected to the step 11, a thread 15 is arranged on the outer wall of the charging barrel 2 above the step 11, the thread 15 is used for matching with a thread adjusting part 6 with scale marks for adjusting the pre-pressing amount of the spring 5, the lower end of the spring 5 is connected with the cover body 7 through a bearing plate 4, and the upper end of the spring 5 is connected with the charging barrel 2 through the thread adjusting part 6. More specifically, the charging barrel 2 comprises two integrally formed parts, a step 11 is arranged at the upper part of the charging barrel 2, the upper part taking the step 11 as a boundary is a small-diameter part 3, the lower part is a large-diameter part, the lower end of the pull rod 9 is connected to the step 11, a thread 15 is arranged on the outer wall of the charging barrel 2 above the step 11 (namely, the thread 15 is arranged on the outer wall of the small-diameter part 3), the thread 15 is used for matching with a thread adjusting part 6 for adjusting the pre-pressing amount of the spring 5, the lower end of the spring 5 is connected with the cover body 7 through a bearing plate 4, and the upper end of the spring 5. Bearing plate 4 fixed connection 7 bottoms of lid or with 7 bottoms integrated into one piece of lid, the bearing plate 4, the upper portion that 7 lower parts of lid are central trompil are the frustum, feed inlet 13 sets up in the frustum top. In the present embodiment, the screw adjustment portion 6 is a hollow member substantially similar to a nut and screwed to a screw portion.

In this embodiment, the pull rod 9 movably penetrates the cover 7 and is connected to the switch board 8. The lower part of the cover body 7 is a bearing plate 4 with a hole at the center, the upper part is a frustum, and the feed inlet 13 is arranged at the top end of the frustum. The fulcrum 10 is located near the top end of the cover 7 and below the top end of the cover 7. Bearing plate 4 fixed connection is in 7 bottom ends of lid, or bearing plate 4 and 7 bottom integrated into one piece of lid.

Example 2

a feed quantitative feeder, as shown in fig. 3, which is different from the embodiment 1 in that: a pull rod 9 is arranged outside the cover 7, the pull rod 9 directly connecting the switch plate 8 and the cartridge 2 from outside the cover 7.

The use method and the principle are as follows: as shown in fig. 2, in this stage, the feed weight in the barrel 2 is smaller than the preset feed weight, the spring 5 is in a free state or the elongation of the spring 5 is smaller than the elongation corresponding to the preset feed weight, the barrel 2 and the pull rod 9 are in an upward "pushing" state (relative to the horizontal state of the switch plate 8), the inner end of the switch plate 8 is turned downward by the action of the fulcrum 10, so that the gap between the two switch plates 8 is enlarged, and the opening of the feed channel (the gap between the feed port 13 and the two switch plates 8 is a part of the feed channel) is realized; the blanking stopping state is shown in fig. 1, at this stage, the feed weight in the barrel 2 is equal to or greater than the preset feed weight, the spring 5 is in a stretched state, the elongation of the spring 5 is greater than or equal to the elongation corresponding to the preset feed weight, the barrel 2 and the pull rod 9 are in a "pull-down" state (relative to the horizontal state of the switch plate 8), the inner end of the switch plate 8 is turned upwards by the action of the fulcrum 10, the gap between the two switch plates 8 is minimized, and the feed channel is closed. When the feed in the feed cylinder 2 reaches a preset amount, the feed blocking ball 1 is pulled open, and the feed in the feed cylinder 2 is put into the trough at one time. When the automatic feeding device is used, once the feed in the feed cylinder 2 is fed, the feeder can execute the feeding state and the feeding stopping state under the action of the spring 5, so that the automatic feeding and the automatic feeding stopping are realized.

When the pigs of different ages need to be fed, the screw thread adjusting part 6 is adjusted according to the weight of the required feed, so that the spring 5 is pre-pressed for a proper distance. The amount of the screw adjustment part 6 to be adjusted downward is larger (the amount of preload of the spring 5 is larger) when the required feed weight is larger, and the amount of the screw adjustment part 6 to be adjusted downward is smaller (the amount of preload of the spring 5 is smaller) when the required feed weight is smaller.

Pregnant sows need strict control of food intake, as too much or too little feeding of the sow can have a large impact on the farrowing pigs. By adopting the blanking device, the blanking amount of the required feed can be accurately and quantitatively controlled in each stage of sow production, and the principle is as follows: the material passing through the charging basket and a part of the material amount is the initial moving distance just closing the switch door, the material amount at this time is the initial material amount, and the material weight corresponding to the scale of the actual adjusting part is obtained by adding the stress force of the compressed spring. For example: when the spring is not pressed by the threaded adjusting part, the spring is moved downwards to be closed by the switch board, the amount in the charging basket is the initial amount, if the amount is 0.5Kg, if a sow needs to control the food intake to be 1 Kg/meal in the early stage of pregnancy, 2 Kg/meal in the middle stage of pregnancy and 3.5 Kg/meal in the late stage of pregnancy, the weight can be marked on the threaded adjusting part according to the specification of the spring, and the compression amount of the spring can be accurately determined (specifically, an indication line can be marked on the proper position of the cover body or the charging basket, a plurality of weight scale mark lines are marked on the threaded adjusting part 6, and when the weight scale mark line of the threaded adjusting part 6 is rotated to be aligned with the indication line, the corresponding weight is represented). If the spring is 5kg per 5cm in the stress range, when 3.5kg is needed to be fed per meal and the actual stress of the spring is 3.5kg-0.5kg, the spring is compressed by 3.0cm, 3.5kg is achieved, and the feeding channel is just closed; in the early stage of pregnancy of the sow, the thread adjusting part can be adjusted firstly, so that the spring is pre-pressed for a proper distance, and when the weight of feed in the feed barrel reaches 1Kg, the inner side end of the switch plate descends through the feed barrel to reach a closed state; in the middle of pregnancy of the sow, the thread adjusting part can be adjusted at first, so that the spring is pre-pressed for a proper distance, and when the material in the charging basket reaches 2kg, the inner side end of the switch plate can be completely closed. For lower or higher quantities, to achieve higher blanking accuracy, the spring with lower stress can be replaced and the thread length increased.

The feeder is mainly suitable for feeding pigs by pig feed equipment, and is particularly suitable for feeding breeding stock; the blanking device can realize quantitative blanking, has good blanking accuracy and high precision, and can accurately reduce the blanking weight to be within ten grams under the condition of not using an electronic scale; the feeder can put the required feed in place at one time, so that the pig can put in a certain amount of data only by using a certain amount of feed, the pig can continue to feed in the feeding process without eating a part of feed, and the pig can continue to feed in the feeding process without moving a feeding trough in an arching way, so that the waste of the feed is avoided in the aspect of feeding; the weight-counting feeding mode adopted by the invention is more suitable for the precise feeding of the production of the pigs, can meet the requirements of each stage of the production of the pigs, and can avoid the feed waste caused by the non-conformity of the body conditions of the pigs; by adopting the feeder, the deviation between the volume weight and the volume of the feed does not need to be considered, the required nutrition standard of each stage can be directly reached, the difficulty and the times of adjusting the feeding amount are reduced, and the labor and the time are saved; the feeder has the advantages of ingenious and simple structure, easy installation and maintenance, convenient movement, low price, easy popularization and long service life.

The feed quantitative feeder of the invention is arranged at the feeding pipe of the feeding system and is positioned above the trough 16.

Claims

1. The utility model provides a fodder ration glassware down which characterized in that: the feeder comprises a feed cylinder (2) arranged above a feed trough (16), a discharge hole (14) is formed in the bottom of the feed cylinder (2), and a material blocking ball (1) is arranged in the feed cylinder (2); a cover body (7) and a pull rod (9) are arranged at the upper part of the charging barrel (2), a feeding hole (13) and a switch plate (8) are arranged on the cover body (7), the switch plate (8) is connected to the cover body (7) through a lever fulcrum (10), the lower end of the pull rod (9) is connected with the charging barrel (2), and the upper end of the pull rod is connected with the switch plate (8); the cover body (7) is fixedly installed at a proper position, the charging barrel (2) can move up and down relative to the cover body (7), when the charging barrel (2) is stressed to descend, the pull rod (9) descends along with the charging barrel (2) and drives the switch plate (8) to overturn around a lever fulcrum (10) on the cover body (7), so that the switch plate (8) closes the feeding hole (13) to realize the closing of a feeding channel; when the charging barrel (2) is stressed to rise, the pull rod (9) rises along with the charging barrel (2) and drives the switch plate (8) to turn over around a lever fulcrum (10) on the cover body (7), so that the switch plate (8) deviates from the feeding hole (13) to open the feeding channel.

2. The downer of claim 1, wherein: a spring (5) is arranged at the connecting part of the charging barrel (2) and the cover body (7), one end of the spring (5) is connected with the charging barrel (2), and the other end is connected with the cover body (7); when the weight of the feed in the feed barrel (2) is smaller than the preset force of the spring (5), the spring (5) drives the feed barrel (2) to ascend, so that the switch plate (8) deviates from the feed inlet (13) to realize the opening of a feed channel and the continuous feeding; when the weight of the feed in the feed barrel (2) is larger than the preset force of the spring (5), the feed barrel (2) is driven to descend by the aid of the feed and the gravity of the feed barrel (2), and the feed opening (13) is closed by the switch plate (8) to close the feed channel and stop feeding.

3. The downer according to claim 1 or 2, characterized in that: two sets of pull rods (9), two sets of switch plates (8) and two sets of lever fulcrums (10) are symmetrically arranged; when the charging barrel (2) is stressed to descend, the pull rod (9) descends along with the charging barrel (2) and drives the two sets of switch plates (8) to overturn around a lever fulcrum (10) on the cover body (7), so that the inner side ends of the switch plates (8) are mutually close to realize the closing of a feeding channel; when the charging barrel (2) is stressed to rise, the pull rod (9) rises along with the charging barrel (2) and drives the switch plates (8) to turn around the lever fulcrum (10) on the cover body (7), so that the inner side ends of the two switch plates (8) are mutually separated to open the feeding channel.

4. The downer of claim 3, wherein: the blanking device also comprises an adjusting part for adjusting the prepressing amount of the spring (5).

5. The blanking apparatus as set forth in claim 4, wherein: the upper part of the charging barrel (2) is provided with a step (11), the lower end of the pull rod (9) is connected to the step (11), the outer wall of the charging barrel (2) above the step (11) is provided with a thread (15), the thread (15) is used for matching with a thread adjusting part (6) for adjusting the pre-pressing amount of the spring (5), the lower end of the spring (5) is connected with the cover body (7) through a bearing plate (4), and the upper end of the spring (5) is connected with the charging barrel (2) through the thread adjusting part (6).

6. The blanking apparatus as set forth in claim 5, wherein: the pull rod (9) movably penetrates through the cover body (7) and is connected with the switch board (8).

7. The blanking apparatus as set forth in claim 6, wherein: the lower part of the cover body (7) is a bearing plate (4) with a hole at the center, the upper part is a frustum, and the feed inlet (13) is arranged at the top end of the frustum.

8. The blanking apparatus as set forth in claim 7, wherein: the lever fulcrum (10) is positioned close to the top end of the cover body (7) and below the top end of the cover body (7).

9. The blanking apparatus as set forth in claim 8, wherein: the bearing plate (4) is fixedly connected with the bottom end of the cover body (7).

10. The blanking apparatus as set forth in claim 8, wherein: the bearing plate (4) and the bottom end of the cover body (7) are integrally formed.