CN111670824A

CN111670824A - Pig farm is with ration device of eating of giving

Info

Publication number: CN111670824A
Application number: CN202010567527.8A
Authority: CN
Inventors: 李宏平
Original assignee: Chongqing Lanhong Pig Breeding Co ltd
Current assignee: Chongqing Lanhong Pig Breeding Co ltd
Priority date: 2020-06-19
Filing date: 2020-06-19
Publication date: 2020-09-18

Abstract

The invention discloses a quantitative feeding device for a pig farm, which comprises a foodstuff production system, a foodstuff quantitative feeding system and a trough body, wherein the foodstuff production system is used for producing, crushing and feeding foodstuff; foodstuff ration gives the system and includes the shell, the inlet pipe, discharging pipe and ration giving mechanism, the vertical ascending setting of inlet pipe is in the shell, and the bottom and the hose intercommunication of inlet pipe, the second discharge gate has been seted up near the top of inlet pipe to the lateral wall of inlet pipe, the discharging pipe sets up the bottom at the shell, ration giving mechanism one end is inserted in the inlet pipe, one end is connected with the discharging pipe in addition, when foodstuff was located predetermined height in the shell, ration giving mechanism one end was located the below of second discharge gate, one end jam is on the discharging pipe in addition, the ration giving mechanism is pressed, the discharge gate is in the open mode, the foodstuff flows from the discharging pipe. This pig farm is with ration feeding device can make things convenient for, simple feeding, can also accomplish ration reinforced, and then reduce the labour and practice thrift manufacturing cost.

Description

Pig farm is with ration device of eating of giving

Technical Field

The invention relates to the field of cultivation, in particular to a quantitative feeding device for a pig farm.

Background

In modern pig farms, different batches of live pigs of different sizes appear, and different feeding standards are required according to the live pigs of different body types. At present, most pig farms are through the staff, through the mode of artifical estimation, carry out the appetite estimation, give live pig adding, this kind of mode not only wastes time and energy, because the error can appear when the staff operates in addition, leads to the appetite to have the error to cause sometimes the food not enough, but sometimes there is the surplus, when food has the surplus, not only causes the waste of food, still need go specially to clear up the surplus food, cause the trouble for the work of raising livestock and poultry.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the quantitative feeding device for the pig farm, which not only can conveniently and simply feed materials, but also can feed materials quantitatively, thereby reducing the labor force and saving the production cost.

In order to achieve the purpose, the invention is realized by the following technical scheme: a pig farm is with ration device of feeding, includes:

the food production system comprises a material cylinder and a crushing assembly, wherein a first discharge hole is formed in the bottom of the material cylinder, the crushing assembly is arranged on the material cylinder, and a hose is arranged on the first discharge hole;

a foodstuff ration giving system; comprises a shell, a feeding pipe, a discharging pipe and a quantitative giving mechanism, wherein the feeding pipe is vertically and upwards arranged in the shell, the bottom end of the feeding pipe is communicated with the hose, the side wall of the feeding pipe is provided with a second discharge hole close to the top end of the feeding pipe, the discharge pipe is arranged at the bottom of the shell, one end of the quantitative feeding mechanism is inserted into the feed pipe, the other end of the quantitative feeding mechanism is connected with the discharge pipe, when the foodstuff in the shell is positioned at a preset height, one end of the quantitative feeding mechanism is positioned below the second discharge hole, the other end of the discharge pipe is blocked on the discharge pipe, the quantitative feeding mechanism is pressed, the discharge port is in an open state, food materials flow out of the discharge pipe, when the foodstuff in the housing completely flows out, the discharge pipe is closed by loosening the foodstuff quantitative-feeding system, and the quantitative-feeding mechanism is positioned above the first discharge hole; and

a trough body; is communicated with the discharge pipe.

Further, a check valve capable of communicating with the foodstuff dosing system is provided on the hose near the end of the foodstuff production system.

Further, the foodstuff production system is located above the foodstuff dosing system and the trough body.

Furthermore, the feed cylinder crushing assembly comprises a rotating motor and crushing knives, wherein the rotating motor is vertically arranged at the top of the feed cylinder, a power output shaft of the rotating motor is vertically positioned in the feed cylinder, a main shaft is arranged on the power output shaft of the rotating motor, and the crushing knives are arranged on the main shaft at uniform intervals.

Further, still be provided with in the feed cylinder and separate the net, it will to separate the net the feed cylinder is from last to cutting apart into epicoele and cavity of resorption down, separate and to have seted up a plurality of small openings on the net, the bottom of main shaft can the pivoted pass separate the net and be located the cavity of resorption, still be provided with the vortex piece on the main shaft, and the vortex piece is located the cavity of resorption.

Further, the quantitative feeding mechanism comprises a floating ball assembly and a discharging assembly; the floating ball assembly comprises a first supporting rod, a lever, a pipe plug and a floating ball, the first supporting rod is arranged on the feeding pipe, the lever is hinged to the first supporting rod, the pipe plug is slidably and hermetically inserted into the feeding pipe, the pipe plug is hinged to one end of the lever, the floating ball is arranged at the other end of the lever, the pipe plug is positioned above the second discharge port when the floating ball is positioned at the bottom of the shell, and the pipe plug is positioned below the second discharge port when the lever is in a horizontal state; the discharging assembly comprises a second supporting rod, a pressing rod, a cantilever, a pull rod and a pipe cover, wherein the second supporting rod is vertically arranged in the shell, the pressing rod is vertically and slidably inserted into the shell from the bottom of the shell, one end of the second supporting rod is hinged to the end of the cantilever, one end of the cantilever is hinged to the pressing rod, the other end of the cantilever is hinged to the pull rod, the other end of the pull rod is provided with the pipe cover, and the pipe cover can be covered on the discharging pipe.

Further, the inlet pipe includes first pipe, second pipe and lock nut, the sealed slidable cover of second pipe is established on the first pipe, lock nut with second pipe threaded connection, and can pass the second pipe is supported and is established on the outer wall of first pipe.

Furthermore, a first magnetic block is embedded in the end portion of the discharge pipe, a second magnetic block is embedded in the pipe cover, and the magnetism of the first magnetic block is opposite to that of the second magnetic block.

Further, ejection of compact subassembly still includes elastic piece that retards, it sets up the interior bottom of shell and is located to retard an one end outlet pipe both sides, just the height that retards is greater than the height of outlet pipe, the elasticity that retards is less than the gravity of apron.

Further, the shell is a heat preservation shell.

The invention has the beneficial effects that:

above-mentioned pig farm is with ration feeding device, including foodstuff production system, foodstuff ration giving system and trough body, foodstuff production system includes feed cylinder and crushing unit for foodstuff production, crushing and feeding; the foodstuff dosing system includes a housing, a feed pipe, a discharge pipe, and a dosing mechanism. The vertical ascending setting of inlet pipe is in the shell, and the bottom and the hose intercommunication of inlet pipe, and the second discharge gate has been seted up on the lateral wall of inlet pipe near the top of inlet pipe. The discharging pipe is arranged at the bottom of the shell. Quantitative give mechanism one end and insert in the inlet tube, other one end is connected with the discharging pipe, and when the foodstuff was located predetermined height in the shell, quantitative give mechanism one end was located the below of second discharge gate, blockked up the second discharge gate, and other one end is blockked up on the discharging pipe, then can not the feeding. When needs feed, only need press and move ration giving mechanism, the discharge gate is in the open mode, and the foodstuff flows from the discharging pipe, and after the foodstuff completely flowed out in the shell, unclamp foodstuff ration giving system, the discharging pipe was closed, and ration giving mechanism is located first discharge gate top, then can carry out the feeding until the feeding to predetermined height to use next time. The feeding device can feed conveniently and simply, and can feed quantitatively, so that the labor force is reduced, and the production cost is saved.

Drawings

FIG. 1 is a schematic structural view of a quantitative feeding device for a pig farm according to the present invention;

FIG. 2 is a schematic structural view of a second discharge port and a discharge pipe of the quantitative feeding device for a pig farm according to the present invention in an open state;

FIG. 3 is a schematic structural view of a feed pipe in the quantitative feeding device for a pig farm according to the present invention;

reference numerals: 100-foodstuff production system, 110-material cylinder, 120-crushing component, 121-rotating motor, 122-crushing knife, 123-vortex sheet, 130-first discharge port, 140-hose, 150-separation net, 160-upper chamber, 170-lower chamber, 180-one-way valve, 200-foodstuff ration giving system, 210-shell, 220-feeding pipe, 221-first pipe, 222-second pipe, 223-second discharge port, 224-locking nut, 230-discharging pipe, 240-ration giving mechanism, 2410-floating ball component, 2411-first supporting rod, 2412-lever, 3-pipe plug 241, 2414-floating ball, 2420-discharging component, 2421-second supporting rod, 2422-pressure rod, 2423-pull rod, 2424-pipe cover, 2425-first magnet, 2426-second magnet, 2427-speed reducing piece, 2428-cantilever and 300-trough body.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 3, the present embodiment provides a rationing device for a pig farm, which includes a foodstuff production system 100, a foodstuff rationing system 200, and a trough body 300. The quantitative feeding device is used for quantitative feeding in the pig farm.

Specifically, the foodstuff production system 100 is used for foodstuff production, crushing, and feeding. The foodstuff production system 100 includes a cartridge 110 and a size reduction assembly 120. The bottom of the cartridge 110 is provided with a first discharge port 130. The first discharge port 130 is provided with a hose 140. The cartridge 110 pulverizing assembly 120 includes a rotary motor 121 and a pulverizing knife 122. The rotating motor 121 is vertically arranged at the top of the charging barrel 110, and a power output shaft of the rotating motor 121 is vertically positioned in the charging barrel 110. A main shaft is arranged on a power output shaft of the rotating motor 121, a plurality of crushing knives 122 are arranged, and the plurality of crushing knives 122 are arranged on the main shaft at even intervals. When the feed grinder is used, various feeds and water are added into the feed barrel 110, the rotating motor 121 is started, the feeds can be smashed and uniformly stirred, the feeds are conveyed into the food quantitative feeding system 200, and the smashed feeds are beneficial to reducing probability blockage.

In specific implementation, the number of the hoses 140 disposed at the first discharge port 130 may be multiple, and the specific number may be determined according to the scale of the pig farm.

In this embodiment, the hose 140 is provided with a check valve 180 near the end of the foodstuff production system 100, which is in fluid communication with the foodstuff dosing system 200. When the user needs to eat food, the user can carry out overall control through the one-way valve 180, and then the food can be conveniently added. At the same time, it is also prevented that the check valve 180 can play a role of overall control when the foodstuff dosing system 200 malfunctions to cause leakage.

In the present embodiment, the foodstuff production system 100 is located above the foodstuff dosing system 200 and the trough body 300. When the check valve 180 is opened, the foodstuff in the barrel 110 can be pressurized by the height difference and flow out of the hose 140 until entering the foodstuff dosing system 200 and finally flowing out of the trough body 300.

In a preferred embodiment, a separation net 150 is further disposed in the barrel 110, the separation net 150 divides the barrel 110 into an upper chamber 160 and a lower chamber 170 from top to bottom, a plurality of leakage holes are formed in the separation net 150, the bottom end of the main shaft can rotatably penetrate through the separation net 150 and is located in the lower chamber 170, a scroll plate 123 is further disposed on the main shaft, and the scroll plate 123 is located in the lower chamber 170. When the foodstuff is larger than the leaking hole, the foodstuff cannot fall into the lower cavity 170 through the leaking hole, and only after being crushed to a certain size by the crushing blade 122, the foodstuff can enter the lower cavity 170. After the foodstuff enters the lower cavity 170, the pasty feed is pushed into the hose 140 by the thrust of the scroll 123, thereby further ensuring smooth feeding.

The foodstuff dosing system 200 comprises a housing 210, a feed pipe 220, a discharge pipe 230 and a dosing mechanism 240. The feed pipe 220 is vertically disposed upward in the housing 210, and a bottom end of the feed pipe 220 communicates with the hose. The side wall of the feeding pipe 220 is provided with a second discharging hole 223 near the top end of the feeding pipe 220. The tapping pipe 230 is disposed at the bottom of the outer shell 210. The dosing mechanism 240 is inserted into the feed pipe 220 at one end and connected to the discharge pipe 230 at the other end. When the foodstuff in the housing 210 is at a predetermined height, one end of the quantitative discharge mechanism 240 is positioned below the second discharge port 223, the other end is blocked on the discharge pipe 230, the quantitative discharge mechanism 240 is pressed, the second discharge port 223 is in an open state, the foodstuff flows out from the discharge pipe 230, and when the foodstuff in the housing 210 completely flows out, the foodstuff quantitative discharge system 200 is released, the discharge pipe 230 is closed, and the quantitative discharge mechanism 240 is positioned above the first discharge port 130.

Specifically, the quantitative dispensing mechanism 240 includes a floating ball 2414 assembly 2410 and a discharging assembly 2420. The float 2414 assembly 2410 includes a first support rod 2411, a lever 2412, a plug 2413 and a float 2414. The first supporting rod 2411 is disposed on the feeding pipe 220, the lever 2412 is hinged to the first supporting rod 2411, the pipe plug 2413 is slidably and hermetically inserted into the feeding pipe 220, the pipe plug 2413 is hinged to one end of the lever 2412, the floating ball 2414 is disposed at the other end of the lever 2412, and when the floating ball 2414 is disposed at the bottom of the housing 210, the pipe plug 2413 is disposed above the second discharging hole 223. When the lever 2412 is in a horizontal state, the pipe plug 2413 is located below the second discharge hole 223.

The take-off assembly 2420 includes a second support bar 2421, a pressure bar 2422, a cantilever 2428, a pull bar 2423 and a tube cover 2424. The second support bar 2421 is vertically disposed in the housing 210, and the pressure rod 2422 is vertically and slidably hinged from the bottom of the housing 210 to an end of the second support bar 2421 extending into the housing 210. The cantilever 2428 is hinged on the second support bar 2421. One end of the cantilever 2428 is hinged to the pressed lever 2422. The other end of cantilever 2428 is hinged to a pull rod 2423. The other end of tie rod 2423 is provided with a pipe cover 2424, and pipe cover 2424 can be placed on discharge pipe 230.

When the food needs to be fed, the pressing rod 2422 is pulled downwards, the cantilever 2428 is driven by the pressing rod 2422 to tilt upwards, the pulling rod 2423 and the pipe cover 2424 are driven to move upwards, and the food materials flow out of the discharging pipe 230 and finally flow into the trough body 300. Meanwhile, as the feed in the feed cylinder 110 is gradually reduced, the floating ball 2414 descends along with the liquid level of the foodstuff, and drives the pipe plug 2413 to ascend along with the feed pipe 220 through the lever 2412, after the foodstuff is completely flowed out, the pressing rod 2422 is loosened, the pipe cover 2424 is newly covered on the discharge pipe 230 under the action of self weight, at the moment, the floating ball 2414 is positioned at the bottom of the shell 210, the pipe plug 2413 is positioned on the second discharge port 223, the discharge port is in an open state, and the material can flow into the shell 210 through the discharge port after being washed out, so as to be used for the next time.

In the present embodiment, in order to ensure that the pipe cover 2424 can be re-covered on the discharging pipe 230, the first magnet 2425 is embedded in the end of the discharging assembly 2420, the second magnet 2426 is embedded in the pipe cover 2424, and the magnetism of the first magnet 2425 is opposite to that of the second magnet 2426. By the action of magnetic force, a firm cover of the pipe head 2424 can be driven onto the tapping pipe 230. Meanwhile, the discharging component 2420 further comprises an elastic retarding part 2427, one end of the retarding part 2427 is arranged at the bottom in the shell 210 and is positioned at two sides of the water outlet pipe, the height of the retarding part 2427 is larger than that of the water outlet pipe, and the elasticity of the retarding part 2427 is smaller than the gravity of the cover plate. The slowing part 2427 is used for slowing down the cover returning speed of the pipe cover 2424, so that sufficient time can be provided for the food to flow out, and the food can be completely flowed out.

In a preferred embodiment, the feeding pipe 220 comprises a first pipe 221, a second pipe 222 and a locking nut 223, wherein the second pipe 222 is hermetically and slidably sleeved on the first pipe 221, and the locking nut 223 is in threaded connection with the second pipe 222 and can penetrate through the second pipe 222 to abut on the outer wall of the first pipe 221. In the use, can be according to the size of live pig or the size of its normal condition appetite, the length of adjustment inlet pipe 220, and then the height of the final liquid level in adjustment shell 210, and then make every foodstuff ration give system 200 correspond a live pig, further accomplish the ration feed, prevent that the foodstuff from giving more or giving less.

In addition, as a preferred embodiment, the housing 210 in the present food quantitative-delivery system 200 has a heat preservation function, so that food in the housing can be preserved, and the pig can be effectively prevented from being ill due to the cooling of the food.

The specific use mode of the quantitative feeding device for the pig farm is as follows:

in use, feed and water are introduced into the barrel 110, the rotating motor 121 is started, the pressing rod 2422 is pulled, and then loosened, and the food stuff flows out of the discharging pipe 230 and flows into the trough body 300 for the live pig to eat. When the foodstuff dosing system 200 malfunctions, such as a leak, the one-way valve 180 may be closed. After relevant maintenance is carried out, the device is used. To different live pigs, when its appetite is different, then the height of accessible adjustment discharging pipe 230, when live pig appetite is great, then can be long discharging pipe 230 transfers, it is positive, then can transfer discharging pipe 230 short to accomplish to feed as required, prevent that the foodstuff from giving more, cause extravagant or the appetite gives less, cause the state of scarce material.

Above-mentioned pig farm is with ration device of feeding, including foodstuff production system 100, foodstuff ration system 200 and trough body 300 of giving, foodstuff production system 100 is used for the foodstuff production, and foodstuff production system 100 includes feed cylinder 110 and crushing unit 120, separates net 150 and divide into feed cylinder 110 into epicoele 160 and cavity of resorption 170, and the foodstuff smashes through crushing unit 120 and just can and then cavity of resorption 170, finally sends into in the hose 140 through vortex piece 123. By adopting the mode, the blockage caused by large material blocks can be effectively prevented, and the smooth feeding is further realized. Meanwhile, the foodstuff production system 100 is located above the foodstuff quantitative feeding system 200 and the trough body 300, and smooth feeding is further achieved by the same pressure difference.

The dosing mechanism 240 includes a float 2414 assembly 2410 and an outfeed assembly 2420. When food needs to be fed, the press rod 2422 of the downward discharging assembly 2420 is pulled, the cantilever 2428 is driven by the press rod 2422 to tilt upwards, the pull rod 2423 and the tube cover 2424 are driven to move upwards, food flows out of the discharging tube 230 and flows into the trough body 300, meanwhile, along with the slow reduction of feed in the charging barrel 110, the floating ball 2414 descends along with the liquid level of the food, the tube plug 2413 is driven by the lever 2412 to ascend along with the feeding tube 220, after the food flows out, the press rod 2422 is loosened, the tube cover 2424 is covered on the discharging tube 230 under the automatic action, at the moment, the floating ball 2414 is positioned at the bottom of the shell 210, the tube plug 2413 is positioned above the second discharging hole 223, the discharging holes are in an open state, the material can flow into the shell 210 through the discharging holes by flushing, so as to be used for the next time, the food can be transported by manpower without working, and further the labor intensity of workers is reduced, the whole feeding mode is convenient and simple; meanwhile, feeding can be achieved according to needs, and therefore the situation that more or less materials are added is avoided. Meanwhile, the height of the discharge pipe 230 can be changed by the first pipe 221 and the second pipe 222, so that the capacity of the foodstuff quantitative-feeding system 200 can be flexibly adjusted according to different live pigs, and feeding can be further performed according to requirements.

The first and second

magnetic blocks

2425 and 2426 are opposite in magnetic polarity. By the action of magnetic force, a firm cover of the pipe head 2424 can be driven onto the tapping pipe 230. The slowing part 2427 is used for slowing down the cover returning speed of the pipe cover 2424, so that sufficient time can be provided for the food to flow out, and the food can be completely flowed out.

Finally, it should be noted that: while there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a pig farm is with ration device of eating, its characterized in that includes:

a trough body; is communicated with the discharge pipe.

2. The device of claim 1, wherein the hose is provided with a one-way valve proximate the end of the food production system for communication to the food dosing system.

3. The pig farm dosing device according to claim 1, wherein the foodstuff production system is located above the foodstuff dosing system and the trough body.

4. The quantitative feeding device for the pig farm according to claim 2, wherein the barrel crushing assembly comprises a rotating motor and a crushing cutter, the rotating motor is vertically arranged at the top of the barrel, a power output shaft of the rotating motor is vertically positioned in the barrel, a main shaft is arranged on the power output shaft of the rotating motor, the crushing cutter is provided in plurality, and the crushing cutters are uniformly arranged on the main shaft at intervals.

5. The quantitative feeding device for the pig farm according to claim 4, wherein a separation net is further arranged in the charging barrel, the charging barrel is divided into an upper cavity and a lower cavity by the separation net from top to bottom, a plurality of leakage holes are formed in the separation net, the bottom end of the main shaft can rotatably penetrate through the separation net and is located in the lower cavity, a vortex sheet is further arranged on the main shaft, and the vortex sheet is located in the lower cavity.

6. The device of claim 2, wherein the dosing mechanism comprises a float assembly and a discharge assembly; the floating ball assembly comprises a first supporting rod, a lever, a pipe plug and a floating ball, the first supporting rod is arranged on the feeding pipe, the lever is hinged to the first supporting rod, the pipe plug is slidably and hermetically inserted into the feeding pipe, the pipe plug is hinged to one end of the lever, the floating ball is arranged at the other end of the lever, the pipe plug is positioned above the second discharge port when the floating ball is positioned at the bottom of the shell, and the pipe plug is positioned below the second discharge port when the lever is in a horizontal state; the discharging assembly comprises a second supporting rod, a pressing rod, a cantilever, a pull rod and a pipe cover, wherein the second supporting rod is vertically arranged in the shell, the pressing rod is vertically and slidably inserted into the shell from the bottom of the shell, one end of the second supporting rod is hinged to the end of the cantilever, one end of the cantilever is hinged to the pressing rod, the other end of the cantilever is hinged to the pull rod, the other end of the pull rod is provided with the pipe cover, and the pipe cover can be covered on the discharging pipe.

7. The quantitative feeding device for the pig farm according to claim 6, wherein the feeding pipe comprises a first pipe, a second pipe and a locking nut, the second pipe is sleeved on the first pipe in a sealing and sliding manner, the locking nut is in threaded connection with the second pipe and can penetrate through the second pipe to abut against the outer wall of the first pipe.

8. The quantitative feeding device for the pig farm according to claim 6, wherein a first magnetic block is embedded in an end portion of the discharge pipe, a second magnetic block is embedded in the pipe cover, and the first magnetic block and the second magnetic block are opposite in magnetism.

9. The quantitative feeding device for the pig farm according to claim 6, wherein the discharging assembly further comprises an elastic retarding member, one end of the retarding member is arranged at the bottom in the shell and positioned on two sides of the water outlet pipe, the height of the retarding member is larger than that of the water outlet pipe, and the elasticity of the retarding member is smaller than the gravity of the cover plate.

10. The pig farm dosing device according to claim 1, wherein the housing is a thermal shell.