CN116369226A - Cold sheep breeding device and method - Google Patents

Abstract

The invention discloses a cold sheep breeding device and a method, and relates to the technical field of cold sheep breeding devices.

Description

Cold sheep breeding device and method

Technical Field

The invention relates to the technical field of cold sheep breeding devices, in particular to a cold sheep breeding device and method.

Background

The small tailed han sheep is a good variety in China. The sheep belongs to the sub-system of Mongolia sheep, the original sheep and the large-tailed sheep are commonly called as cold sheep, and are mixed into one variety, and the two types of sheep are early maturing, oestrus throughout the year, high yield of multiple fetuses, fast growth and development, large individual, high slaughtering rate, good meat and hair texture, good economic benefit, and is popular with the masses, suitable for the needs of commercial economic development, and good varieties for peasants to become rich.

Taking small tailed han sheep produced in southwest region of Shandong province as an example, the average weight of the young year-old ram is 65 kg, and the weight of the ewe is 46 kg; adult ram was 95 kg and ewe was 49 kg. The shearing amount is 3.5 kg for ram and 2 kg for ewe. The sexual maturity is 5-6 months earlier, and the lambing rate in the current year is 260-270%. The method is suitable for the area: northeast, north-south, northwest, southwest, etc. The main application is as follows: the breed is an excellent female parent material for developing mutton sheep production or quoted mutton sheep breed hybridization breeding mutton sheep breed in China, develops lamb mutton production, and needs to design a breeding device for cold sheep at present, so that the breeding feeding process of the cold sheep is simplified, and the number of the cold sheep is increased.

The Chinese patent of the invention with the publication number of CN110800629A discloses an automatic sheep raising feeding device, which comprises a stirring tank, a storage tank, a water storage tank, a feeding trough and a controller, wherein the stirring tank is communicated with the feeding trough through a conveying pipe, the storage tank is provided with a plurality of storage tanks, each storage tank is respectively communicated with the stirring tank through a conveying pipe, the water storage tank is communicated with the stirring tank through a water pipe, a weighing device and an electromagnetic valve are arranged between each storage tank and the stirring tank, a flow sensor is arranged between each water tank and each stirring tank, and the controller is electrically connected with the weighing device, the electromagnetic valve and the flow sensor. Through automatic control of timing and quantitative feeding and cleaning of a feeding groove, the automatic feeding device improves working efficiency, saves labor, helps people to lighten pressure during feeding, and achieves the function of automatically feeding sheep, but the automatic feeding device cannot feed sheep with different conditions in different sheepskins, such as pregnant ewes, rams and the like, and cannot feed sheep with different food quantities to be controlled.

Disclosure of Invention

In view of the problems in the prior art, the invention provides a device and a method for breeding sheep.

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a cold sheep breeding device, includes broken subassembly, is provided with on the broken subassembly and throws the material subassembly, still includes the multiunit and retrieves the subassembly, broken subassembly include broken case, broken case side be provided with the movable support, throw the material subassembly including removing the frame, remove frame and movable support sliding connection, remove the frame on rotate and be provided with the hopper, remove and be provided with the regulation jar on the frame, regulation jar one end rotate with removing the frame and be connected, remove frame expansion end and hopper rotation and be connected, the hopper on be provided with vibration mechanism and vibrations case, the recovery subassembly be provided with the multiunit, and set up in the sheepfold of difference, the recovery subassembly include the support, the support on slide and be provided with the trough, the trough both sides all be provided with a set of recovery motor, the output shaft of recovery motor on be provided with gear two, the trough lower extreme slide and be provided with the baffle, the baffle both ends all be provided with a set of ring gear, gear two and meshing of homonymy, the trough lower extreme be provided with the notch with the baffle, the baffle still to have the intermittent type notch with the notch.

Further, broken subassembly still including setting up the control panel on broken case, control this device through the control panel and work, broken case upper end is provided with the feed inlet, broken case side is provided with the discharge gate.

Further, a water spraying head is arranged on the side edge of the hopper.

Further, the movable support on be provided with the movable rack, the movable support on be provided with first motor, be provided with first gear on the output shaft of first motor, first gear and movable rack meshing, the movable support be close to the one side of hopper and be provided with the rubber pad, rubber pad and hopper intermittent type laminating, the rubber pad be used for supporting the hopper.

Further, vibration mechanism including installing the vibrations case at the hopper side, vibrations case on be provided with motor two, the output shaft of motor two on be provided with the cam post, vibrations case on slide and be provided with vibrations board and lifter, the cam post on rotate and be provided with the connecting rod, connecting rod one end rotate with the cam post and be connected, the connecting rod other end rotate with the lifter and be connected, vibrations board lower extreme be provided with support column and multiunit slip post, support column intermittent type and lifter laminating.

Further, a first spring is arranged between the sliding column and the vibration box.

Further, detection mechanism including installing the spring between trough and support two, the support lower extreme be provided with pressure sensor, pressure sensor can detect spring two compression state, support lower extreme detachable be provided with the recovery bucket.

Further, the cold sheep breeding method comprises the following steps:

s1, installing a recovery assembly in a plurality of sheepfold;

s2, placing the feed into a crushing box during feeding, and stirring and mixing the feed by the crushing box;

s3, putting the stirred feed into a feed hopper;

s4, the movable frame moves on the movable support, and the hopper is aligned to the recovery assembly and then starts the adjusting cylinder and the vibration mechanism;

s5, adjusting the electric cylinder to drive the hopper to rotate, wherein the feed in the hopper falls into the feeding trough through gravity;

s6, analyzing whether the feed in the feeding trough is enough or not through the detection mechanism, and adjusting the electric cylinder to drive the hopper to reset after the feed is enough, and stopping feeding;

s7, driving the gear ring to rotate through the gear II when the feed in the trough remains, and driving the baffle to move through the gear II;

s8, opening a notch at the lower end of the trough by the baffle, and then discharging and recycling feed in the trough.

Compared with the prior art, the invention has the beneficial effects that: (1) The feeding assembly provided by the invention can automatically feed a plurality of feeding tanks, can adjust the feeding amount in the feeding tanks according to different feeding tanks, is suitable for feeding various sheep, and does not need to manually feed sheep in different sheepfils independently; (2) The side of the feeding component is provided with the vibrating plate for knocking the hopper, so that the feeding rate of the hopper to the inside of the trough is accelerated by the vibrating plate, and the feeding rate is improved; (3) The recovery component provided by the invention can recover residual feed in the trough, and the trough is convenient to clean due to the arrangement of the recovery component; (4) The recovery assembly provided by the invention is provided with the pressure sensor, the pressure sensor detects the weight of the feed in the feeding trough in real time, and when the residual amount of the feed in the feeding trough is abnormal, the feed is convenient for a worker to check, so that the problem that sick sheep find late is avoided.

Drawings

Fig. 1 is a front view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

FIG. 3 is a schematic view of a crushing assembly according to the present invention.

Fig. 4 is a schematic structural diagram of a feeding assembly according to the present invention.

Fig. 5 is a schematic view of the structure of the moving frame of the present invention.

Fig. 6 is a schematic structural view of the vibrating box according to the present invention.

Fig. 7 is a sectional view showing the structure of the vibrating box according to the present invention.

FIG. 8 is a schematic view of the recycling assembly of the present invention.

Fig. 9 is a cross-sectional view of the recovery assembly of the present invention.

Fig. 10 is a schematic view of a baffle structure according to the present invention.

Reference numerals: 1-a crushing assembly; 2-a feeding assembly; 3-a recovery assembly; 101-a crushing box; 102-moving the support; 103-moving the rack; 104, a discharge hole; 105-control panel; 106, a feed inlet; 201-a hopper; 202-a vibration box; 203-a mobile rack; 204-motor one; 205-gear one; 206-rubber pad; 207-adjusting the electric cylinder; 208-sprinkler heads; 209-motor two; 210-a cam post; 211-connecting rods; 212-lifting rod; 213-vibrating plate; 214-a sliding column; 215-spring one; 216-supporting columns; 301-a bracket; 302-spring two; 303-a recovery bucket; 304-a pressure sensor; 305-a trough; 306-gear two; 307-ring gear; 308-baffle.

Description of the embodiments

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Referring to figures 1 to 10, a cold sheep breeding device is shown, including being used for carrying out mixed broken crushing subassembly 1 with fodder and throwing something and feeding, be provided with reciprocating motion's material subassembly 2 of throwing on the crushing subassembly 1, broken subassembly 1 carries the fodder to throwing in the material subassembly 2, throws material subassembly 2 and throws the fodder ration into a plurality of recovery subassembly 3 afterwards and throw the fodder, and recovery subassembly 3 sets up in the sheepfold, and recovery subassembly 3 can retrieve the fodder that remains in the trough 305.

The crushing assembly 1 comprises a crushing box 101, a control board 105 for controlling the whole device to work is arranged on the crushing box 101, a feed inlet 106 is arranged on the crushing box 101, a discharge outlet 104 is arranged on the side edge of the crushing box 101, materials are put into the feed inlet 106 for stirring and crushing, then discharged through the discharge outlet 104, a movable support 102 is arranged on the side edge of the crushing box 101, and a movable rack 103 is arranged on the movable support 102.

The feeding assembly 2 comprises a movable frame 203 sliding on a movable support 102, a first motor 204 is arranged on the movable frame 203, a second motor 209 is arranged on an output shaft of the first motor 204, a cam column 210 is arranged on an output shaft of the second motor 209, a vibrating plate 213 and a lifting rod 212 are arranged on the vibrating box 202 in a sliding manner, a connecting rod 211 is arranged on the cam column 210 in a rotating manner, the connecting rod 207 is connected with the movable frame 203 in a rotating manner, a hopper 201 is arranged on the movable frame 203 in a rotating manner, a movable end of the adjusting cylinder 207 is connected with the hopper 201 in a rotating manner, a vibrating box 202 and a water spraying head 208 are arranged on the side edge of the hopper 201, water spraying is carried out on the recovery assembly 3 by the water spraying head 208, the hopper 201 is used for containing feed, a discharging hole 104 discharges the feed into the hopper 201, a vibrating plate 213 and a lifting rod 212 are arranged on the output shaft of the second motor 209, a connecting rod 211 is connected with the cam column 210 in a rotating manner, one end of the connecting rod 211 is connected with the cam column 210 in a rotating manner, the other end of the connecting rod 211 is connected with the lifting rod 212 in a rotating manner, a plurality of groups of supporting columns 216 are arranged at the lower end of the vibrating plate 213, and a spring 215 is arranged between the vibrating plate 216 and the vibrating plate 214 and the lifting rod 212.

The recovery assembly 3 comprises a support 301, a trough 305 is slidably arranged on the support 301, a second spring 302 is arranged between the trough 305 and the support 301, a pressure sensor 304 is arranged at the lower end of the support 301, the pressure sensor 304 detects the stress condition of the second spring 302 in real time, the pressure sensor 304 analyzes the residual condition of feed in the trough 305, a notch is arranged at the lower end of the trough 305, a baffle 308 is arranged at the lower end of the trough 305, the baffle 308 intermittently blocks the notch on the trough 305, gear rings 307 are arranged on two sides of the baffle 308, a group of recovery motors are arranged on two sides of the trough 305, a second gear 306 is arranged on an output shaft of the recovery motor, the second gear 306 is meshed with the gear rings 307, and a group of recovery hoppers 303 are detachably arranged at the lower end of the support 301.

The cold sheep breeding method comprises the following steps:

s1, installing the recovery assembly 3 in a plurality of sheepfold.

S2, during feeding, the feed is placed into the crushing box 101, and the crushing box 101 stirs and mixes the feed.

S3, feeding the stirred feed into the feed hopper 201.

S4, the movable frame 203 moves on the movable support 102, and the hopper 201 is aligned with the recovery assembly 3 to start the adjusting cylinder 207 and the vibration mechanism.

S5, the adjusting electric cylinder 207 drives the hopper 201 to rotate, and the feed in the hopper 201 falls into the feeding trough 305 through gravity.

S6, the trough 305 analyzes whether the feed in the trough 305 is enough through the detection mechanism, and when the feed is enough, the electric cylinder 207 is regulated to drive the hopper 201 to reset, and feeding is stopped.

And S7, when the feed in the trough 305 remains, the gear II 306 drives the gear ring 307 to rotate, and the gear ring 307 drives the baffle 308 to move.

S8, opening a notch at the lower end of the trough 305 by a baffle 308, and then discharging and recycling the feed in the trough 305.

Working principle: when feeding is needed, the feed to be crushed and mixed is placed in the feed inlet 106, then the feed inlet 106 puts the stirred feed into the feed hopper 201 through the feed outlet 104, the baffle 308 stops the notch at the lower end of the feeding trough 305 in the initial state, the feed hopper 201 is attached to the rubber pad 206, then the motor I204 is started, the motor I204 drives the gear I205 to rotate, the gear I205 rotates on the movable rack 103, the gear I205 drives the movable frame 203 to slide on the movable frame 102, when the feed hopper 201 is aligned with the feeding trough 305, the adjusting cylinder 207 is started, the adjusting cylinder 207 drives the feed hopper 201 to rotate on the movable frame 203, the motor II 209 drives the cam column 210 to rotate, the cam column 210 drives the lifting rod 212 to reciprocate through the connecting rod 211, the lifting rod 212 pushes the supporting column 216 to move, the support column 216 drives the vibration plate 213 to move, the vibration plate 213 drives the sliding column 214 to slide on the vibration box 202, meanwhile, the vibration plate 213 extrudes a plurality of groups of first springs 215, then the vibration plate 213 is driven to reciprocate by the deformation restoring force of the first springs 215, the vibration plate 213 knocks the hopper 201 to quicken the speed of dropping the feed from the hopper 201, when the feed is piled up in the feed tank 305, the feed tank 305 slides on the bracket 301 by gravity, the feed tank 305 extrudes the second springs 302, then the feed tank 305 receives the extruded signal of the second springs 302, the weight of the feed in the feed tank 305 is analyzed by the compressed degree of the second springs 302, when the feed in the feed tank 305 reaches the designated weight, the adjusting cylinder 207 is started to reset the bracket 301 to stop throwing the feed, meanwhile, the motor two 209 is stopped to start the motor one 204 continuously, the motor one 204 drives the moving frame 203 to move continuously on the moving bracket 102, and then to the second set of food slots 305 for further feeding.

When the feed in the feeding trough 305 needs to be recovered, a recovery motor on the feeding trough 305 is started, the recovery motor drives a gear II 306 to rotate, the gear II 306 drives a gear ring 307 to move, the gear ring 307 drives a baffle 308 to move, the baffle 308 slides on the feeding trough 305, at the moment, the baffle 308 releases the grid of the notch on the feeding trough 305, and the feed in the feeding trough 305 enters a recovery hopper 303 through gravity, so that the feed is recovered.

Because the pressure sensor 304 monitors the feed in the feeding trough 305 in real time, when the residual feed in the feeding trough 305 is too much or too little, an alarm is sent to the staff, the staff checks the abnormal sheepfold, and if there is a sheep with special conditions, the abnormal conditions of the sheep are predicted in advance.

The sprinkler head 208 can flush the trough 305 and the sprinkler head 208 can supply water to the flock.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (8)

1. The utility model provides a cold sheep breeding device, includes broken subassembly (1), is provided with on broken subassembly (1) and throws material subassembly (2), its characterized in that: the feeding device comprises a crushing box (101), a movable support (102) is arranged on the side edge of the crushing box (101), the feeding assembly (2) comprises a movable support (203), the movable support (203) is slidably connected with the movable support (102), a hopper (201) is rotatably arranged on the movable support (203), a regulating electric cylinder (207) is arranged on the movable support (203), one end of the regulating electric cylinder (207) is rotatably connected with the movable support (203), the movable end of the movable support (203) is rotatably connected with the hopper (201), the hopper (201) is provided with a vibration mechanism and a vibration box (202), the recovering assembly (3) is provided with a plurality of groups and is arranged in different sheepskins, the recovering assembly (3) comprises a support (301), a feeding groove (305) is slidably arranged on the support (301), a group of motors are arranged on two sides of the feeding groove (305), a motor output shaft is arranged on the upper end of the motor (203), a gear (307) is provided with a lower end of the motor (307) and is provided with a notch (308), two ends of the lower gear (307) are respectively meshed with a baffle (307), the baffle (308) intermittently stops the notch grid, and the support (301) is also provided with a detection mechanism.

2. The sheep farming device of claim 1, wherein: the crushing assembly (1) further comprises a control board (105) arranged on the crushing box (101), the crushing box (101) is provided with a feeding hole (106) at the upper end, and a discharging hole (104) is formed in the side edge of the crushing box (101) through controlling the crushing box (101) to work.

3. The sheep farming device of claim 1, wherein: the side of the hopper (201) is provided with a water spray head (208).

4. The sheep farming device of claim 1, wherein: the automatic feeding device is characterized in that a movable rack (103) is arranged on the movable support (102), a motor I (204) is arranged on the movable support (203), a gear I (205) is arranged on an output shaft of the motor I (204), the gear I (205) is meshed with the movable rack (103), a rubber pad (206) is arranged on one surface, close to the hopper (201), of the movable support (203), the rubber pad (206) is in intermittent fit with the hopper (201), and the rubber pad (206) is used for supporting the hopper (201).

5. The sheep raising device according to claim 4, wherein: the vibration mechanism comprises a vibration box (202) arranged on the side edge of a hopper (201), a motor II (209) is arranged on the vibration box (202), a cam column (210) is arranged on an output shaft of the motor II (209), a vibration plate (213) and a lifting rod (212) are arranged on the vibration box (202) in a sliding mode, a connecting rod (211) is arranged on the cam column (210) in a rotating mode, one end of the connecting rod (211) is connected with the cam column (210) in a rotating mode, the other end of the connecting rod (211) is connected with the lifting rod (212) in a rotating mode, support columns (216) and multiple groups of sliding columns (214) are arranged at the lower end of the vibration plate (213), and the support columns (216) are attached to the lifting rod (212) in an intermittent mode.

6. The sheep farming device of claim 5, wherein: a first spring (215) is arranged between the sliding column (214) and the vibration box (202).

7. The sheep farming device of claim 1, wherein: the detecting mechanism comprises a second spring (302) arranged between the feeding groove (305) and the support (301), a pressure sensor (304) is arranged at the lower end of the support (301), the pressure sensor (304) can detect the compression state of the second spring (302), and a recovery bucket (303) is detachably arranged at the lower end of the support (301).

8. The method for raising sheep according to claim 1, comprising the steps of:

s1, installing a recovery assembly (3) in a plurality of sheepfold;

s2, placing the feed into a crushing box (101) during feeding, and stirring and mixing the feed by the crushing box (101);

s3, putting the stirred feed into a feed hopper (201);

s4, the movable frame (203) moves on the movable support (102), and after the hopper (201) is aligned with the recovery assembly (3), the adjusting cylinder (207) and the vibration mechanism are started;

s5, the adjusting electric cylinder (207) drives the hopper (201) to rotate, and the feed in the hopper (201) falls into the feeding groove (305) through gravity;

s6, the trough (305) analyzes whether the feed in the trough (305) is enough through the detection mechanism, and when the feed is enough, the electric cylinder (207) is regulated to drive the hopper (201) to reset, and the feeding is stopped;

s7, when the feed in the trough (305) remains, the gear II (306) drives the gear ring (307) to rotate, and the gear ring (307) drives the baffle (308) to move;

s8, opening a notch at the lower end of the trough (305) by a baffle (308), and then discharging and recycling the feed in the trough (305).

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