CN117179955A - Embryo collection device capable of penetrating into ox uterine horn - Google Patents

Abstract

The utility model discloses an embryo collecting device capable of penetrating into the uterine horn of a cow, which belongs to the technical field of animal embryo collection and comprises a storage box, wherein a surrounding frame is fixedly arranged in the storage box, a plurality of collecting cups for containing embryo flushing liquid are also arranged in the storage box, a buffer grid is arranged on each collecting cup, a plurality of sedimentation grids are also arranged on each collecting cup for dispersing and collecting embryo flushing liquid, a plurality of embryo flushing liquids for providing buffering force are arranged in each buffer grid in each collecting cup, and a plurality of fully loaded collecting cups filled with embryo flushing liquid are also arranged in each storage box.

Description

Embryo collection device capable of penetrating into ox uterine horn

Technical Field

The utility model relates to the technical field of animal embryo collection, in particular to an embryo collection device capable of penetrating into the uterine horn of a cow.

Background

Embryo collection of cows refers to the process of collecting early fertilized eggs in an improved variety of cows from the improved variety of cows, and finally transplanting the fertilized eggs into the uterus of another cow of the same species to enable the cow to continue to develop, so that excellent genes of the improved variety of cows are rapidly bred, and the slow breeding speed that the improved variety of cows can only grow one embryo in one year is avoided.

The utility model discloses a Chinese patent with publication number of CN217244951U, which discloses an embryo extraction device in cattle, and the utility model ensures that a worker can continuously extract through a syringe A by arranging two one-way valves in a three-way pipe A, thereby being convenient for rapidly extracting embryo flushing liquid in cattle uterus and improving the working efficiency in embryo extraction.

The above-mentioned device and the prior art are all improved from the aspect of accelerating the extraction speed of the embryo flushing liquid, but the prior art is not improved in the aspect of disposal after the embryo flushing liquid is collected, and the subsequent treatment of the collected embryo flushing liquid generally comprises complicated steps of sedimentation, extraction, screening, refrigeration and the like, which can lead to some damages to fertilized eggs when the fertilized eggs are subjected to the treatment, and meanwhile, the treatment time of the steps is particularly long, especially the sedimentation step, which can reduce the survival rate and the working efficiency of embryos or fertilized eggs.

Disclosure of Invention

Aiming at the technical problems, the utility model provides the following technical scheme:

the utility model provides a can go deep into embryo collection device in ox uterus angle, includes the bin, fixed mounting has the wheel that is used for helping this device to remove on the bin, still fixed mounting has the movable box on the bin, fixed mounting has the hose on the movable box, still fixed mounting has the surrounding frame in the bin, fixed mounting has the division board on the surrounding frame, fixed mounting has a plurality of slide rail posts on the surrounding frame, rotate on the slide rail post and install the rotation slide rail, fixed mounting has the adjustment torsional spring on the rotation slide rail, the other end fixed mounting of adjustment torsional spring is on the slide rail post, the shape of rotation slide rail is right angled triangle, still be provided with a plurality of collection cups that are used for holding the embryo liquid, collection cup and slide rail post sliding connection, the collection cup also can be with rotating the slide rail contact, be provided with a buffer check on the collection cup, still be provided with a plurality of embryo precipitation check on the collection cup and be used for the dispersion collection towards liquid, be provided with some embryo in the buffer check in the collection cup and be used for providing the full of buffer liquid, still be provided with a plurality of full of collection cups that carry towards liquid in the bin.

Further, fixed mounting has accommodate motor in the bin, fixed mounting has down the belt pulley on accommodate motor's the output shaft, be provided with the regulation belt on the belt pulley down, be provided with a plurality of salient steps on the regulation belt, the material of adjusting the belt is flexible material, the material of salient step is aluminum alloy, the other end of adjusting the belt is provided with the belt pulley, the belt pulley rotates with the bin to be connected, the one end of belt pulley is provided with the side gear, still fixed mounting has a plurality of transmission cases on the bin, the transmission case sets up in the bin, the diversion gear is installed in the transmission case internal rotation, the diversion gear meshes with the side gear on the belt pulley, be provided with middle belt on the diversion gear, the other end of middle belt is provided with the storage belt pulley, the storage belt pulley rotates with the transmission case to be connected, the storage belt is provided with on the storage belt pulley, the storage belt is the same with the structure of adjusting the belt, the storage belt also is provided with a plurality of salient steps on the storage belt pulley, the diversion gear is provided with the diversion gear, the diversion gear is connected with the diversion cup.

Further, the one end fixed mounting that the movable box was kept away from to the hose has the handle, the other end fixed mounting of handle has the cylinder shell, cylinder shell outside fixed mounting has the jam gasbag, slidable mounting has the shower nozzle pipe in the cylinder shell, the one end fixed mounting of shower nozzle pipe has the shower nozzle, the shower nozzle is the rubber materials, the shower nozzle is in the cylinder shell outside, the one end fixed mounting that the bin was kept away from to the shower nozzle pipe has buffer spring, buffer spring's the other end fixed mounting has the division board, the division board is fixed inside the cylinder shell, division board, cylinder shell, shower nozzle pipe can form a buffering cavity, buffer spring's mounted position is in the buffering cavity, slidable mounting has the feed liquor pipe on the division board, feed liquor pipe and cylinder shell sliding connection, slidable mounting has the liquid return pipe in the cylinder shell, the one end that the liquid return pipe is in the cylinder shell is provided with the liquid return mouth, still be provided with the backward flow through mouth on the cylinder shell, liquid return mouth and liquid on the liquid return pipe is in the dislocation setting under the initial state.

Further, the one end fixed mounting that returns the liquid pipe and keep away from the handle has a liquid extension board, fixed mounting returns the liquid pneumatic cylinder on the liquid extension board, return liquid pneumatic cylinder and movable box fixed connection, liquid extension board, liquid return pneumatic cylinder all set up in the movable box, liquid extension board and feed liquor pipe, gas tube fixed connection return, the other end setting of liquid pipe is in the movable box, the other end fixed mounting that returns the liquid pipe has filtering device, filtering device keeps away from the exit end rotation of liquid pipe and installs the rotation pipe.

Further, the other end of feed liquor pipe sets up in the activity incasement, the other end fixed mounting of feed liquor pipe has movable branch pipe, movable branch pipe and activity case sliding connection, still fixed mounting has the holding tank on the bin, the holding tank outside still fixed mounting has the inlet cylinder, the other end of inlet cylinder is provided with the extrusion dish, extrusion dish slidable mounting is inside holding tank, the extrusion dish forms the storage chamber with holding tank, can set up towards embryo liquid in the storage chamber.

Further, the storage box is fixedly provided with a transposition motor, an output shaft of the transposition motor is fixedly provided with a transposition screw rod, the transposition screw rod is arranged in the storage box, a movable frame is slidably arranged on the storage box and is in threaded connection with the transposition screw rod, a plurality of top blocks are fixedly arranged on the movable frame, a sliding support block is slidably arranged on the top blocks, a pushing spring is fixedly arranged on the sliding support block, the other end of the pushing spring is fixedly arranged on the top blocks, and a plurality of middle sliding rails used for limiting the sliding direction are fixedly arranged on the isolation plate.

Further, the auxiliary support is fixedly arranged on the surrounding frame, the supporting inclined block is rotatably arranged on the auxiliary support, the clamping torsion spring is fixedly arranged on the supporting inclined block, the other end of the clamping torsion spring is fixedly arranged on the auxiliary support, the supporting inclined block is provided with a concave step, and the collecting cup is in contact with the concave step on the supporting inclined block.

Further, two sealing partition plates are rotatably arranged on one side of the storage box, the storage box and the sealing partition plates are matched to form a refrigerating chamber, a cooling device is arranged in the refrigerating chamber, the recovered embryo flushing liquid is in a low-temperature state so as to prolong the preservation time of fertilized eggs or embryos, an extraction frame is further arranged in the storage box in a sliding manner, a plurality of protruding frames are arranged on the extraction frame and used for stably taking out full-load collecting cups by operators, and an inlet baffle is fixedly arranged on one side of the storage box, provided with a transposition motor and used for placing inlets of the collecting cups.

Further, the liquid return pipe is fixedly provided with an air charging pipe, one end of the air charging pipe is arranged in the blocking air bag, the other end of the air charging pipe is arranged in the movable box, the other end of the air charging pipe is fixedly provided with an air charging pump, and the air charging pump is fixedly arranged outside the movable box and used for providing compressed air for the air charging pipe.

Compared with the prior art, the utility model has the beneficial effects that: (1) According to the utility model, through the dislocation arrangement of the return opening and the liquid flushing recovery opening on the liquid return pipe, sundries are prevented from entering the liquid return pipe when the cylindrical shell enters the uterine horn, and meanwhile, the liquid return cylinder drives the liquid return pipe to move to achieve the opening and closing effects, so that flushing liquid carrying fertilized eggs is recycled; (2) According to the utility model, the plurality of sedimentation grids are arranged on the collecting cup, and the buffer grid is arranged at the same time, so that the embryo punching liquid passes through the plurality of sedimentation grids, the purpose of stepped sedimentation is achieved, and the embryo punching liquid is completely dispersed and collected in the sedimentation grids, so that the observation and collection of collection personnel are facilitated; (3) The utility model can prolong the storage time of fertilized eggs or embryos and simultaneously accelerate the speed of transferring or loading the collection cup by arranging the refrigeration chamber and matching with the extraction frame.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic view of the cylindrical shell structure of the present utility model.

Fig. 3 is a partial enlarged view of fig. 2 at a.

FIG. 4 is a schematic view of the structure of the cylinder housing and the blocked air bag of the present utility model after being cut away.

FIG. 5 is a schematic view of the storage tank and sealing partition of the present utility model after being cut away.

FIG. 6 is a schematic view of the storage box, the movable box and the holding tank of the present utility model after being cut away.

Fig. 7 is a schematic view of the surrounding frame of the present utility model in cross section.

Fig. 8 is a schematic diagram of the transmission case of the present utility model in cross section.

Fig. 9 is a schematic view of the structure of the spacer plate and surrounding frame of the present utility model after being cut away.

Fig. 10 is a schematic view of a sliding rail structure according to the present utility model.

FIG. 11 is a schematic view of the structure of the collecting cup of the present utility model.

Reference numerals: 101-a storage tank; 102-an activity box; 103-hose; 104-grip; 105-a cylindrical housing; 201-a spray head; 202-a nozzle tube; 203-a buffer spring; 204-dividing plates; 205-liquid inlet pipe; 207-blocking the balloon; 208-a return port; 209-a liquid return pipe; 210-an inflation tube; 211-an inflator; 301-a liquid inlet cylinder; 302-a housing pot; 303-movable branch pipes; 304-a liquid return cylinder; 305, liquid return support plate; 306-a filtration treatment device; 307-rotating the tube; 401-adjusting a motor; 402-adjusting the belt; 403-lower pulley; 404-surrounding the frame; 405-upper belt pulley; 406-a storage belt; 407-upper storage pulley; 408-a gear box; 409-a change gear; 410-an intermediate belt; 411-lower storage pulley; 414-slide rail columns; 415-rotating the slide rail; 500-inlet baffles; 501-a transposition motor; 502-transposition screw rod; 503-moving a rack; 504-top block; 505-sliding support; 506-supporting the oblique block; 507-a secondary stent; 508-separator plates; 509-middle slide rail; 510-a collection cup; 511-full load collection cup; 512-extraction rack; 513-sealing separator; 514—wheels; 601-buffer cells; 602-precipitation grid.

Detailed Description

As shown in fig. 1 to 4, an embryo collecting device capable of going deep into the angle of cow uterus comprises a storage tank 101, wheels 514 for helping the device to move are fixedly arranged on the storage tank 101, a movable tank 102 is fixedly arranged on the storage tank 101, a flexible hose 103 is fixedly arranged on the movable tank 102, a handle 104 is fixedly arranged at one end of the hose 103 far away from the movable tank 102, the handle 104 is made of a metal material, a cylindrical shell 105 is fixedly arranged at the other end of the handle 104, a blocking air bag 207 is fixedly arranged at the outer side of the cylindrical shell 105, the blocking air bag 207 is made of a rubber material, the blocking air bag 207 is used for closing the cow uterus, a spray head pipe 202 is slidably arranged in the cylindrical shell 105, a spray head 201 is fixedly arranged at one end of the spray head pipe 202, the spray head 201 is made of a rubber material, the spray head 201 is positioned outside the cylindrical shell 105, the end of the nozzle pipe 202 far away from the storage tank 101 is fixedly provided with a buffer spring 203, the other end of the buffer spring 203 is fixedly provided with a partition plate 204, the partition plate 204 is fixed inside the cylindrical shell 105, the partition plate 204, the cylindrical shell 105 and the nozzle pipe 202 can form a buffer chamber, the installation position of the buffer spring 203 is arranged in the buffer chamber, the partition plate 204 is provided with a liquid inlet pipe 205 in a sliding manner, the liquid inlet pipe 205 is in sliding connection with the cylindrical shell 105, the cylindrical shell 105 is provided with a liquid return pipe 209 in a sliding manner, one end of the liquid return pipe 209 in the cylindrical shell 105 is provided with a liquid flushing recovery port, the cylindrical shell 105 is also provided with a liquid return port 208, the liquid return port 208 and the liquid flushing recovery port on the liquid return pipe 209 are arranged in a dislocation manner in an initial state, the liquid return pipe 209 is in a closed state in the initial state, the liquid return pipe 209 is fixedly connected with the liquid inlet pipe 205, the liquid return pipe 209 is fixedly provided with an inflation pipe 210, one end of the inflation pipe 210 is arranged in the blocking air bag 207, and the liquid return pipe 209, the liquid inlet pipe 205 and the inflation pipe 210 are in sliding connection with the hose 103.

As shown in fig. 1, 2 and 6, a liquid return air cylinder 304 is fixedly installed in the movable box 102, a liquid return support plate 305 is fixedly installed at the other end of the liquid return air cylinder 304, the liquid return support plate 305 is fixedly connected with a liquid return pipe 209, a liquid inlet pipe 205 and an air inflation pipe 210, after the liquid return air cylinder 304 is started, the liquid return air cylinder 304 carries the liquid inlet pipe 205, the liquid return pipe 209 and the air inflation pipe 210 to slide in the hose 103 through the liquid return support plate 305, the other end of the liquid return pipe 209 is arranged in the movable box 102, a filtering device 306 is fixedly installed at the other end of the liquid return pipe 209, the filtering device 306 is used for simply filtering embryo flushing liquid to prevent more skin and meat tissues in the embryo flushing liquid from entering a subsequent procedure, and a rotating pipe 307 is rotatably installed at the outlet end of the filtering device 306 far away from the liquid return pipe 209.

As shown in fig. 1 to 4 and 6, the other end of the liquid inlet pipe 205 is disposed in the movable box 102, a movable branch pipe 303 is fixedly disposed at the other end of the liquid inlet pipe 205, the movable branch pipe 303 is slidably connected with the movable box 102, a containing tank 302 is fixedly disposed on the storage box 101, a liquid inlet cylinder 301 is fixedly disposed at the outer side of the storage box 101, an extrusion disc is disposed at the other end of the liquid inlet cylinder 301, the extrusion disc is slidably disposed inside the containing tank 302, the extrusion disc and the containing tank 302 form a storage chamber, an embryo flushing liquid can be disposed in the storage chamber, the other end of the gas tube 210 is disposed in the movable box 102, and an inflator 211 is fixedly disposed at the other end of the gas tube 210, and the inflator 211 is fixedly disposed at the outer side of the movable box 102 to provide compressed gas for the gas tube 210.

As shown in fig. 5 to 7, an adjusting motor 401 is fixedly installed in the storage tank 101, a lower belt pulley 403 is fixedly installed on an output shaft of the adjusting motor 401, an adjusting belt 402 is arranged on the lower belt pulley 403, a plurality of protruding steps are arranged on the adjusting belt 402, the adjusting belt 402 is made of flexible materials, the protruding steps are made of aluminum alloy, an upper belt pulley 405 is arranged at the other end of the adjusting belt 402, the upper belt pulley 405 is rotationally connected with the storage tank 101, and a side end gear is arranged at one end of the upper belt pulley 405.

As shown in fig. 5 to 8, the storage tank 101 is further fixedly provided with a plurality of transmission tanks 408, the transmission tanks 408 are arranged in the storage tank 101, the transmission tanks 408 are rotatably provided with turning gears 409, the turning gears 409 are meshed with side end gears on the upper belt pulleys 405, the turning gears 409 are provided with intermediate belts 410, the other ends of the intermediate belts 410 are provided with upper storage belt pulleys 407, the upper storage belt pulleys 407 are rotatably connected with the transmission tanks 408, the upper storage belt pulleys 407 are rotatably connected with the storage tank 101, the upper storage belt pulleys 407 are provided with storage belts 406, the storage belts 406 are identical to the adjusting belts 402 in structure, the storage belts 406 are also provided with a plurality of protruding steps, the other ends of the storage belts 406 are provided with turning gears 409, the turning gears 409 are rotatably connected with the storage tank 101, the adjusting belts 402, lower belt pulleys 403, the upper belt pulleys 405, the upper storage belt pulleys 407, the transmission tanks 408, the intermediate belts 410 and lower storage belt pulleys 411 are symmetrically arranged in the storage tank 101, and the plurality of lower belt pulleys 403 are provided with a plurality of motors for indirectly adjusting the power transmission 401.

As shown in fig. 7, 9 and 10, the storage box 101 is further fixedly provided with a surrounding frame 404, a partition plate 508 is fixedly installed on the surrounding frame 404, a plurality of sliding rail columns 414 are fixedly installed on the surrounding frame 404, a rotating sliding rail 415 is rotatably installed on the sliding rail columns 414, an adjusting torsion spring is fixedly installed on the rotating sliding rail 415, the other end of the adjusting torsion spring is fixedly installed on the sliding rail columns 414, the rotating sliding rail 415 is in a right triangle shape, the sliding rail columns 414 are arranged on the same side of the surrounding frame 404 in a mirror image manner, so that the rotating sliding rail 415 cannot be blocked during rotation, an auxiliary bracket 507 is fixedly installed on the surrounding frame 404, a supporting oblique block 506 is rotatably installed on the auxiliary bracket 507, a clamping torsion spring is fixedly installed on the supporting oblique block 506, a concave step is arranged on the supporting oblique block 506, and a supporting oblique block 506, an auxiliary bracket 507 and the clamping torsion spring with the same effect as the supporting oblique block 506 on the surrounding frame 404 are also arranged on the partition plate 508.

As shown in fig. 8 and 9, the storage box 101 is fixedly provided with a transposition motor 501, an output shaft of the transposition motor 501 is fixedly provided with a transposition screw rod 502, the transposition screw rod 502 is arranged in the storage box 101, a movable frame 503 is slidably arranged on the storage box 101 and is in threaded connection with the transposition screw rod 502, a plurality of top blocks 504 are fixedly arranged on the movable frame 503, a sliding support block 505 is slidably arranged on the top blocks 504, a pushing spring is fixedly arranged on the sliding support block 505, the other end of the pushing spring is fixedly arranged on the top blocks 504, a plurality of middle sliding rails 509 for limiting the sliding direction are fixedly arranged on the separation plate 508, and the middle sliding rails 509 are symmetrically arranged.

As shown in fig. 8 to 11, the storage tank 101 is further provided with a plurality of collection cups 510 for holding the blank solution, the collection cups 510 are slidably connected with the slide rail posts 414, the collection cups 510 may also contact with the rotating slide rails 415, the collection cups 510 may contact with the concave steps on the supporting inclined blocks 506, the collection cups 510 may also contact with the convex steps on the adjusting belt 402, the convex steps are the main bearing devices of the collection cups 510, the slide rail posts 414 play a role of limiting positions, the collection cups 510 are provided with a buffer grid 601, the collection cups 510 are further provided with a plurality of sedimentation grids 602 for dispersing and collecting the blank solution, the buffer grids 601 in the collection cups 510 are provided with a plurality of blank solution for providing buffering force, the storage tank 101 is further provided with a plurality of full-load collection cups 511 filled with the blank solution, the full-load collection cups 511 contact with the convex steps on the adjusting belt 406, and the outlet ends of the rotating pipes 307 are located right above the buffer grid 601 in the initial state.

As shown in fig. 5, two sealing clapboards 513 are rotatably installed on one side of the storage tank 101, the storage tank 101 and the sealing clapboards 513 are matched to form a refrigerating chamber, a cooling device is arranged in the refrigerating chamber, so that the recovered embryo flushing liquid is in a low-temperature state, the storage time of fertilized eggs or embryos is prolonged, an extraction frame 512 is slidably installed in the storage tank 101, a plurality of protruding frames are arranged on the extraction frame 512 and used for stably taking out full-load collection cups 511 by operators, an inlet baffle 500 is fixedly installed on one side of the storage tank 101 where the transposition motor 501 is installed, and the inlet baffle 500 is a placement inlet of the collection cup 510.

Working principle: the device is shown in the drawings, and in the usable state of the device, it is necessary to describe that the fully loaded collecting cup 511 is the state after the collecting cup 510 is filled with the embryo flushing liquid, but the position of the fully loaded collecting cup 511 in fig. 9 is just an example, in the use state, the position of the fully loaded collecting cup 511 in fig. 9 is the empty state, in the use state, more embryo flushing liquid is required to be arranged in the storage cavity on the accommodating tank 302, the embryo flushing liquid is special liquid, then a collector holds the handle 104 or the hose 103 by hand, plugs the cylindrical shell 105 and the handle 104 into the uterine horn, and it is necessary to send the blocking air bag 207 into the uterine horn, generally, the length is the best state when the nozzle 201 on the cylindrical shell 105 reaches the front third position of the uterine horn, then the air pump 211 is started, the air pump 211 is used for inflating the blocking air bag 207 through the air tube 210, the outer wall of the blocking air bag 207 is attached to the inner wall of the uterine horn, and the blocking air bag 207 is used for blocking the uterine horn, so that the embryo flushing liquid is prevented from flowing out of the uterine horn randomly.

After the grip 104 and the hose 103 are fixed, the liquid inlet cylinder 301 can be started, the liquid inlet cylinder 301 extrudes the embryo flushing liquid in the accommodating tank 302 through the extrusion disc, the embryo flushing liquid enters the buffer cavity after passing through the movable branch pipe 303 and the liquid inlet pipe 205, then the embryo flushing liquid enters the uterine horn through the nozzle pipe 202 and the nozzle 201, after the embryo flushing liquid is injected into the uterine horn, the liquid return cylinder 304 can be started, the liquid return cylinder 304 slides in the hose 103 through the liquid return support plate 305 with the liquid return pipe 209, and the sliding direction is that one end of the liquid return pipe 209 in the cylindrical shell 105 moves towards the direction close to the nozzle 201, so that the embryo flushing liquid on the liquid return pipe 209 is aligned with the liquid return port 208, and after the embryo flushing liquid return port is aligned with the liquid return port 208, the embryo flushing liquid carrying fertilized eggs in the uterine horn can flow into the liquid return pipe 209 from the liquid return port 208.

After the embryo flushing liquid carrying fertilized eggs or embryos enters the liquid return pipe 209, the filtration treatment device 306 is firstly used for carrying out preliminary filtration, so that the larger blood meat tissue in the uterine horn is prevented from entering the subsequent step, then the embryo flushing liquid enters the buffer grid 601 in the collecting cup 510 through the rotary pipe 307, after the buffer grid 601 is gradually filled with the liquid, the embryo flushing liquid gradually flows into the adjacent sedimentation grid 602 after the water level is higher than the buffer grid 601, and after the next sedimentation grid 602 is filled, the embryo flushing liquid continuously flows into the next sedimentation grid 602.

After the sedimentation lattice 602 and the buffer lattice 601 in the collection cup 510 are filled with the blank punching liquid, the transposition motor 501 can be started, the transposition motor 501 drives the movable frame 503 to move away from the transposition motor 501 through the transposition screw rod 502, the movable frame 503 presses the collection cup 510 through the top block 504 and the sliding support block 505, the collection cup 510 moves together, when the collection cup 510 moves, the collection cup 510 presses the rotating slide rail 415, the rotating slide rail 415 rotates, so that the limitation of the rotating slide rail 415 is removed, meanwhile, the movement of the collection cup 510 also presses the supporting inclined block 506 on the isolation plate 508, the supporting inclined block 506 rotates to leave a moving channel of the collection cup 510, when the collection cup 510 moves, the collection cup 510 also contacts with the middle slide rail 509, and then the collection cup 510 enters the current position of the full-load collection cup 511.

Then, the adjusting motor 401 is started again, the adjusting motor 401 rotates with the adjusting belt 402 through the lower belt pulley 403 and the indirect belt, the adjusting belt 402 moves with the new collecting cup 510 towards the direction approaching to the rotating pipe 307, the new collecting cup 510 stops when being matched with the concave step on the supporting inclined block 506 after the collecting cup 510 is extruded out of the supporting inclined block 506, the new collecting cup 510 starts to work for new loading, the upper belt pulley 405 rotates with the upper belt pulley 407 through the transmission structure of the upper belt pulley 405, the upper belt pulley 407 moves with the full collecting cup 511 filled with embryo flushing liquid away from the rotating pipe 307, the final collecting task is completed, and then the preserving time of fertilized eggs or embryos in the embryo flushing liquid is prolonged through the low temperature generated by the refrigerating device in the storage box 101.

If the device is to be taken out of all the plurality of fully loaded collection cups 511, the sealing partition 513 can be pulled manually to open the device, then the extraction frame 512 is used again, the extraction frame 512 is used for carrying the plurality of fully loaded collection cups 511, then the extraction frame 512 is pulled to be separated from the device, the fully loaded collection cups 511 can be taken out, and for placing a new collection cup 510, the collection cup 510 is placed on the inlet baffle 500 manually, then the collection cup 510 is pushed into the device, and the collection cup 510 is contacted with the adjusting belt 402 to be placed.

Claims (9)

1. The utility model provides an embryo collection device in can deep cow uterus angle, includes bin (101), fixed mounting has wheel (514) that are used for helping this device to remove on bin (101), still fixed mounting has activity case (102), its characterized in that on bin (101): the utility model provides a flexible hose (103) is fixed mounting on movable box (102), still fixed mounting has in bin (101) and encircles frame (404), around fixed mounting has division board (508) on frame (404), around fixed mounting has a plurality of slide rail posts (414) on frame (404), rotate on slide rail post (414) and install rotation slide rail (415), fixed mounting has the adjustment torsional spring on rotation slide rail (415), the other end fixed mounting of adjustment torsional spring is on slide rail post (414), the shape of rotation slide rail (415) is right angled triangle, still be provided with a plurality of collection cups (510) that are used for holding embryo liquid in bin (101), collection cups (510) and slide rail post (414) sliding connection, collection cups (510) also can be with rotation slide rail (415) contact, be provided with buffer grid (601) on collection cups (510), still be provided with a plurality of sediment grids (602) on collection cups (510) and be used for dispersing and collect embryo liquid, the buffer grid (511) in the collection cups (510) have been provided with and have been filled with a plurality of buffer grids (511) that are used for carrying embryo liquid.

2. An embryo collection device for penetration into the uterine horn of a cow as set forth in claim 1, wherein: an adjusting motor (401) is fixedly installed in the storage tank (101), a lower belt pulley (403) is fixedly installed on an output shaft of the adjusting motor (401), an adjusting belt (402) is arranged on the lower belt pulley (403), a plurality of protruding steps are arranged on the adjusting belt (402), the adjusting belt (402) is made of flexible materials, the protruding steps are made of aluminum alloy, an upper belt pulley (405) is arranged at the other end of the adjusting belt (402), the upper belt pulley (405) is rotationally connected with the storage tank (101), a side end gear is arranged at one end of the upper belt pulley (405), a plurality of transmission boxes (408) are fixedly installed on the storage tank (101), the transmission boxes (408) are arranged in the storage tank (101), a plurality of turning gears (409) are rotationally installed on the transmission boxes (408), the turning gears (409) are meshed with the side end gears on the upper belt pulley (405), an intermediate belt (410) is arranged on the turning gears (409), the other end of the intermediate belt pulley (410) is provided with a side end gear, the turning belt pulley (407) is rotationally connected with the storage tank (407), the turning gears (407) are rotationally connected with the storage tank (407), the storage belt (406) is identical to the adjusting belt (402) in structure, a plurality of protruding steps are also arranged on the storage belt (406), a turning gear (409) is arranged at the other end of the storage belt (406), the turning gear (409) is rotationally connected with the storage box (101), the collecting cup (510) can be in contact with the protruding steps on the supporting inclined block (506), and the collecting cup (510) is also in contact with the protruding steps on the adjusting belt (402).

3. An embryo collection device for penetration into the uterine horn of a cow as set forth in claim 1, wherein: the utility model discloses a liquid recycling device, including hose (103), movable case (102), handle (104) is kept away from to hose (103), the other end fixed mounting of handle (104) has cylinder shell (105), cylinder shell (105) outside fixed mounting has stopper gasbag (207), install shower nozzle pipe (202) in the slip in cylinder shell (105), the one end fixed mounting of shower nozzle pipe (202) has shower nozzle (201), shower nozzle (201) are rubber materials, shower nozzle (201) are in cylinder shell (105) outside, one end fixed mounting of keeping away from bin (101) of shower nozzle pipe (202) has buffer spring (203), the other end fixed mounting of buffer spring (203) has division board (204), division board (204) are fixed inside cylinder shell (105), division board (204), cylinder shell (105) can form a buffer chamber, the mounted position of buffer spring (203) is in the buffer chamber, install liquid inlet pipe (205) on division board (204) in the slip, liquid inlet pipe (205) and cylinder shell (105) are in slip connection, cylinder shell (105) are in cylinder shell (209) are located back to inner side of the cylinder shell (105), the cylindrical shell (105) is also provided with a backflow port (208), and the backflow port (208) and a flushing liquid recovery port on the liquid return pipe (209) are arranged in a staggered mode in an initial state.

4. An embryo collection device for penetration into the horns of a cow's uterus as claimed in claim 3, wherein: the one end fixed mounting that handle (104) was kept away from to liquid return pipe (209) has liquid return extension board (305), fixed mounting has liquid return cylinder (304) on liquid return extension board (305), liquid return cylinder (304) and activity case (102) fixed connection, liquid return extension board (305), liquid return cylinder (304) all set up in activity case (102), liquid return extension board (305) and feed liquor pipe (205), gas tube (210) fixed connection, the other end setting of liquid return pipe (209) is in activity case (102), the other end fixed mounting of liquid return pipe (209) has filtration processing apparatus (306), the exit end rotation that liquid return pipe (209) was kept away from to filtration processing apparatus (306) is installed and is rotated pipe (307).

5. An embryo collection device for penetration into the uterine horn of a cow as set forth in claim 4, wherein: the other end of feed liquor pipe (205) sets up in activity case (102), the other end fixed mounting of feed liquor pipe (205) has activity branch pipe (303), activity branch pipe (303) and activity case (102) sliding connection, still fixed mounting has holding tank (302) on bin (101), still fixed mounting has feed liquor cylinder (301) in the bin (101) outside, the other end of feed liquor cylinder (301) is provided with the extrusion dish, extrusion dish slidable mounting is inside holding tank (302), extrusion dish and holding tank (302) form the storage chamber, can set up towards embryo liquid in the storage chamber.

6. An embryo collection device for penetration into the uterine horn of a cow as set forth in claim 1, wherein: the novel automatic feeding device is characterized in that a transposition motor (501) is fixedly installed outside the storage box (101), a transposition screw rod (502) is fixedly installed on an output shaft of the transposition motor (501), the transposition screw rod (502) is arranged in the storage box (101), a movable frame (503) is slidably installed on the storage box (101), the movable frame (503) is in threaded connection with the transposition screw rod (502), a plurality of top blocks (504) are fixedly installed on the movable frame (503), sliding support blocks (505) are slidably installed on the top blocks (504), pushing springs are fixedly installed on the sliding support blocks (505), the other ends of the pushing springs are fixedly installed on the top blocks (504), and a plurality of middle sliding rails (509) used for limiting sliding directions are fixedly installed on the separation plates (508).

7. An embryo collection device for penetration into the uterine horn of a cow as set forth in claim 1, wherein: the utility model discloses a support inclined block (506) is provided with including frame (404) and support inclined block (506) including the frame (506) and support inclined block (507) including the frame, still fixed mounting has auxiliary support (507) on encircling frame (404), rotate on auxiliary support (507) and install support inclined block (506), still fixed mounting has the screens torsional spring on support inclined block (506), and the other end fixed mounting of screens torsional spring is on auxiliary support (507), be provided with sunken step on support inclined block (506), collection cup (510) and the sunken step contact on support inclined block (506).

8. An embryo collection device for penetration into the uterine horn of a cow as set forth in claim 1, wherein: two sealing partition plates (513) are rotatably arranged on one side of the storage box (101), the storage box (101) and the sealing partition plates (513) are matched to form a refrigerating chamber, a cooling device is arranged in the refrigerating chamber, the recycled embryo flushing liquid is in a low-temperature state so as to prolong the preservation time of fertilized eggs or embryos, an extraction frame (512) is further arranged in the storage box (101) in a sliding manner, a plurality of protruding frames are arranged on the extraction frame (512) and used for stably taking out full-load collecting cups (511) by operators, an inlet baffle (500) is fixedly arranged on one side of the storage box (101) where the transposition motor (501) is arranged, and the inlet baffle (500) is a placement inlet of the collecting cup (510).

9. An embryo collection device for penetration into the horns of a cow's uterus as claimed in claim 3, wherein: the liquid return pipe (209) is further fixedly provided with an inflation pipe (210), one end of the inflation pipe (210) is arranged in the blocking air bag (207), the other end of the inflation pipe (210) is arranged in the movable box (102), the other end of the inflation pipe (210) is fixedly provided with an inflation pump (211), and the inflation pump (211) is fixedly arranged outside the movable box (102) and used for providing compressed gas for the inflation pipe (210).