CN109699509B - Adjustable experimental rabbit fixing cage - Google Patents

Abstract

The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole capable of accommodating a rabbit head is formed in the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; through the setting of moving structure and slide, cut off the function that the structure can realize removing, when placing the rabbit, can be according to the different physique of rabbit, remove the different positions with cutting off the structure to adapt to the physique of rabbit, then put the rabbit head and hold the downthehole fixing at the rabbit head.

Description

Adjustable experimental rabbit fixing cage

Technical Field

The invention belongs to the field of biological experimental equipment, and particularly relates to an adjustable experimental rabbit fixing cage.

Background

Animal experiments are scientific studies performed in laboratory using animals in order to obtain new knowledge about biology, medicine, etc., or to solve specific problems. The experimental animal used in animal experiment refers to animal which is artificially fed and bred to control microorganism and parasite carried by the animal, has definite genetic background or clear source and is applied to scientific research, teaching, production and verification and other scientific experiments.

The most commonly used experimental animals comprise mice, rabbits, toads and the like, in order to smoothly carry out experimental operation in the experimental process, the experimental animals generally need to be fixed, such as rabbits, but the rabbits are relatively large in size and are fixed to a certain degree of difficulty, an experimenter is often required to specially fix the rabbits, human resources are wasted to a certain degree, and the existing rabbit fixing box is small in application range and cannot meet the use requirements of rabbits of different sizes.

Aiming at the problems that the existing rabbit fixing box in the prior art is small in application range and cannot meet the requirements of rabbits of different sizes, the invention provides an adjustable experimental rabbit fixing cage.

Disclosure of Invention

In order to solve the problems that the existing rabbit fixing box in the prior art is small in application range and cannot meet the requirements of rabbits of different sizes, the invention provides an adjustable experimental rabbit fixing cage.

The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole capable of accommodating a rabbit head is formed in the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; through the setting of moving structure and slide, cut off the function that the structure can realize moving, when placing the rabbit, can be according to the different sizes of rabbit, remove the structure of cutting off to different positions, thereby adapt to the size of rabbit, then put the rabbit head and fix in the rabbit head accommodation hole, cover the lid in fixed cage main part, thereby fix the rabbit in fixed cage, the rabbit head is fixed the back and is carried out experimental operation easily, need not special man and fix the rabbit, thereby single can accomplish experimental operation, use manpower sparingly.

Further, the fixing cage main body is provided with a hollow cuboid box; this arrangement facilitates placement of rabbits.

Further, the partition structure is provided with square partition plates, and the side length of each partition plate is smaller than the length of the short side of the cuboid box; the arrangement ensures that the top of the partition board is kept at a certain distance from the cover body, the bottom of the partition board is kept at a certain distance from the bottom of the cuboid box, and the left and right sides of the partition board are kept at a certain distance from the left and right side walls of the cuboid box, so that the partition board is convenient to move.

Further, a push-pull structure is arranged on the side edge of the partition board; the partition board is moved through the push-pull structure, so that the operation is more convenient.

Further, the push-pull structure is arranged to be a reverse C-shaped push-pull rod and comprises a transverse rod and a vertical connecting rod, wherein the transverse rod comprises an upper transverse rod and a lower transverse rod, and the transverse rod is integrally connected with the vertical connecting rod; the upper transverse rod is integrally connected with the upper end of the partition board, and the lower transverse rod is integrally connected with the lower end of the partition board; this arrangement allows smooth and labor-saving movement of the partition.

Further, threads and thread columns matched with the threads are arranged on the upper transverse rod and the lower transverse rod; the partition plate can be fixed by matching and screwing the threaded column with the threads, so that the rabbit is well fixed in the cuboid box.

Further, the length of the thread is larger than the thickness of the side wall of the cuboid box, and the thread penetrates through the side wall of the cuboid box and extends out of the cuboid box; this arrangement meets the requirements of a stationary barrier.

Further, the threaded column is arranged outside the cuboid box, the threaded column penetrates through the upper transverse rod and the lower transverse rod, the inner diameter of the threaded column is larger than the outer diameter of the transverse rod, and the outer diameter of the threaded column is smaller than the length of the shortest side of the cuboid box; after the position of the partition is determined, the threaded column is screwed with the threads, thereby fixing the partition.

Further, a window capable of accommodating the transverse rod is arranged on the side wall of the cuboid box, the length of the long side of the window is smaller than that of the long side of the cuboid box, and the length of the short side of the window is smaller than that of the outer diameter of the threaded column; the arrangement of the window provides a moving space for the transverse rod, and can meet the requirement of fixing a threaded column.

Further, the movable structure comprises a connecting column and a spherical structure, the connecting column is integrally connected with the spherical structure, and the connecting column is integrally connected with the partition plate; the spherical structure has small friction force, saves more labor during movement and is convenient for operation.

Further, the slideway for moving the moving structure is provided with a chute, the chute comprises a rectangular plate integrally connected with the side wall of the rectangular box, an upper arc plate integrally connected with the upper end of the rectangular plate and a lower arc plate integrally connected with the lower end of the rectangular plate, the upper arc plate and the lower arc plate enclose a semicircular-like cavity, and the semicircular-like cavity can accommodate the spherical structure; this arrangement allows the spherical structure to slide within the semi-circular-like cavity.

Further, a rectangular notch capable of accommodating the connecting column is arranged between the upper arc-shaped plate and the lower arc-shaped plate, the length of the rectangular notch is equal to that of the rectangular plate, and the width of the rectangular notch is smaller than the diameter of the spherical structure; this arrangement ensures that the moving structure does not fall out of the semi-circular-like cavity while sliding.

Further, the cover body is a cuboid cover, the length of the cuboid cover is the same as that of the cuboid box, the width of the cuboid cover is the same as that of the cuboid box, and the height of the cuboid cover is smaller than that of the cuboid box; the cuboid cover and the cuboid box are just matched.

Further, a lifting handle is arranged on the cuboid cover, and the lifting handle is arranged as an arc-shaped lifting handle; this arrangement facilitates opening of the cuboid cover without losing the hands of the operator.

Further, a locking fixing structure is arranged on the side wall of the cuboid cover.

Further, the locking fixing structure is provided with a rotary lock catch, and the rotary lock catch comprises a rotary lock arranged on the side wall of the cuboid box and a locking plate arranged on the cuboid cover; the cuboid cover and the cuboid box can be firmly fixed together through the arrangement of the rotary lock catch.

Further, a lock hole capable of accommodating the rotary lock is formed in the locking plate, the length of the lock hole is slightly larger than that of the rotary lock, and the width of the lock hole is smaller than that of the rotary lock; the arrangement can fix the rotating lock in the lock hole, so that the cuboid cover and the cuboid box can be fixed together.

Further, the connecting structure comprises a connecting pipe arranged on the cuboid cover, a rotating shaft arranged in the connecting pipe and a containing pipe arranged on the cuboid box and capable of containing the rotating shaft; the connecting pipe is integrally connected with the cuboid cover, the accommodating pipe is integrally connected with the cuboid box, and the rotating shaft is used for connecting the connecting pipe with the accommodating pipe in a combined mode; the cuboid cover and the cuboid box can be combined and connected, and the cuboid cover can rotate around the rotating shaft.

Further, the connecting pipe is a cylindrical connecting pipe, the rotating shaft is a cylindrical opening-shaped rotating shaft, and the accommodating pipe is a cylindrical accommodating pipe; this arrangement facilitates the rotation of the rectangular parallelepiped cover around the rotation axis.

Further, a semi-cylindrical groove is formed in the opposite side wall of the rectangular box, on which the window side wall is formed, the cylindrical accommodating tube is arranged in the semi-cylindrical groove, the upper end of the opening-shaped rotating shaft is arranged in the cylindrical connecting tube of the cover body, and the lower end of the opening-shaped rotating shaft is arranged in the cylindrical accommodating tube; the arrangement can enable the cuboid cover to be connected with the cuboid box in a combined mode, and the cuboid cover is opened or closed around the rotating shaft.

Further, the rabbit head accommodating hole comprises an arc hole arranged on the side wall of the cuboid box and an arc hole arranged on the cuboid cover, the length of the arc hole on the side wall of the cuboid box is larger than that of the cuboid cover, and the arc hole on the side wall of the cuboid box and the arc hole on the cuboid cover enclose a complete round hole; the cuboid covers are provided with the arc-shaped holes, and the arc-shaped holes can be well attached to the neck of a rabbit, so that the head of the rabbit is firmly fixed.

Further, a rabbit head fixing structure is arranged at the periphery of the rabbit head accommodating hole; this arrangement can further secure the rabbit head.

Further, the rabbit head fixing structure is arranged to be an arc-shaped rotating rod, the arc-shaped rotating rod comprises a rotating shaft arranged on the side wall of the cuboid box and an arc-shaped rod connected with the rotating shaft, and one end of the arc-shaped rod is connected with the rotating shaft in a combined mode.

Further, a movable fixing groove capable of accommodating the free end of the arc-shaped rod is formed in the side wall of the cuboid box; the movable fixing groove can fix the arc-shaped rotating rod, and the angle of the arc-shaped rotating rod can be changed by moving the position of the fixing groove, so that the size of the space for accommodating the rabbit head is changed.

Further, the movable fixing groove comprises an opening groove and an arc-shaped panel for the opening groove to move, and the opening groove is made of magnetic materials; the arc-shaped panel is arranged around the rabbit head accommodating hole and is made of magnetic materials; the magnetic action is generated between the open slot and the arc-shaped panel, so that the open slot is fixed on the arc-shaped panel, the position of the open slot can be optionally adjusted when the size of a space surrounded by the arc-shaped rotating rod and the rabbit head accommodating hole is required to be changed, and the operation is simple.

When the novel rabbit head box is used, firstly, the cuboid cover is opened, a rabbit is placed in the cuboid box, the position of the partition plate is adjusted by pushing and pulling the C-shaped push-pull rod which is similar to the reverse C shape, so that the accommodating space suitable for the rabbit is adjusted, the rabbit head is placed in the rabbit head accommodating hole, the rabbit head stretches out of the cuboid box, the rabbit head accommodating hole clamps the rabbit head, the arc-shaped rotating rod is placed in the open slot, the open slot changes the position by sliding on the arc-shaped panel, and the size of the space surrounded by the arc-shaped rotating rod and the rabbit head accommodating hole is changed, so that the novel rabbit head box is suitable for the head size of the rabbit; the handle is held to carry the handle and covers the cuboid lid on the cuboid box to fix the cuboid lid together with the cuboid box through rotating the lock, thereby fix the rabbit in the cuboid box.

Compared with the rabbit fixing device in the prior art, the technical scheme of the invention can be suitable for rabbits of various sizes, the size of the internal space of the rabbit fixing cage can be conveniently and rapidly adjusted by moving the partition plate, and the arc-shaped rotating rods around the rabbit head holes can be used for fixing the heads of rabbits of different sizes by adjusting the positions.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an adjustable experimental rabbit hutch;

FIG. 2 is a schematic diagram of the overall cross-sectional structure of an adjustable experimental rabbit cage of the invention;

FIG. 3 is a schematic diagram of the overall top view structure of the adjustable laboratory rabbit over-head with the cover removed;

fig. 4 is a schematic diagram of the overall cross-sectional structure of a cuboid box with a cover removed from an adjustable experimental rabbit-holding cage according to the present invention;

FIG. 5 is a schematic diagram of an enlarged structure of an adjustable experimental rabbit cage separator of the present invention;

FIG. 6 is an enlarged schematic view of the invention for adjusting the position of the threads on the transverse rod above the experimental rabbit cage and the window on the cuboid box;

FIG. 7 is a schematic cross-sectional view of a screw thread and screw thread post on a transverse rod above an adjustable laboratory rabbit cage of the present invention;

FIG. 8 is an enlarged schematic view of the experimental rabbit cage with adjustable position relationship between the chute and the spherical structure;

FIG. 9 is a schematic diagram of an overall enlarged structure of a rectangular cover of an adjustable laboratory rabbit fixed cage of the present invention;

fig. 10 is an enlarged schematic view of a connection structure between a cuboid cover and a cuboid box of an adjustable experimental rabbit fixing cage according to the present invention.

In the figure, 1, a cuboid box; 11. a rabbit head accommodation hole; 12. an arc-shaped rotating rod; 13. an open slot; 14. an arc panel; 15. a window; 16. a rotary lock; 17. a chute; 171. a rectangular notch; 18. a semi-cylindrical recess; 19. a cylindrical receiving tube; 191. a rotating shaft; 2. a rectangular parallelepiped cover; 21. a lifting handle; 22. a cylindrical connection tube; 23. a latch plate; 3. a partition plate; 31. a connecting column; 32. a spherical structure; 33. an upper transverse bar; 331. a thread; 332. a threaded column; 34. a lower transverse bar; 35. and (5) a vertical connecting rod.

Detailed Description

The following detailed description of the embodiments of the present invention will be made more apparent to those skilled in the art from the following detailed description, in which the invention is embodied in several, but not all, embodiments of the invention. The invention may be embodied or applied in other specific forms and features of the following examples and examples may be combined with each other without conflict, all other examples being contemplated by those of ordinary skill in the art without undue burden from the present disclosure, based on the examples of the invention.

The rotating lock catch in the technical scheme is the prior art which is disclosed, and is the same as the rotating lock catch principle on a single-shoulder bag or a double-shoulder bag in the market, the technical scheme does not make a specific structural diagram of the rotating lock catch, and the technical scheme can be understood and implemented by referring to the prior art, so that the technical scheme does not have the problem of insufficient disclosure.

Example 1 an Adjustable Experimental Rabbit fixing cage

The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole 11 which can accommodate a rabbit head is arranged on the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; through the setting of moving structure and slide, cut off the function that the structure can realize moving, when placing the rabbit, can be according to the different physique of rabbit, remove the structure of cutting off to different positions, thereby adapt to the physique of rabbit, then put the rabbit head in rabbit head accommodation hole 11 and fix, cover the lid in fixed cage main part, thereby fix the rabbit in fixed cage, carry out experimental operation easily after the rabbit head is fixed, need not special man fix the rabbit, thereby single can accomplish experimental operation, use manpower sparingly.

The fixing cage main body is provided with a hollow cuboid box 1; this arrangement facilitates placement of rabbits.

The partition structure is provided with square partition plates 3, and the side length of each partition plate 3 is smaller than the length of the short side of the cuboid box 1; the arrangement ensures that the top of the partition plate 3 is kept at a certain distance from the cover body, the bottom of the partition plate 3 is kept at a certain distance from the bottom of the cuboid box 1, and the left and right sides of the partition plate 3 are kept at a certain distance from the left and right side walls of the cuboid box 1, so that the partition plate 3 can move conveniently.

The movable structure comprises a connecting column 31 and a spherical structure 32, the connecting column 31 is integrally connected with the spherical structure 32, and the connecting column 31 is integrally connected with the partition plate 3; the spherical structure 32 has small friction force, saves more labor during movement and is convenient to operate.

The slideway for moving the moving structure is set as a chute 17, the chute 17 comprises a rectangular plate integrally connected with the side wall of the rectangular box 1, an upper arc plate integrally connected with the upper end of the rectangular plate and a lower arc plate integrally connected with the lower end of the rectangular plate, the upper arc plate and the lower arc plate enclose a semi-circular-like cavity, and the semi-circular-like cavity can accommodate the spherical structure 32; this arrangement allows the ball structure 32 to slide within the semi-circular-like cavity.

A rectangular notch 171 capable of accommodating the connecting post 31 is arranged between the upper arc plate and the lower arc plate, the length of the rectangular notch 171 is equal to that of the rectangular plate, and the width of the rectangular notch 171 is smaller than the diameter of the spherical structure 32; this arrangement ensures that the moving structure does not fall out of the semi-circular-like cavity while sliding.

The cover body is a cuboid cover 2, the length of the cuboid cover 2 is the same as that of the cuboid box 1, the width of the cuboid cover 2 is the same as that of the cuboid box 1, and the height of the cuboid cover 2 is smaller than that of the cuboid box 1; the cuboid cover 2 arranged in this way is exactly matched with the cuboid box 1.

The connecting structure comprises a connecting pipe arranged on the cuboid cover 2, a rotating shaft 191 arranged in the connecting pipe and a containing pipe arranged on the cuboid box 1 and capable of containing the rotating shaft 191; the connecting pipe is integrally connected with the cuboid cover 2, the accommodating pipe is integrally connected with the cuboid box 1, and the rotating shaft 191 is used for connecting the connecting pipe with the accommodating pipe in a combined mode; this arrangement allows the cuboid cover 2 to be combined with the cuboid box 1, and the cuboid cover 2 can rotate about the rotation shaft 191.

The connecting pipe is a cylindrical connecting pipe 22, the rotating shaft 191 is a cylindrical opening-shaped rotating shaft 191, and the accommodating pipe is a cylindrical accommodating pipe 19; this arrangement facilitates rotation of the rectangular parallelepiped cover 2 about the rotation axis 191.

A semi-cylindrical groove 18 is arranged on the opposite side wall of the rectangular box 1, which is provided with a window 15 side wall, a cylindrical accommodating pipe 19 is arranged in the semi-cylindrical groove 18, the upper end of a 'mouth' -shaped rotating shaft 191 is arranged in a cylindrical connecting pipe 22 of the cover body, and the lower end of the 'mouth' -shaped rotating shaft 191 is arranged in the cylindrical accommodating pipe 19; such an arrangement allows the rectangular parallelepiped cover 2 to be combined with the rectangular parallelepiped case 1, the rectangular parallelepiped cover 2 being opened or closed around the rotation shaft 191.

The rabbit head accommodating hole 11 comprises an arc hole formed in the side wall of the cuboid box 1 and an arc hole formed in the cuboid cover 2, the length of the arc hole in the side wall of the cuboid box 1 is larger than that of the cuboid cover 2, and the arc hole in the side wall of the cuboid box 1 and the arc hole in the cuboid cover 2 form a complete circular hole; the rectangular cover 2 is provided with the arc-shaped hole, and the arc-shaped hole can be well attached to the neck of a rabbit, so that the head of the rabbit is firmly fixed.

When the rabbit head fixing device is used, the cuboid cover 2 is firstly opened, a rabbit is placed in the cuboid box 1, the position of the baffle 3 is adjusted by the movable baffle 3, so that the accommodating space suitable for the rabbit is adjusted, the rabbit head is placed in the rabbit head accommodating hole 11, the rabbit head stretches out of the cuboid box 1, the rabbit head accommodating hole 11 clamps the rabbit head, the cuboid cover 2 is covered, and therefore the rabbit is fixed in the cuboid box 1.

Example 2 an Adjustable Experimental Rabbit fixing cage

The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole 11 which can accommodate a rabbit head is arranged on the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; through the setting of moving structure and slide, cut off the function that the structure can realize moving, when placing the rabbit, can be according to the different physique of rabbit, remove the structure of cutting off to different positions, thereby adapt to the physique of rabbit, then put the rabbit head in rabbit head accommodation hole 11 and fix, cover the lid in fixed cage main part, thereby fix the rabbit in fixed cage, carry out experimental operation easily after the rabbit head is fixed, need not special man fix the rabbit, thereby single can accomplish experimental operation, use manpower sparingly.

The fixing cage main body is provided with a hollow cuboid box 1; this arrangement facilitates placement of rabbits.

The partition structure is provided with square partition plates 3, and the side length of each partition plate 3 is smaller than the length of the short side of the cuboid box 1; the arrangement ensures that the top of the partition plate 3 is kept at a certain distance from the cover body, the bottom of the partition plate 3 is kept at a certain distance from the bottom of the cuboid box 1, and the left and right sides of the partition plate 3 are kept at a certain distance from the left and right side walls of the cuboid box 1, so that the partition plate 3 can move conveniently.

A push-pull structure is arranged on the side edge of the partition board 3; the partition plate 3 is moved through the push-pull structure, so that the operation is more convenient.

The push-pull structure is a reverse C-shaped push-pull rod and comprises a transverse rod and a vertical connecting rod 35, wherein the transverse rod comprises an upper transverse rod 33 and a lower transverse rod 34, and the transverse rod is integrally connected with the vertical connecting rod 35; the upper transverse rod 33 is integrally connected with the upper end of the partition plate 3, and the lower transverse rod 34 is integrally connected with the lower end of the partition plate 3; this arrangement allows smooth and labor-saving movement of the partition 3.

Threads 331 and a thread post 332 matching the threads 331 are provided on the upper and lower lateral rods 33 and 34; by fitting and tightening the screw post 332 with the screw 331, the partition 3 can be fixed, thereby fixing the rabbit well in the rectangular box 1.

The length of the thread 331 is greater than the thickness of the side wall of the cuboid box 1, and the thread 331 penetrates through the side wall of the cuboid box 1 and extends out of the cuboid box 1; this arrangement meets the requirements of the stationary partition 3.

The threaded column 332 is disposed outside the cuboid box 1, the threaded column 332 penetrates through the upper transverse rod 33 and the lower transverse rod 34, the inner diameter of the threaded column 332 is larger than the outer diameter of the transverse rod, and the outer diameter of the threaded column 332 is smaller than the length of the shortest side of the cuboid box 1; after the position of the partition 3 is determined, the screw post 332 is screwed with the screw 331, thereby fixing the partition 3.

A window 15 capable of accommodating the transverse rod is arranged on the side wall of the cuboid box 1, the length of the long side of the window 15 is smaller than that of the long side of the cuboid box 1, and the length of the short side of the window 15 is smaller than that of the outer diameter of the threaded column 332; the provision of the window 15 provides a moving space for the transverse rod and can meet the requirement of the screw post 332 fixation.

The movable structure comprises a connecting column 31 and a spherical structure 32, the connecting column 31 is integrally connected with the spherical structure 32, and the connecting column 31 is integrally connected with the partition plate 3; the spherical structure 32 has small friction force, saves more labor during movement and is convenient to operate.

The slideway for moving the moving structure is set as a chute 17, the chute 17 comprises a rectangular plate integrally connected with the side wall of the rectangular box 1, an upper arc plate integrally connected with the upper end of the rectangular plate and a lower arc plate integrally connected with the lower end of the rectangular plate, the upper arc plate and the lower arc plate enclose a semi-circular-like cavity, and the semi-circular-like cavity can accommodate the spherical structure 32; this arrangement allows the ball structure 32 to slide within the semi-circular-like cavity.

A rectangular notch 171 capable of accommodating the connecting post 31 is arranged between the upper arc plate and the lower arc plate, the length of the rectangular notch 171 is equal to that of the rectangular plate, and the width of the rectangular notch 171 is smaller than the diameter of the spherical structure 32; this arrangement ensures that the moving structure does not fall out of the semi-circular-like cavity while sliding.

The cover body is a cuboid cover 2, the length of the cuboid cover 2 is the same as that of the cuboid box 1, the width of the cuboid cover 2 is the same as that of the cuboid box 1, and the height of the cuboid cover 2 is smaller than that of the cuboid box 1; the cuboid cover 2 arranged in this way is exactly matched with the cuboid box 1.

The connecting structure comprises a connecting pipe arranged on the cuboid cover 2, a rotating shaft 191 arranged in the connecting pipe and a containing pipe arranged on the cuboid box 1 and capable of containing the rotating shaft 191; the connecting pipe is integrally connected with the cuboid cover 2, the accommodating pipe is integrally connected with the cuboid box 1, and the rotating shaft 191 is used for connecting the connecting pipe with the accommodating pipe in a combined mode; this arrangement allows the cuboid cover 2 to be combined with the cuboid box 1, and the cuboid cover 2 can rotate about the rotation shaft 191.

The connecting pipe is a cylindrical connecting pipe 22, the rotating shaft 191 is a cylindrical opening-shaped rotating shaft 191, and the accommodating pipe is a cylindrical accommodating pipe 19; this arrangement facilitates rotation of the rectangular parallelepiped cover 2 about the rotation axis 191.

A semi-cylindrical groove 18 is arranged on the opposite side wall of the rectangular box 1, which is provided with a window 15 side wall, a cylindrical accommodating pipe 19 is arranged in the semi-cylindrical groove 18, the upper end of a 'mouth' -shaped rotating shaft 191 is arranged in a cylindrical connecting pipe 22 of the cover body, and the lower end of the 'mouth' -shaped rotating shaft 191 is arranged in the cylindrical accommodating pipe 19; such an arrangement allows the rectangular parallelepiped cover 2 to be combined with the rectangular parallelepiped case 1, the rectangular parallelepiped cover 2 being opened or closed around the rotation shaft 191.

The rabbit head accommodating hole 11 comprises an arc hole formed in the side wall of the cuboid box 1 and an arc hole formed in the cuboid cover 2, the length of the arc hole in the side wall of the cuboid box 1 is larger than that of the cuboid cover 2, and the arc hole in the side wall of the cuboid box 1 and the arc hole in the cuboid cover 2 form a complete circular hole; the rectangular cover 2 is provided with the arc-shaped hole, and the arc-shaped hole can be well attached to the neck of a rabbit, so that the head of the rabbit is firmly fixed.

When the rabbit head box is used, the cuboid cover 2 is firstly opened, a rabbit is placed in the cuboid box 1, the position of the partition plate 3 is adjusted through the push-pull push rod like the reverse C, so that the accommodating space suitable for the rabbit is adjusted, the rabbit head is placed in the rabbit head accommodating hole 11, the rabbit head stretches out of the cuboid box 1, the rabbit head accommodating hole 11 clamps the rabbit head, the cuboid cover 2 is covered, and the rabbit is fixed in the cuboid box 1.

Example 3 an Adjustable Experimental Rabbit fixing cage

The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole 11 which can accommodate a rabbit head is arranged on the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; through the setting of moving structure and slide, cut off the function that the structure can realize moving, when placing the rabbit, can be according to the different physique of rabbit, remove the structure of cutting off to different positions, thereby adapt to the physique of rabbit, then put the rabbit head in rabbit head accommodation hole 11 and fix, cover the lid in fixed cage main part, thereby fix the rabbit in fixed cage, carry out experimental operation easily after the rabbit head is fixed, need not special man fix the rabbit, thereby single can accomplish experimental operation, use manpower sparingly.

The fixing cage main body is provided with a hollow cuboid box 1; this arrangement facilitates placement of rabbits.

The partition structure is provided with square partition plates 3, and the side length of each partition plate 3 is smaller than the length of the short side of the cuboid box 1; the arrangement ensures that the top of the partition plate 3 is kept at a certain distance from the cover body, the bottom of the partition plate 3 is kept at a certain distance from the bottom of the cuboid box 1, and the left and right sides of the partition plate 3 are kept at a certain distance from the left and right side walls of the cuboid box 1, so that the partition plate 3 can move conveniently.

A push-pull structure is arranged on the side edge of the partition board 3; the partition plate 3 is moved through the push-pull structure, so that the operation is more convenient.

The push-pull structure is a reverse C-shaped push-pull rod and comprises a transverse rod and a vertical connecting rod 35, wherein the transverse rod comprises an upper transverse rod 33 and a lower transverse rod 34, and the transverse rod is integrally connected with the vertical connecting rod 35; the upper transverse rod 33 is integrally connected with the upper end of the partition plate 3, and the lower transverse rod 34 is integrally connected with the lower end of the partition plate 3; this arrangement allows smooth and labor-saving movement of the partition 3.

Threads 331 and a thread post 332 matching the threads 331 are provided on the upper and lower lateral rods 33 and 34; by fitting and tightening the screw post 332 with the screw 331, the partition 3 can be fixed, thereby fixing the rabbit well in the rectangular box 1.

The length of the thread 331 is greater than the thickness of the side wall of the cuboid box 1, and the thread 331 penetrates through the side wall of the cuboid box 1 and extends out of the cuboid box 1; this arrangement meets the requirements of the stationary partition 3.

The threaded column 332 is disposed outside the cuboid box 1, the threaded column 332 penetrates through the upper transverse rod 33 and the lower transverse rod 34, the inner diameter of the threaded column 332 is larger than the outer diameter of the transverse rod, and the outer diameter of the threaded column 332 is smaller than the length of the shortest side of the cuboid box 1; after the position of the partition 3 is determined, the screw post 332 is screwed with the screw 331, thereby fixing the partition 3.

A window 15 capable of accommodating the transverse rod is arranged on the side wall of the cuboid box 1, the length of the long side of the window 15 is smaller than that of the long side of the cuboid box 1, and the length of the short side of the window 15 is smaller than that of the outer diameter of the threaded column 332; the provision of the window 15 provides a moving space for the transverse rod and can meet the requirement of the screw post 332 fixation.

The movable structure comprises a connecting column 31 and a spherical structure 32, the connecting column 31 is integrally connected with the spherical structure 32, and the connecting column 31 is integrally connected with the partition plate 3; the spherical structure 32 has small friction force, saves more labor during movement and is convenient to operate.

The slideway for moving the moving structure is set as a chute 17, the chute 17 comprises a rectangular plate integrally connected with the side wall of the rectangular box 1, an upper arc plate integrally connected with the upper end of the rectangular plate and a lower arc plate integrally connected with the lower end of the rectangular plate, the upper arc plate and the lower arc plate enclose a semi-circular-like cavity, and the semi-circular-like cavity can accommodate the spherical structure 32; this arrangement allows the ball structure 32 to slide within the semi-circular-like cavity.

A rectangular notch 171 capable of accommodating the connecting post 31 is arranged between the upper arc plate and the lower arc plate, the length of the rectangular notch 171 is equal to that of the rectangular plate, and the width of the rectangular notch 171 is smaller than the diameter of the spherical structure 32; this arrangement ensures that the moving structure does not fall out of the semi-circular-like cavity while sliding.

The cover body is a cuboid cover 2, the length of the cuboid cover 2 is the same as that of the cuboid box 1, the width of the cuboid cover 2 is the same as that of the cuboid box 1, and the height of the cuboid cover 2 is smaller than that of the cuboid box 1; the cuboid cover 2 arranged in this way is exactly matched with the cuboid box 1.

A lifting handle 21 is arranged on the cuboid cover 2, and the lifting handle 21 is an arc-shaped lifting handle 21; this arrangement facilitates opening of the rectangular parallelepiped cover 2 without losing the hands of the operator.

A locking and fixing structure is arranged on the side wall of the cuboid cover 2.

The locking fixing structure is a rotary lock 16 buckle, and the rotary lock 16 buckle comprises a rotary lock 16 arranged on the side wall of the cuboid box 1 and a locking plate 23 arranged on the cuboid cover 2; this arrangement of the rotation lock 16 can firmly fix the rectangular parallelepiped cover 2 and the rectangular parallelepiped case 1 together.

The locking plate 23 is provided with a locking hole capable of accommodating the rotary lock 16, the length of the locking hole is slightly larger than that of the rotary lock 16, and the width of the locking hole is smaller than that of the rotary lock 16; this arrangement secures the rotation lock 16 in the lock hole, ensuring that the rectangular parallelepiped cover 2 and the rectangular parallelepiped case 1 are secured together.

The connecting structure comprises a connecting pipe arranged on the cuboid cover 2, a rotating shaft 191 arranged in the connecting pipe and a containing pipe arranged on the cuboid box 1 and capable of containing the rotating shaft 191; the connecting pipe is integrally connected with the cuboid cover 2, the accommodating pipe is integrally connected with the cuboid box 1, and the rotating shaft 191 is used for connecting the connecting pipe with the accommodating pipe in a combined mode; this arrangement allows the cuboid cover 2 to be combined with the cuboid box 1, and the cuboid cover 2 can rotate about the rotation shaft 191.

The connecting pipe is a cylindrical connecting pipe 22, the rotating shaft 191 is a cylindrical opening-shaped rotating shaft 191, and the accommodating pipe is a cylindrical accommodating pipe 19; this arrangement facilitates rotation of the rectangular parallelepiped cover 2 about the rotation axis 191.

A semi-cylindrical groove 18 is arranged on the opposite side wall of the rectangular box 1, which is provided with a window 15 side wall, a cylindrical accommodating pipe 19 is arranged in the semi-cylindrical groove 18, the upper end of a 'mouth' -shaped rotating shaft 191 is arranged in a cylindrical connecting pipe 22 of the cover body, and the lower end of the 'mouth' -shaped rotating shaft 191 is arranged in the cylindrical accommodating pipe 19; such an arrangement allows the rectangular parallelepiped cover 2 to be combined with the rectangular parallelepiped case 1, the rectangular parallelepiped cover 2 being opened or closed around the rotation shaft 191.

The rabbit head accommodating hole 11 comprises an arc hole formed in the side wall of the cuboid box 1 and an arc hole formed in the cuboid cover 2, the length of the arc hole in the side wall of the cuboid box 1 is larger than that of the cuboid cover 2, and the arc hole in the side wall of the cuboid box 1 and the arc hole in the cuboid cover 2 form a complete circular hole; the rectangular cover 2 is provided with the arc-shaped hole, and the arc-shaped hole can be well attached to the neck of a rabbit, so that the head of the rabbit is firmly fixed.

When the novel rabbit is used, the cuboid cover 2 is firstly opened, a rabbit is placed in the cuboid box 1, the position of the partition plate 3 is adjusted through the push-pull rod which is similar to the reverse C-shaped push-pull rod, so that the accommodating space suitable for the rabbit is adjusted, the rabbit head is placed in the rabbit head accommodating hole 11, the rabbit head stretches out of the cuboid box 1, the rabbit head accommodating hole 11 clamps the rabbit head, the cuboid cover 2 is covered on the cuboid box 1 by holding the lifting handle 21, and the cuboid cover 2 and the cuboid box 1 are fixed together through the rotary lock 16, so that the rabbit is fixed in the cuboid box 1.

Example 4 an Adjustable Experimental Rabbit fixing cage

The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole 11 which can accommodate a rabbit head is arranged on the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; through the setting of moving structure and slide, cut off the function that the structure can realize moving, when placing the rabbit, can be according to the different physique of rabbit, remove the structure of cutting off to different positions, thereby adapt to the physique of rabbit, then put the rabbit head in rabbit head accommodation hole 11 and fix, cover the lid in fixed cage main part, thereby fix the rabbit in fixed cage, carry out experimental operation easily after the rabbit head is fixed, need not special man fix the rabbit, thereby single can accomplish experimental operation, use manpower sparingly.

The fixing cage main body is provided with a hollow cuboid box 1; this arrangement facilitates placement of rabbits.

The partition structure is provided with square partition plates 3, and the side length of each partition plate 3 is smaller than the length of the short side of the cuboid box 1; the arrangement ensures that the top of the partition plate 3 is kept at a certain distance from the cover body, the bottom of the partition plate 3 is kept at a certain distance from the bottom of the cuboid box 1, and the left and right sides of the partition plate 3 are kept at a certain distance from the left and right side walls of the cuboid box 1, so that the partition plate 3 can move conveniently.

A push-pull structure is arranged on the side edge of the partition board 3; the partition plate 3 is moved through the push-pull structure, so that the operation is more convenient.

The push-pull structure is a reverse C-shaped push-pull rod and comprises a transverse rod and a vertical connecting rod 35, wherein the transverse rod comprises an upper transverse rod 33 and a lower transverse rod 34, and the transverse rod is integrally connected with the vertical connecting rod 35; the upper transverse rod 33 is integrally connected with the upper end of the partition plate 3, and the lower transverse rod 34 is integrally connected with the lower end of the partition plate 3; this arrangement allows smooth and labor-saving movement of the partition 3.

Threads 331 and a thread post 332 matching the threads 331 are provided on the upper and lower lateral rods 33 and 34; by fitting and tightening the screw post 332 with the screw 331, the partition 3 can be fixed, thereby fixing the rabbit well in the rectangular box 1.

The length of the thread 331 is greater than the thickness of the side wall of the cuboid box 1, and the thread 331 penetrates through the side wall of the cuboid box 1 and extends out of the cuboid box 1; this arrangement meets the requirements of the stationary partition 3.

The threaded column 332 is disposed outside the cuboid box 1, the threaded column 332 penetrates through the upper transverse rod 33 and the lower transverse rod 34, the inner diameter of the threaded column 332 is larger than the outer diameter of the transverse rod, and the outer diameter of the threaded column 332 is smaller than the length of the shortest side of the cuboid box 1; after the position of the partition 3 is determined, the screw post 332 is screwed with the screw 331, thereby fixing the partition 3.

A window 15 capable of accommodating the transverse rod is arranged on the side wall of the cuboid box 1, the length of the long side of the window 15 is smaller than that of the long side of the cuboid box 1, and the length of the short side of the window 15 is smaller than that of the outer diameter of the threaded column 332; the provision of the window 15 provides a moving space for the transverse rod and can meet the requirement of the screw post 332 fixation.

The movable structure comprises a connecting column 31 and a spherical structure 32, the connecting column 31 is integrally connected with the spherical structure 32, and the connecting column 31 is integrally connected with the partition plate 3; the spherical structure 32 has small friction force, saves more labor during movement and is convenient to operate.

The slideway for moving the moving structure is set as a chute 17, the chute 17 comprises a rectangular plate integrally connected with the side wall of the rectangular box 1, an upper arc plate integrally connected with the upper end of the rectangular plate and a lower arc plate integrally connected with the lower end of the rectangular plate, the upper arc plate and the lower arc plate enclose a semi-circular-like cavity, and the semi-circular-like cavity can accommodate the spherical structure 32; this arrangement allows the ball structure 32 to slide within the semi-circular-like cavity.

A rectangular notch 171 capable of accommodating the connecting post 31 is arranged between the upper arc plate and the lower arc plate, the length of the rectangular notch 171 is equal to that of the rectangular plate, and the width of the rectangular notch 171 is smaller than the diameter of the spherical structure 32; this arrangement ensures that the moving structure does not fall out of the semi-circular-like cavity while sliding.

The cover body is a cuboid cover 2, the length of the cuboid cover 2 is the same as that of the cuboid box 1, the width of the cuboid cover 2 is the same as that of the cuboid box 1, and the height of the cuboid cover 2 is smaller than that of the cuboid box 1; the cuboid cover 2 arranged in this way is exactly matched with the cuboid box 1.

A lifting handle 21 is arranged on the cuboid cover 2, and the lifting handle 21 is an arc-shaped lifting handle 21; this arrangement facilitates opening of the rectangular parallelepiped cover 2 without losing the hands of the operator.

A locking and fixing structure is arranged on the side wall of the cuboid cover 2.

The locking fixing structure is a rotary lock 16 buckle, and the rotary lock 16 buckle comprises a rotary lock 16 arranged on the side wall of the cuboid box 1 and a locking plate 23 arranged on the cuboid cover 2; this arrangement of the rotation lock 16 can firmly fix the rectangular parallelepiped cover 2 and the rectangular parallelepiped case 1 together.

The locking plate 23 is provided with a locking hole capable of accommodating the rotary lock 16, the length of the locking hole is slightly larger than that of the rotary lock 16, and the width of the locking hole is smaller than that of the rotary lock 16; this arrangement secures the rotation lock 16 in the lock hole, ensuring that the rectangular parallelepiped cover 2 and the rectangular parallelepiped case 1 are secured together.

The connecting structure comprises a connecting pipe arranged on the cuboid cover 2, a rotating shaft 191 arranged in the connecting pipe and a containing pipe arranged on the cuboid box 1 and capable of containing the rotating shaft 191; the connecting pipe is integrally connected with the cuboid cover 2, the accommodating pipe is integrally connected with the cuboid box 1, and the rotating shaft 191 is used for connecting the connecting pipe with the accommodating pipe in a combined mode; this arrangement allows the cuboid cover 2 to be combined with the cuboid box 1, and the cuboid cover 2 can rotate about the rotation shaft 191.

The connecting pipe is a cylindrical connecting pipe 22, the rotating shaft 191 is a cylindrical opening-shaped rotating shaft 191, and the accommodating pipe is a cylindrical accommodating pipe 19; this arrangement facilitates rotation of the rectangular parallelepiped cover 2 about the rotation axis 191.

A semi-cylindrical groove 18 is arranged on the opposite side wall of the rectangular box 1, which is provided with a window 15 side wall, a cylindrical accommodating pipe 19 is arranged in the semi-cylindrical groove 18, the upper end of a 'mouth' -shaped rotating shaft 191 is arranged in a cylindrical connecting pipe 22 of the cover body, and the lower end of the 'mouth' -shaped rotating shaft 191 is arranged in the cylindrical accommodating pipe 19; such an arrangement allows the rectangular parallelepiped cover 2 to be combined with the rectangular parallelepiped case 1, the rectangular parallelepiped cover 2 being opened or closed around the rotation shaft 191.

The rabbit head accommodating hole 11 comprises an arc hole formed in the side wall of the cuboid box 1 and an arc hole formed in the cuboid cover 2, the length of the arc hole in the side wall of the cuboid box 1 is larger than that of the cuboid cover 2, and the arc hole in the side wall of the cuboid box 1 and the arc hole in the cuboid cover 2 form a complete circular hole; the rectangular cover 2 is provided with the arc-shaped hole, and the arc-shaped hole can be well attached to the neck of a rabbit, so that the head of the rabbit is firmly fixed.

A rabbit head fixing structure is arranged at the periphery of the rabbit head accommodating hole 11; this arrangement can further secure the rabbit head.

The rabbit head fixing structure is provided with an arc-shaped rotating rod 12, the arc-shaped rotating rod 12 comprises a rotating shaft arranged on the side wall of the cuboid box 1 and an arc-shaped rod connected with the rotating shaft, and one end of the arc-shaped rod is connected with the rotating shaft in a combined mode.

A movable fixing groove capable of accommodating the free end of the arc-shaped rod is formed in the side wall of the cuboid box 1; the movable fixing groove can fix the arc-shaped rotating rod 12, and the angle of the arc-shaped rotating rod 12 can be changed by moving the position of the fixing groove, so that the size of the space for accommodating the rabbit head is changed.

The movable fixing groove comprises an opening groove 13 and an arc-shaped panel 14 for the opening groove 13 to move, and the opening groove 13 is made of magnetic materials; the arc-shaped panel 14 is arranged around the rabbit head accommodating hole 11, and the arc-shaped panel 14 is made of magnetic materials; the magnetic action is generated between the open slot 13 and the arc-shaped panel 14, so that the open slot 13 is fixed on the arc-shaped panel 14, the position of the open slot 13 can be optionally adjusted when the size of the space enclosed by the arc-shaped rotating rod 12 and the rabbit head accommodating hole 11 is required to be changed, and the operation is simple.

When the novel rabbit head box is used, firstly, the cuboid cover 2 is opened, a rabbit is placed in the cuboid box 1, the position of the partition plate 3 is adjusted by pushing and pulling the C-shaped push-pull rod which is similar to the reverse C shape, so that the accommodating space suitable for the rabbit is adjusted, the rabbit head is placed in the rabbit head accommodating hole 11, the rabbit head stretches out of the cuboid box 1, the rabbit head accommodating hole 11 clamps the rabbit head, the arc-shaped rotating rod 12 is placed in the open slot 13, the open slot 13 changes the position by sliding on the arc-shaped panel 14, and the size of the space surrounded by the arc-shaped rotating rod 12 and the rabbit head accommodating hole 11 is changed, so that the novel rabbit head box is suitable for the head size of the rabbit; the handle 21 is held by hand to cover the cuboid cover 2 on the cuboid box 1, and the cuboid cover 2 and the cuboid box 1 are fixed together through the rotary lock 16, so that the rabbit is fixed in the cuboid box 1.

The above description of embodiments is only for the understanding of the present invention. It should be noted that it will be apparent to those skilled in the art that modifications can be made to the present invention without departing from the principles of the invention, and such modifications will fall within the scope of the claims.

Claims (2)

1. The utility model provides an adjustable experiment rabbit fixed cage, its includes a fixed cage main part, sets up the partition structure in fixed cage main part inside, sets up the lid in fixed cage main part upper portion, its characterized in that, set up the moving structure on the partition structure, fixed cage main part inside sets up the slide that supplies the moving structure to remove; a rabbit head accommodating hole (11) capable of accommodating a rabbit head is formed in the side wall of one side of the fixed cage main body; the cover body is connected with the fixing cage main body in a combined manner through a connecting structure; the movable structure is integrally connected with the partition structure, the slideway for the movable structure to move is integrally connected with the fixed cage main body, and the movable structure is combined and connected with the slideway; the fixing cage main body is provided with a hollow cuboid box (1); the partition structure is a square partition plate (3), the side length of the partition plate (3) is smaller than the length of the short side of the cuboid box (1), a push-pull structure is arranged on the side edge of the partition plate (3), the push-pull structure is an inverse C-shaped push-pull rod and comprises a transverse rod and a vertical connecting rod (35), the transverse rod comprises an upper transverse rod (33) and a lower transverse rod (34), and the transverse rod is integrally connected with the vertical connecting rod (35); the upper transverse rod (33) is integrally connected with the upper end of the partition board (3), the lower transverse rod (34) is integrally connected with the lower end of the partition board (3), threads (331) are arranged on the upper transverse rod (33) and the lower transverse rod (34), and a threaded column (332) matched with the threads (331); a window (15) capable of accommodating the transverse rod is arranged on the side wall of the cuboid box (1), the length of the long side of the window (15) is smaller than that of the long side of the cuboid box (1), and the length of the short side of the window (15) is smaller than that of the outer diameter of the threaded column (332); the movable structure comprises a connecting column (31) and a spherical structure (32), the connecting column (31) is integrally connected with the spherical structure (32), and the connecting column (31) is integrally connected with the partition board (3); the slideway for the moving structure to move is arranged as a chute (17), the chute (17) comprises a rectangular plate integrally connected with the side wall of the cuboid box (1), an upper arc plate integrally connected with the upper end of the rectangular plate and a lower arc plate integrally connected with the lower end of the rectangular plate, a semicircular cavity is formed by the rectangular plate, the upper arc plate and the lower arc plate in a surrounding mode, and the semicircular cavity can accommodate the spherical structure (32); rectangular notches (171) capable of accommodating the connecting columns (31) are arranged between the upper arc-shaped plates and the lower arc-shaped plates, the length of each rectangular notch (171) is equal to that of each rectangular plate, and the width of each rectangular notch (171) is smaller than the diameter of each spherical structure (32).

2. The adjustable experimental rabbit-hutch according to claim 1, wherein a rabbit-head fixing structure is arranged at the periphery of the rabbit-head accommodating hole (11); the rabbit head fixing structure is an arc-shaped rotating rod (12), the arc-shaped rotating rod (12) comprises a rotating shaft arranged on the side wall of the cuboid box (1) and an arc-shaped rod connected with the rotating shaft, and one end of the arc-shaped rod is connected with the rotating shaft in a combined manner; a movable fixing groove capable of accommodating the free end of the arc-shaped rod is formed in the side wall of the cuboid box (1), the movable fixing groove comprises an opening groove (13) and an arc-shaped panel (14) for the opening groove (13) to move, and the opening groove (13) is made of a magnetic material; the arc-shaped panel (14) is arranged around the rabbit head accommodating hole (11), and the arc-shaped panel (14) is made of magnetic materials; the open slot (13) and the arc-shaped panel (14) generate magnetic action so as to fix the open slot (13) on the arc-shaped panel (14).