CN214628928U - Multifunctional feeding box for experimental mice - Google Patents

Abstract

The utility model discloses a multifunctional feeding box for experimental mice, which comprises a frame body and a box body, wherein the frame body comprises a bottom plate, a supporting frame, a first back plate, a second back plate and a sub-frame group, the upper part of the bottom plate is connected with the supporting frame capable of lifting through a supporting rod, two sides of the supporting frame are respectively connected with a plurality of rows of sub-frame groups through the first back plate and the second back plate, and each sub-frame group consists of at least four sub-frames; the box body comprises a first box body and a second box body, the first box body is composed of twelve sub-box bodies, a plurality of sub-frames on the first back plate are respectively sleeved in the corresponding sub-box bodies one by one, the front end surfaces of the sub-box bodies are respectively provided with a hinged box door, the lower part of each sub-box body is provided with a movable accommodating drawer, and the sub-frames can be accommodated in the accommodating drawers; the second box and the first box are symmetrically arranged, a plurality of sub-frames on the second back plate are respectively sleeved in the sub-boxes corresponding to the second box one by one, the operation support frame ascends, all mice on the sub-frames are integrally extracted, then the holding drawer is pulled out, and padding is replaced.

Description

Multifunctional feeding box for experimental mice

Technical Field

The utility model belongs to the technical field of animal experiment apparatus, concretely relates to experimental mouse is with multi-functional case of raising.

Background

As an excellent animal experiment model, the mouse has the advantages of high reproduction rate, low feeding cost, good experiment effect and the like, and is often used as an experimental object in research works of universities and scientific research institutions, so the accuracy of an experiment result is directly determined by the quality of the feeding environment of the mouse.

The existing laboratory mouse breeding cage has a single structure, and the excessively and intensively bred mice are easy to bite mutually to cause disease transmission, and are not beneficial to the classification and management of mice of different treatment groups; the existing laboratory mouse rearing cage has a simple and crude structure, and when mice of various treatment groups are reared, a plurality of rearing cages are required to be prepared to classify the mice, so that the cost is high; the existing laboratory mouse feeding cage is complex to operate when padding is replaced, and a mouse needs to be replaced after being completely taken out, so that the stress reaction of the mouse is easily caused.

SUMMERY OF THE UTILITY MODEL

Change bedding and padding to the existence of prior art need snatch alone, complex operation's technical problem, the utility model provides an experimental mouse is with multi-functional case of raising.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a multifunctional feeding box for experimental mice comprises a frame body and a box body, wherein the frame body comprises a bottom plate, a supporting frame, a first back plate, a second back plate and a sub-frame group, a lifting support frame is connected above the bottom plate through a support rod, two sides of the support frame are respectively connected with the first back plate and the second back plate, the front end of the first back plate is connected with at least three rows of sub-frame groups, each row of sub-frame group is formed by at least four sub-frames which are distributed at intervals, the sub-frame comprises two side plates, a bottom railing plate and a feeding cage, the two side plates are fixedly connected through the bottom railing plate, the feeding cage is also connected between the two side plates, the feeding cages are distributed above the bottom baffle plate, the first back plate is provided with feeding ports communicated with the inside of the feeding cages, at least three rows of sub-frame groups are also fixedly connected to the second back plate, and the sub-frame groups on the second back plate and the sub-frame groups on the first back plate are symmetrically arranged; the box body comprises a first box body and a second box body, the first box body comprises at least twelve integrally formed branch box bodies, the rear end face of each branch box body is provided with a sleeve joint which is abutted against the first back plate, a plurality of branch frames on the first back plate are respectively sleeved in the corresponding branch box bodies one by one, the front end faces of the branch box bodies are hinged with box doors, the lower part of each branch box body is provided with a movable accommodating drawer, and the support frame moves downwards to accommodate the branch frames in the accommodating drawers; the second box body is the same as the first box body in structure and symmetrically distributed at intervals, and the plurality of sub-frames on the second back plate are respectively sleeved in the sub-box bodies corresponding to the second box body one by one.

Further, the support frame includes two montants and a horizontal pole, two the montant respectively with first backplate and second backplate rigid coupling, and the perpendicular to the bottom plate sets up, two the top rigid coupling of montant has the horizontal pole of vertical distribution, be equipped with the locking piece on the horizontal pole, thereby will the support frame with the box locking, the locking piece includes bolt and location jack, the bolt is installed on the horizontal pole, the location jack distributes on first backplate or second backplate, the bolt is followed wear out in the location jack and stretch into in the box, thereby will move about the support frame with the box locking.

Further, two still be connected with the briquetting between the montant, the briquetting is located the below of horizontal pole, the briquetting is equipped with the connector, the bracing piece cup joints in this connector, and the briquetting can be followed the bracing piece is vertical reciprocates the bracing piece outer wall is worn to be equipped with spring distribution in the below of briquetting.

Further, the support frame is equipped with threely at least, and is equidistant interval distribution, the bracing piece also is equipped with threely at least, and is a plurality of the bracing piece is with a plurality of the support frame passes through respectively briquetting one-to-one swing joint.

Further, the curb plate is "L" type structure, after the spring return, the top of curb plate with the interval between the branch box body top surface is 1 ~ 2cm, its bottom with the interval between the holding drawer top is 1 ~ 2cm, its preceding terminal surface with the interval between the branch box body lateral wall is 1 ~ 2 cm.

Further, the bottom surface of the feeding cage is an inclined surface.

Furthermore, at least three vertical partition plates and at least three transverse partition plates are arranged in the first box body, the vertical partition plates and the transverse partition plates are connected in a staggered mode, so that the first box body is divided into twelve independent sub-box bodies, and the outer wall of the box door is fixedly connected with an arc-shaped handle.

Furthermore, every the observation window has all been seted up on the holding drawer, the terminal surface is equipped with two relative inserted blocks before the observation window, the inserted block with holding drawer rigid coupling, every the slot has all been seted up in the inserted block, and it has picture peg control to peg graft in this slot opening or closing of observation window.

Furthermore, a handle is further arranged on one side of each observation window, and the handle is fixedly connected with the containing drawer.

To sum up, the beneficial effects of the utility model are that: after the sub-frame is accommodated in the accommodating drawer, the mouse can be placed on the sub-frame in the accommodating drawer by opening the box door, the first box body and the second box body are divided into 12 sub-box bodies, namely the box bodies are divided into 24 sub-box bodies, and the cage feeding of a plurality of mice can be realized; the feeding cage is an independent small cage, water can be fed to the mice from the feeding through hole to reduce the contact of the mice, and the feeding through hole is equivalent to the ventilation hole of the mice in the box; the operation support frame rises, and all mice on the branch frame are by integral extraction, then take out the holding drawer, change the bedding and padding, and the holding drawer is convenient for collect mouse excrement and urine very much, and integral the mouse of snatching like this separates the mouse and changes the bedding and padding by adopting contactless mode, can avoid the mouse to scratch the testing personnel, and contactless also can avoid amazing mouse in addition, arouse stress response, convenient and fast's operation is changed the bedding and padding, improves work efficiency.

Drawings

Fig. 1 is a schematic structural view of a multifunctional feeding box for experimental mice.

Fig. 2 is a schematic view of the structure of fig. 1 in which the housing is assembled in a case.

Fig. 3 is a side view of fig. 1.

Fig. 4 is a schematic structural view of the support frame in fig. 3 in a raised state.

Fig. 5 is a schematic perspective view of the middle support frame of the present invention.

Fig. 6 is a schematic perspective view of the middle frame body of the present invention.

Fig. 7 is a side view of fig. 6.

Fig. 8 is a schematic structural view of another embodiment of the frame body of the present invention.

In the drawing, 100-frame body, 110-bottom plate, 111-driving motor, 120-support frame, 121-vertical rod, 122-cross rod, 123-pressing block, 1230-connecting port, 130-first back plate, 131-feeding port, 140-second back plate, 150-sub-frame group, 151-sub-frame, 1510-side plate, 1511-bottom breast board, 1512-feeding cage, 200-box body, 210-first box body, 220-second box body, 230-sub-box body, 231-box door, 2310-handle, 240-containing drawer, 241-handle, 242-insert block, 243-observation window, 300-insert plate, 400-supporting rod, 500-spring, 600-locking piece and 610-bolt.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

As shown in fig. 1-4, the utility model provides a multifunctional feeding box for experimental mice, which comprises a frame body 100 and a box body 200. The frame body 100 includes a base plate 110, a supporting frame 120, a first backboard 130, a second backboard 140 and a sub-frame group 150, the supporting frame 120 capable of being lifted is connected to the upper side of the base plate 110 through a supporting rod 400, and two sides of the supporting frame 120 are respectively connected to the first backboard 130 and the second backboard 140. The front end of the first back plate 130 is connected with at least three rows of sub-frame groups 150, and each row of the sub-frame groups 150 is formed by at least four sub-frames 151 which are distributed at intervals. The sub-frame 151 comprises two side plates 1510, a bottom fence plate 1511 and a feeding cage 1512, the two side plates 1510 are fixedly connected with each other through the bottom fence plate 1511, the feeding cage 1512 is also connected between the two side plates 1510, the feeding cage 1512 is distributed above the bottom fence plate 1511, and a feeding port 131 is formed in the first back plate 130 and is communicated with the inside of the feeding cage 1512. At least three rows of the sub-frame groups 150 are also fixed to the second back plate 140, and the sub-frame groups 150 on the second back plate 140 and the sub-frame groups 150 on the first back plate 130 are symmetrically arranged. The box 200 includes a first box 210 and a second box 220, and the first box 210 includes at least twelve integrally formed sub-boxes 230. A socket (not shown) is disposed on a rear end surface of each of the branch box bodies 230 to abut against the first back plate 130, and the plurality of branch frames 151 on the first back plate 130 are respectively sleeved in the corresponding branch box bodies 230 one by one. The front end surfaces of the sub-boxes 230 are hinged with doors 231, a movable accommodating drawer 240 is arranged at the lower part of each sub-box 230, and the sub-rack 151 can be accommodated in the accommodating drawer 240 by moving the support frame 120 downwards. The second box 220 has the same structure as the first box 210 and is symmetrically distributed at intervals, and the plurality of sub-frames 151 on the second back plate 140 are respectively sleeved in the sub-boxes 230 corresponding to the second box 220 one by one.

By adopting the structure, the box body 200 is preferably made of transparent materials, after the sub-frame 151 is accommodated in the accommodating drawer 240, the mouse can be placed on the sub-frame 151 in the accommodating drawer 240 by opening the box door 231, the first box body 210 and the second box body 220 are divided into 12 sub-box bodies 230, namely the box body 200 is divided into 24 sub-box bodies 230, and the cage feeding of a plurality of mice can be realized; the feeding cage 1512 is a single small cage, water and food can be fed to the mouse from the feeding port 131, contact to the mouse is reduced, and the feeding port 131 is equivalent to an air vent of the mouse in the cage; the operation support frame 120 rises, all mice on the sub-frame 151 are integrally extracted, then the accommodating drawer 240 is taken out, padding is replaced, the accommodating drawer 240 is very convenient for collecting mouse excrement, the mice are integrally grabbed like this, the padding is replaced by separating the mice in a non-contact mode, the experiment personnel can be prevented from being scratched by the mice, the mice can be prevented from being stimulated in a non-contact mode, stress reaction is caused, the padding is conveniently and quickly replaced through operation, and the working efficiency is improved.

As an alternative embodiment, as shown in fig. 1, 7 and 5, the supporting frame 120 includes two vertical bars 121 and a cross bar 122, and the two vertical bars 121 are fixedly connected to the first back plate 130 and the second back plate 140 respectively and are perpendicular to the bottom plate 110. The top ends of the two vertical rods 121 are fixedly connected with cross rods 122 which are vertically distributed, and locking pieces 600 are arranged on the cross rods 122, so that the supporting frame 120 and the box body 200 are locked. The locking member 600 includes a latch 610 and a positioning insertion hole (not shown), the latch 610 is mounted on the cross bar 122, the positioning insertion hole is distributed on the first back plate 130 or the second back plate 140, and the latch 610 protrudes from the positioning insertion hole and extends into the box body 200, so as to lock the movable supporting frame 120 with the box body 200. Two still be connected with briquetting 123 between montant 121, briquetting 123 is located the below of horizontal pole 122, briquetting 123 is equipped with connector 1230, bracing piece 400 cup joints in this connector 1230, and briquetting 123 can be followed the vertical reciprocating of bracing piece 400 the outer wall of bracing piece 400 is worn to be equipped with spring 500 and is distributed in the below of briquetting 123. When the supporting frame 120 moves downwards, the pressing block 123 presses the spring 500, the sub-frame 151 moves towards the accommodating drawer 240, the bolt 610 is inserted into the positioning insertion hole in the first back plate 130 or the second back plate 140, then the first box 210 or the second box 220 is inserted, the moving supporting frame 120 is locked, therefore, the sub-frame 151 is stably placed into the accommodating drawer 240 all the time, after the bolt 610 is opened, the spring 500 returns, the mouse can be easily and integrally taken out, and time and labor are saved.

The rack body 100 is preferably made of stainless steel, after being electrified, the rack body can carry out electric shock on the mice on the bottom railing panel 1511, hang on the supporting frame 120 or place physical stimulators such as sound, light and the like in the feeding cage 1512, and stimulate the experimental mice in the cage by various stress sources, so the feeding cage can be used as a stress cage.

As shown in fig. 8, in another embodiment, a driving motor 111 is disposed in the bottom plate 110, the supporting rod 400 is an electric telescopic rod connected to the driving motor 111, the electric telescopic rod is fixedly connected to the cross bar 122, the driving motor 111 is started, the electric telescopic rod automatically extends and retracts, the lifting of the supporting frame 120 is automatically controlled, and the operation is more convenient.

As shown in fig. 5, at least three support frames 120 are provided and are distributed at equal intervals, and at least three support rods 400 are provided, and the plurality of support rods 400 and the plurality of support frames 120 are respectively movably connected in a one-to-one correspondence manner through the pressing blocks 123. The first back plate 130 and the second back plate 140 can be supported in a balanced manner, the stability is increased, and the load-bearing effect is better.

Curb plate 1510 is "L" type structure, after spring 500 return, the top of curb plate 1510 with divide the interval between the box 230 top surface to be 1 ~ 2cm, its bottom with the interval between the holding drawer 240 top is 1 ~ 2cm, its preceding terminal surface with divide the interval between the box 230 lateral wall to be 1 ~ 2 cm. The mouse is drilled out of the part void after the support frame 120 is prevented from rising.

As shown in FIG. 6, the bottom surface of the feeding cage 1512 is an inclined surface, so that the feeding bottle bodies can be easily caught in the gaps of the feeding cage 1512.

Each accommodating drawer 240 is provided with an observation window 243, the front end surface of the observation window 243 is provided with two opposite insertion blocks 242, and the insertion blocks 242 are fixedly connected with the accommodating drawer 240. Each of the insert blocks 242 has a slot therein, and an insert plate 300 is inserted into the slot to control the opening or closing of the observation window 243. If the box body 200 is made of opaque materials, the condition of the experimental mouse can be observed from the observation window 243, the inserting plate 300 can be used as a cage plate to record the basic information of the mouse, and the condition of feeding the mouse in each cage can be accurately known.

At least three vertical partition plates and at least three transverse partition plates are arranged in the first box body 210, and the vertical partition plates and the transverse partition plates are connected in a staggered manner, so that the first box body 210 is divided into twelve independent branch box bodies 230, and the outer wall of the box door 231 is further fixedly connected with an arc-shaped handle 2310. The door 231 is opened conveniently, and the handle 2310 of the first box 210 and the second box 220 is held after the door 231 is locked, so that the whole feeding box can be moved conveniently. A handle 241 is further disposed on one side of each observation window 243, the handle 241 is fixedly connected to the accommodating drawer 240, and the handle 241 is held to facilitate opening or closing of the accommodating drawer 240.

The above is only the embodiment of the present invention, not the limitation of the patent scope of the present invention, all the equivalent structures made by the contents of the specification and the drawings are directly or indirectly applied to other related technical fields, all the same principle is within the patent protection scope of the present invention.

Claims (9)

1. The utility model provides a experimental mouse is with multi-functional case of raising which characterized in that: comprises a frame body and a box body, wherein the frame body comprises a bottom plate, a supporting frame, a first back plate, a second back plate and a sub-frame group, a lifting support frame is connected above the bottom plate through a support rod, two sides of the support frame are respectively connected with the first back plate and the second back plate, the front end of the first back plate is connected with at least three rows of sub-frame groups, each row of sub-frame group is formed by at least four sub-frames which are distributed at intervals, the sub-frame comprises two side plates, a bottom railing plate and a feeding cage, the two side plates are fixedly connected through the bottom railing plate, the feeding cage is also connected between the two side plates, the feeding cages are distributed above the bottom baffle plate, the first back plate is provided with feeding ports communicated with the inside of the feeding cages, at least three rows of sub-frame groups are also fixedly connected to the second back plate, and the sub-frame groups on the second back plate and the sub-frame groups on the first back plate are symmetrically arranged; the box body comprises a first box body and a second box body, the first box body comprises at least twelve integrally formed branch box bodies, the rear end face of each branch box body is provided with a sleeve joint which is abutted against the first back plate, a plurality of branch frames on the first back plate are respectively sleeved in the corresponding branch box bodies one by one, the front end faces of the branch box bodies are hinged with box doors, the lower part of each branch box body is provided with a movable accommodating drawer, and the support frame moves downwards to accommodate the branch frames in the accommodating drawers; the second box body is the same as the first box body in structure and symmetrically distributed at intervals, and the plurality of sub-frames on the second back plate are respectively sleeved in the sub-box bodies corresponding to the second box body one by one.

2. The multifunctional feeding box for the experimental mouse as claimed in claim 1, wherein: the support frame includes two montants and a horizontal pole, two the montant respectively with first backplate and second backplate rigid coupling, and perpendicular to the bottom plate sets up, two the top rigid coupling of montant has the horizontal pole of vertical distribution, be equipped with the locking piece on the horizontal pole, thereby will the support frame with the box locking, the locking piece includes bolt and location jack, the bolt is installed on the horizontal pole, the location jack distributes on first backplate or second backplate, the bolt is followed wear out in the location jack and stretch into in the box, thereby will move about the support frame with the box locking.

3. The multifunctional feeding box for the experimental mouse as claimed in claim 2, wherein: two still be connected with the briquetting between the montant, the briquetting is located the below of horizontal pole, the briquetting is equipped with the connector, the bracing piece cup joints in this connector, and the briquetting can be followed the vertical reciprocating of bracing piece the bracing piece outer wall is worn to be equipped with spring distribution in the below of briquetting.

4. The multifunctional feeding box for the experimental mouse as claimed in claim 3, wherein: the support frame is equipped with threely at least, and is equidistant interval distribution, the bracing piece is also equipped with threely at least, and is a plurality of bracing piece and a plurality of the support frame passes through respectively briquetting one-to-one swing joint.

5. The multifunctional feeding box for the experimental mouse as claimed in claim 3, wherein: the curb plate is "L" type structure, after the spring return, the top of curb plate with the interval between the branch box top surface is 1 ~ 2cm, its bottom with the interval between the holding drawer top is 1 ~ 2cm, its preceding terminal surface with the interval between the branch box lateral wall is 1 ~ 2 cm.

6. The multifunctional feeding box for the experimental mouse as claimed in claim 1, wherein: the bottom surface of the feeding cage is an inclined surface.

7. The multifunctional feeding box for the experimental mouse as claimed in claim 1, wherein: at least three vertical partition plates and at least three transverse partition plates are arranged in the first box body, the vertical partition plates and the transverse partition plates are connected in a staggered mode, so that the first box body is divided into twelve independent sub-box bodies, and the outer wall of the box door is fixedly connected with an arc-shaped handle.

8. The multifunctional feeding box for the experimental mouse as claimed in claim 1, wherein: every all seted up the observation window on the holding drawer, the terminal surface is equipped with two relative inserted blocks before the observation window, the inserted block with holding drawer rigid coupling, every the slot has all been seted up in the inserted block, and it has picture peg control to peg graft in this slot opening or closing of observation window.

9. The multifunctional feeding box for the experimental mouse as claimed in claim 8, wherein: and a handle is further arranged on one side of each observation window and fixedly connected with the containing drawer.

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