CN111264404A

CN111264404A - Integration equipment for detecting multiple behaviors of mouse through multiple channels

Info

Publication number: CN111264404A
Application number: CN202010103784.6A
Authority: CN
Inventors: 宋锦锦; 付燕燕; 温相如; 崔苗苗; 陈玉玲; 冯潜; 张震; 刘丹
Original assignee: Xuzhou Medical University
Current assignee: Xuzhou Medical University
Priority date: 2020-02-20
Filing date: 2020-02-20
Publication date: 2020-06-12
Anticipated expiration: 2040-02-20
Also published as: CN111264404B

Abstract

The invention provides an integration device for detecting multiple behaviors of a mouse by multiple channels, which is characterized in that: the splicing device comprises a box body, a first accommodating space, a second accommodating space, a containing device, a first movable unit, a second movable unit and a rotating unit, wherein the splicing device is arranged on the box body, the first accommodating space and the second accommodating space are respectively formed by the box body in a concave mode, the first movable unit is movably arranged in the first accommodating space, the second movable unit is movably arranged in the second accommodating space, the rotating unit is movably connected with the box body, and the first movable unit is movably connected with the second movable unit; the storage device is formed by sinking from the other side of the box body, and the storage device is suitable for the splicing device.

Description

Integration equipment for detecting multiple behaviors of mouse through multiple channels

Technical Field

The invention relates to the technical field of test equipment, in particular to an integration device for multi-channel detection of multiple behaviors of a mouse.

Background

With the development of modern science and technology, the living environment and the living mode of human beings are greatly changed, and neuropsychiatric diseases such as depression, anxiety, sleep disorder and degenerative diseases are gradually becoming the first killers harming the physical and mental health of human beings. Therefore, the domestic and foreign scientific community highly attaches importance to the pathogenesis of the disease, attempts to find effective prevention and treatment measures, and animal behaviors are important function embodiments of the mechanism, conditions of all aspects of experimental animals can be well known through animal behaviors, and assessment of the behavior effect is one of important components in the field of neuroscience research.

The animal behavior is adopted to discover and evaluate the neuropsychiatric disease medicine, so that the animal behavior detection method has the characteristics of being more comprehensive, reliable and accurate, and is widely applied to the international scientific community.

However, in the current animal ethology experiment, the ethology device is often a single channel with low efficiency, inconvenient to clean and disassemble, and inconvenient to disassemble and assemble, and occupies more space in the laboratory.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

Therefore, the technical problem to be solved by the present invention is to overcome the defects in the prior art, and to provide an integrated device for multi-channel detection of mouse multiple behaviors.

In order to solve the technical problems, the invention provides the following technical scheme: an integrated device for multi-channel detection of multiple behaviors of a mouse, characterized in that: the splicing device comprises a box body, a first accommodating space, a second accommodating space, a containing device, a first movable unit, a second movable unit and a rotating unit, wherein the splicing device is arranged on the box body, the first accommodating space and the second accommodating space are respectively formed by the box body in a concave mode, the first movable unit is movably arranged in the first accommodating space, the second movable unit is movably arranged in the second accommodating space, the rotating unit is movably connected with the box body, and the first movable unit is movably connected with the second movable unit;

the storage device is formed by sinking from the other side of the box body, and the storage device is suitable for the splicing device.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the first movable unit further comprises a first elastic component, one end of the first elastic component is fixedly connected with the first movable unit, and the other end of the first elastic component is fixedly connected with one surface of the first accommodating space;

the second movable unit further comprises a second elastic component, one end of the second elastic component is fixedly connected with one surface of the second movable unit, and the other end of the second elastic component is fixedly connected with one surface of the second accommodating space.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the box body further comprises a protruding device, the protruding device protrudes from one side of the box body, a first through groove is formed in the protruding device, and the first through groove is suitable for the rotating unit;

the second movable unit further comprises a second through groove and a third through groove, the second through groove and the third through groove are formed by penetrating through the inside of the second movable unit, and the third through groove is suitable for the rotating unit;

the first movable unit further comprises a first groove, the first groove is formed by recessing one surface of the first movable unit, and an inclined surface formed by the first groove is suitable for an inclined surface formed by the second through hole.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the splicing device further comprises a fastening unit d, and the fastening unit d is in threaded connection with the box body.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the opening and closing device comprises a moving unit and a switch unit, the moving unit is movably arranged on the box body, the switch unit is movably arranged on the box body, and the switch unit is movably connected with the moving unit.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the box body also comprises a limiting device which is formed by protruding from the surface of the box body; the moving unit comprises a first moving part, a second moving part and a connecting part, wherein the first connecting part and the second connecting part are connected through the connecting part, the connecting part penetrates through the limiting device, and the connecting part is movably connected with the limiting device.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the second moving part further comprises a first engagement assembly fixedly arranged on the second moving part; the switch unit further comprises a second engaging part, a fitting part and a communicating part, wherein the second engaging part and the fitting part are fixedly connected through the communicating part, the communicating part penetrates through the box body, and the fitting part is suitable for the width of the box body.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the opening and closing device further comprises a first pressing unit, one end of the first pressing unit is in contact with the limiting device, the other end of the first pressing unit is in contact with the first moving part, and the first pressing unit is arranged on the connecting part.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the box body is also provided with a third accommodating space, and the third accommodating space is formed by sinking from one surface of the box body; the opening and closing device further comprises an ejecting unit, the ejecting unit is provided with an ejecting part and a third elastic part, the ejecting unit is arranged in the third accommodating space, one end of the third elastic part is in contact with one end of the ejecting part, and the other end of the third elastic part is in contact with one surface of the third accommodating space;

the first moving part is provided with a second groove, the second groove is formed by sinking from one surface of the first moving part, and the ejecting part is suitable for the second groove.

As a preferred embodiment of the multi-channel integrated device for detecting multiple behaviors of mice, the invention provides: the first connecting part is also provided with a through hole which is formed by sinking from one surface of the first connecting part;

the opening and closing device further comprises a pressing unit, the pressing unit is movably arranged on the first connecting component, one end of the pressing unit extends out of the through hole, and the pressing unit is suitable for the through hole.

The invention has the beneficial effects that:

1. the invention provides an integration device for detecting multiple behaviors of a mouse through multiple channels, wherein the splicing device and the storage device are matched to enable the whole device to be simply spliced, channels meeting the test requirements are spliced between every two devices, and meanwhile, the device is detached in time after being used, so that the device is convenient to clean, the preparation and cleaning time of experimenters is saved, and the use efficiency is improved.

2. The invention provides an integration device for detecting multiple behaviors of a mouse through multiple channels.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

FIG. 1 is a schematic diagram of the overall structure of an integrated apparatus for multi-channel detection of multiple mouse behaviors;

FIG. 2 is a schematic diagram of a partial structure of an integrated device splicing device for multi-channel detection of multiple mouse behaviors;

FIG. 3 is a schematic diagram of a split part of the structure of a box body of an integrated device for multi-channel detection of multiple mouse behaviors;

FIG. 4 is a schematic diagram of a first movable unit of the multi-channel mouse-behavior detecting integrated apparatus;

FIG. 5 is a schematic diagram of the overall structure of an integrated device cartridge for multi-channel detection of multiple mouse behaviors;

FIG. 6 is a schematic diagram of the explosion structure of the splicing device of the multi-channel integrated device for detecting various behaviors of a mouse;

FIG. 7 is a schematic sectional view of a second movable unit of the multi-channel mouse-behavior detecting device;

FIG. 8 is a schematic structural diagram of an integrated apparatus switching device for multi-channel detection of multiple mouse behaviors;

FIG. 9 is a schematic diagram of the overall structure of an integrated device switch unit for multi-channel detection of various mouse behaviors;

FIG. 10 is a schematic diagram of the overall structure of a mobile unit of an integrated device for multi-channel detection of various mouse behaviors;

FIG. 11 is a schematic diagram of another view of the overall structure of the mobile unit of the integrated device for multi-channel detection of multiple mouse behaviors;

FIG. 12 is a schematic diagram of a first embodiment of a mobile unit of an integrated device for multi-channel detection of multiple mouse behaviors after being pieced together;

FIG. 13 is a schematic diagram of a second embodiment of a mobile unit of the multi-channel mouse detection system after being pieced together;

FIG. 14 is a schematic diagram of a third embodiment of a mobile unit of an integrated device for multi-channel detection of multiple mouse behaviors after being pieced together;

FIG. 15 is a schematic diagram of a fourth embodiment of a mobile unit of an integrated device for multi-channel detection of multiple mouse behaviors after being pieced together;

FIG. 16 is a schematic diagram of a fifth embodiment of a mobile unit of an integrated device for multi-channel detection of multiple mouse behaviors after being pieced together;

FIG. 17 is a schematic diagram of a sixth concrete form of a mobile unit of an integrated device for multi-channel detection of multiple mouse behaviors after the mobile unit is pieced together;

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Example 1

This embodiment provides an integrated apparatus for multi-channel detection of mouse multiple behaviors, as shown in FIGS. 1 to 3,

specifically, the splicing type portable terminal box comprises a box body 100 and a splicing device 101, wherein the splicing device 101, a first accommodating space 102, a second accommodating space 103 and a containing device 104 are included, the splicing device 101 is arranged on the box body 100, and the first accommodating space 102 and the second accommodating space 103 are respectively formed by sinking from the box body 100;

the splicing device 101 further comprises a first movable unit 101a, a second movable unit 101b and a rotating unit 101c, wherein the first movable unit 101a is movably arranged in the first accommodating space 102, the second movable unit 101b is movably arranged in the second accommodating space 103, the rotating unit 101c is movably connected with the box body 100, and the first movable unit 101a and the second movable unit 101b are movably connected;

a receiving means 104 is formed recessed from the other side of the case 100, and the receiving means 104 is adapted to the splicing means 101.

Preferably, the box 100 is the whole exterior of the device, the splicing device 101 is a device disposed on the box 100 and abutted against the adjacent box 100, the box 100 is provided with a first accommodating space 102 and a second accommodating space 103, the first accommodating space 102 is formed by recessing one surface of the box 100, the second accommodating space 103 is formed by recessing the other surface of the box 100, the first accommodating space 102 and the second accommodating space 103 are used for placing the splicing device 101, the splicing device 101 can move therein, the storage device 104 is disposed on the adjacent box 100, the storage device 104 can store the extended splicing device 101, and the storage device 104 can be fixed after the splicing device 101 moves.

The splicing device 101 further includes a first movable unit 101a and a second movable unit 101b, the first movable unit 101a moves in the first accommodating space 102, the second movable unit 101b moves in the second accommodating space 103, the first movable unit 101a and the second movable unit 101b can slide relatively, the rotating unit 101c is disposed on the box 100, and the rotating unit 101c can rotate on the box 100.

The storage device 104 can mount and fix the splicing device 101 in the storage device 104 when the rotating unit 101c rotates to the maximum angle. The surface of the storage device 104 close to the original box 100 on which the storage device 104 is opened is provided with a section with a smaller aperture relative to the storage device 104, so that the rotating unit 101c on the storage device 104 can clamp the storage device on the box 100.

In actual operation, when two box bodies 100 are needed to be spliced, the box bodies 100 are placed and the adjacent box bodies 100 are taken away, the accommodating devices 104 of the adjacent box bodies 100 are aligned to the splicing devices 101 of the box bodies 100, at this time, the first movable unit 101a is at the bottommost end of the first accommodating space 102, the second movable unit 101b is at the bottommost end of the second accommodating space 103, one end of the rotating unit 101c is pressed down by the second movable unit 101b, after the rotating unit 101c is placed, the first movable unit 101a is pulled to be pulled out of the box body 100, the first movable unit 101a enables the second movable unit 101b to move outwards, the second movable unit 101b releases the originally compressed rotating unit 101c and pushes the rotating unit 101c to rotate from the other side, and the rotating unit 101c enables the other side to compress the adjacent box bodies 100, so that the connection effect is achieved. Compared with the original box body 100 which is inconvenient as a whole, the connection mode not only can achieve the effects of convenient washing and convenient disassembly, but also can change the pattern properly, thereby ensuring the diversity of experiments.

Example 2

This embodiment provides an integrated apparatus for multi-channel detection of mouse multiple behaviors, as shown in FIGS. 1 to 6,

Specifically, the first movable unit 101a further includes a first elastic component 101a-1, one end of the first elastic component 101a-1 is fixedly connected with the first movable unit 101a, and the other end is fixedly connected with one surface of the first accommodating space 102;

the second movable unit 101b further includes a second elastic component 101b-1, one end of the second elastic component 101b-1 is fixedly connected to one side of the second movable unit 101b, and the other end is fixedly connected to one side of the second accommodating space 103.

The box 100 further comprises a protruding device 105, the protruding device 105 protrudes from one side of the box 100, the protruding device 105 is provided with a first through slot 105a, and the first through slot 105a is suitable for the rotating unit 101 c;

the second movable unit 101b further comprises a second through groove 101b-2 and a third through groove 101b-3, the second through groove 101b-2 and the third through groove 101b-3 are both formed by penetrating from the inside of the second movable unit 101b, and the third through groove 101b-3 is suitable for the rotating unit 101 c;

the first movable unit 101a further includes a first groove 101a-2, the first groove 101a-2 is formed by recessing one side of the first movable unit 101a, and the slope formed by the first groove 101a-2 is adapted to the slope formed by the second through-groove 101 b-2.

The splicing device 101 further comprises a fastening unit 101d, and the fastening unit 101d is in threaded connection with the box body 100.

Preferably, the first movable unit 101a further includes a first elastic component 101a-1, the first elastic component 101a-1 is for making the first movable unit 101a initially have a force to the box body 100, the first elastic component 101a-1 may be, but is not limited to, a spring, an elastic sheet, and other components with elasticity, one end of the first elastic component 101a-1 is fixedly connected with the first movable unit 101a, and the other end is fixedly connected with the bottom surface of the first accommodating space 102, when no external force is applied, the first elastic component 101a-1 will push the first movable unit 101a to a farthest distance and then be clamped.

The second movable unit 101b further includes a second elastic member 101b-1, similar to the first elastic member 101a-1, the second elastic member 101b-1 is for enabling the second movable unit 101b to initially apply a force to the box 100, the second elastic member 101b-1 may be, but is not limited to, a spring, an elastic sheet, or other elastic member, one end of the second elastic member 101b-1 is fixedly connected to the second movable unit 101b, and the other end is fixedly connected to the top surface of the second accommodating space 103, and when no external force is applied, the second elastic member 101b-1 will push the second movable unit 101b to the bottom of the second accommodating space 103.

The box body 100 is further provided with a protruding device 105, the protruding device 105 is used for better abutting joint between the box body and the adjacent box body 100, the protruding device 105 is formed by protruding from one side of the box body 100, which forms the second accommodating space 103, a first through groove 105a is formed in the protruding device 105, the first through groove 105a can accommodate the rotating unit 101c to rotate thereon, and the width of the rotating unit 101c is suitable for the width of the first through groove 105 a.

The second movable unit 101b further comprises a second through groove 101b-2 and a third through groove 101b-3, the second through groove 101b-2 and the third through groove 101b-3 are respectively recessed from the inside of the second movable unit 101b to form through grooves, the third through groove 101b-3 is adapted to the first groove 101a-2, and the third through groove 101b-3 is a position where the rotation unit 101c is rotated.

The first movable unit 101a further includes a first groove 101a-2, the first groove 101a-2 is formed by recessing from the upper surface of the first movable unit 101a, the first groove 101a-2 forms an inclined surface, the second groove 101b-2 also has a corresponding inclined surface, the two inclined surfaces are adapted to each other, when the second movable unit 101b moves towards the bottom of the second accommodating space 103, the inclined surface of the second groove 101b-2 presses the inclined surface of the first groove 101a-2 to drive it to move.

The splicing device 101 further includes a fastening unit 101d, the fastening unit 101d is a detachable portion of the second accommodating space 103, and the fastening unit 101d is screwed to the box 100.

In practical operation, the part that needs manual operation, such as resetting the initial positions of the first movable unit 101a and the second movable unit 101b, is now completed through the first elastic component 101a-1 and the second elastic component 101b-1, initially, the first elastic component 101a-1 ejects the first movable unit 201 to the outermost end, the second elastic component 101b-1 pushes the second movable unit 201 to the bottom of the second accommodating space 103, and the relative movement between the first movable unit 101a and the second movable unit 101b achieves the moving effect through the cooperation of the inclined surface of the second through groove 101b-2 and the inclined surface of the first groove 101a-2, and when in use, the adjacent box body 100 can be pulled out only by pressing the first movable unit 101a to the bottom of the first accommodating space 102.

Example 3

This embodiment provides an integrated apparatus for multi-channel detection of mouse multiple behaviors, as shown in FIGS. 1 to 10,

Specifically, the opening and closing device 200 is further included, the opening and closing device 200 includes a moving unit 201 and a switch unit 202, the moving unit 201 is movably arranged on the box body 100, the switch unit 202 is movably arranged on the box body, and the switch unit 202 is movably connected with the moving unit 201.

The cartridge 100 further comprises a limiting device 106, wherein the limiting device 106 is formed by protruding from the surface of the cartridge 100;

the moving unit 201 includes a first moving part 201a, a second moving part 201b, and a connecting part 201c, the first connecting part 201c and the second connecting part 201c are connected by the connecting part 201c, the connecting part 201c passes through the restricting unit 106, and the connecting part 201c and the restricting unit 106 are movably connected.

The second moving member 201b further comprises a first engaging component 201b-1, the first engaging component 201b-1 is fixedly arranged on the second moving member 201 b;

the switch unit 202 further includes a second engagement part 202a, an attaching part 202b, and a communication part 202c, the second engagement part 202a and the attaching part 202b are fixedly connected by the communication part 202c, the communication part 202c penetrates the cartridge body 100, and the attaching part 202b is adapted to the width of the cartridge body 100.

Preferably, the whole body further includes an opening and closing device 200, the purpose of the opening and closing device 200 is to install a door which can be opened and closed freely and is easy to control on the box body 100, the opening and closing device 200 includes a moving unit 201 and a switch unit 202, the moving unit 201 can move repeatedly and control the switch unit 202, and the switch unit 202 and the moving unit 201 are movably connected, which can be in the form of gears, friction, and the like.

The case 100 further includes a limiting device 106, and the limiting device 106 is disposed on the case 100, and the limiting device 106 is formed to protrude from a side surface of the case 100 in order to limit the movement of the moving unit 201 in one direction.

The moving unit 201 further comprises a first moving part 201a, a second moving part 201b and a connecting part 201c, the first moving part 201a and the second moving part 201b are connected through the connecting part 201c, the connecting part 201c passes through the limiting device 106, and the second moving part 201b controls the rotary switch unit 202 in the above manner to realize the opening and closing of the door.

The second moving member 201b is further provided with a first engagement assembly 201b-1, and the first engagement assembly 201b-1 is a protruding gear provided on the second moving member 201 b.

The switch unit 202 is further provided with a second engaging member 202a, an attaching member 202b and a communicating member 202c, the second engaging member 202a is adapted to the first engaging assembly 201b-1, the second engaging member 202a and the attaching member 202b are connected by the communicating member 202c, the communicating member 202c passes through the case 100, and the attaching member 202b is the above-mentioned openable and closable door adapted to the width of the side of the case 100.

In actual operation, if an operator needs to open the door of the closed box 100, the operator does not need to detach the closed box, and only needs to move the moving unit 201, so that the first engaging component 201b-1 on the second moving component 201b moves the second engaging component 202a on the switch unit 202, and the attaching component 202b of the switch unit 202 is driven to rotate and move, thereby closing the door.

Example 4

This embodiment provides an integrated apparatus for multi-channel detection of mouse multiple behaviors, as shown in FIGS. 1 to 17,

The opening and closing device 200 further includes a first pressing unit 203, one end of the first pressing unit 203 is in contact with the limiting device 106, the other end is in contact with the first moving member 201a, and the first pressing unit 203 is disposed on the connecting member 201 c.

The box body 100 is further provided with a third accommodating space 107, and the third accommodating space 107 is formed by sinking from one surface of the box body 100;

the opening and closing device 200 further comprises an ejecting unit 204, the ejecting unit 204 is provided with an ejecting part 204a and a third elastic part 204b, the ejecting unit 204 is arranged in the third accommodating space 107, one end of the third elastic part 204b is in contact with one end of the ejecting part 204a, and the other end is in contact with one surface of the third accommodating space 107;

the first moving member 201a is provided with a second groove 201a-1, the second groove 201a-1 is formed by recessing one side of the first moving member 201a, and the ejecting member 204a is adapted to the second groove 201 a-1.

The first connection part 201c is further provided with a through hole 201a-2, and the through hole 201a-2 is formed by recessing one side of the first connection part 201 c;

the opening and closing device 200 further comprises a pressing unit 205, wherein the pressing unit 205 is movably arranged on the first connecting part 201c, one end of the pressing unit 205 extends out of the through hole 201a-2, and the pressing unit 205 is suitable for the through hole 201 a-2.

Specifically, referring to fig. 12, the box 100 is further provided with a cover 108 and a stand 109, the cover is provided with a camera 108a, the cover 108 extends above the box 100, and the stand 109 is provided at two sides of the box 100.

Specifically, referring to fig. 13, the box 100 is further provided with an oval barrel 110, and the oval barrel 110 protrudes from the bottom side of the box 100.

Specifically, in correspondence with fig. 14, the box 100 is further provided with an elevated cross 111, and the elevated cross 111 is formed by protruding from the bottom of the box 100.

Specifically, referring to fig. 15, the box 100 is further provided with a balance beam 112, and the balance beam 112 is formed by protruding from the bottom of the box 100.

Specifically, referring to fig. 16, the box 100 is an empty box without other devices.

Specifically, corresponding to fig. 17, the box 100 is further provided with a tail suspension device 113, and the tail suspension device 113 is formed by protruding from the bottom of the stand 109.

Preferably, the opening and closing device 200 further includes a first pressing unit 203, and in order for the first pressing unit 203 to push the first moving member 201a to the farthest position, the first pressing unit 203 may be a spring, such as a spring, which can be sleeved on the connecting member 201c, and one end of the spring is in contact with one surface of the limiting device 106, and the other surface of the spring is in contact with the first pressing unit.

The box 100 is further provided with a third accommodating space 107, and the third accommodating space 107 is formed by recessing from the side surface of the box.

The opening and closing device 200 further includes an ejecting unit 204, the ejecting unit 204 is used for fixing the moving unit 201 at a specific position when moving, so as to fix the switch unit 202, the ejecting member 204a is divided into an ejecting member 204a and a third elastic member 204b, the third elastic member 204b can be a spring, an elastic sheet or other parts with elasticity, the ejecting member 204a is a fixed block that can not escape from the box 100, and the bottom end of the ejecting member 204a is connected to the third elastic member 204 b.

The first moving part 201a is provided with a second groove 201a-1, the second groove 201a-1 is configured to allow the first pressing unit 203 to be inserted, the second groove 201a-1 is formed by recessing a surface of the first moving part 201a close to the box body 100, and the ejecting part 204a is adapted to the second groove 201a-1, preferably, a baffle is formed outside the second groove 201a-1 to prevent the ejecting part 204a from being separated.

The first connection member 201c is further provided with a through hole 201a-2, and the through hole 201a-2 is a hole formed by recessing the first connection member 201c from the outside to the inside.

The opening and closing device 200 further comprises a pressing unit 205, the pressing unit 205 is used for pressing back the fixed ejecting component 204a to move the moving unit 201 to achieve the effect of opening and closing the door, and the pressing unit 205 is a part with the outer side suitable for the through hole 201a-2 and the inner side suitable for the second groove 201 a-1.

Preferably, in the first embodiment, the stand 109 is for the convenience of experiment, the cover 108 is for installation, and the camera 108a can be connected to a computer for observation.

In a second embodiment, the barrel 110 can be filled with water and the animal can be thrown into the barrel and the condition of "immobility" typically present in the 5 minute environment can be recorded, reflecting a condition known as "behavior despair".

In a third embodiment, the elevated cross 111 can record the untoward reaction of the animal.

In a fourth embodiment, the balance beam 112 may test the condition of the animal entering the balance beam 112.

In the fifth embodiment, a cover is added above the case 100 to facilitate the experiment.

In a sixth embodiment, a tail suspension device 113 is provided, the tail suspension device 113 is formed by connecting one end of a rope with the stand 109, the animals are tied to the other end of the rope in sequence, after the animals are stabilized, the animals begin to record the typical 'immobility state' of the animals in the environment within 5 minutes, which reflects a condition called 'behavior despair state', and parameters are recorded.

In practical operation, initially, the first pressing unit 203 on the opening and closing device 200 has an expansion force to separate the first moving part 201a and the limiting device 106 to a maximum range, when the fitting part 202b needs to be opened, the first pressing unit 203 is pressed by pushing the first moving part 201a, the ejecting unit 204 is pushed into the second groove 201a-1 by an elastic force, and when the fitting part needs to be restored, the pressing unit 205 is pressed to open.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims

1. An integrated device for multi-channel detection of multiple behaviors of a mouse, characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the box body (100) comprises a splicing device (101), a first accommodating space (102), a second accommodating space (103) and a containing device (104), wherein the splicing device (101) is arranged on the box body (100), and the first accommodating space (102) and the second accommodating space (103) are respectively formed by sinking from the box body (100);

the splicing device (101) further comprises a first movable unit (101a), a second movable unit (101b) and a rotating unit (101c), the first movable unit (101a) is movably arranged in the first accommodating space (102), the second movable unit (101b) is movably arranged in the second accommodating space (103), the rotating unit (101c) is movably connected with the box body (100), and the first movable unit (101a) and the second movable unit (101b) are movably connected;

the receiving device (104) is formed by being sunken from the other side of the box body (100), and the receiving device (104) is suitable for the splicing device (101).

2. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 1, wherein: the first movable unit (101a) further comprises a first elastic component (101a-1), one end of the first elastic component (101a-1) is fixedly connected with the first movable unit (101a), and the other end of the first elastic component is fixedly connected with one surface of the first accommodating space (102);

the second movable unit (101b) further comprises a second elastic component (101b-1), one end of the second elastic component (101b-1) is fixedly connected with one surface of the second movable unit (101b), and the other end of the second elastic component is fixedly connected with one surface of the second accommodating space (103).

3. The multi-channel integrated apparatus for detecting multiple behaviors of a mouse as claimed in claim 1 or 2, wherein: the box body (100) further comprises a protruding device (105), the protruding device (105) protrudes from one side of the box body (100), a first through groove (105a) is formed in the protruding device (105), and the first through groove (105a) is suitable for the rotating unit (101 c);

the second movable unit (101b) further comprises a second through groove (101b-2) and a third through groove (101b-3), the second through groove (101b-2) and the third through groove (101b-3) are formed by penetrating from the inside of the second movable unit (101b), and the third through groove (101b-3) is suitable for the rotating unit (101 c);

the first movable unit (101a) further comprises a first groove (101a-2), the first groove (101a-2) is formed by being recessed from one surface of the first movable unit (101a), and an inclined surface formed by the first groove (101a-2) is suitable for an inclined surface formed by the second through groove (101 b-2).

4. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 3, wherein: the splicing device (101) further comprises a fastening unit (101d), and the fastening unit (101d) is in threaded connection with the box body (100).

5. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 1 or 4, wherein: also comprises the following steps of (1) preparing,

the opening and closing device (200) comprises a moving unit (201) and a switch unit (202), wherein the moving unit (201) is movably arranged on the box body (100), the switch unit (202) is movably arranged on the box body, and the switch unit (202) is movably connected with the moving unit (201).

6. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 5, wherein: the box body (100) further comprises a limiting device (106), and the limiting device (106) is formed by protruding from the surface of the box body (100);

the moving unit (201) comprises a first moving part (201a), a second moving part (201b) and a connecting part (201c), the first connecting part (201c) and the second connecting part (201c) are connected through the connecting part (201c), the connecting part (201c) penetrates through the limiting device (106), and the connecting part (201c) is movably connected with the limiting device (106).

7. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 1, wherein: the second moving part (201b) further comprises a first engaging assembly (201b-1), and the first engaging assembly (201b-1) is fixedly arranged on the second moving part (201 b);

the switch unit (202) further comprises a second engagement part (202a), an attaching part (202b) and a communication part (202c), the second engagement part (202a) and the attaching part (202b) are fixedly connected through the communication part (202c), the communication part (202c) penetrates through the box body (100), and the attaching part (202b) is suitable for the width of the box body (100).

8. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 6 or 7, wherein: the opening and closing device (200) further comprises a first pressing unit (203), one end of the first pressing unit (203) is in contact with the limiting device (106), the other end of the first pressing unit is in contact with the first moving part (201a), and the first pressing unit (203) is arranged on the connecting part (201 c).

9. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 8, wherein:

the box body (100) is further provided with a third accommodating space (107), and the third accommodating space (107) is formed by sinking from one surface of the box body (100);

the opening and closing device (200) further comprises an ejecting unit (204), the ejecting unit (204) is provided with an ejecting part (204a) and a third elastic part (204b), the ejecting unit (204) is arranged in the third accommodating space (107), one end of the third elastic part (204b) is in contact with one end of the ejecting part (204a), and the other end of the third elastic part is in contact with one surface of the third accommodating space (107);

the first moving part (201a) is provided with a second groove (201a-1), the second groove (201a-1) is formed by sinking from one surface of the first moving part (201a), and the ejecting part (204a) is suitable for the second groove (201 a-1).

10. The multi-channel integration apparatus for detecting multiple behaviors of a mouse according to claim 9, wherein:

the first connecting component (201c) is further provided with a through hole (201a-2), and the through hole (201a-2) is formed by sinking from one surface of the first connecting component (201 c);

the opening and closing device (200) further comprises a pressing unit (205), the pressing unit (205) is movably arranged on the first connecting component (201c), one end of the pressing unit (205) extends out of the through hole (201a-2), and the pressing unit (205) is suitable for the through hole (201 a-2).