CN103734026B - Fastener magnetism experiment animal stimulation device - Google Patents

Abstract

The invention relates to a button magnetic experimental animal stimulation device, which includes a test box and leg-fixing boots; the test box includes a camera, a data power cord, a speaker, an electric shock magnetic wire, an electric shock control button, a magnetic control button, a power plug, and a power cord , computer data power cord, computer, button magnetic plate, door latch, door, small door, rotating hinge; said solid leg boots include boot collar lace, boot crack, iron boot sole, boot state, anti-slip cone, anti-slip palm, The upper page of the solid boot adhesive strip, the lower page of the solid boot adhesive strip, and the boot mouth. The device of the invention is simple to manufacture, has various functions, strong operability, low cost and obvious effect.

Description

Button magnetic experimental animal stimulation device

technical field

The invention relates to a button magnetic experimental animal stimulating device, which belongs to the technical field of medical treatment and laboratory equipment.

Background technique

In the process of using experimental animals such as rats, mice, macaques and other mammals, chickens, ducks, geese and other poultry animals to conduct experiments, in order to construct a certain experimental animal model or observe the behavior of animals, it is necessary to conduct various experiments on the experimental animals. kind of stimulation. There are many known stimulation methods, such as sound stimulation, light stimulation, cold water bath stimulation, high-voltage electric shock stimulation, or feeding specific drugs and foods that can cause specific diseases, or even artificially infecting certain specific bacteria or viruses. During the stimulation process, in order to fix the experimental animals, the experimenters have designed many delicate structures, which can better fix the whole body of the experimental animals. However, these existing fixed stimulation devices all have a clear division of labor, the fixed device is only responsible for fixing, and the stimulation device only plays a specific stimulating effect. passive operation, not to mention the automatic operation of experimental animals.

In people's daily life, people often encounter such a situation, that is, when walking at night at night, due to the stumbling of some kind of object, the legs and feet of the person are bound, which will make people have the illusion of meeting a ghost, and then the body will have a ghost. A strong stress response, followed by a series of symptoms, severe shock can also occur. How to simulate this scene and design a stimulating device that can automatically control the movement of animals according to needs has become a major problem that needs to be solved urgently. Therefore, it is necessary to invent a button magnetic experimental animal stimulating device that can artificially control the movement of experimental animals. .

Contents of the invention

In order to overcome the difficult problem that the known experimental animal stimulating device cannot automatically control the movement of animals, the present invention provides a button magnetic experimental animal stimulating device, which can conveniently control the size of the button magnetic experimental animal stimulating device. The ends of the animal's limbs are bound in iron-bottomed boot-shaped sleeves, and some electromagnetic buckles are arranged at intervals on the panel where the experimental animals are located, and the power-on or power-off of the electromagnetic buckles is controlled according to needs, thereby achieving the purpose of automatically controlling the movement of experimental animals.

The technical solution adopted by the present invention to solve its technical problems is:

A button magnetic experimental animal stimulation device, including a test box and solid leg boots, the test box includes a camera, a data power cord, a speaker, an electric shock magnetic wire, an electric shock control button, a magnetic control button, a power plug, a power cord, a computer data Power cord, computer, button magnetic plate, door latch, gate, small door, rotating hinge; the camera is installed on the top of the test box, and the electric shock control button and magnetic control button are installed on one side of the test box; the gate passes through The rotating hinge is installed on the other side of the test box, and the small door is installed on the large door through the rotating hinge; the large door and the test box are fixed by a door bolt, and the small door and the large door are fixed by a door bolt; the solid leg boots include boots Laces at the mouth, boot cracks, iron boot soles, boots, anti-slip cones, anti-slip palms, the upper page of the solid boot adhesive strip, the lower page of the solid boot adhesive strip, and the mouth of the boot. The lower edge of the iron boot sole is fixed There are several anti-slip cones on the front half of the lower surface of the iron boots, and anti-slip palms on the second half. The upper end of the boot is opened as the mouth of the boot, and the rear is not stitched together to form a boot crack. The upper end of the boot crack is set behind the boot There are laces at the mouth of the boot; the center of the upper half and the center of the lower half of the cleft of the boot are each provided with a bootstrap, and each bootstrap includes an upper page of the bootstrap and a lower page of the bootstrap, and the bootstrap The lower page of the strip is seamed on the outer surface of the boot at the rip of the boot, with the sticky side facing outwards;

Further, the button magnetic plate includes electric shock wires, magnetic conductive wires, magnetic force generating buttons, and button magnetic force plates; the magnetic force generating buttons are installed on the button magnetic force plate with a row spacing of 5-10 mm. The adjacent magnetic force generating buttons are connected by electric shock wires and magnetic force conductive wires.

Further, the magnetic force generating button includes a magnetic force generating button coil and a magnetic force generating button iron shaft; the magnetic force generating button is a cylinder with a diameter of 3-10 mm and a length of 5-10 mm, which is outside the magnetic force generating button iron shaft. The electromagnet structure formed by winding copper magnetic force generating button coils; the electric shock control button is connected with the magnetic force generating button iron shaft of each magnetic force generating button through the electric shock wire; the magnetic force control button is connected with the magnetic force generating button of each magnetic force generating button through the magnetic force conductive wire Button wire loops are attached.

Further, the anti-slip cone is a conical protrusion with a bottom diameter of 1-3 mm and a height of 0.5-1 mm; the anti-slip palm is a rough bottom surface with a diameter of 1-3 mm and a height of 0.5-1 mm. Rounded bumps.

Compared with the prior art, the present invention has the following prominent substantive features and remarkable advantages:

The device of the present invention utilizes the characteristics that the electromagnetic force can be used to control the size conveniently. The extremities of the experimental animals are bound in the iron-bottomed boot-shaped sheath, and some electromagnetic buckles are arranged at intervals on the panel where the experimental animals are located, and the power on or off of the electromagnetic buckles is controlled according to the needs. Electricity, and then achieve the purpose of automatically controlling the movement of experimental animals. The button magnetic experimental animal stimulation device is simple to manufacture, has various functions, strong operability, low cost and obvious effect.

Description of drawings

Fig. 1 is a schematic diagram of the overall structure of the button magnetic experiment animal stimulation device of the present invention.

Fig. 2 is a structural schematic diagram of the leg-solid boots of the button magnetic experiment animal stimulating device of the present invention.

Fig. 3 is a structural schematic diagram of a button magnetic plate of the button magnetic experiment animal stimulating device of the present invention.

Detailed ways

The present invention will be further described below in conjunction with the accompanying drawings.

As shown in Figure 1-3, a kind of button magnetic experiment animal stimulation device comprises test box 1 and solid leg boots 32, and described test box 1 comprises video camera 2, data power line 3, loudspeaker 4, electric shock magnetic wire 5, electric shock Control button 6, magnetic control button 7, power plug 8, power cord 9, computer data power cord 10, computer 11, button magnetic plate 15, door latch 16, gate 17, small door 18, rotating hinge 19; described video camera 2 Installed on the top of the test box 1, the video camera 2 and the speaker 4 are connected to the data power line 3, the computer 11 is connected to the computer data power line 10, the data power line 3 of the video camera 2 and the speaker 4, the electric shock magnetic wire 5 and the power supply The branch of the power supply for the computer 11 in the line 9 is imported into the computer data power line 10; the computer data power line 10 is a collection of the above wires, and each wire is independently connected to the corresponding control structure in the computer; the electric shock control button 6 1. The magnetic control button 7 is installed on one side of the test box 1, and the button magnetic plate 15 is connected to the electric shock control button 6 and the magnetic control button 7 through the electric shock magnetic wire 5; the power cord 9 is connected to an external power supply through a power plug 8; the gate 17 is installed on the other side of the test box 1 by rotating the hinge 19, and the small door 18 is installed on the gate 17 by rotating the hinge 19; The space is fixed by a door latch 16; the leg-solid boots 32 include a boot tie lace 20, a boot gap 21, an iron boot sole 22, a boot state 23, an anti-slip cone 24, an anti-slip palm 25, a solid boot adhesive strip 26, a solid boot Adhesive strip lower page 27, boot opening 28, the lower edge of the shoe state 23 is fixed on the periphery of the iron shoe sole 22, and some anti-skid cones 24 are provided on the front half of the lower surface of the iron shoe sole 22, and anti-skid cones 24 are provided on the rear half. The palm 25 and the upper end of the boot state 23 are opened as a boot mouth 28, and the rear is not stitched together to form a boot gap 21, and a boot strap 20 is arranged behind the boot gap 28 at the upper end of the boot gap 21; Each half of the center is provided with a boot adhesive strip, and each boot adhesive strip includes an upper page 26 of the boot adhesive strip and a lower page 27 of the boot adhesive strip. On the outer surface of the state 23, the sticky side faces outwards; the back edge of the upper page 26 of the solid boot sticky strip is seamed on the other edge of the boot gap 21, and the sticky side faces inward.

The button magnetic plate 15 includes electric shock conductors 12, magnetic conductive wires 13, magnetic force generating buttons 14, and button magnetic plate bodies 29; the magnetic force generating buttons 14 are installed on the button magnetic force plate bodies at a density of 5-10 mm according to the row spacing 29, adjacent magnetic force generation buttons 14 are connected by electric shock wire 12 and magnetic force conductive wire 13.

Described magnetic force generation button 14 comprises magnetic force generation button coil 30 and magnetic force generation button iron shaft 31; Magnetic force generation button 14 is a cylinder with a diameter of 3-10 mm and a length of 5-10 mm, which is the magnetic force generation button iron shaft 31 is an electromagnet structure formed by winding a copper magnetic force generating button coil 30 outside; the electric shock control button 6 is connected to the magnetic force generating button iron shaft 31 of each magnetic force generating button 14 through an electric shock wire 12; the magnetic force control button 7 is connected through a magnetic force conductive wire 13 It is connected with the magnetic force generating button thread loop 30 of each magnetic force generating button 14 .

The anti-slip cone 24 is a conical protrusion with a bottom diameter of 1-3 mm and a height of 0.5-1 mm; Convex.

In this embodiment, the camera 2 is a commercially available high-definition camera with pixels higher than 8 million. It is mainly used to record the various behaviors of the experimental animals after being stimulated, and transmit the data through the data power line 3 to Laptop 11 is then used to analyze animal behavior using analysis software. The loudspeaker 4 is a sounding device for stimulating experimental animals, and is connected to the notebook computer 11 through the data power line 3, and can emit different sounds as required.

After the legs of the experimental animal stepped into the solid leg boots 32, the upper page 26 of the solid boot sticky strip was pressed on the lower page 27 of the solid boot sticky strip, and at the same time, the boot mouth lacing 20 was fastened, and the legs of the experimental animal could be fastened. Tightly fixed in the solid leg boots 32, when the experimental animal needs to be shocked by electric shock, turn the electric shock control button 6 to increase the voltage, and the high voltage can be generated by magnetic force. Button iron shaft 31, anti-slip cone 24, anti-slip palm 25, The iron shoe sole 22 is transmitted in the solid leg boot 32, and the center of the sole of the foot of the experimental animal is shocked with electricity. Each magnetic force generation button 14 is a cylinder with a diameter of 3-10 millimeters and a length of 5-10 millimeters. When electrified, it can produce electromagnetic force, and the magnitude of the electromagnetic force is controlled by the magnitude of the current that is passed into it; When the iron shoe sole 22 of 32 is just above the magnetic force generation button 14, the magnetic force is the largest, and the magnetic force will become smaller if it deviates slightly, so that an invisible labyrinth will be artificially provided for the experimental animal; Moving the magnetic force control button 7, increasing the voltage can increase the magnetic force of the magnetic force generating button 14, thereby limiting the movement of the animal; reducing the voltage can reduce the magnetic force of the magnetic force generating button 14, and then relieve the animal movement. limit. During the process of increasing or decreasing the magnetic force of the magnetic force generating button 14, the purpose of specifically stimulating the experimental animals can be achieved by adding stimuli such as sound and high-voltage electric shock.

Claims (4)

1. a fastener magnetism experiment animal stimulation device, comprise testing cassete (1) and solid leg boots (32), it is characterized in that, described testing cassete (1) comprises video camera (2), data power line (3), loudspeaker (4), electric shock magnetic force wire (5), shock control button (6), Magnetic Control button (7), attaching plug (8), power line (9), computer data power line (10), computer (11), button magnetic board (15), bolt (16), gate (17), wicket (18), rotates hinge (19), described video camera (2) is arranged on testing cassete (1) top, and described shock control button (6), Magnetic Control button (7) are arranged on testing cassete (1) side, described gate (17) is arranged on testing cassete (1) another side by rotating hinge (19), and wicket (18) is arranged on gate (17) by rotating hinge (19), fixed by a bolt (16) between gate (17) and testing cassete (1), fixed by another bolt (16) between wicket (18) and gate (17), described solid leg boots (32) comprise boots mouth frenulum (20), boots breach (21), (22) at the bottom of stirrup strap, boots nation (23), anti-skidding cone (24), the anti-skidding palm (25), Gu page (26) on boots stick, Gu boots stick nextpage (27), boots mouth (28), at the bottom of described stirrup strap, (22) periphery is fixed wtih the hypostome of boots nation (23), (22) lower surface first half at the bottom of described stirrup strap is provided with some anti-skidding cones (24), latter half ofly be provided with the anti-skidding palm (25), boots nation (23) upper end open is boots mouth (28), rear does not stitch together, form boots breach (21), the rear of boots breach (21) upper end boots mouth (28) is provided with boots mouth frenulum (20), boots breach (21) first half central authorities and Lower Half central authorities are respectively provided with solid boots stick, each solid boots stick comprises page (26) and solid boots stick nextpage (27) on solid boots stick, Gu boots stick nextpage (27) seam is solid on the outer surface of boots breach (21) Chu Xue nation (23), glue outside facing, Gu page (26) trailing edge seam is solid at another edge of boots breach (21) on boots stick, glue in facing.

2. a kind of fastener magnetism experiment animal stimulation device according to claim 1, is characterized in that, described button magnetic board (15) comprises electric shock wire (12), magnetic force conductor wire (13), magnetic force generation button (14), button magnetic force plate body (29); The density that described magnetic force generation button (14) is 5-10 millimeter according to line space is arranged on button magnetic force plate body (29), is connected between adjacent magnetic force generation button (14) by electric shock wire (12) with magnetic force conductor wire (13).

3. a kind of fastener magnetism experiment animal stimulation device according to claim 2, is characterized in that, described magnetic force generation button (14) comprises magnetic force generation button wire ring (30) and magnetic force generation button iron axle (31); Magnetic force generation button (14) for diameter be 3-10 millimeter, length is the cylinder of 5-10 millimeter, is the electromagnet structure that magnetic force generation button iron axle (31) outside is wound around copper magnetic force generation button wire ring (30) and is formed; Shock control button (6) is connected with magnetic force generation button iron axle (31) of each magnetic force generation button (14) by electric shock wire (12); Magnetic Control button (7) is connected by magnetic force generation button wire ring (30) of magnetic force conductor wire (13) with each magnetic force generation button (14).

4. a kind of fastener magnetism experiment animal stimulation device according to claim 1, is characterized in that, described anti-skidding cone (24) to be basal diameter be 1-3 millimeter, is highly the conical protrusions of 0.5-1 millimeter; The described anti-skidding palm (25) is that bottom surface is coarse, and diameter is 1-3 millimeter, disc shape highly for 0.5-1 millimeter is protruding.