CN112119918B - Wireless charging optical radiation mouse cage device - Google Patents

Abstract

The invention belongs to the technical field of wireless optical radiation, and particularly relates to a wireless charging optical radiation mouse cage device. The device comprises a wireless charging base, an active experimental body and a wireless light radiation module; the wireless charging base outputs wireless electric energy, the wireless light radiation module receives the wireless electric energy of the wireless charging base and sends the wireless electric energy to the Light Emitting Diode (LED) after passing through the modulation circuit, and the wireless light radiation module is arranged on the outer surface of the active experimental body and can finally obtain various physiological indexes of the active experimental body through the detection device. The invention can continuously and uninterruptedly carry out light radiation experiments on the active experimental body, and greatly improves the accuracy of experimental test data and the convenience of actual operation.

Description

Wireless charging optical radiation mouse cage device

Technical Field

The invention belongs to the technical field of wireless charging and uninterrupted wireless optical radiation, and particularly relates to a wireless charging optical radiation mouse cage device.

Background

In nature, almost all biological behaviors and biological processes thereof have direct and indirect relationships with light, including visual and non-visual effects of living beings. Such as: the biological rhythm and the biological phenomenon are related to the illumination intensity, illumination time, light intensity density and the like, are the life activity laws of organisms widely existing since birth and evolution, and are the unique biological characteristics of organisms different from other objects. It is also demonstrated from cytology that the illumination affects the physiology of humans because of human photoreceptor cells. Only 10% to 15% of genes have been previously thought to be affected by biological clocks, but recent studies have suggested that the functions of all genes in mammals are regulated by circadian rhythms, and that biorhythms are thought to control all biological functions, including behaviours (sleep, wake and food intake, etc.) and body vital signs such as body temperature, heart rate and hormone secretion, etc., particularly metabolic activity-related diseases. Meanwhile, the illumination intensity has different influences on different organisms, including the regulation and control on animal behaviors and animal nervous systems. Therefore, the research of biorhythms has become a hot spot and a leading problem in the research of life sciences. In addition, intense light stimulation or prolonged direct vision light sources can cause damage to the retina (e.g., blue light damage), cause retinal tissue to wither, and ultimately lead to vision loss or blindness. Furthermore, the light time control is a comparative leading-edge research on the regulation of biological rhythm and the promotion of biological growth.

The light biological effect can be effectively researched by controlling the illumination time of an organism, and the difficulty of researching how to realize non-contact and long-time illumination control without influencing the biological activity of the organism is always difficult.

Therefore, a method which does not need to be powered by a battery, can generate electricity, saves energy, is environment-friendly, and has no influence on organisms due to volume and weight is urgently needed in the technical field of wireless optical radiation.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a wireless charging light radiation squirrel cage device. The device adopts the wireless transmission electric energy mode to provide the electric energy for the light radiation module, can make the light radiation module incessant, continuous, long-time stable work to the energy saving.

The technical scheme of the invention is specifically introduced as follows.

A wireless charging optical radiation mouse cage device comprises a mouse cage, a wireless charging base and a wireless optical radiation module; wherein: the wireless charging base comprises an input power supply, a high-frequency modulation circuit, a series resonance transmitting capacitor and a resonance transmitting coil, wherein the series resonance transmitting capacitor and the resonance transmitting coil form a resonance transmitting circuit; the wireless optical radiation module comprises a resonance receiving coil, a series resonance receiving capacitor, a resonance modulation circuit and a light emitting diode, wherein the resonance receiving coil and the series resonance receiving capacitor form the resonance receiving circuit, two ends of the resonance receiving circuit are connected with two ends of the resonance modulation circuit, and the resonance modulation circuit is connected with the light emitting diode; the wireless optical radiation module is attached to the surface of the active experimental body; when the wireless charging base works, electric energy input by an input power supply is modulated into electric energy coordinated with the frequency of the resonance transmitting coil through the high-frequency modulation circuit, and the resonance transmitting coil transmits wireless electromagnetic energy; in the wireless light radiation module, a resonance modulation circuit modulates the wireless electromagnetic energy transmitted by the resonance transmitting coil received by the resonance receiving coil into electric energy suitable for the work of the light emitting diode, and light radiation is carried out on the active experimental body.

In the invention, the wireless charging base is arranged at the bottom of the squirrel cage.

In the invention, one or more wireless optical radiation modules are provided.

In the invention, the resonance transmitting coil and the resonance receiving coil are of PCB plane structures.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the light radiation module LED can continuously output light radiation in a mode of supplying power to the wireless charging base.

2. The surface of the active organism is provided with a plurality of light radiation modules, so that light radiation energy can be continuously output in the continuous movement of the active organism, and the stability and the feasibility of experimental results are ensured.

3. The light energy can be continuously and uninterruptedly output, and the integrity of a scientific experiment is kept.

4. The experimental operation human error of experimenters is reduced, so that the experimental result is more scientific.

Drawings

Fig. 1 is a schematic structural diagram of a wireless charging optical radiation squirrel cage device according to the invention.

Fig. 2 is a schematic structural diagram of a wireless charging base according to the present invention.

Fig. 3 is a schematic structural control diagram of a wireless optical radiation module according to the present invention.

Reference numbers in the figures: the device comprises a mouse cage 1, a wireless charging base 2, an active experimental body 3, a wireless light radiation module 4, an input power supply 5, a high-frequency modulation circuit 6, a series resonance transmitting capacitor 7, a resonance transmitting coil 8, a resonance receiving coil 9, a series resonance receiving capacitor 10, a resonance modulation circuit 11 and a light emitting diode 12.

Detailed Description

In order to make the technical implementation measures, creation features, achievement purposes and effects of the invention easy to understand, the invention is further described below with reference to specific drawings.

Fig. 1 is a schematic structural diagram of a wireless charging optical radiation squirrel cage device of the invention. The utility model provides a wireless light radiation squirrel cage device that charges, includes squirrel cage 1, wireless charging base 2, active experimental body 3 (for example, mouse, rabbit etc.), wireless light radiation module 4. The squirrel cage 1 is the component that constitutes whole wireless light radiation squirrel cage structure that charges, and the wireless base 2 that charges of its inside forms magnetic resonance transmitting circuit, and the activity experimental body 3 is as wireless light radiation experimental body, can last incessant receipt light radiation, pastes a plurality of wireless light radiation modules 4 on the epidermis of activity experimental body 3, and its volume and weight are all very little, can not influence the normal activity of activity experimental body 3.

Fig. 2 is a schematic structural diagram of a wireless charging base. The wireless base that charges includes: an input power supply 5, a high-frequency modulation circuit 6, a series resonance transmission capacitor 7 and a resonance transmission coil 8.

Fig. 3 is a schematic structural diagram of a wireless optical radiation module. The wireless light radiation module comprises a resonance receiving coil 9, a series resonance receiving capacitor 10, a resonance modulation circuit 11 and a light emitting diode 12.

When the wireless charging light radiation mouse cage device works, firstly, an input power supply 5 is modulated into working frequency corresponding to a resonance transmitting circuit (consisting of a series resonance transmitting capacitor 7 and a resonance transmitting coil 8) through a high-frequency modulation circuit 6, wherein the input power supply 5 is connected with the high-frequency modulation circuit 6, one end of the high-frequency modulation circuit 6 is connected with the series resonance transmitting capacitor 7, the other end of the high-frequency modulation circuit 6 is connected with the other end of the resonance transmitting coil 8, and the other end of the series resonance transmitting capacitor 7 is connected with one end of the resonance transmitting coil 8. The resonant transmitting circuit then transmits wireless energy. The wireless charging base 2 is arranged at the bottom of the squirrel cage 1. The activity experimental body 3 is arranged in the inside of whole squirrel cage 1 and is moved about in order to make things convenient for active biology, pastes a plurality of wireless optical radiation modules 4 at the activity experimental body surface simultaneously, and wireless optical radiation module 4 is small, light in weight, can not exert an influence to the normal activity of the activity experimental body 3. And the wireless light radiation module 4 consists of a resonance receiving coil 9, a series resonance receiving capacitor 10, a resonance modulation circuit 11 and a light emitting diode 12. One end of the resonance receiving coil 9 is connected with one end of the series resonance receiving capacitor 10, the other end of the resonance receiving coil 9 is connected with the other end of the resonance modulation circuit 11, one end of the series resonance receiving capacitor 10 is connected with one end of the resonance modulation circuit 11, and the resonance modulation circuit 11 is connected with the light emitting diode 12. The resonance receiving circuit (composed of the resonance transmitting coil 9 and the series resonance receiving capacitor 10) receives electromagnetic energy transmitted by the wireless charging base 2, and then the electromagnetic energy is modulated into electric energy suitable for the light emitting diode 12 to work by the resonance modulation circuit 11.

The wireless charging base 2 is adopted to emit magnetic resonance energy, then the wireless light radiation module 4 in the form of a patch on the body surface of an active experimental body receives the magnetic energy, and the magnetic energy is modulated into light energy suitable for the light emitting diode 12 to emit through a circuit, so that the wireless charging base can continuously emit the light radiation energy.

The foregoing description has described the general principles, general features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims (4)

1. A wireless charging optical radiation mouse cage device is characterized by comprising a mouse cage, a wireless charging base and a wireless optical radiation module; wherein: the wireless charging base comprises an input power supply, a high-frequency modulation circuit, a series resonance transmitting capacitor and a resonance transmitting coil, wherein the series resonance transmitting capacitor and the resonance transmitting coil form a resonance transmitting circuit; the wireless optical radiation module comprises a resonance receiving coil, a series resonance receiving capacitor, a resonance modulation circuit and a light emitting diode, wherein the resonance receiving coil and the series resonance receiving capacitor form the resonance receiving circuit, two ends of the resonance receiving circuit are connected with two ends of the resonance modulation circuit, and the resonance modulation circuit is connected with the light emitting diode; the wireless optical radiation module is attached to the surface of the active experimental body; when the wireless charging base works, electric energy input by an input power supply is modulated into electric energy coordinated with the frequency of the resonance transmitting coil through the high-frequency modulation circuit, and the resonance transmitting coil transmits wireless electromagnetic energy; in the wireless light radiation module, a resonance modulation circuit modulates the wireless electromagnetic energy transmitted by the resonance transmitting coil received by the resonance receiving coil into electric energy suitable for the work of the light emitting diode, and light radiation is carried out on the active experimental body.

2. The wireless charging optical radiation squirrel cage device of claim 1, wherein the wireless charging base is arranged at the bottom of the squirrel cage.

3. The wireless charging optical radiation squirrel-cage device according to claim 1, characterized in that the wireless optical radiation module is one or more.

4. The wireless charging optical radiation squirrel cage device according to claim 1, characterized in that the resonant transmitting coil and the resonant receiving coil are of a PCB planar structure.

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