CN211561592U - Portable red and blue light therapeutic instrument - Google Patents

Abstract

A portable red and blue light therapeutic instrument comprises a remote control host, an LED probe connected with the remote control host and/or an LED soft board connected with the remote control host, wherein the remote control host comprises: the device comprises a power supply, a voltage stabilizing unit, a control unit and a control key; the input end of the voltage stabilizing unit is connected with a power supply, the output end of the voltage stabilizing unit is respectively connected with the control unit, and the output voltage of the power supply supplies power to the control unit after being stabilized by the voltage stabilizing unit; the LED probe includes: first optical module drive circuit and first optical module, the LED soft board is flexible, includes: a second optical module driving circuit and a second optical module. The utility model discloses by the first optical module drive circuit of the control unit control, second optical module drive circuit to realize the small-size portableization of hardware.

Description

Portable red and blue light therapeutic instrument

Technical Field

The utility model relates to a recovered electronic equipment, concretely relates to portable red blue light therapeutic instrument.

Background

The LED red light has no strong thermal effect and stronger penetrating power than ultraviolet light, and can act on deeper tissues, and the penetrating depth reaches 2-5 cm. Because the red light can reach the skin submucosa under the direct action, the light can be absorbed by tissue cells, the functions of immune defense systems such as phagocytosis of white blood cells of a body and the like can be enhanced, deep capillaries can be expanded, the blood flow is accelerated, the substance metabolism is vigorous, the hemohydrodynamic effect is improved, the blood viscosity can be reduced, the blood fat is regulated, the clearance of inflammatory media and the absorption of tissue edema are accelerated, the growth of granulation tissues and hair is promoted, the synthesis of collagen fiber cells is promoted, the cell repair process and the healing of wounds, ulcers and fractures are accelerated, and the regeneration of damaged nerves and the cell repair process are promoted. In addition to local biological effects and through neural and humoral pathways, effects are produced at the distal end of the organism. Has antiinflammatory, repercussive, analgesic, spasmolytic, blood circulation and nutrition metabolism improving, blood lipid reducing, and nerve function regulating effects.

When the LED blue light irradiates acne, almost all energy can be effectively acted on a target Propionibacterium acnes, and the Propionibacterium acnes are eliminated by exciting porphyrin in skin enzyme and releasing a large amount of singlet active oxygen, so that inflammation and acne are removed. In addition, the blue light can also inhibit the secretion of vigorous sebaceous glands and balance the secretion of skin grease, so that the acne can be effectively removed, and the problem of large pores can be solved.

In recent years, LED therapeutic apparatuses for rehabilitation therapy have appeared on the market, such as the LED therapeutic apparatus described in chinese patent application No. CN 201520229439.1. However, the remote control host of the LED therapeutic apparatus is large in size, inconvenient to carry, required to be used by sitting in a hospital or at home, and limited in use place.

Disclosure of Invention

The utility model aims at providing a portable red blue light therapeutic instrument.

In order to solve the problem, the utility model provides a portable red blue light therapeutic instrument, including remote host computer, the LED probe that is connected with the remote host computer and/or the LED soft board that links to each other with the remote host computer, the remote host computer includes: the device comprises a power supply, a voltage stabilizing unit, a control unit and a control key; the input end of the voltage stabilizing unit is connected with a power supply, the output end of the voltage stabilizing unit is respectively connected with the control unit, and the output voltage of the power supply supplies power to the control unit after being stabilized by the voltage stabilizing unit; the LED probe includes: the optical module comprises a first optical module driving circuit and a first optical module, wherein the control signal input end of the first optical module driving circuit is connected with a control unit, and the output end of the first optical module driving circuit is connected with the first optical module; the LED soft board can be bent, and comprises: the optical module comprises a second optical module driving circuit and a second optical module, wherein the control signal input end of the second optical module driving circuit is connected with the control unit, and the output end of the second optical module driving circuit is connected with the second optical module.

Further, the LED probe further includes a first temperature monitoring module, a signal output end of the first temperature monitoring module is connected to a temperature signal input end of the control unit, and when the temperature detected by the first temperature monitoring module exceeds a threshold, the control unit controls the first optical module driving circuit to stop the optical output of the first optical module.

Further, the LED probe comprises a shell, an irradiation window is formed in the shell, and the first light module is arranged in the shell and corresponds to the position of the irradiation window.

Furthermore, the two sides of the shell are convexly provided with first fixing lugs.

Furthermore, the back of the shell is provided with heat dissipation holes.

Further, the LED flexible printed circuit board further includes a second temperature monitoring module, a signal output end of the second temperature monitoring module is connected to a temperature signal input end of the control unit, and when the temperature detected by the second temperature monitoring module exceeds a threshold, the control unit controls the second optical module driving circuit to stop the optical output of the second optical module.

Further, the LED soft board is in a strip shape, and the second light module comprises a plurality of LED light emitting units which are arranged in a matrix shape.

Further, the LED soft board comprises a shell, and a second fixing lug is convexly arranged on the side face of the shell.

Further, the shell is made of silica gel, and a plurality of radiating grooves are formed in the side face and the back face of the shell.

Furthermore, the LED probe and/or the LED soft board are connected with the remote control host in a pluggable mode through a USB interface or a 3.5 earphone interface.

The utility model discloses by the first optical module drive circuit of the control unit control, second optical module drive circuit to realize the small-size portableization of hardware. The over-temperature protection design ensures the use safety of the product.

Drawings

Figure 1 is a schematic block diagram of the present invention,

figure 2 is a schematic structural view of the present invention,

figure 3 is a split view of the utility model LED probe,

figure 4 is a front view of the flexible board of the utility model,

fig. 5 is a back view of the flexible board of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention will be further described with reference to the following figures and examples:

as shown in fig. 1 to 5, the portable red and blue light therapeutic apparatus of the present invention comprises: the remote control system comprises a remote control host 10, an LED probe 20 connected with the remote control host and/or an LED soft board 30 connected with the remote control host. The LED probe 20 and/or the LED soft board 30 are connected with the remote control host 10 in a pluggable manner through a USB interface or a 3.5 earphone interface. Specifically, one remote control unit 10 may be connected to two LED probes 20 and one LED flexible board 30 at the same time. The LED probe 20 can emit LED red light or LED blue light; the LED flexible board 30 may emit red LED light or blue LED light.

The remote control host 10 includes: the display device comprises a power supply 11, a voltage stabilizing unit 12, a control unit 13, a control key 14, a display driver 15 and a display screen 16. The input end of the voltage stabilizing unit 12 is connected with the power supply 11, the output end of the voltage stabilizing unit 12 is respectively connected with the control unit 13, and the output voltage of the power supply 11 is stabilized by the voltage stabilizing unit 12 and then supplies power to the control unit 13. The output of the power supply 11 is 15V voltage, and the voltage is stabilized to 5V voltage by the voltage stabilizing unit 12, and the power supply supplies power to the control unit 13 and the display screen 16. The control button 14 is connected with the control unit 13, and the user can select the treatment time and the light treatment intensity or switch the light source through the control button 14.

The LED probe 20 includes: the optical module comprises a first optical module driving circuit 21 and a first optical module 22, wherein a control signal input end of the first optical module driving circuit 21 is connected with the control unit 13, and an output end of the first optical module driving circuit 21 is connected with the first optical module 22. The first light module 22 is an LED module.

The LED flexible board 30 includes a second optical module driving circuit 31 and a second optical module 32, wherein a control signal input terminal of the second optical module driving circuit 31 is connected to the control unit 13, and an output terminal of the second optical module driving circuit 31 is connected to the second optical module 32.

In order to increase the fit degree with the human body and improve the treatment effect. The LED flexible board 30 can be bent, and the LED flexible board 30 can be bent along with the body, when treating the neck, the abdomen, the waist, the arms and the legs, the LED flexible board 30 can be bent along with the neck, the abdomen, the waist, the arms and the legs, respectively.

The utility model discloses by the first optical module drive circuit 21 of the control unit 13 control, second optical module drive circuit 31 to realize the small-size portableization of hardware.

In order to improve the use safety of the utility model, the high temperature can be prevented from scalding the skin of the human body when in use. The LED probe 20 further includes a first temperature monitoring module 23, a signal output end of the first temperature monitoring module 23 is connected to a temperature signal input end of the control unit 13, and when the temperature detected by the first temperature monitoring module 23 exceeds a threshold, the control unit 13 controls the first optical module driving circuit 21 to stop the optical output of the first optical module 22. The LED flexible printed circuit further includes a second temperature monitoring module 33, a signal output end of the second temperature monitoring module 33 is connected to a temperature signal input end of the control unit 13, and when the temperature detected by the second temperature monitoring module 33 exceeds a threshold, the control unit 13 controls the second optical module driving circuit 31 to stop the light output of the second optical module 32. Specifically, when the temperature detected by the first temperature monitoring module 23 exceeds 60 ℃, the control unit 13 controls to stop the light output of the first optical module 22. When the temperature detected by the second temperature monitoring module 33 exceeds 60 ℃, the control unit 13 controls to stop the light output of the second optical module 32.

The LED probe 20 includes a housing 24, the housing 24 has an illumination window (not shown), and the first optical module 22 is installed in the housing 24 at a position corresponding to the illumination window. The housing 24 is provided with first fixing lugs 25 at two sides thereof. When the LED probe 20 is used for the acupuncture point irradiation treatment, the LED probe 20 is fixed to the treatment site by using a band (not shown) through the first fixing ear 25.

The utility model discloses use modern physics optics, biomedicine and therapeutics theory and combine the traditional medical science main and collateral channels acupuncture point theory of china as the basis, adopt semiconductor LED lamp matrix to arrange the light source to main and collateral channels acupuncture point physical therapy method, direct action is on human relevant acupuncture point or painful position. The therapeutic apparatus has the characteristics of no wound, no pollution, inflammation diminishing, swelling diminishing, pain relieving, spasmolysis and human body immunity and nerve function adjusting, is light and portable, simple to use, good in compliance, capable of being repeatedly used for a long time and the like.

In order to further increase the heat dissipation effect, the back surface of the housing 24 is provided with heat dissipation holes (not shown). The LED flexible board 30 is in a strip shape, and the second optical module 32 includes a plurality of LED light emitting units arranged in a matrix shape. The LED flexible board 30 includes a housing 34, a second fixing ear 35 is protruded from a side surface of the housing 34, and the LED flexible board 30 is fixed to a treatment site by using a binding band (not shown) through the second fixing ear 35. In order to meet the individual requirements of different crowds, treatment plates with various specifications and models can be arranged and can be divided into a long plate, a middle plate and a short plate. The light emitting lamps may be arranged in an arrangement of 7 rows or 9 rows. For example, the long discs can be arranged into 7 strips 76, 73, 70, 67 or 9 strips 76, 73, 70, 67, and the like with different specifications. When placed in the middle of the back, the acupoint Chinese herb preparation can be used for simultaneous physiotherapy of governor vessel lines of neck, chest, waist and sacral vertebra, two HuaCHA jia spine acupoint lines and bladder meridian section. For example, the middle energizer of the light-emitting therapy, is placed in the middle of the back and can perform physiotherapy from Xinshu to Shenshu, i.e., the upper energizer, the middle energizer and the lower energizer. The middle plate is generally provided with 43 rows of luminous points. The short disc is generally provided with about 25 rows of light emitting points. No matter what size of soft disc, they can bend with body, such as neck, abdomen, waist, arm and leg, so that the light is more uniform. In order to increase the toughness and comfort of the product, the housing 34 is made of silica gel. The side and back of the housing 34 are formed with heat dissipation grooves 36 to increase heat dissipation.

For the convenience of using and accommodating the product, the LED probe 20 and/or the LED flexible board 30 are connected with the remote control host 10 in a pluggable manner through a USB interface or a 3.5 earphone interface.

The utility model discloses a remote control host computer 10's hardware design is light and handy portable, and the user can use the treatment anytime and anywhere, according to actual need remote control host computer can dispose LED probe and/or LED soft board in a flexible way.

Claims (10)

1. The utility model provides a portable red blue light therapeutic instrument which characterized in that: comprises a remote control host (10), an LED probe (20) connected with the remote control host and/or an LED soft board (30) connected with the remote control host,

the remote control host (10) comprises: the device comprises a power supply (11), a voltage stabilizing unit (12), a control unit (13) and a control key (14); the input end of the voltage stabilizing unit (12) is connected with the power supply (11), the output end of the voltage stabilizing unit (12) is respectively connected with the control unit (13), and the output voltage of the power supply (11) is stabilized by the voltage stabilizing unit (12) and then supplies power to the control unit (13);

the LED probe (20) comprises: the optical module comprises a first optical module driving circuit (21) and a first optical module (22), wherein the control signal input end of the first optical module driving circuit (21) is connected with a control unit (13), and the output end of the first optical module driving circuit (21) is connected with the first optical module (22);

the LED soft board (30) is bendable and comprises: the optical module comprises a second optical module driving circuit (31) and a second optical module (32), wherein the control signal input end of the second optical module driving circuit (31) is connected with the control unit (13), and the output end of the second optical module driving circuit (31) is connected with the second optical module (32).

2. The portable red blue light therapeutic apparatus of claim 1, wherein: the LED probe further comprises a first temperature monitoring module (23), a signal output end of the first temperature monitoring module (23) is connected with a temperature signal input end of the control unit (13), and when the temperature detected by the first temperature monitoring module (23) exceeds a threshold value, the control unit (13) controls the first optical module driving circuit (21) to stop the optical output of the first optical module (22).

3. The portable red and blue light therapeutic apparatus according to claim 2, wherein: the LED probe comprises a shell (24), an irradiation window is formed in the shell (24), and the first optical module (22) is installed in the shell (24) and corresponds to the position of the irradiation window.

4. The portable red and blue light therapeutic apparatus according to claim 3, wherein: the two sides of the shell (24) are convexly provided with first fixing lugs (25).

5. The portable red and blue light therapeutic apparatus according to claim 4, wherein: the back of the shell (24) is provided with heat dissipation holes.

6. The portable red blue light therapeutic apparatus of claim 1, wherein: the LED soft board further comprises a second temperature monitoring module (33), a signal output end of the second temperature monitoring module (33) is connected with a temperature signal input end of the control unit (13), and when the temperature detected by the second temperature monitoring module (33) exceeds a threshold value, the control unit (13) controls the second optical module driving circuit (31) to stop the light output of the second optical module (32).

7. The portable red blue light therapeutic apparatus of claim 6, wherein: the LED soft board (30) is in a strip shape, and the second optical module (32) comprises a plurality of LED light-emitting units which are arranged in a matrix shape.

8. The portable red and blue light therapeutic apparatus according to claim 7, wherein: the LED soft board (30) comprises a shell (34), and a second fixing lug (35) is convexly arranged on the side face of the shell (34).

9. The portable red blue light therapeutic apparatus of claim 8, wherein: the shell (34) is made of silica gel, and a plurality of heat dissipation grooves are formed in the side face and the back face of the shell (34).

10. The portable red blue light therapeutic apparatus of claim 1, wherein: the LED probe (20) and/or the LED soft board (30) are connected with the remote control host (10) in a pluggable mode through a USB interface or a 3.5 earphone interface.

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