CN108835720B - Physiotherapy socks - Google Patents

Abstract

The invention discloses a physiotherapy sock, comprising: the sock body is arranged in a sandwich type; the red light LED chips are arranged on the middle interlayer of the sock body and respectively correspond to a plurality of acupuncture points of the foot of a human body; the miniature power supply is arranged on the middle interlayer of the sock body, is connected with the plurality of red light LED chips, and is used for controlling the red light LED chips to emit red light and acts on the acupuncture points corresponding to the red light LED chips. According to the invention, the red light LED chips are arranged in the socks corresponding to all the acupoints of the feet of a human body, and the red light LED chips emit red light to stimulate the acupoints, so that the acupoints are massaged, the blood circulation is promoted, and the physiotherapy and health care effects are achieved.

Description

Physiotherapy socks

Technical Field

The invention relates to the technical field of foot health care physiotherapy, in particular to physiotherapy socks.

Background

In order to keep healthy, people today often use or wear some health care products, such as: foot patches, back patches, shoulder patches, and the like. However, the foot patches in the prior art basically contain traditional Chinese medicine extracts, and the traditional Chinese medicine extracts are relied on to act on acupoints of human bodies, so that the effects of health care and physiotherapy are achieved.

Research in the medical field shows that the red light emitted by the red light LED can massage a human body and promote blood circulation, and has health care and physiotherapy functions on the human body, but no product for foot physiotherapy using the red light LED is available in the prior art.

Accordingly, the prior art is still in need of improvement and development.

Disclosure of Invention

The invention aims to solve the technical problems of providing physiotherapy socks aiming at the defects of the prior art and aims to solve the problems of lack of products for foot physiotherapy by using red LEDs in the prior art.

The technical scheme adopted for solving the technical problems is as follows:

a physiotherapy sock, wherein the physiotherapy sock comprises:

the sock body is arranged in a sandwich type;

the red light LED chips are arranged on the middle interlayer of the sock body and respectively correspond to a plurality of acupuncture points of the foot of a human body;

the miniature power supply is arranged on the middle interlayer of the sock body, is connected with the plurality of red light LED chips, and is used for controlling the red light LED chips to emit red light and acts on the acupuncture points corresponding to the red light LED chips.

In one of these embodiments, the sock body includes:

the inner layer of the sock is attached to the foot and wraps the foot when the physiotherapy sock is used;

an intermediate layer which is attached to the sock inner layer and covers the sock inner layer;

and the sock outer layer is attached to the middle interlayer and covers the middle interlayer.

In one embodiment, the sock inner layer is transparent silica gel provided with a plurality of ventilation holes.

In one embodiment, the middle interlayer is provided with a plurality of red light LED chips corresponding to the sole, heel, instep, toe and ankle of the foot, and the red light LED chips stimulate the acupoints on the sole, heel, instep, toe and ankle respectively.

In one embodiment, the red LED chip is any one of a flexible light-emitting tape patch, a flexible COB light-emitting tape, and an LED filament.

In one embodiment thereof, the red LED chip includes:

the soft base material is arranged on the middle interlayer of the sock body;

at least one red LED arranged on the flexible substrate;

the integrated circuit is arranged on the soft substrate and is respectively connected with the red light LED and the miniature power supply;

the red light LEDs are attached to the sock inner layer of the sock body.

In one embodiment, the red LED chip further includes: the transparent nano film layer is arranged on the soft base material and used for protecting the red light LEDs and the integrated circuits on the soft base material.

In one embodiment, the flexible substrate is provided with an adhesive layer for securing the flexible substrate to the intermediate layer.

In one embodiment, the micro power supply is a constant current direct current power supply and comprises a power supply electric plate, wherein an LED switch, an LED indicator lamp, a display, a luminous time regulator, an intensity regulator, a power supply output interface and a power supply input interface are arranged on the power supply electric plate;

the LED switch is connected with the LED indicator lamp and the display;

the display is connected with the luminous time regulator and the intensity regulator.

In one embodiment, the power supply board is further provided with a radio frequency module, and the radio frequency module is connected with the LED switch and is used for receiving an instruction of the remote controller to enable the LED switch to be closed.

The invention has the beneficial effects that: the lifting control of the office desk is realized by using the hinge assembly structure formed by the connecting rods, the structure is simple and stable, the cost is effectively reduced, and compared with the traditional lifting office desk, the lifting control of the office desk is more labor-saving.

Drawings

Fig. 1 is a schematic diagram of the arrangement position of a red light LED chip in the physiotherapy sock of the present invention.

Fig. 2 is a partial schematic view of the sock body in the physiotherapy sock of the present invention.

Fig. 3 is a schematic structural view of a red LED chip in the physiotherapy sock of the present invention.

Fig. 4 is a left side view of the red LED chip in the physio-sock of the present invention.

Fig. 5 is a schematic block diagram of a miniature power supply in the physiotherapy sock of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear and clear, the present invention will be further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As LED technology matures, LEDs are increasingly being used in wearable devices. At present, medical research has shown that the wavelength of red light emitted by the red light LED is 600-700 nanometers, the red light can stimulate the acupoints of a human body, and according to the theory of traditional Chinese medicine, the red light acts on the acupoints of the human body in a way of massaging the acupoints of the human body, so that the red light has the effects of promoting blood circulation and relaxing tendons and activating collaterals. The present invention is to apply red light to socks to form a physio-sock, and in particular, as shown in fig. 1, the physio-sock of the present invention comprises: sock body 10, a plurality of red light LED chip 20 and miniature power supply 30, miniature power supply 30 is all connected with a plurality of LED chip 20. In the present invention, the red LED chip 20 is disposed on the sock at the position corresponding to the acupoints of the foot, so that the red LED chip 20 at each acupoint emits red light to stimulate the acupoint, thereby achieving physiotherapy and health care effects.

Specifically, since the red light LED chip is required to be disposed in the sock according to the present invention, in order not to affect the comfort of the sock, the user is prevented from feeling a foreign body sensation when using the physiotherapy sock according to the present invention, and the sock body 10 in the present embodiment is disposed in a sandwich type structure. The method specifically comprises the following steps: sock inner layer 110, midsole 120, and sock outer layer 130. As shown in FIG. 2, the sock inner layer 110 is the layer that conforms to and wraps around the foot when the physio-sock is in use. The middle layer 120 is a layer covering the sock inner layer 110, and the sock outer layer 130 is a layer covering the middle layer 120, that is, the outermost layer, that is, the sock body 10 in this embodiment is configured in a three-layer structure. Further, in the present embodiment, the red LED chip 20 is disposed on the middle interlayer 120, and the red LED that emits light is attached to the sock inner layer 110, so that when the physiotherapy sock is used, the red LED emits light to act on the corresponding acupoint through the sock inner layer 110.

Preferably, in order to avoid that the light emitted by the red LED chip 20 is blocked by the sock inner layer 110, in this embodiment, the sock inner layer 110 is made of transparent silica gel, and a plurality of light holes 111 are formed in the transparent silica gel, so that most of the light emitted by the red LED chip 20 can be ensured to pass through the sock inner layer 110 and act on corresponding acupoints of the foot by arranging the light holes 111. The red LED chip 20 is any one of a flexible light-emitting tape patch, a flexible COB light-emitting tape, and an LED filament.

Preferably, in this embodiment, a plurality of red LED chips 20 are disposed on the sole, heel, instep, toe and wrist of the foot of the midsole 120, referring to fig. 1. The foot of the human body is provided with a plurality of acupoints, each acupoint corresponds to different organs, in order to improve the physiotherapy effect, the red light LED chips 20 are arranged at the positions of the sole, the heel, the instep, the toe and the ankle, and each red light LED chip 20 corresponds to different acupoints, so that the acting area of each red light LED chip 20 almost covers the whole foot, thereby enabling the acupoints of the foot to be stimulated by red light and improving the physiotherapy effect. It should be noted that, in fig. 1, only the arrangement positions of the red LED chips 20 are illustrated, and the arrangement of the red LED chips 20 according to the positions of the acupoints may be performed at other positions not illustrated, instead of the arrangement positions illustrated.

Further, in the present invention, there is provided a specific embodiment of a red LED chip 20, as shown in fig. 3 and 4, the red LED chip 20 includes: the flexible substrate 210, the flexible substrate 210 is disposed on the middle interlayer 120 of the sock body 10, the flexible substrate 210 is provided with a plurality of red LEDs 220 and an integrated circuit 230, the integrated circuit 230 is printed on the flexible substrate 210, the integrated circuit 230 is connected with the red LEDs 220 and extends to be connected with the micro power supply 30, and the integrated circuit 230 connected with the micro power supply 30 is disposed on the middle interlayer 120, so as to ensure that the integrated circuit 230 is not exposed. The red light LED220 is attached to the sock inner layer 110 of the sock body 10, so that the micro power supply 30 performs the energizing treatment on the red light LED220 through the integrated circuit 230 to control the red light LED220 to emit light, and the red light at the emitting position acts on the foot acupoints through the sock inner layer 110.

Preferably, the red LED chip 20 of the present embodiment further includes: a transparent nano-film layer (not shown in fig. 3) disposed on the flexible substrate 210 for protecting the red LEDs 220 and the integrated circuits 230 on the flexible substrate 210. The nano film layer can effectively protect the red light LED220 and the integrated circuit 230, and prevent the performance of the red light LED chip 20 from being affected by the operations of washing, folding, etc. of the physiotherapy sock. In addition, the flexible substrate 210 in this embodiment is made of PET material or PCV material, so that the red LED chip 20 has a certain flexibility, and when the user is in the physiotherapy sock, even if the user bends a little, the performance of the chip is not easily damaged, and the service life of the red LED chip 20 is prolonged.

Preferably, the flexible substrate 210 and the middle layer 120 of the sock body 10 are fixed by bonding. Specifically, an adhesive layer is disposed on one surface of the flexible substrate 210, and the adhesive layer can be firmly connected with the middle interlayer 120, so as to fix the red light LED chip 20, so that the red light LED chip 20 is not easy to fall off or move during the use of the physiotherapy sock. Of course, the fixing manner of the red LED chip 20 and the intermediate layer 120 may also take other forms, for example, a sewing manner, which is not limited in this embodiment.

Further, the micro power source 30 in this embodiment is disposed at the welt of the physiotherapy sock (as shown in fig. 1), and the voltage value may be 12V, 24V, 36V or 42V by using a constant current dc power source. Specifically, as shown in fig. 5, the micro power supply 30 includes a power supply board 510, and an LED switch 520, an LED indicator 530, a display 540, a light emitting time adjuster 550, an intensity adjuster 560, a power supply output interface 570, and a power supply input interface 580 are disposed on the power supply board 510. The LED switch 520 is connected to the LED indicator 530 and the display 540. The display 540 is connected to both the light emission time adjuster 550 and the intensity adjuster 560. For convenience of use, the physiotherapeutic sock of the present embodiment can adjust the light emitting time and light emitting intensity of the red LED chip 20, and can display the same through the display 540. For example, the light-emitting time is initially set to be three gears of 15 minutes, 30 minutes and 1 hour, and the user can perform autonomous setting according to the requirement. In addition, the micro power supply 30 in this embodiment further has a charging and discharging function, and can be charged through the power input interface 580 and discharged through the power output interface 570, and the remaining capacity of the micro power supply 30 can be displayed through the display 540, so that the user can be reminded of charging in time, and convenience is provided for the user.

Further, the power board 510 in this embodiment is provided with a radio frequency module 590, where the radio frequency module 590 is connected to the LED switch 520, and the radio frequency module 590 is configured to receive an instruction from a remote controller to close the LED switch 520, so as to control the operation of the red LED chip 20, which provides convenience for the user to operate. Interfaces may also be provided for ease of use to allow power supply or the like to be attached to other locations, such as shoes or additional circuit modules attached to the legs. A transparent cover sheet may be further provided on the physiotherapeutic sock so that the light emitted from the red LED chip 20 can be irradiated to the foot.

In summary, the present invention provides a physiotherapy sock, comprising: the sock body is arranged in a sandwich type; the red light LED chips are arranged on the middle interlayer of the sock body and respectively correspond to a plurality of acupuncture points of the foot of a human body; the miniature power supply is arranged on the middle interlayer of the sock body, is connected with the plurality of red light LED chips, and is used for controlling the red light LED chips to emit red light and acts on the acupuncture points corresponding to the red light LED chips. According to the invention, the red light LED chips are arranged in the socks corresponding to all the acupoints of the feet of a human body, and the red light LED chips emit red light to stimulate the acupoints, so that the acupoints are massaged, the blood circulation is promoted, and the physiotherapy and health care effects are achieved.

It is to be understood that the invention is not limited in its application to the examples described above, but is capable of modification and variation in light of the above teachings by those skilled in the art, and that all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (4)

1. A physiotherapy sock, characterized in that the physiotherapy sock comprises:

the sock body is arranged in a sandwich type;

the red light LED chips are arranged on the middle interlayer of the sock body and respectively correspond to a plurality of acupuncture points of the foot of a human body;

the foot rest, heel, instep, toe and wrist of the foot are respectively provided with a plurality of red light LED chips, each red light LED chip corresponds to different acupoints, the red light LED chips stimulate the acupoints on the sole, heel, instep, toe and wrist respectively, and the action area of each red light LED chip covers the whole foot;

the miniature power supply is arranged on the middle interlayer of the sock body, is connected with the plurality of red light LED chips, and is used for controlling the red light LED chips to emit red light and act on acupuncture points corresponding to the red light LED chips;

the miniature power supply is a constant-current direct-current power supply and comprises a power supply electric plate, wherein an LED switch, an LED indicator lamp, a display, a luminous time regulator, an intensity regulator, a power supply output interface and a power supply input interface are arranged on the power supply electric plate;

the LED switch is connected with the LED indicator lamp and the display;

the display is connected with the luminous time regulator and the intensity regulator;

the power supply panel is also provided with a radio frequency module, and the radio frequency module is connected with the LED switch and is used for receiving an instruction of the remote controller to enable the LED switch to be closed;

the residual electric quantity of the miniature power supply is displayed through the display, and a user is timely reminded of charging;

the red LED chip includes:

the soft base material is arranged on the middle interlayer of the sock body;

at least one red LED arranged on the flexible substrate;

the integrated circuit is arranged on the soft substrate and is respectively connected with the red light LED and the miniature power supply;

the flexible substrate ensures that the integrated circuit is not exposed;

the red light LEDs are attached to the sock inner layer of the sock body;

red light emitted by the red light LEDs acts on foot acupoints through the inner layers of the socks;

the red LED chip further includes: the transparent nano film layer is arranged on the soft substrate and used for protecting the red light LEDs and the integrated circuits on the soft substrate;

the nanometer film layer protects the red light LED and the integrated circuit, and prevents the performance of the red light LED chip from being influenced by washing and folding of the physiotherapy socks;

the bonding layer is arranged on the soft base material and is used for fixing the soft base material on the middle interlayer and fixing the red light LED chip, so that the red light LED chip is not easy to fall off or move in the use process of the physiotherapy sock.

2. The red LED chip physiotherapy sock of claim 1, wherein the sock body comprises:

the inner layer of the sock is attached to the foot and wraps the foot when the physiotherapy sock is used;

an intermediate layer which is attached to the sock inner layer and covers the sock inner layer;

and the sock outer layer is attached to the middle interlayer and covers the middle interlayer.

3. The red LED chip physiotherapy sock according to claim 2, wherein the sock inner layer is transparent silica gel provided with a plurality of ventilation holes.

4. The red LED chip physiotherapy sock of claim 1, wherein the red LED chip is any one of a flexible light strip patch, a flexible COB light strip, and an LED filament.