CN212139407U - Health care waist support - Google Patents

Abstract

The utility model discloses a health care waist support, be in including the waist support area body, and set up carbon fiber heating wire in the waist support area body, still be provided with the master control box on the waist support area body, be provided with control circuit board and lithium cell in the master control box, the last integration of control circuit board is provided with MCU controller, temperature acquisition circuit, pulse generation circuit, the MCU controller with temperature acquisition circuit pulse generation circuit the lithium cell is connected, temperature acquisition circuit is in through setting up the temperature information of waist support is gathered in real time to the internal temperature sensor of waist support area, pulse generation circuit with the carbon fiber heating wire is connected, and the carbon fiber heating wire produces the heat and produces the far infrared pulse light wave of 8-14 micron wavelength simultaneously. The health waist support has the physical function of common waist support, and has far infrared and light acupuncture health promotion functions.

Description

Health care waist support

Technical Field

The utility model relates to the technical field of health care articles for daily use, in particular to a health care waist support.

Background

With the increasing enthusiasm of people in sports, sports and health care are more and more popular among common people, and the function of the sports protector as protecting athletes from sports injury and improving sports effect is more and more non-negligible. The sports means sports injury at the same time, various sports protectors are born, the waist is used as a force generating base point of many sports, the function of the waist is not negligible, and the force injury is not easy to be valued by people, so that the sports effect is poor and even the waist is injured. Particularly, in the body building and body building exercises, the waist bears large gravity, and the training of muscles at all parts is involved, so that the safe and effective exercise can be performed under the lasting stress under the support and protection of comfortable waist support. The medical waist protection is much more important, and various medical waist protecting belts, waist protecting pads and waist protecting pillows have various names and are reliable protective equipment for health care. The lovely and slimming friends cannot strange the body certainly, and a pair of good-quality and effective waist support can effectively take away fat while absorbing and removing sweat. The waist support for sports is mainly made of cotton, nylon, cowhide or diving, and is suitable for the characteristics and requirements of various sports. The functional waist support is made of different materials, various physical therapy elements are added, and the price is relatively high. For example, the tourmaline self-heating waist support is a high and new technology product which is made by using tourmaline electric ore material as a core and combining nano biological functional materials; the tourmaline self-heating waist support has the double effects of thermoelectricity and piezoelectricity, forms resonance with a magnetic field of a human body, can continuously release heat energy and negative ions through the self energy of the human body, and generates a deep heat effect by far infrared; can effectively improve blood circulation, promote metabolism, dredge channels and collaterals, expel wind and remove dampness, relieve pain and cold, and enhance disease resistance of organisms.

However, the health care function of the energy stone is based on the radiation of the energy stone, the radiation is very weak, the health care effect is very weak when the quantity is small, a large quantity of energy stones cannot be placed on the waist support, the weight is large, the practicability is low, and more importantly, the price of the energy stone is not high, and the cost is high. Therefore, there is a need for a waist support that is low in cost and has a remarkable health care effect.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a health care waist support, which has the physical function of general waist support and the health care functions of far infrared and light acupuncture.

In order to solve the above technical problem, specifically, the technical scheme of the utility model is as follows:

the utility model provides a health care waist support, includes the waist support area body, and sets up the carbon fiber heating wire in the waist support area body, still be provided with the master control box on the waist support area body, be provided with control circuit board and lithium cell in the master control box, the last integration of control circuit board is provided with MCU controller, temperature acquisition circuit, pulse generation circuit, the MCU controller with the temperature acquisition circuit pulse generation circuit the lithium cell is connected, the temperature acquisition circuit is in through setting up the temperature sensor of the internal temperature sensor of waist support area gathers the temperature information of waist support in real time, pulse generation circuit with the carbon fiber heating wire is connected, and the carbon fiber heating wire produces the heat and produces the pulse light wave of the far infrared of 8-14 micron wavelength simultaneously.

The principle of the utility model explains:

the carbon fiber electric heating wire is a high-tech product different from traditional electric heating tubes such as metal wires and halogens, and has the excellent performances of long service life, high electric heating conversion efficiency, far infrared radiation, health, environmental protection and the like. The far infrared ray of 8-14 μm is called life light, and its heat energy can penetrate 4-5 cm deep under skin tissue to cause resonance absorption of cells to generate warming effect. The carbon fiber electric heating wire generates far infrared rays after being conducted, the wavelength of the far infrared rays is close to the infrared wavelength emitted by a human body, and the far infrared rays can generate resonance with the human body more easily.

The light moxibustion technology combines the traditional health preserving medicine, medical meridian theory and the modern infrared medicine and anion medicine, and is the innovation and development of Chinese acupuncture and moxibustion. The optical moxibustion technology is used for treating by utilizing the energy of 'endogenous heat effect' of far infrared vital light waves and is also applied to hot compress therapy; on the other hand, the more difficult and expensive is to use the non-heat effect of the acupuncture needle to perform information treatment, automatically search acupuncture points and play the roles of acupuncture and moxibustion!

By "non-thermal effect" is meant a physiological effect not produced by heat, such as: wound healing, erythrocyte deformation, endocrine regulation, immunity improvement, neurotranquilization, and pain relieving effects. Therefore, far infrared light wave rays irradiate acupuncture points, namely, automatic acupuncture point detection (which is not troublesome for accurate acupuncture point insertion like acupuncture) is a good method for achieving the purpose of treatment by utilizing the traditional medical meridian theory to transmit energy information of far infrared rays from the outside to the inside, fully exerting the non-thermal effect automatic acupuncture point detection of the far infrared rays and playing the roles of acupuncture and moxibustion.

Based on the health care principle, the health care waist support of the utility model has the common heating and warm keeping effects and simultaneously has the health care functions of far infrared and light acupuncture.

Further, the pulse generation circuit controls the carbon fiber heating wire to generate a pulsating light wave, and the frequency range of the pulsating light wave is 1-1000 Hz.

Further, the carbon fiber heating wires comprise a first carbon fiber heating wire and a second carbon fiber heating wire, and the first carbon fiber heating wire and the second carbon fiber heating wire are connected in parallel and then connected with the pulse generation circuit; the first carbon fiber heating wire and the second carbon fiber heating wire are coiled on the same heating wire installation layer and are positioned in the middle of the waist support belt body.

Further, the temperature sensor is arranged between the first carbon fiber heating wire and the second carbon fiber heating wire, and the MCU controller controls the amplitude of the pulse light wave according to the temperature information obtained by the temperature sensor, so that the temperature range generated by the first carbon fiber heating wire and the second carbon fiber heating wire is 40-60 ℃.

Furthermore, a battery monitoring circuit is further arranged on the control circuit board and electrically connected with the MCU controller to collect the electric quantity information of the lithium battery.

Further, still be provided with key switch on the main control box, main control box one side is provided with the interface that charges, key switch with the interface that charges with MCU controller electric connection.

Furthermore, a wireless communication circuit is arranged on the control circuit board and electrically connected with the MCU controller, and the temperature information and the electric quantity information are transmitted to the intelligent mobile terminal.

Furthermore, a time setting circuit is further arranged on the control circuit board, and the time setting circuit is electrically connected with the key switch and the MCU controller, so that the timing setting is realized through the key switch.

Furthermore, the first carbon fiber heating wire and the second carbon fiber heating wire are arranged on the heating wire installation layer, and a waterproof cloth layer and a self-adhesive cloth layer are respectively arranged on the upper side and the lower side of the heating wire installation layer.

Furthermore, one end of the waist support belt body is provided with a bonding part, and the bonding part is matched with the self-bonding cloth layer. Thereby being suitable for the waist fixation of different human bodies.

Adopt above-mentioned technical scheme, owing to adopted carbon fiber heating wire and pulse generation circuit, can produce far infrared radiation, produce the pulse light wave that has the light acupuncture effect simultaneously, thereby make the utility model discloses a health care waist support simple structure has multiple health function moreover.

Drawings

FIG. 1 is a front view of the structure of the health-care waist support of the present invention;

FIG. 2 is a rear view of the waist support of the present invention;

FIG. 3 is a structural diagram of the electric heating wire of the health care waist support of the present invention;

FIG. 4 is a connection structure diagram of the electric heating wire of the health care waist support of the present invention;

FIG. 5 is a sectional view of the waist support of the present invention;

FIG. 6 is a control circuit structure diagram of the health-care waist support of the present invention;

fig. 7 is a schematic diagram of a first pulse generating circuit of the present invention;

fig. 8 is a schematic diagram of a second pulse generating circuit according to the present invention.

In the figure, 10-waist support belt body, 11-bonding part, 20-main control box, 21-charging interface, 31-first carbon fiber heating wire, 32-second carbon fiber heating wire, 40-temperature sensor, 50-threading hole, 101-waterproof cloth layer, 102-self-bonding cloth layer and 103-heating wire installation layer.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1-4 and 6, a health care waist support comprises a waist support belt 10 and a carbon fiber heating wire arranged in the waist support belt 10, wherein a main control box 20 is further arranged on the waist support belt 10, a control circuit board and a lithium battery are arranged in the main control box 20, an MCU controller, a temperature acquisition circuit and a pulse generation circuit are integrally arranged on the control circuit board, the MCU controller is connected with the temperature acquisition circuit, the pulse generation circuit and the lithium battery, the temperature acquisition circuit acquires temperature information of the waist support in real time through a temperature sensor 40 arranged in the waist support belt 10, the pulse generation circuit is connected with the carbon fiber heating wire 30, and the carbon fiber heating wire 30 generates heat and simultaneously generates a pulse light wave of far infrared rays with a wavelength of 8-14 microns.

The pulse generating circuit controls the carbon fiber heating wire 30 to generate a pulsating light wave, and the frequency range of the pulsating light wave is 1-1000 Hz.

The pulse generation circuit may be composed of an AVR single chip microcomputer, a TL494 device, and an NE555 device, and the pulse generation circuit composed of the NE555 device shown in fig. 7 belongs to a frequency selection interface in a dashed line frame, and amplitude adjustment can be achieved by adjusting W1 and W2.

As shown in fig. 7, PULS is a pulse control signal output by the MCU, and the signal drives the VMOS transistor after voltage amplification, so that the Vout signal output to the load has the same pulse width and the same frequency as the PULS signal. By changing the duty cycle and frequency of the PULS, the pulse width and frequency of the Vout output can be adjusted. The pulse generating circuit is realized by the MCU output waveform to control the on-off of the switch tube. Because the VGS voltage required by the conduction of the VMOS must be larger than 4V, and the output voltage of the MCU is only 5V, a first-stage amplifying circuit is required to be added into the circuit, and the amplifying circuit is realized by two triodes 9012 and 9013.

The carbon fiber heating wires comprise a first carbon fiber heating wire 31 and a second carbon fiber heating wire 32, and the first carbon fiber heating wire 31 and the second carbon fiber heating wire 32 are connected in parallel and then connected with the pulse generation circuit; the first carbon fiber heating wire 31 and the second carbon fiber heating wire 32 are wound on the same heating wire installation layer 103 and located in the middle of the waist support belt body 10.

The temperature sensor 40 is disposed between the first carbon fiber heating wire 31 and the second carbon fiber heating wire 32, and the MCU controller controls the amplitude of the pulse light wave according to the temperature information obtained by the temperature sensor 40, so that the temperature range generated by the first carbon fiber heating wire 31 and the second carbon fiber heating wire 32 is 40-60 degrees.

The control circuit board is further provided with a battery monitoring circuit, and the battery monitoring circuit is electrically connected with the MCU controller and used for collecting the electric quantity information of the lithium battery.

The main control box 20 is further provided with a key switch, one side of the main control box 20 is provided with a charging interface 21, and the key switch and the charging interface 21 are electrically connected with the MCU controller.

The key switch is provided with LED indicating lamps with various colors, wherein the red lamp is turned on according to 100% of output power for the first time, the green lamp is turned on according to 80% of output power for the second time, the blue lamp is turned on according to 60% of output power for the second time, the white lamp is turned on according to 40% of output power for the second time, the yellow lamp is turned on according to 20% of output power for the second time, and the output is turned off according to the second time. The keys are cycled through.

The control circuit board is provided with a wireless communication circuit, the wireless communication circuit is electrically connected with the MCU controller, and the temperature information and the electric quantity information are transmitted to the intelligent mobile terminal.

The control circuit board is also provided with a time setting circuit, the time setting circuit is electrically connected with the key switch and the MCU controller, and the timing setting is realized through the key switch.

When the device is used, the switch is pressed for a long time for 5s to be turned on for timing, the red light flickers for timing 10 hours, the green light flickers for 8 hours, the blue light flickers for 6 hours, the white light flickers for 4 hours, the yellow light flickers for 2 hours, the key is not pressed any more when the time is selected, the time can be automatically determined, the lamp can display the power for a long time, the flickers for timing, and the two are alternately displayed. If the timing is to be closed, the closing can be performed by pressing for 5 s.

As shown in fig. 5, the first carbon fiber heating wire 31 and the second carbon fiber heating wire 32 are disposed on the heating wire installation layer 103, and a waterproof cloth layer 101 and a self-adhesive cloth layer 102 are disposed on upper and lower sides of the heating wire installation layer 103, respectively.

Wherein, one end of the waist support belt body 10 is provided with a bonding part 11, and the bonding part 11 is matched with the self-bonding cloth layer 102. Thereby being suitable for the waist fixation of different human bodies.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in the embodiments without departing from the principles and spirit of the invention, and the scope of the invention is to be accorded the full scope of the claims.

Claims (7)

1. A health care waist support is characterized in that: the waist support comprises a waist support belt body and a carbon fiber heating wire arranged in the waist support belt body, wherein a main control box is further arranged on the waist support belt body, a control circuit board and a lithium battery are arranged in the main control box, an MCU (micro control unit) controller, a temperature acquisition circuit and a pulse generation circuit are integrally arranged on the control circuit board, the MCU controller is connected with the temperature acquisition circuit, the pulse generation circuit and the lithium battery, the temperature acquisition circuit acquires temperature information of the waist support in real time through a temperature sensor arranged in the waist support belt body, the pulse generation circuit is connected with the carbon fiber heating wire, and the carbon fiber heating wire generates heat and simultaneously generates far infrared pulse light waves with the wavelength of 8-14 microns; the carbon fiber heating wires comprise a first carbon fiber heating wire and a second carbon fiber heating wire, and the first carbon fiber heating wire and the second carbon fiber heating wire are connected in parallel and then connected with the pulse generation circuit; the first carbon fiber heating wire and the second carbon fiber heating wire are coiled on the same heating wire installation layer and are positioned in the middle of the waist support belt body;

the first carbon fiber heating wire and the second carbon fiber heating wire are arranged on the heating wire installation layer, and a waterproof cloth layer and a self-adhesive cloth layer are respectively arranged on the upper side and the lower side of the heating wire installation layer; one end of the waist support belt body is provided with a bonding part, and the bonding part is matched with the self-bonding cloth layer.

2. A health care waist support as defined in claim 1, wherein: the pulse generating circuit controls the carbon fiber heating wires to generate pulsed light waves, and the frequency range of the pulsed light waves is 1-1000 Hz.

3. A health care waist support as defined in claim 2, wherein: the temperature sensor is arranged between the first carbon fiber heating wire and the second carbon fiber heating wire, and the MCU controller controls the amplitude of the pulse light wave according to temperature information obtained by the temperature sensor, so that the temperature range generated by the first carbon fiber heating wire and the second carbon fiber heating wire is 40-60 ℃.

4. A health care waist support as defined in claim 2, wherein: the control circuit board is also provided with a battery monitoring circuit, and the battery monitoring circuit is electrically connected with the MCU controller and used for collecting the electric quantity information of the lithium battery.

5. A health care waist support as defined in claim 2, wherein: the MCU charging system is characterized in that a key switch is further arranged on the main control box, a charging interface is arranged on one side of the main control box, and the key switch and the charging interface are electrically connected with the MCU controller.

6. A health care waist support according to claim 4, wherein: the control circuit board is provided with a wireless communication circuit, the wireless communication circuit is electrically connected with the MCU controller, and the temperature information and the electric quantity information are transmitted to the intelligent mobile terminal.

7. A health care waist support according to claim 5, wherein: the control circuit board is also provided with a time setting circuit, the time setting circuit is electrically connected with the key switch and the MCU controller, and the time setting circuit realizes the timing setting through the key switch.

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