CN218900589U - Infrared patch physiotherapy device - Google Patents

Abstract

The utility model discloses an infrared patch physiotherapy device, which comprises an infrared physiotherapy main body, a patch unit, a plurality of temperature measuring units, an infrared physiotherapy main body controller, a temperature measuring unit controller and an electric energy supply unit, wherein the infrared physiotherapy main body is arranged on the patch unit, the plurality of temperature measuring units are arranged in the patch unit, the infrared physiotherapy main body is connected with the infrared physiotherapy main body controller through a wire harness, the temperature measuring units are connected with the temperature measuring unit controller through the wire harness, the infrared physiotherapy main body controller is respectively connected with the electric energy supply unit through the wire harness, and the electric energy supply unit is communicated with an external power supply.

Description

Infrared patch physiotherapy device

Technical Field

The utility model relates to the field of medical appliances, in particular to an infrared patch physiotherapy device.

Background

The near infrared ray treatment is carried out by using infrared rays with the depth of 0.76-1.5 um, the penetration depth can reach 10mm, the near infrared ray can directly act on blood vessels, lymphatic vessels, nerve endings and the like of skin, the generated thermal effect can relieve muscle spasm, improve pain threshold, promote tissue recovery, promote blood circulation and the like, and the infrared ray can not cause photochemical and photoelectric effects after being absorbed by the tissue due to small photon energy, only can cause molecular vibration, so the near infrared ray has small side effect and has important significance on scapulohumeral periarthritis. In order to meet the requirement of large-scale treatment of a plurality of parts, the conventional instrument is generally large in size, high in price and inconvenient to use in daily life.

For changing current device lamp holder radiation direction singleness, can not do the equal perpendicular illumination of part, especially operate inconvenient inflexible shortcoming when to the structural treatment of health unevenness, this novel design utilizes the unique divergent lens technique of accurate direct muscle layer of light wave for to effect position treatment effect more even, the paster size is small and exquisite, can nimble with wrist, neck, shank, body position adaptation such as knee, to the treatment effect at scapulohumeral periarthritis uneven position better, avoided the deep tissue and the skin damage of soapy position, and through temperature sensor feedback information, thereby enable the nimble adjustment of treatment intensity, and guarantee safety more, and raw and other materials price is lower, the design is portable practical, easily popularizes.

Disclosure of Invention

The present utility model is directed to solving the above-mentioned problems in the prior art, and provides an infrared patch physiotherapy device.

The infrared physiotherapy device comprises an infrared physiotherapy main body, a paster unit, a plurality of temperature measuring units, an infrared physiotherapy main body controller, a temperature measuring unit controller and an electric energy supply unit, wherein the infrared physiotherapy main body is arranged on the paster unit, the plurality of temperature measuring units are arranged in the paster unit, the infrared physiotherapy main body is connected with the infrared physiotherapy main body controller through a wire harness, the temperature measuring units are connected with the temperature measuring unit controller through the wire harness, the infrared physiotherapy main body controller is connected with the electric energy supply unit through the wire harness, and the electric energy supply unit is communicated with an external power supply;

the infrared physiotherapy main body comprises a lamp cap, a Fresnel zone plate and a radiator, wherein the radiator is arranged at the lower part of the lamp cap, and the Fresnel zone plate is arranged at the lower end of the radiator;

the lamp cap is an infrared emission lamp cap with the wavelength of 850 nm;

the patch unit comprises a ceramic heat dissipation insulating gasket, a physiotherapy patch and a replaceable adhesive film, wherein the ceramic heat dissipation insulating gasket is arranged at the lower end of the Fresnel zone plate, the physiotherapy patch is arranged at the lower end of the ceramic heat dissipation insulating gasket, and the replaceable adhesive film is detachably arranged at the lower end of the physiotherapy patch;

the temperature measuring units are arranged on the physiotherapy patch and are annularly and uniformly distributed on the physiotherapy patch;

the temperature measuring unit comprises a temperature measuring resistor and an alumina ceramic tube, the alumina ceramic tube is arranged on the physiotherapy patch, the temperature measuring resistor is arranged in the alumina ceramic tube, and the temperature measuring resistor is connected with a temperature measuring unit controller through a wire harness;

the temperature measuring resistor is ntc thermal resistor.

The utility model has the beneficial effects that:

the infrared physiotherapy instrument is simple in structure, convenient to fix, convenient to operate, safe and reliable, and solves the problems that an existing infrared physiotherapy instrument is large in size and difficult to use; the irradiation part can be selected independently, so that low-temperature burn caused by incapability of knowing the skin temperature of the irradiation part by a user is avoided, the size of the lamp cap is reduced, the irradiation area is accurate, and the lamp cap is compatible with other physiotherapy equipment when in use, and the lamp cap is low in cost and suitable for wide popularization and application.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 isbase:Sub>A cross-sectional view taken along the direction A-A in FIG. 2 in accordance with the present utility model;

FIG. 4 is an enlarged view of the utility model at B in FIG. 3;

FIG. 5 is a schematic perspective view of an infrared physiotherapy body, a patch unit and a temperature measuring unit according to the present utility model;

FIG. 6 is a front view of the infrared physiotherapy body, patch unit, and temperature measuring unit of the present utility model;

fig. 7 is a cross-sectional view taken along line C-C of fig. 6 in accordance with the present utility model.

Detailed Description

Referring to fig. 1 to 7, an infrared patch physiotherapy device includes an infrared physiotherapy main body 1, a patch unit 9, a plurality of temperature measurement units 5, an infrared physiotherapy main body controller 13, a temperature measurement unit controller 14 and an electric energy supply unit 12, wherein the infrared physiotherapy main body 1 is arranged on the patch unit 9, the plurality of temperature measurement units 5 are arranged in the patch unit 9, the infrared physiotherapy main body 1 is connected with the infrared physiotherapy main body controller 13 through a wire harness, the temperature measurement units 5 are connected with the temperature measurement unit controller 14 through the wire harness, the infrared physiotherapy main body controller 13 is connected with the temperature measurement unit controller 14 through the wire harness, the infrared physiotherapy main body controller 13 and the temperature measurement unit controller 14 are respectively connected with the electric energy supply unit 12 through the wire harness, and the electric energy supply unit 12 is communicated with an external power supply;

specifically, the infrared physiotherapy main body 1 is fixed at the physiotherapy position of the patient through the patch unit 9, the temperature measuring unit 5 is arranged in the patch unit 9 and is used for measuring the skin temperature at the physiotherapy position of the patient, the electric energy supply unit 12 supplies power to the infrared physiotherapy main body 1 and the temperature measuring unit 5 through the infrared physiotherapy main body controller 13 and the temperature measuring unit controller 14 respectively, the infrared physiotherapy main body 1 starts heating at the physiotherapy position of the patient after being electrified, the temperature measuring unit 5 measures the skin temperature at the physiotherapy position in real time and feeds back the skin temperature to the temperature measuring unit controller 14, when the skin temperature at the physiotherapy position reaches a burn critical value, the temperature measuring unit 5 feeds back the signal to the temperature measuring unit controller 14, the temperature measuring unit controller 14 feeds back the signal to the infrared physiotherapy main body controller 13, the infrared physiotherapy main body controller 13 receives the signal to cut off the power of the infrared physiotherapy main body 1, thereby avoiding burn the skin at the physiotherapy position of the patient, when the temperature drops to the temperature required by physiotherapy, the temperature measuring unit controller 14 feeds back the signal to the infrared physiotherapy main body controller 13, and the infrared physiotherapy main body controller 13 receives the signal to electrify the infrared physiotherapy main body 1 to heat the physiotherapy position of the patient continuously;

the infrared physiotherapy main body 1 comprises a lamp cap 2, a Fresnel zone plate 3 and a radiator 4, wherein the radiator 4 is arranged at the lower part of the lamp cap 2, and the Fresnel zone plate 3 is arranged at the lower end of the radiator 4;

the lamp cap 2 is an infrared emission lamp cap with the wavelength of 850 nm;

specifically, the lamp cap 2 is fixedly connected with the Fresnel zone plate 3, infrared rays are converged after passing through the Fresnel zone plate 3, and the local illumination intensity is improved, so that the skin illuminance of an irradiation part is increased;

the patch unit 9 comprises a ceramic heat dissipation insulating gasket 10, a physiotherapy patch 11 and a replaceable adhesive film 15, wherein the ceramic heat dissipation insulating gasket 10 is arranged at the lower end of the Fresnel zone plate 3, the physiotherapy patch 11 is arranged at the lower end of the ceramic heat dissipation insulating gasket 10, and the replaceable adhesive film 15 is detachably arranged at the lower end of the physiotherapy patch 11;

specifically, the replaceable adhesive film 15 can be replaced after being used, so that cross infection and resource waste of patients are avoided;

the temperature measuring units 5 are arranged on the physiotherapy patch 11, and the temperature measuring units 5 are annularly and uniformly distributed on the physiotherapy patch 11;

the temperature measuring unit 5 comprises a temperature measuring resistor 6 and an alumina ceramic tube 7, wherein the alumina ceramic tube 7 is arranged on the physiotherapy patch 11, the temperature measuring resistor 6 is arranged in the alumina ceramic tube 7, and the temperature measuring resistor 6 is connected with a temperature measuring unit controller 14 through a wire harness;

the temperature measuring resistor 6 is a ntc thermal resistor;

specifically, the alumina ceramic tube 7 absorbs the skin heat of the irradiation part, and then transmits the heat to the temperature measuring resistor 6, so that the temperature of the temperature measuring resistor 6 is equal to the skin temperature, the temperature measuring resistor 6 converts the resistance change into the temperature change through the wire harness via the temperature measuring unit controller 14, and then the signal is fed back to the infrared physiotherapy main body controller 13, thereby controlling the skin temperature of the irradiation part.

The working process of the utility model comprises the following steps:

when the device is used, the patch unit 9 is stuck to a part to be treated, the infrared physiotherapy main body 1, the temperature measuring unit 5, the infrared physiotherapy main body controller 13, the temperature measuring unit controller 14 and the electric energy supply unit 12 are connected, a plug of the electric energy supply unit 12 is connected to a 220v household circuit, a switch is turned on, the infrared physiotherapy main body 1 starts to heat the part to be treated, when the skin temperature at the part to be treated reaches a burn critical value, the temperature measuring unit 5 feeds back a signal to the temperature measuring unit controller 14, the temperature measuring unit controller 14 feeds back the signal to the infrared physiotherapy main body controller 13, the infrared physiotherapy main body controller 13 receives the signal to cut off the power supply to the infrared physiotherapy main body 1, so that the skin of the part to be treated of a patient is prevented from being burnt, when the temperature is reduced to the temperature required by physiotherapy, the temperature measuring unit 5 feeds back the signal to the temperature measuring unit controller 14, the infrared physiotherapy main body controller 13 receives the signal to heat the part to be treated, and the part to be treated of the patient is continuously heated, and after the treatment time reaches the required temperature, the device is cut off.

Claims (7)

1. An infrared ray paster physiotherapy device, its characterized in that: including infrared ray physiotherapy main part (1), paster unit (9), several temperature measurement unit (5), infrared ray physiotherapy main part controller (13), temperature measurement unit controller (14) and electric energy supply unit (12), infrared ray physiotherapy main part (1) sets up on paster unit (9), several temperature measurement unit (5) set up in paster unit (9), infrared ray physiotherapy main part (1) are connected with infrared ray physiotherapy main part controller (13) through the pencil, temperature measurement unit (5) are connected with temperature measurement unit controller (14) through the pencil, be connected through the pencil between infrared ray physiotherapy main part controller (13) and temperature measurement unit controller (14), infrared ray physiotherapy main part controller (13) are connected with electric energy supply unit (12) through the pencil respectively, electric energy supply unit (12) are connected with external power source.

2. An infrared patch physiotherapy apparatus as claimed in claim 1, wherein: the infrared physiotherapy main body (1) comprises a lamp cap (2), a Fresnel zone plate (3) and a radiator (4), wherein the radiator (4) is arranged at the lower part of the lamp cap (2), and the Fresnel zone plate (3) is arranged at the lower end of the radiator (4).

3. An infrared patch unit as claimed in claim 2, wherein: the lamp cap (2) is an infrared emission lamp cap with the wavelength of 850 nm.

4. An infrared patch unit as claimed in claim 3, wherein: the patch unit (9) comprises a ceramic heat dissipation insulating gasket (10), a physiotherapy patch (11) and a replaceable adhesive film (15), wherein the ceramic heat dissipation insulating gasket (10) is arranged at the lower end of the Fresnel zone plate (3), the physiotherapy patch (11) is arranged at the lower end of the ceramic heat dissipation insulating gasket (10), and the replaceable adhesive film (15) is detachably arranged at the lower end of the physiotherapy patch (11).

5. The infrared patch unit of claim 4, wherein: the temperature measuring units (5) are arranged on the physiotherapy patch (11), and the temperature measuring units (5) are annularly and uniformly distributed on the physiotherapy patch (11).

6. The infrared patch unit of claim 5, wherein: the temperature measuring unit (5) comprises a temperature measuring resistor (6) and an alumina ceramic tube (7), the alumina ceramic tube (7) is arranged on the physiotherapy patch (11), the temperature measuring resistor (6) is arranged in the alumina ceramic tube (7), and the temperature measuring resistor (6) is connected with a temperature measuring unit controller (14) through a wire harness.

7. The infrared patch unit of claim 6, wherein: the temperature measuring resistor (6) is a ntc thermal resistor.

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