CN218900589U - An 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, several temperature measuring units, an infrared physiotherapy main body controller, a temperature measuring unit controller and an electric energy supply unit. On the patch unit, several temperature measurement units are set in the patch unit, the infrared physiotherapy main body is connected with the infrared physiotherapy main body controller through the wire harness, the temperature measurement unit is connected with the temperature measurement unit controller through the wire harness, and the infrared physiotherapy main body controller is connected with the temperature measurement unit. The unit controllers are connected through wire harnesses, the infrared physiotherapy main controller and the temperature measurement unit controller are respectively connected with the power supply unit through wire harnesses, and the power supply unit is connected with the external power supply. The low-temperature burn caused by skin temperature reduces the volume of the lamp head and precisely irradiates the area. It is compatible with other physiotherapy equipment when used, and is suitable for wide promotion and application.

Description

An infrared patch physiotherapy device

technical field

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

Background technique

Near-infrared therapy is to use 0.76-1.5um infrared light for treatment, the penetration depth can reach 10mm, it can directly affect blood vessels, lymphatic vessels, nerve endings, etc. Promote tissue recovery, promote blood circulation, etc., and because the photon energy is small, infrared rays will not cause photochemical and photoelectric effects after being absorbed by the tissue, but will only cause molecular vibrations, so the side effects are small, which is of great significance to frozen shoulder. However, in order to meet the large-scale treatment of multiple parts, the existing instruments are usually bulky and expensive, and are not convenient for daily use.

In order to change the shortcomings of the existing device that the lamp head radiates in a single direction, cannot achieve local uniform vertical irradiation, and is inconvenient and inflexible to operate especially for the treatment of uneven body structures, this new design utilizes the unique divergent lens with light waves that can accurately reach the muscle layer technology, making the treatment effect on the affected parts more uniform, the size of the patch is small, and it can be flexibly adapted to body parts such as wrists, necks, legs, knees, etc., and the treatment effect on the uneven parts of frozen shoulder is better, avoiding non-risk The deep tissue and skin damage of the site, and through the temperature sensor feedback information, so that the treatment intensity can be adjusted flexibly, ensuring safety, and the price of raw materials is low, the design is portable and practical, and it is easy to popularize.

Utility model content

The purpose of this utility model is to solve the above-mentioned problems in the background technology, and provide an infrared patch physiotherapy device.

An infrared patch physiotherapy device, comprising an infrared physiotherapy body, a patch unit, several temperature measurement units, an infrared physiotherapy body controller, a temperature measurement unit controller and a power supply unit, the infrared physiotherapy body is arranged on the patch unit, and the number A temperature measurement unit is set in the patch unit, the infrared physiotherapy body is connected to the infrared physiotherapy body controller through a wire harness, the temperature measurement unit is connected to the temperature measurement unit controller through a wire harness, and the infrared physiotherapy body controller is connected to the temperature measurement unit controller. Connected through the wiring harness, the infrared physiotherapy main controller and the temperature measurement unit controller are connected to the power supply unit through the wiring harness, and the power supply unit is connected to the external power supply;

The infrared physical therapy body includes a lamp cap, a Fresnel zone plate and a radiator, 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 holder is an 850nm infrared emitting lamp holder;

The patch unit includes a ceramic heat dissipation insulating gasket, a physiotherapy patch and a replaceable adhesive film. The ceramic heat dissipation insulating gasket is arranged at the lower end of the Fresnel zone sheet, and the physiotherapy patch is arranged at the lower end of the ceramic heat dissipation insulating gasket, which can be replaced. The adhesive film can be detachably arranged at the lower end of the physiotherapy patch;

The temperature measurement unit is arranged on the physiotherapy patch, and the temperature measurement unit is evenly distributed on the physiotherapy patch in a ring shape;

The temperature measuring unit includes 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 to the temperature measuring unit controller through a wiring harness;

The temperature measuring resistance is an ntc thermal resistance.

The beneficial effects of the utility model:

The utility model has the advantages of simple structure, convenient fixing, convenient operation, safety and reliability, and solves the problems of large volume and difficult use of the existing infrared physiotherapy apparatus; The low-temperature burn caused by temperature reduces the volume of the lamp head, and the irradiated area is precise. It is compatible with other physiotherapy equipment when used, and the cost is low, which is suitable for wide promotion and application.

Description of drawings

Fig. 1 is the three-dimensional schematic view of the utility model;

Fig. 2 is the top view of the utility model;

Fig. 3 is the sectional view of A-A direction in Fig. 2 of the utility model;

Fig. 4 is the enlarged view of place B in Fig. 3 of the utility model;

Fig. 5 is a three-dimensional schematic diagram of the infrared physiotherapy main body, the patch unit and the temperature measuring unit of the utility model;

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

Fig. 7 is a cross-sectional view of C-C in Fig. 6 of the present invention.

Detailed ways

Please refer to Figures 1 to 7, an infrared patch physiotherapy device, including an infrared physiotherapy body 1, a patch unit 9, several temperature measurement units 5, an infrared physiotherapy body controller 13, a temperature measurement unit controller 14 and Electric energy supply unit 12, infrared physiotherapy main body 1 is arranged on patch unit 9, several temperature measuring units 5 are arranged in patch unit 9, infrared physiotherapy main body 1 is connected with infrared physiotherapy main body controller 13 by wiring harness, temperature measurement unit 5 The temperature measurement unit controller 14 is connected through the wire harness, and the infrared physiotherapy main body controller 13 and the temperature measurement unit controller 14 are connected through a wire harness. Wire harness connection, the power supply unit 12 communicates with the external power supply;

Specifically, the infrared physiotherapy body 1 is fixed on the patient's physiotherapy site through the patch unit 9, and the temperature measurement unit 5 is arranged in the patch unit 9 for measuring the skin temperature at the patient's physiotherapy site. The controller 13 and the temperature measurement unit controller 14 supply power to the infrared physiotherapy body 1 and the temperature measurement unit 5. After the infrared physiotherapy body 1 is energized, it starts to heat the patient's physiotherapy site, and the temperature measurement unit 5 measures the skin temperature at the physiotherapy site in real time and feeds it back to Temperature measurement unit controller 14, when the skin temperature at the physiotherapy site reaches the burn critical value, the temperature measurement unit 5 feeds back the signal to the temperature measurement unit controller 14, and the temperature measurement unit controller 14 then feeds back the signal to the infrared physiotherapy main controller 13. The infrared physiotherapy body controller 13 receives a signal to cut off the power of the infrared physiotherapy body 1, so as to avoid burning the skin of the patient's physiotherapy site. When the temperature drops to the temperature required by physiotherapy, the temperature measurement unit 5 feeds back the signal to the temperature measurement unit for control 14, the temperature measurement 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 and electrifies the infrared physiotherapy main body 1 to continue heating the patient's physiotherapy site;

The infrared physical therapy main body 1 includes a lamp cap 2, a Fresnel zone plate 3 and a radiator 4, the radiator 4 is arranged at the bottom of the lamp cap 2, and the Fresnel zone plate 3 is arranged at the lower end of the radiator 4;

The lamp holder 2 is an 850nm infrared emitting lamp holder;

Specifically, the lamp holder 2 is fixedly connected to the Fresnel zone plate 3, and the infrared rays converge after passing through the Fresnel zone plate 3, so as to increase the local light intensity and increase the illuminance of the skin at the irradiation site;

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

Specifically, the replaceable adhesive film 15 can be replaced after use, so as to avoid cross-infection of patients and waste of resources;

The temperature measurement unit 5 is arranged on the physiotherapy patch 11, and the temperature measurement unit 5 is evenly distributed on the physiotherapy patch 11 in a ring shape;

The temperature measuring unit 5 includes 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 passes through the wiring harness Connect with temperature measurement unit controller 14;

The temperature measuring resistance 6 is an ntc thermal resistance;

Specifically, the alumina ceramic tube 7 absorbs the heat of the skin at the irradiated part, and then conducts the heat to the temperature measuring resistor 6, so that the temperature of the temperature measuring resistor 6 is equal to the temperature of the skin, and the temperature measuring resistor 6 passes through the wiring harness and passes through the temperature measuring unit controller 14 to transfer the heat to the temperature measuring resistor 6. The value change is converted into temperature change, and then the signal is fed back to the infrared physiotherapy main body controller 13, thereby controlling the skin temperature of the irradiated part.

The working process of the utility model:

During use, the patch unit 9 is first pasted on the position to be treated, the infrared physiotherapy main body 1, the temperature measurement unit 5, the infrared physiotherapy main body controller 13, the temperature measurement unit controller 14 and the power supply unit 12 are connected, and the electric energy The plug of the supply unit 12 is connected to the 220v household circuit, the switch is turned on, and the infrared physiotherapy body 1 starts to heat the treated part. The temperature unit controller 14, the temperature measurement unit controller 14 feeds back the signal to the infrared physiotherapy body controller 13, and the infrared physiotherapy body controller 13 receives the signal to cut off the power of the infrared physiotherapy body 1, so as to avoid burning the skin of the treated part of the patient , when the temperature drops to the temperature required by physiotherapy, the temperature measurement unit 5 feeds back the signal to the temperature measurement unit controller 14, and the temperature measurement unit controller 14 feeds back the signal to the infrared physiotherapy main body controller 13, and the infrared physiotherapy main body controller 13 After receiving the signal, power on the infrared physiotherapy main body 1 to continue heating the treated part of the patient. When the treatment time is up, disconnect the power supply and put the device away.

Claims (7)

1. An infrared patch physiotherapy device, characterized in that: comprising an infrared physiotherapy main body (1), a patch unit (9), several temperature measuring units (5), an infrared physiotherapy main body controller (13), a temperature measuring unit The controller (14) and the power supply unit (12), the infrared physiotherapy main body (1) is arranged on the patch unit (9), several temperature measuring units (5) are arranged in the patch unit (9), the infrared physiotherapy main body (1) Connect with the infrared physiotherapy main controller (13) through the wire harness, the temperature measurement unit (5) connect with the temperature measurement unit controller (14) through the wire harness, and the infrared physiotherapy main controller (13) and the temperature measurement unit controller ( 14) are connected through a wire harness, the infrared physiotherapy main body controller (13) and the temperature measurement unit controller (14) are respectively connected with the power supply unit (12) through a wire harness, and the power supply unit (12) is communicated with an external power supply. 2. An infrared patch physiotherapy device according to claim 1, characterized in that: the infrared physiotherapy body (1) includes a lamp holder (2), a Fresnel zone plate (3) and a radiator (4) , the radiator (4) is arranged at the lower part of the lamp holder (2), and the Fresnel zone plate (3) is arranged at the lower end of the radiator (4). 3. An infrared patch physical therapy device according to claim 2, characterized in that: the lamp head (2) is an 850nm infrared emitting lamp head. 4. A kind of infrared patch physiotherapy device according to claim 3, is characterized in that: described patch unit (9) comprises ceramic heat dissipation insulation pad (10), physiotherapy patch (11) and replaceable sticking film (15), the ceramic heat dissipation insulating spacer (10) is arranged on the lower end of the Fresnel zone plate (3), and the physiotherapy patch (11) is arranged on the lower end of the ceramic heat dissipation insulating spacer (10), and the adhesive film (15) can be replaced It is detachably arranged at the lower end of the physiotherapy patch (11). 5. A kind of infrared patch physiotherapy device according to claim 4, it is characterized in that: described temperature measurement unit (5) is arranged on the physiotherapy patch (11), and described temperature measurement unit (5) is circular uniform Cloth on the physiotherapy patch (11). 6. A kind of infrared patch physiotherapy device according to claim 5, is characterized in that: described temperature measuring unit (5) comprises temperature measuring resistance (6) and alumina ceramic tube (7), alumina ceramic tube ( 7) Set on the physiotherapy patch (11), the temperature measuring resistor (6) is set in the alumina ceramic tube (7), and the temperature measuring resistor (6) is connected to the temperature measuring unit controller (14) through a wiring harness. 7. An infrared patch physical therapy device according to claim 6, characterized in that: the temperature measuring resistor (6) is an ntc thermal resistor.

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