CN112843485A

CN112843485A - Intelligent controllable temperature quantum cabin

Info

Publication number: CN112843485A
Application number: CN202110061791.9A
Authority: CN
Inventors: 刘兴强
Original assignee: Shandong Spin Magnetic Quantum Technology Co ltd
Current assignee: Shandong Spin Magnetic Quantum Technology Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-05-28

Abstract

The utility model provides an intelligent controllable temperature quantum cabin, including the cabin body, be provided with the energy generation system in the cabin body, the energy generation system contains the energy and shines the head, be provided with the heating temperature sensor who detects the energy and shines head heating temperature and the body surface temperature sensor who detects human skin temperature in the cabin body, the quantum cabin still includes control system, control system receives the digital temperature signal of heating temperature sensor and the transport of body surface temperature sensor and adjusts the irradiation intensity of energy generation system, when any one in energy shines head heating temperature and human skin temperature surpasses respective default, adjust the irradiation intensity of energy generation system, detect the body surface temperature of human different positions skin through a plurality of body surface temperature sensors. The temperature control mode improves the response accuracy, meets the requirements of different body parts of a human body on body feeling and the individual requirements of different users, is suitable for various thermal therapy type physical therapy devices including a far infrared quantum cabin, and improves the safety and the comfort of the devices.

Description

Intelligent controllable temperature quantum cabin

Technical Field

The invention relates to the technical field of safety control of physiotherapy equipment, in particular to an intelligent temperature-controllable quantum cabin.

Background

The quantum chamber is a popular physiotherapy instrument, the common structure is a horizontal chamber as shown in figure 1 and a sitting chamber as shown in figure 2, the quantum physiotherapy belongs to one kind of thermotherapy, generally, infrared rays which can be absorbed by a human body are generated through an energy generation device, the infrared rays are absorbed by the human body and then generate resonance with molecules in the body, so that cells of the organism are in a high vibration level, resonance and warming effects are generated, capillary vessel expansion is caused, microcirculation is accelerated, metabolism is promoted, the regeneration capacity of tissues is increased, and the effect of medical care is achieved.

The quantum cabin on the market at present generally has a temperature setting function to adapt to human body feeling and avoid burning to the human body, the most targets of temperature acquisition are energy irradiation heads (such as infrared heating heads), the temperature control mode is also simple threshold control or periodic on-off, and as the temperature of the energy irradiation heads (the infrared heating heads) is not the human body temperature, the poor human body feeling effect is indirectly satisfied by controlling the temperature of the energy irradiation heads (the infrared heating heads).

Although there are few prior arts that have been tried to control infrared energy applied to the human body by directly collecting the body surface temperature of the human body, there is uncertainty in collecting the body surface temperature due to complicated conditions of the state, posture, etc. of the human body during the physiotherapy, and there is a limit in controlling the infrared energy applied to the human body only according to the collection of the body surface temperature.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an intelligent temperature-controllable quantum cabin, which adjusts the irradiation intensity of an energy generation system by cooperatively monitoring the heating temperature of an energy irradiation head and the skin temperature of a human body, improves the response accuracy, respectively performs temperature acquisition and irradiation energy adjustment on different parts of the skin of the human body on the basis of the adjustment to adapt to the somatosensory difference of the different parts, and can also preset different working modes capable of automatically running to simplify the operation and adapt to the personalized requirements.

The technical scheme of the invention is as follows:

an intelligent temperature-controllable quantum chamber comprises a chamber body, an energy generation system is arranged in the chamber body, the energy generation system comprises one or more energy irradiation heads, a temperature sensor is arranged in the cabin body, the temperature sensor comprises a heating temperature sensor for detecting the heating temperature of the energy irradiation head and a body surface temperature sensor for detecting the skin temperature of a human body, the quantum cabin also comprises a control system, the control system receives the digitized temperature signals transmitted by the heating temperature sensor and the body surface temperature sensor, the control system adjusts the irradiation intensity of the energy generation system according to the digitized temperature signals transmitted by the heating temperature sensor and the body surface temperature sensor, and when any one of the heating temperature of the energy irradiation head and the skin temperature of the human body exceeds the respective preset value, adjusting the irradiation intensity of the energy generation system.

In the intelligent temperature-controllable quantum cabin, the heating temperature sensor is preferably a thermistor sensor, and the body surface temperature sensor is preferably an infrared sensor.

In the intelligent temperature-controllable quantum cabin, the thermistor sensor is arranged in the energy irradiation head, and the infrared sensor is arranged on a cabin cover of the cabin body.

According to the intelligent temperature-controllable quantum cabin, the irradiation intensity of the energy generation system is adjusted by adjusting the on-off state or the magnitude of the current.

Above-mentioned intelligent controllable temperature quantum cabin, body surface temperature sensor is a plurality of, wherein, includes a first body table temperature sensor and a second body table temperature sensor at least, the body surface temperature of the different positions skin of human body is detected to first body table temperature sensor and second body table temperature sensor.

In the intelligent temperature-controllable quantum cabin, the control system sets different adjustment thresholds according to different somatosensory degrees of different parts of the skin of a human body to temperature, adjusts the irradiation intensity of the energy generation system based on the digitized temperature signals transmitted by the first body surface temperature sensor and the second body surface temperature sensor, and adjusts the irradiation intensity of the energy generation system when any one of the digitized temperature signals transmitted by the first body surface temperature sensor and the second body surface temperature sensor exceeds a respective preset value.

In the above intelligent temperature-controllable quantum cabin, the energy generation system includes a plurality of energy irradiation heads, and when the irradiation intensity of the energy generation system is adjusted based on the digitized temperature signals transmitted by the first and second volumetric meter temperature sensors, the irradiation intensities of the energy irradiation heads at different positions are adjusted.

In the above intelligent temperature-controllable quantum cabin, the control system presets a plurality of selectable operating modes, and each operating mode correspondingly comprises a fixed energy irradiation head heating temperature control threshold, a body surface temperature control threshold corresponding to the skin of the human body part of the first body surface temperature sensor, and a body surface temperature control threshold corresponding to the skin of the human body part of the second body surface temperature sensor.

The intelligent temperature-controllable quantum cabin comprises a control panel positioned outside the cabin body, and different working modes are selected through the control panel.

According to the intelligent temperature-controllable quantum cabin, the quantum cabin is a horizontal cabin or a sitting cabin.

The invention has the beneficial effects that:

the intelligent temperature-controllable quantum cabin disclosed by the invention adjusts the irradiation intensity of the energy generation system by cooperatively monitoring the heating temperature of the energy irradiation head and the skin temperature of a human body, avoids misjudgment possibly brought by single temperature acquisition, improves the response accuracy, on the basis of the temperature sensing degree and the bearing degree of different parts of the human body, such as the abdomen and the legs, the temperature acquisition and the irradiation energy adjustment are respectively carried out on different parts of the skin of the human body to adapt to the somatosensory requirements of different parts, different working modes capable of automatically running are preset according to different user objects or different levels to simplify the operation and adapt to the individual requirements of different users, the scheme can be suitable for various physiotherapy equipment taking heat therapy as means including a far infrared quantum cabin, and the safety and the comfort of the physiotherapy equipment are improved.

Drawings

The aspects and advantages of the present application will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention.

In the drawings:

FIG. 1 is a schematic view of a quantum well structure of the prior art (horizontal);

FIG. 2 is a schematic view of another prior art quantum well configuration (sitting);

FIG. 3 is a schematic diagram of one application of the solution of embodiments of the invention (for a horizontal cabin);

fig. 4 is a schematic diagram of another application of the solution according to embodiments of the invention (for a sitting cabin).

The components represented by the reference numerals in the figures are:

10. the energy irradiation device comprises a cabin body 11, an energy irradiation head 12, a first body surface temperature sensor 13 and a second body surface temperature sensor 13.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. It should be noted that these embodiments are provided so that this disclosure can be more completely understood and fully conveyed to those skilled in the art, and the present disclosure may be implemented in various forms without being limited to the embodiments set forth herein.

Example 1

Referring to fig. 3 and 4, fig. 3 and 4 illustrate the concept of the present embodiment in two different applications, namely, a horizontal cabin and a sitting cabin, respectively.

Specifically, the intelligent temperature-controllable quantum cabin of the present embodiment includes a cabin body 10, an energy generation system is disposed in the cabin body 10, and the energy generation system of the present embodiment takes a far infrared generation system as an example.

As shown in the figure, the energy generation system comprises a plurality of energy irradiation heads 11, a temperature sensor is arranged in the cabin 10, the temperature sensors include a heating temperature sensor for detecting the heating temperature of the energy irradiation head 11 and body surface temperature sensors (a first body surface temperature sensor 12 and a second body surface temperature sensor 13) for detecting the skin temperature of the human body, the quantum cabin also comprises a control system, the control system receives the digitized temperature signals transmitted by the heating temperature sensor and the body surface temperature sensor, the control system adjusts the irradiation intensity of the energy generation system according to the digitized temperature signals transmitted by the heating temperature sensor and the body surface temperature sensor, when any one of the heating temperature of the energy irradiation head 11 and the skin temperature of the human body exceeds the respective preset value, the irradiation intensity of the energy generation system is adjusted.

Taking a carbon fiber far-infrared heating device which is applied more at present as an example, the carbon fiber far-infrared heating device can adjust the on-off or current magnitude of the current through a simple control circuit, so as to adjust the irradiation intensity, specifically, the heating temperature sensor is preferably a thermistor sensor, and the heating temperature sensor is not shown in the figure because the heating temperature sensor is directly arranged on an emitting plate in the energy irradiation head 11, and the temperature of the emitting plate is collected as the heating temperature.

In this embodiment the body surface temperature sensor is a non-contact infrared sensor, as shown in the figure, the body surface temperature sensor includes a first body surface temperature sensor 12 and a second body surface temperature sensor 13, and is disposed on the cover of the cabin body 10, the first body surface temperature sensor 12 and the second body surface temperature sensor 13 detect the body surface temperature of the skin at different positions of the human body, and certainly, three or more body surface temperature sensors can be disposed according to the needs of the collecting position.

According to the orientations shown in fig. 3 and 4, the first body surface temperature sensor 12 of this embodiment can detect the body surface temperature of the skin of the abdomen of the human body, the second body surface temperature sensor 13 can detect the body surface temperature of the skin of the legs of the human body, according to the physiological characteristics of the human body, the abdomen of the human body is often more sensitive to the temperature than the legs, the control system of this embodiment can set different adjusting thresholds according to the different body feeling degrees of the skin of different parts of the abdomen and the legs, for example, the upper peak value of the abdomen temperature threshold is lower than the upper peak value of the leg temperature threshold by 0.5-3.0 ℃, the irradiation intensity of the energy generating system is adjusted based on the digitized temperature signals transmitted by the first body surface temperature sensor 12 and the second body surface temperature sensor 13, when any one of the digitized temperature signals transmitted by the first body surface temperature sensor 12 and the second body surface temperature sensor 13 exceeds the respective preset value, adjusting the irradiation intensity of the energy generation system.

As can be seen from the figure, the energy generation system of the present embodiment includes a plurality of energy irradiation heads 11, and many energy irradiation heads 11 in the actual product are distributed in an array, and the irradiation intensities thereof can be controlled separately, so that when the irradiation intensity of the energy generation system is adjusted based on the digitized temperature signals transmitted by the first body surface temperature sensor 12 and the second body surface temperature sensor 13, the irradiation intensities of the energy irradiation heads 11 at different positions can be adjusted, and such an adjustment manner better meets the requirement of precise control.

The intelligent temperature control scheme described in this embodiment can be implemented by presetting a program through a single chip microcomputer, the temperature sensor communicates with the single chip microcomputer through an analog-to-digital conversion interface, a temperature control program is preferably compiled in assembly language, parameters are input and adjusted through a control panel arranged outside the cabin 10, the single chip microcomputer controls the on/off or power of the carbon fiber far-infrared heating device through a PWM (pulse width modulation) mode, which is a currently applied temperature control mode, and the control accuracy can meet the design requirements of general programs.

Example 2

This embodiment is further improved based on embodiment 1, in which a plurality of selectable operation modes are preset by the control system, and each operation mode includes a fixed heating temperature control threshold of the energy irradiation head 11, a body surface temperature control threshold corresponding to the skin of the human body part of the first body surface temperature sensor 12, and a body surface temperature control threshold corresponding to the skin of the human body part of the second body surface temperature sensor 13 (as in embodiment 1, there may be more body surface temperature sensors and corresponding control thresholds).

Specifically, in this embodiment, the working modes corresponding to the three somatosensory temperature gears "high", "medium", and "low" are preset in the single chip microcomputer, the selection of the working mode is selected through a screen selection key/button (preferably, a touch screen button) of the control panel, each working mode correspondingly includes a fixed energy irradiation head 11 heating temperature control threshold, a body surface temperature control threshold corresponding to the skin of the human body part of the first body surface temperature sensor 12, and a body surface temperature control threshold corresponding to the skin of the human body part of the second body surface temperature sensor 13, after the working mode is selected through the screen, the adjustment process is automatically performed, and the specific implementation manners of program input and control instruction output can be implemented through the control described in embodiment 1.

According to the model or market requirements, the three temperature sensing gears of high, middle and low can be replaced by other reference gears, such as the gears of children and adults.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or additions or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are also included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. An intelligent temperature-controllable quantum cabin, which comprises a cabin body (10), wherein an energy generation system is arranged in the cabin body (10), the energy generation system comprises one or more energy irradiation heads (11), a temperature sensor is arranged in the cabin body (10), the temperature sensor comprises a heating temperature sensor for detecting the heating temperature of the energy irradiation heads (11) and a body surface temperature sensor for detecting the skin temperature of a human body, the quantum cabin further comprises a control system, the control system receives the digital temperature signals transmitted by the heating temperature sensor and the body surface temperature sensor, and is characterized in that the control system adjusts the irradiation intensity of the energy generation system according to the digital temperature signals transmitted by the heating temperature sensor and the body surface temperature sensor, when any one of the heating temperature of the energy irradiation heads (11) and the skin temperature of the human body exceeds respective preset value, adjusting the irradiation intensity of the energy generation system.

2. The intelligent temperature-controllable quantum well as claimed in claim 1, wherein the heating temperature sensor is preferably a thermistor sensor, and the body surface temperature sensor is preferably an infrared sensor.

3. An intelligent temperature-controllable quantum well according to claim 2, wherein the thermistor sensor is built in the energy irradiation head (11), and the infrared sensor is disposed on a cover of the tank (10).

4. The intelligent temperature-controllable quantum cabin according to claim 1, wherein the irradiation intensity of the energy generation system is adjusted by adjusting on/off or magnitude of current.

5. The intelligent temperature-controllable quantum cabin according to claim 1, wherein the number of the body surface temperature sensors is multiple, and the body surface temperature sensors at least comprise a first body surface temperature sensor (12) and a second body surface temperature sensor (13), and the first body surface temperature sensor (12) and the second body surface temperature sensor (13) detect the body surface temperature of the skin of different parts of the human body.

6. The intelligent temperature-controllable quantum cabin according to claim 5, wherein the control system sets different adjustment thresholds according to different body sensation degrees of different parts of human body to temperature, adjusts the irradiation intensity of the energy generation system based on the digitized temperature signals transmitted by the first body surface temperature sensor (12) and the second body surface temperature sensor (13), and adjusts the irradiation intensity of the energy generation system when any one of the digitized temperature signals transmitted by the first body surface temperature sensor (12) and the second body surface temperature sensor (13) exceeds a respective preset value.

7. The intelligent temperature-controllable quantum cabin according to claim 6, wherein the energy generation system comprises a plurality of energy irradiation heads (11), and when the irradiation intensity of the energy generation system is adjusted based on the digitized temperature signals transmitted by the first body surface temperature sensor (12) and the second body surface temperature sensor (13), the irradiation intensity of the energy irradiation heads (11) at different positions is adjusted.

8. The intelligent temperature-controllable quantum cabin according to claim 7, wherein the control system presets a plurality of selectable operation modes, each operation mode comprises a fixed energy irradiation head (11) heating temperature control threshold, a first body surface temperature sensor (12) body surface temperature control threshold corresponding to the skin of the human body part, and a second body surface temperature sensor (13) body surface temperature control threshold corresponding to the skin of the human body part.

9. The intelligent temperature-controllable quantum cabin according to claim 8, characterized by comprising a control panel located outside the cabin (10), through which different operation modes are selected.

10. The intelligent temperature-controllable quantum cabin according to claim 1, wherein the quantum cabin is a horizontal cabin or a sitting cabin.