CN111744115A - Physiotherapy lamp with quick temperature control response - Google Patents

Abstract

The invention relates to the technical field of medical care devices, in particular to a physiotherapy lamp with quick temperature control response, which comprises a physiotherapy lamp body, wherein a physiotherapy lamp cap, a controller, an infrared thermal imaging detection module and a temperature regulation execution component are arranged on the physiotherapy lamp body; the controller is also used for controlling the temperature adjusting execution component to adjust the intensity of the lamp head of the physiotherapy lamp irradiating the body surface of the user according to the body surface temperature of the user. The utility model provides a physiotherapy lamp that has quick control by temperature change response can solve the problem that current physiotherapy lamp product can't carry out temperature detection and control to user's treatment position.

Description

Physiotherapy lamp with quick temperature control response

Technical Field

The invention relates to the technical field of medical care devices, in particular to a physiotherapy lamp with quick temperature control response.

Background

The infrared light of the physiotherapy lamp can enable human skin, muscle and subcutaneous tissues to generate heat effects, and then effects of accelerating blood substance circulation, increasing metabolism, reducing pain and the like are achieved. For example, TDP physiotherapy instrument has the advantages that the treatment plate is heated to generate oscillation signals of various elements to form specific electromagnetic spectrum, and after infrared rays enter a human body, the specific electromagnetic spectrum resonates with corresponding elements of the human body, so that the activity of atomic groups and molecular groups where the elements are located is greatly improved, the activity of enzymes in the body is activated, the absorption of the lack of the elements is enhanced, the relative balance of the elements in the body is adjusted, the increase of free radicals in the body is consistent, microcirculation channels are repaired, and the autoimmune function and disease resistance of a user are improved. With the continuous improvement of the quality of life of people and the continuous emphasis and pursuit of people on physical health, people are enabled to pursue physiotherapy equipment more and more.

However, many existing physiotherapy lamps cannot be humanized and intelligent, and if the existing physiotherapy lamps do not have the function of temperature detection feedback, the position, the power, the distance between the lamp head of the physiotherapy lamp and the body surface of a user and the like are usually set by visual inspection and the perception of the user when the physiotherapy lamp is used; too far away this may not be the treatment purpose, too close this may scald the patient, and this adjustment may easily affect the treatment effect due to the different perception of each person.

Disclosure of Invention

The invention aims to provide a physiotherapy lamp with quick temperature control response, and can solve the problem that the conventional physiotherapy lamp product cannot detect and control the temperature of a treatment position of a user.

The application provides the following technical scheme:

the physiotherapy lamp with the rapid temperature control response comprises a physiotherapy lamp body, wherein a physiotherapy lamp cap, a controller, an infrared thermal imaging detection module and a temperature regulation execution component are arranged on the physiotherapy lamp body, the controller is electrically connected with the infrared thermal imaging detection module and the temperature regulation execution component, and the controller is used for acquiring the surface thermal imaging data of a user body through the infrared thermal imaging detection module and obtaining the surface temperature of the user body;

the controller is also used for controlling the temperature adjusting execution part to adjust the intensity of the lamp cap of the physiotherapy lamp acting on the body surface of the user according to the body surface temperature of the user.

According to the technical scheme, the infrared thermal imaging detection module can quickly acquire the surface layer temperature data of the user body based on the infrared thermal imaging technology, the controller controls the temperature adjusting execution part based on the surface thermal imaging data of the user body, and further adjusts the radiation intensity of the lamp cap of the physiotherapy lamp irradiating the user body surface to adjust, so that the condition that the temperature is too high or too low to affect the treatment of the user can be avoided, the infrared thermal imaging technology can realize non-contact temperature measurement, the temperature detection can be carried out on the skin surface in the treatment range, the temperature detection result is more accurate, meanwhile, the response speed of the infrared thermal imaging technology is one ten thousandth or even one ten thousandth of a second, and the device can realize quick temperature detection and response.

And the controller is used for controlling the display module to display the detection result of the infrared thermal imaging detection module.

The detection result of the infrared thermal imaging detection module can be displayed in real time through the display module, and a user or a doctor can conveniently refer to the adjustment of the temperature, the position, the angle and the like of the lamp cap of the physiotherapy lamp.

Further, the infrared thermal imaging detection module adopts a MAG15 thermal imager, and the MAG15 thermal imager is connected with the controller through a serial port.

Further, be equipped with infrared installation department on the physiotherapy lamp body, infrared thermal imaging detection module sets up on infrared installation department, infrared installation department is used for adjusting infrared thermal imaging detection module's position and angle.

The position and the angle of the infrared thermal imaging detection module are adjusted through the infrared installation part, the detection of infrared thermal imaging can be carried out on the treatment part of a user when the infrared thermal imaging detection module is used practically, and the detection is more accurate.

Further, the infrared thermal imaging installation part comprises a metal shaping hose.

The position and the angle of the infrared thermal imaging detection module can be conveniently adjusted through the metal shaping hose.

Further, the infrared thermal imaging detection module is arranged on the lamp holder of the physiotherapy lamp.

The infrared thermal imaging detection module is integrated on the physiotherapy lamp holder, and the position and the angle of the infrared thermal imaging detection module can be adjusted while the physiotherapy lamp holder is adjusted, so that the infrared thermal imaging detection module is not required to be provided with a corresponding installation or adjustment mechanism independently.

Furthermore, a separation plate is arranged between the infrared thermal imaging detection module and the lamp holder of the physiotherapy lamp.

The influence of the lamp cap of the physiotherapy lamp on the detection result of the infrared thermal imaging detection module is avoided.

Further, the temperature adjustment execution component comprises a physiotherapy lamp head driving board, and the physiotherapy lamp head driving board is used for adjusting the power of the physiotherapy lamp head according to the signal of the controller.

The intensity of the radiation irradiating the body surface of the user is adjusted by adjusting the power of the lamp head of the physiotherapy lamp.

Furthermore, the physiotherapy lamp body includes base, support, the executive component that adjusts the temperature includes the slide rail, sliding rail connection is on the support, be equipped with the sliding plate on the slide rail, the physiotherapy lamp holder sets up on the sliding plate, be equipped with the motor on the slide rail, the motor is used for driving the sliding plate and removes, the controller is through controlling the motor and adjusting physiotherapy lamp holder position.

The position of the physiotherapy lamp cap is adjusted through the slide rail, so that the distance between the physiotherapy lamp cap and the body surface of a user is adjusted, and the adjustment of the radiation intensity of the physiotherapy lamp cap irradiating the body surface of the user is realized.

Further, the controller is also used for judging the degree of consistency of temperature distribution according to the thermal imaging data of the body surface of the user, and the controller is used for controlling the lamp holder of the physiotherapy lamp to be far away from the user when detecting that the body surface temperature of the user is uneven.

Whether the lamp holder of the physiotherapy lamp irradiates uniformly is judged through thermal imaging data, and if not, the lamp holder of the physiotherapy lamp is adjusted far, so that the irradiation uniformity is increased.

The alarm device further comprises an alarm module, the alarm module is electrically connected with the controller, and the controller is used for controlling the alarm module to give an alarm when the body surface temperature of the user is detected to be higher than a preset value.

Prompt in time, avoid taking place danger.

Drawings

FIG. 1 is a logic diagram of a first embodiment of a physiotherapeutic lamp with a rapid temperature control response according to the present application;

FIG. 2 is a logic diagram of a second embodiment of a physiotherapeutic lamp with a rapid temperature control response;

fig. 3 is a schematic structural diagram of a physiotherapy lamp with a rapid temperature control response according to a second embodiment of the present application.

Detailed Description

The following is further detailed by way of specific embodiments:

the reference numbers in the drawings of the specification include: base 1, support 2, physiotherapy lamp holder 3, slide rail 4, motor 5, sliding plate 6.

Example one

As shown in fig. 1, the physiotherapy lamp with quick temperature control response of this embodiment includes the physiotherapy lamp body, and the physiotherapy lamp body includes base 1 and support 2, is equipped with physiotherapy lamp holder 3, controller, infrared thermal imaging detection module, alarm module, display module and the executive component that adjusts the temperature on support 2.

The controller is electrically connected with the infrared thermal imaging detection module, the display module, the alarm module and the temperature adjustment execution component, and is used for acquiring the thermal imaging data of the surface of the user body through the infrared thermal imaging detection module and obtaining the surface temperature of the user body; the controller is also used for controlling the temperature adjusting executive component to adjust the intensity of the physiotherapy lamp head 3 acting on the body surface of the user according to the body surface temperature of the user.

The controller is also used for controlling the display module to display the detection result of the infrared thermal imaging detection module. Specifically, in this embodiment, the controller can display the detection result of the infrared thermal imaging detection module in real time through the display module, so that a user or a doctor can conveniently refer to the temperature, the position, the angle and the like of the physiotherapy lamp cap 3 when adjusting the temperature, the position, the angle and the like.

In this embodiment, the infrared thermal imaging detection module is disposed on the physiotherapy lamp head 3. Through infrared thermal imaging detection module integration to physiotherapy lamp holder 3 on, also can adjust infrared thermal imaging detection module's position and angle when adjusting physiotherapy lamp holder 3, need not to set up corresponding installation or adjustment mechanism for infrared thermal imaging detection module alone. Simultaneously, in order to avoid physiotherapy lamp holder 3 to influence the testing result of infrared thermal imaging detection module, in this embodiment, be equipped with the division board between infrared thermal imaging detection module and the physiotherapy lamp holder 3.

In this embodiment, the temperature adjustment performing part includes a physiotherapy lamp head 3 drive board, and the physiotherapy lamp head 3 drive board is used for adjusting the power of physiotherapy lamp head 3 according to the signal of controller. The intensity of the radiation irradiating the body surface of the user is adjusted by adjusting the power of the physiotherapy lamp holder 3. Specifically, physiotherapy lamp holder 3 drive plate adopts high-power PWM drive chip to carry out lamp holder power supply regulation and control, in this embodiment, preferred FSFR2100 is the drive chip of core, the controller is the singlechip, preferably STM32 series singlechip, it controls physiotherapy lamp holder 3's power supply through output PWM, infrared thermal imaging detection module adopts MAG15 thermal imaging device, it communicates through the serial ports of serial ports with the singlechip, realize thermal imaging data's transmission, display module adopts 2 inches's LCD screen or OLED screen.

The controller is used for controlling the alarm module to give an alarm when the body surface temperature of the user is detected to be greater than a preset value. In this embodiment, alarm module includes warning light and bee calling organ, reminds the user to pay attention to through sound and light dual mode, avoids taking place danger.

Example two

As shown in fig. 2 and fig. 3, the present embodiment is different from the first embodiment in that: in this embodiment, the executive component that adjusts the temperature includes slide rail 4, and slide rail 4 is connected on support 2, is equipped with sliding plate 6 on slide rail 4, and physiotherapy lamp holder 3 sets up on sliding plate 6, is equipped with motor 5 on slide rail 4, and motor 5 is used for driving sliding plate 6 and removes, and the controller adjusts physiotherapy lamp holder 3 positions through control motor 5. In this embodiment, the slide rail 4 and the slide plate 6 are connected by a screw pair, and the motor 5 is a stepping motor 5 to realize accurate position control.

In this embodiment, adjust the position of physiotherapy lamp holder 3 through slide rail 4, and then adjust the distance between physiotherapy lamp holder 3 and the user body surface, realize shining the regulation of the radiant intensity of user body surface to physiotherapy lamp holder 3, in this implementation, support 2 can set up the multisection to the direction of convenient adjustment slide rail 4, make slide rail 4 perpendicular user body surface as far as possible, and then make the distance adjustment effect more obvious.

EXAMPLE III

The difference between this embodiment and the second embodiment is: in this embodiment, the controller is still used for judging the degree of consistency of temperature distribution according to user's body surface thermal imaging data, and the controller is used for controlling physiotherapy lamp holder 3 and keeps away from the user when detecting that user's body surface temperature is inhomogeneous. Whether the physiotherapy lamp holder 3 shines is even is judged through thermal imaging data, if inhomogeneous then the physiotherapy lamp holder 3 of transferring far, increase the even degree of shining.

Example four

The difference between this embodiment and the first embodiment is: in this embodiment, be equipped with infrared installation department on the physiotherapy lamp body, infrared thermal imaging detection module sets up on infrared installation department, and infrared installation department is used for adjusting infrared thermal imaging detection module's position and angle.

In this embodiment, infrared thermal imaging installation department includes metal forming hose and mount pad, and infrared thermal imaging detection module passes through the bolt and installs on the mount pad, and metal forming hose one end passes through bolt fixed connection with the mount pad, and the other end passes through bolt fixed connection with support 2. The position and the angle of the infrared thermal imaging detection module can be adjusted freely through the metal shaping hose.

EXAMPLE five

The difference of this embodiment and embodiment four lies in, in this embodiment, infrared installation department includes movable rod and mount pad, connect through adjustment mechanism between movable rod and the mount pad, adjustment mechanism is used for adjusting the relative position and the angle of movable rod and mount pad, adjustment mechanism includes the head rod, the second connecting rod, third connecting rod and fourth connecting rod, head rod and second connecting rod cup joint, second connecting rod and third connecting rod are articulated, third connecting rod and fourth connecting rod are articulated, the articulated shaft between the articulated shaft perpendicular to second connecting rod and the third connecting rod of third connecting rod and fourth connecting rod, set up locking screw between the connecting rod. In other embodiments of the present application, the adjustment mechanism may also employ a connection structure having a ball connection to achieve 360 degree adjustment rotation. The movable rod, the first connecting rod, the second connecting rod, the third connecting rod and the fourth connecting rod are all set to be telescopic rods so as to facilitate adjustment of the position of the infrared thermal imaging detection module.

EXAMPLE six

The difference between this embodiment and the first embodiment is that, in this embodiment, the controller is further configured to detect the distribution of the user body surface temperature through the infrared thermal imaging module and store corresponding data when the physiotherapy lamp head 3 is started, and the controller is further configured to analyze the position and range of the lesion of the user according to the distribution of the user body surface temperature. After the physiotherapy lamp head 3 has performed physiotherapy on the body surface of the user for a period of time, the controller detects the body surface thermal imaging data of the user through the infrared thermal imaging module, and analyzes the centralized physiotherapy range of the current physiotherapy through the body surface thermal imaging data of the user; the controller is also used for judging whether the focus position of the user is located in the concentrated physical therapy range or not and whether the concentrated physical therapy range covers the focus range of the user, and the controller is also used for reminding through the alarm module and displaying through the display module when detecting that the focus position of the user is not located in the concentrated physical therapy range or the concentrated physical therapy range does not cover the focus range of the user. In this embodiment technical scheme, doctor or user can compare the display module and carry out the regulation of 3 positions of physiotherapy lamp holder to make the physiotherapy scope that physiotherapy lamp holder 3 was concentrated shine user's main focus position.

The above are merely examples of the present invention, and the present invention is not limited to the field related to this embodiment, and the common general knowledge of the known specific structures and characteristics in the schemes is not described herein too much, and those skilled in the art can know all the common technical knowledge in the technical field before the application date or the priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date, and those skilled in the art can combine their own ability to perfect and implement the scheme, and some typical known structures or known methods should not become barriers to the implementation of the present invention by those skilled in the art in light of the teaching provided in the present application. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. Physiotherapy lamp with quick control by temperature change response, including the physiotherapy lamp body, its characterized in that: the physiotherapy lamp body is provided with a physiotherapy lamp cap, a controller, an infrared thermal imaging detection module and a temperature adjustment execution component, the controller is electrically connected with the infrared thermal imaging detection module and the temperature adjustment execution component, and the controller is used for acquiring the surface thermal imaging data of the user body through the infrared thermal imaging detection module and obtaining the body surface temperature of the user;

the controller is also used for controlling the temperature adjusting execution part to adjust the intensity of the lamp cap of the physiotherapy lamp acting on the body surface of the user according to the body surface temperature of the user.

2. The physiotherapy lamp with rapid temperature control response of claim 1, wherein: the infrared thermal imaging detection device is characterized by further comprising a display module, and the controller is used for controlling the display module to display the detection result of the infrared thermal imaging detection module.

3. The physiotherapy lamp with rapid temperature control response of claim 2, wherein: the infrared thermal imaging detection module adopts a MAG15 thermal imager, and the MAG15 thermal imager is connected with the controller through a serial port.

4. The physiotherapy lamp with rapid temperature control response of claim 3, wherein: be equipped with infrared installation department on the physiotherapy lamp body, infrared thermal imaging detection module sets up on infrared installation department, infrared installation department is used for adjusting infrared thermal imaging detection module's position and angle.

5. The physiotherapy lamp with rapid temperature control response of claim 4, wherein: the infrared thermal imaging installation part comprises a metal shaping hose.

6. The physiotherapy lamp with rapid temperature control response of claim 5, wherein: the infrared thermal imaging detection module is arranged on the lamp holder of the physiotherapy lamp.

7. The physiotherapy lamp with rapid temperature control response of claim 6, wherein: and a separation plate is arranged between the infrared thermal imaging detection module and the lamp holder of the physiotherapy lamp.

8. The physiotherapeutic lamp with fast temperature control response according to claim 7, wherein: the temperature adjusting execution part comprises a physiotherapy lamp head driving board, and the physiotherapy lamp head driving board is used for adjusting the power of the physiotherapy lamp head according to the signal of the controller.

9. The physiotherapeutic lamp with fast temperature control response according to claim 8, wherein: the physiotherapy lamp body comprises a base and a support, the temperature adjusting execution part comprises a slide rail, the slide rail is connected to the support, a sliding plate is arranged on the slide rail, a physiotherapy lamp cap is arranged on the sliding plate, a motor is arranged on the slide rail and used for driving the sliding plate to move, and the position of the physiotherapy lamp cap is adjusted by the controller through controlling the motor.

10. The physiotherapeutic lamp with fast temperature control response according to claim 9, wherein: the controller is also used for judging the uniformity of temperature distribution according to the thermal imaging data of the body surface of the user, and the controller is used for controlling the lamp holder of the physiotherapy lamp to be far away from the user when detecting that the body surface temperature of the user is uneven.

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