CN216497056U - Intelligent medical infrared baking lamp - Google Patents

Abstract

The utility model provides an intelligent medical infrared baking lamp, which relates to the field of medical treatment and comprises the following components: the base is fixedly connected with a supporting rod; the adjusting rod is hinged with the supporting rod; the sliding device is respectively and fixedly connected with the adjusting rod and the lighting device and is used for driving the lighting device to slide along a vertical track; the control panel is respectively integrated with a control chip and a communication component, the control chip is respectively connected with the sliding device, the lighting device and the communication component, and the communication component is connected with an external control terminal; the external control terminal is used for sending a control instruction to the control chip, the control chip receives the control instruction through the communication assembly, respectively controls the sliding device to slide according to the corresponding control instruction, controls the illuminating device to illuminate, and sends distance data to the external control terminal through the communication assembly. This technical scheme controls lighting device and slider through external control terminal, realizes contactless control lighting device and removes and contactless switch lamp.

Description

Intelligent medical infrared baking lamp

Technical Field

The utility model relates to the field of medical treatment, in particular to an intelligent medical infrared copy lamp.

Background

The infrared ray is an electromagnetic wave, and can penetrate into skin and subcutaneous tissues most in all sunlight, so that blood circulation is promoted, a body is kept at a certain temperature, and the infrared ray can be absorbed by the human body quickly; the far infrared ray permeating into the human body can cause the vibration of atoms and molecules, and is absorbed through resonance to form heat reflection, so that the temperature of the subcutaneous deep layer is increased, the micro blood vessels are expanded to promote blood circulation, the heat generated by using the baking lamp for treatment is mainly used for promoting the blood circulation of local parts, namely parts needing to be treated, and the far infrared ray is used for relieving swelling and accelerating wound healing after the operation. Can also penetrate through clothes to act on the treatment part. Can penetrate through the skin to directly generate heat effect on muscles, subcutaneous tissues and the like. Accelerating blood circulation, increasing metabolism, reducing pain, increasing muscle relaxation, and generating massage effect. The infrared baking lamp can cure diseases mainly because the infrared baking lamp can mobilize the disease resistance of the human body from different levels. When the baking lamp is used, the temperature and the distance from the affected part are mainly controlled, the temperature is not too high or too close, and the affected part feels comfortable. When the baking lamp is used, the baking lamp is not close to the skin so as to prevent the skin from being burnt due to the close proximity. But current roast lamp only has the heating effect, can't communicate with external equipment, and the unable self-closing illumination of infrared lamp's illumination temperature when too high simultaneously, patient's skin is probably burnt, and the distance of artifical regulation light is adopted mostly to current infrared roast lamp simultaneously, can't realize remote control.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides an intelligent medical infrared copy lamp, which comprises:

the base is fixedly connected with a supporting rod;

the adjusting rod is hinged with the supporting rod;

the sliding device is respectively and fixedly connected with the adjusting rod and the lighting device and is used for driving the lighting device to slide along a preset vertical track;

the illuminating device is used for carrying out infrared irradiation treatment on a patient and respectively detecting distance data between the illuminating device and the ground and between the illuminating device and the sliding device;

the control panel is respectively integrated with a control chip and a communication component, the control chip is respectively connected with the sliding device, the illuminating device and the communication component, and the communication component is also connected with at least one external control terminal;

the external control terminal is used for sending a control instruction to the control chip, the control chip receives the control instruction through the communication assembly and respectively controls the sliding device to slide and the lighting device to light according to the corresponding control instruction, and the control cabinet chip is further used for sending the distance data to the external control terminal through the communication assembly.

Preferably, the sliding device includes:

the protective shell is internally provided with a driving motor and the control panel which are vertically arranged respectively;

a driving shaft of the driving motor extends out of the protective shell and is connected with a screw rod;

a sliding block is sleeved on the screw rod;

the slider is connected with the lighting device through a connecting piece.

Preferably, the sliding device further comprises a baffle fixedly connected to the outside of the protective shell and kept horizontal to the ground.

Preferably, the lighting device includes:

the infrared baking lamp is used for carrying out infrared irradiation treatment on a patient;

the temperature acquisition element is fixedly arranged in the lampshade and is used for acquiring temperature data in the lampshade in real time;

the first distance sensor is fixedly arranged outside the lampshade and used for detecting first distance data between the lighting device and the ground;

and the second distance sensor is arranged at the top of the lampshade, is positioned under the baffle and is used for detecting second distance data between the lighting device and the baffle.

Preferably, the adjusting lever includes:

the first adjusting rod is hinged with the supporting rod;

and the second adjusting rod is hinged with the first adjusting rod.

Preferably, a timing device is further integrated on the control panel, connected with the control chip and used for counting the irradiation time of the infrared baking lamp.

Preferably, the external control terminal includes:

a mobile phone, and/or a tablet computer, and/or a wearable device.

Preferably, the communication module is a wireless communication device and includes:

a wireless network device, and/or a bluetooth device, and/or a zigbee device.

Preferably, an alarm device is further integrated on the control board, connected to the control chip, and configured to alarm when the first distance data is not greater than a first distance threshold.

Preferably, the alarm device adopts a buzzer.

The technical scheme has the following advantages or beneficial effects:

(1) according to the technical scheme, the infrared baking lamp of the lighting device is controlled through the external control terminal, so that the lamp is turned on and off without direct contact, and the lamp is turned on and off in a remote control mode;

(2) according to the technical scheme, the up-and-down movement of the sliding device is controlled through the external control terminal, so that the lighting device is driven to move up and down, the distance between the lighting device and a patient is adjusted in a non-contact manner, and the intelligent medical device is more convenient and intelligent;

(3) this technical scheme installs the temperature acquisition component in lighting device and gathers the temperature in the lamp shade in real time, avoids the high temperature to cause the injury to the patient, and the security is higher.

Drawings

FIG. 1 is a schematic diagram of an intelligent medical infrared baking lamp according to a preferred embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent medical infrared baking lamp in a preferred embodiment of the utility model.

Detailed Description

The utility model is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In accordance with the above-mentioned problems in the prior art, there is provided in a preferred embodiment of the present invention, an intelligent medical infrared baking lamp, as shown in fig. 1 and 2, comprising:

the base 1 is fixedly connected with a supporting rod 2;

the adjusting rod 3 is hinged with the supporting rod 2;

the sliding device 4 is respectively and fixedly connected with the adjusting rod 3 and the lighting device 5 and is used for driving the lighting device 5 to slide along a preset vertical track;

the lighting device 5 is used for carrying out infrared irradiation treatment on the patient and respectively detecting distance data between the lighting device 5 and the ground and the sliding device 4;

the control panel 6, a control chip 61 and a communication assembly 62 are integrated on the control panel 6 respectively, the control chip 61 is connected with the sliding device 4, the lighting device 5 and the communication assembly 62 respectively, and the communication assembly 62 is further connected with at least one external control terminal 7;

the external control terminal 7 is configured to send a control instruction to the control chip 61, the control chip 61 receives the control instruction through the communication component 62, and controls the sliding device 4 to slide and the lighting device 5 to illuminate according to the corresponding control instruction, respectively, and the control chip 61 is further configured to send distance data to the external control terminal 7 through the communication component 62.

Specifically, in this embodiment, the base 1 and the support rod 2 support the entire intelligent medical infrared baking lamp 52, and the adjusting rod 3 can adjust the sliding device 4 and the lighting device 5 in the horizontal direction. The external control terminal 7 is pre-provided with control software for matching with the control chip 61 to control the sliding device 4 to slide up and down along a preset vertical track, so that the lighting device 5 is driven to slide up and down, the distance between the lighting device 5 and a patient is adjusted in a non-contact manner, and the intelligent medical device is more convenient and intelligent. Meanwhile, control software on the external control terminal 7 can also be matched with the control chip 61 to control the infrared baking lamp 52 of the lighting device 5, so that the lamp is turned on and off without direct contact, and remote control is facilitated. The lighting device 5 is mounted with a first distance sensor 54 and a second distance sensor 55 for detecting first distance data between the lighting device 5 and the ground and for detecting second distance data between the lighting device 5 and the sliding device 4, respectively. The control chip 61 is pre-stored with a first distance threshold and a second distance threshold, which are respectively used for limiting the first distance data and the second distance data. When the first distance data is not less than the first distance threshold, it indicates that the lighting device 5 is too close to the ground, and at the same time, it also means that the lighting device 5 is too close to the detection portion of the patient, so that the control chip 61 controls the sliding device 4 to stop sliding downwards, and avoid that the lighting device 5 is too close to the detection portion to cause burn; when the second distance data is not less than the second distance threshold, indicating that the lighting device 5 is too close to the barrier 46 fixed to the sliding device 4, the control chip 61 controls the sliding device 4 to stop sliding upward.

Preferably, the external control terminal 7 may be a mobile terminal held by a medical worker, and the mobile terminal includes, but is not limited to, a mobile phone, a tablet, and a wearable device; the external control terminal 7 may be a display terminal for setting an infrared irradiation office in which medical workers are located.

In a preferred embodiment of the present invention, the sliding device 4 comprises:

the protective shell 41 is internally provided with a driving motor 42 and a control panel 6 which are vertically arranged respectively;

the driving shaft of the driving motor 42 extends out of the protective shell 41 and is connected with a screw rod 43;

a slide block 44 is sleeved on the screw rod 43;

the slider 44 is connected to the lighting device 5 by a connecting member 45.

Specifically, in this embodiment, protect inside driving motor 42 and control panel 6 through setting up protective housing 41, avoid external environment to cause the damage to driving motor and control panel 6, promoted this technical scheme's security and stability. The control chip 61 generates a corresponding motor control signal after receiving a control instruction for controlling the sliding device 4 to ascend and descend, which is sent by the external control terminal 7, and sends the motor control signal to the driving motor 42 for driving, after the driving motor 42 runs, the driving shaft rotates to drive the screw rod 43 to rotate, a sliding groove 4A is sleeved outside the screw rod 43, the sliding groove 4A limits the sliding block 44 sleeved on the screw rod 43 to move up and down, and therefore the sliding block 44 drives the lighting device 5 to move up and down through the connecting piece 45.

In the preferred embodiment of the present invention, the sliding device 4 further includes a baffle 46 fixedly connected to the outside of the protective casing 41 and kept horizontal with the ground.

In a preferred embodiment of the present invention, the lighting device 5 includes:

the infrared radiation therapy device comprises a lampshade 51, wherein at least one infrared baking lamp 52 is fixed inside the lampshade 51, and the infrared baking lamp 52 is used for performing infrared radiation therapy on a patient;

the temperature acquisition element 53 is fixedly arranged in the lampshade 51 and is used for acquiring temperature data in the lampshade 51 in real time;

a first distance sensor 54 fixedly installed outside the lamp housing 51 for detecting first distance data between the lighting device 5 and the ground;

and a second distance sensor 55 disposed on the top of the lamp housing 51 and directly below the barrier 46, for detecting second distance data between the lighting device 5 and the barrier 46.

Specifically, in this embodiment, the infrared baking lamp 52 is protected by the lamp cover 51, and the infrared light emitted by the infrared baking lamp 52 is collected to reduce the scattering of the infrared light. The temperature acquisition element 53 adopts a digital temperature sensor with the model of DS18B20, and the DS18B20 has the characteristics of small volume, low hardware overhead, strong anti-interference capability and high precision, thereby being beneficial to saving the cost of the technical scheme and improving the precision of temperature detection. The temperature data in the lampshade 51 are collected in real time through the temperature collecting element 53 and are sent to the control chip 61, and the control chip 61 sends the temperature data in the lampshade 51 to the external control terminal 7 through the communication component 62 for processing and displaying; when the temperature data in the lamp shade 51 exceeds a temperature threshold, the control chip 61 generates a lamp turning-off instruction and sends the lamp turning-off instruction to the infrared baking lamp 52 to control the infrared baking lamp 52 to be turned off, so that the damage to the patient caused by the overhigh temperature of the infrared baking lamp 52 is avoided, and the safety of the technical scheme is ensured. The first distance sensor 54 detects data between the lighting device 5 and the ground and obtains first distance data to send to the control chip 61, and the control chip 61 sends the first distance data to an external control device through the communication component 62 for processing and displaying; the second distance sensor 55 detects data between the lighting device 5 and the ground and obtains second distance data to send to the control chip 61, and the control chip 61 sends the second distance data to the external control device through the communication component 62 for processing and displaying.

In a preferred embodiment of the utility model, the adjustment lever 3 comprises:

a first adjusting lever 31 hinged to the support lever 2;

and a second adjusting lever 32 hinged to the first adjusting lever 31.

Specifically, in this embodiment, in addition to using the external control terminal 7 to control the sliding device 4 to drive the lighting device 5 to move vertically, the first adjusting lever 31 and the second adjusting lever 32 can be manually adjusted to adjust the horizontal direction of the lighting device 5.

In the preferred embodiment of the present invention, a timing device 8 is further integrated on the control board 6, and is connected to the control chip 61 for counting the irradiation time of the infrared baking lamp 52.

Specifically, in the present embodiment, when the infrared baking lamp 52 is turned on for irradiation, the timing device 8 starts timing; when the infrared baking lamp 52 stops irradiating, the timing device 8 stops timing. A time threshold may be set on the control software of the external control terminal 7, and the set irradiation threshold is sent to the control chip 61 for saving. When the irradiation time counted by the timing device 8 is not less than the time threshold, which indicates that the irradiation time of the infrared baking lamp 52 is too long, the control chip 61 generates a lamp turning-off instruction and sends the lamp turning-off instruction to the lighting device 5, so that the infrared baking lamp 52 is turned off, and the timing device 8 stops timing.

In a preferred embodiment of the present invention, the external control terminal 7 includes:

a mobile phone, and/or a tablet computer, and/or a wearable device.

Specifically, in the present embodiment, by using the external control terminal 7 in multiple forms, the flexibility of selection by the user of the external control terminal 7 is higher, and the lighting device 5 and the sliding device 4 can be controlled by selecting an apparatus that is convenient to use in various usage environments.

In the preferred embodiment of the present invention, the communication module 62 is a wireless communication device and includes:

a wireless network device, and/or a bluetooth device, and/or a zigbee device.

Specifically, in the present embodiment, by using various forms of wireless communication devices, the external control terminal 7 can remotely control the lighting device 5 and the sliding device 4, thereby avoiding field wiring, reducing wiring cost, and simultaneously realizing contactless control of the lighting device 5 and the sliding device 4, which is more convenient and intelligent.

In the preferred embodiment of the present invention, an alarm device 9 is further integrated on the control board 6, and connected to the control chip 61, for alarming when the first distance data is not greater than a first distance threshold.

Specifically, in this embodiment, the first distance threshold is set and can be modified on the control software of the external control terminal 7, and the set first distance threshold is sent to the control chip 61 for storage. When the first distance data detected by the first distance sensor 54 is not greater than the first distance threshold stored in the control chip 61, it indicates that the distance from the ground of the lighting device 5 is too short, and therefore the distance from the lighting device 5 to the detection part of the patient is also too short, at this time, the control chip 61 generates an alarm instruction and sends the alarm instruction to the alarm device 9, and the alarm device 9 gives an alarm according to the alarm instruction to remind the user to control the lifting of the lighting device 5, so that the detection part of the patient is prevented from being burnt.

In a preferred embodiment of the present invention, the alarm device 9 is a buzzer.

Specifically, in this embodiment, the buzzer buzzes and gives an alarm after receiving the alarm instruction, and the buzzer has the characteristics of small size, high sensitivity, power saving, good reliability, low manufacturing cost, and good frequency characteristic, and is favorable for reducing the use cost of the technical scheme.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (10)

1. The utility model provides a medical infrared roast lamp of intelligence which characterized in that includes:

the base is fixedly connected with a supporting rod;

the adjusting rod is hinged with the supporting rod;

the sliding device is respectively and fixedly connected with the adjusting rod and the lighting device and is used for driving the lighting device to slide along a preset vertical track;

the illuminating device is used for carrying out infrared irradiation treatment on a patient and respectively detecting distance data between the illuminating device and the ground and between the illuminating device and the sliding device;

the control panel is respectively integrated with a control chip and a communication component, the control chip is respectively connected with the sliding device, the illuminating device and the communication component, and the communication component is also connected with at least one external control terminal;

the external control terminal is used for sending a control instruction to the control chip, the control chip receives the control instruction through the communication assembly and respectively controls the sliding device to slide and the lighting device to light according to the corresponding control instruction, and the control cabinet chip is further used for sending the distance data to the external control terminal through the communication assembly.

2. The intelligent medical infrared baking lamp of claim 1, wherein the sliding device comprises:

the protective shell is internally provided with a driving motor and the control panel which are vertically arranged respectively;

a driving shaft of the driving motor extends out of the protective shell and is connected with a screw rod;

a sliding block is sleeved on the screw rod;

the slider is connected with the lighting device through a connecting piece.

3. The intelligent medical infrared baking lamp as claimed in claim 2, wherein the sliding device further comprises a baffle fixedly connected to the outside of the protective shell and horizontally kept with the ground.

4. The intelligent medical infrared baking lamp of claim 3, wherein the illumination device comprises:

the infrared baking lamp is used for carrying out infrared irradiation treatment on a patient;

the temperature acquisition element is fixedly arranged in the lampshade and is used for acquiring temperature data in the lampshade in real time;

the first distance sensor is fixedly arranged outside the lampshade and used for detecting first distance data between the lighting device and the ground;

and the second distance sensor is arranged at the top of the lampshade, is positioned under the baffle and is used for detecting second distance data between the lighting device and the baffle.

5. The intelligent medical infrared baking lamp of claim 1, wherein the adjusting rod comprises:

the first adjusting rod is hinged with the supporting rod;

and the second adjusting rod is hinged with the first adjusting rod.

6. The intelligent medical infrared baking lamp as claimed in claim 1, wherein a timing device is further integrated on the control board, connected to the control chip, and used for counting the irradiation time of the infrared baking lamp.

7. The intelligent medical infrared baking lamp according to claim 1, wherein the external control terminal comprises:

a mobile phone, and/or a tablet computer, and/or a wearable device.

8. The intelligent medical infrared baking lamp of claim 1, wherein the communication component is a wireless communication device and comprises:

a wireless network device, and/or a bluetooth device, and/or a zigbee device.

9. The intelligent medical infrared baking lamp as claimed in claim 4, wherein an alarm device is further integrated on the control board, connected to the control chip, for alarming when the first distance data is not greater than a first distance threshold.

10. The intelligent medical infrared baking lamp as claimed in claim 9, wherein the alarm device is a buzzer.

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