CN211245226U - Wireless light wave maintenance equipment - Google Patents

Abstract

The utility model discloses a wireless light wave maintenance device, which comprises a control module, a power supply module, a LED lamp switch module, a LED lamp driving module, a LED lamp and a wireless communication module, wherein the LED lamp comprises an infrared LED lamp and/or a red LED lamp and/or a blue LED lamp; the control module is in signal connection with the LED lamp driving module and the wireless communication module respectively; the LED lamp driving module is electrically connected with the LED lamp; the power supply module is electrically connected with the control module, the LED lamp driving module and the wireless communication module respectively. This wireless formula light wave maintenance of equipment is connected with user equipment with control module and display module integration on user equipment through wireless communication module, has low in manufacturing cost, controls characteristics such as convenient, the safety in utilization height, has good practicality.

Description

Wireless light wave maintenance equipment

Technical Field

The utility model relates to the nursing field, concretely relates to wireless formula light wave curing means.

Background

The infrared light with the wave band of 770nm to 1mm can pass through the skin, directly cause muscles, subcutaneous tissues and the like to generate heat effect, accelerate blood substance circulation, increase metabolism, reduce pain, increase muscle relaxation, generate massage effect and the like, and mobilize the disease resistance of the human body from different levels to maintain diseases.

The red light of 622 nm-770 nm wave band has the characteristics of strong penetrating tissue and deep penetrating tissue, the mitochondria in the cell can absorb the red light maximally, after the red light is irradiated, the catalase activity of the mitochondria is increased, thus the metabolism of the cell can be increased, the glycogen content is increased, the protein synthesis is increased, the adenosine triphosphate decomposition is increased, the cell regeneration is enhanced, the granulation tissue and the hair growth and the ulcer healing are promoted, meanwhile, the phagocytosis of the blood cells is increased, and the organism immunity function is improved.

The blue light with the wave band of 400 nm-480 nm has the effect of quickly inhibiting inflammation, is mainly caused by the action of propionibacterium during the forming process of acne, can destroy bacteria under the condition of no damage to skin tissues, furthest reduces the forming of the acne, and can obviously reduce the acne in the inflammatory period to heal in a short time.

Therefore, the red light and the blue light have certain maintenance functions, and the infrared light has a strong auxiliary maintenance function. Utilize light to carry out the maintenance, on the one hand, user's use learning cost is lower, only need with light aim at the maintenance position can, on the other hand, user's use mode mistake also can not lead to too big security problem, especially is fit for being arranged in the family maintenance product, consequently, can develop neotype maintenance product to ruddiness, infrared light and blue light.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wireless formula light wave maintenance of equipment, this wireless formula light wave maintenance of equipment with control module and display module integration on user equipment, be connected with user equipment through wireless communication module, have low in manufacturing cost, control characteristics such as convenient, safety in utilization height, have good practicality.

Correspondingly, the utility model provides a wireless light wave maintenance equipment, the wireless light wave maintenance equipment includes control module, power module, LED lamp switch module, LED lamp drive module, LED lamp and wireless communication module, the LED lamp includes infrared light LED lamp, and/or ruddiness LED lamp, and/or blue light LED lamp;

the control module is in signal connection with the LED lamp driving module and the wireless communication module respectively;

the LED lamp driving module is electrically connected with the LED lamp;

the power supply module is electrically connected with the control module, the LED lamp driving module and the wireless communication module respectively.

In an optional embodiment, the power supply module includes a first conversion circuit with an output voltage of 12V, a second conversion circuit with an output voltage of 5V, and a third conversion circuit with an output voltage of 3.3V;

the input end of the second conversion circuit is electrically connected with the output end of the first conversion circuit, and the input end of the third conversion circuit is electrically connected with the output end of the second conversion circuit.

In an optional embodiment, the second conversion circuit comprises a linear voltage regulator, and the voltage at the output end of the linear voltage regulator is 5V;

the third conversion circuit comprises a low-dropout linear regulator, the input end of the low-dropout linear regulator is electrically connected with the output end of the linear regulator, the voltage of the output end of the low-dropout linear regulator is 3V, and the enabling end of the low-dropout linear regulator is in signal connection with the control module.

In an optional implementation manner, the wireless communication module is a bluetooth communication module.

In an optional implementation manner, the LED lamp driving module is a constant voltage and constant current LED lamp driving module;

the LED lamp driving module comprises a buck-boost type DC/DC converter, and the buck-boost type DC/DC converter comprises a buck-boost input end, a buck-boost output end, a buck-boost constant current detection end and a buck-boost enabling end;

one electrode of the infrared light LED lamp is electrically connected with the buck-boost output end, and the other electrodes of the infrared light LED lamp and the like are electrically connected with the buck-boost constant current detection end;

the buck-boost constant current detection end is also electrically connected with an integrating circuit, and the integrating circuit is in signal connection with the control module.

In an optional implementation manner, the wireless light wave curing device further includes a blue light LED lamp driving module and a blue light LED lamp;

the blue LED lamp driving module is electrically connected with the blue LED lamp;

the power supply module is electrically connected with the blue light LED lamp driving module;

and the control module is in signal connection with the blue LED lamp driving module.

In an optional embodiment, under the condition that the LED lamp includes a red LED lamp, the LED lamp switch module includes a red light switch module, and the LED lamp driving module includes a red LED driving module;

the red light LED lamp is electrically connected with the LED lamp driving module, the red light LED driving module is in signal connection with the red light switch module, and the red light switch module is in signal connection with the control module.

In an optional embodiment, under a condition that the LED lamp includes an infrared LED lamp, the LED lamp switch module includes an infrared light switch module, and the LED lamp driving module includes an infrared light LED driving module;

the infrared light LED lamp is electrically connected with the LED lamp driving module, the infrared light LED driving module is in signal connection with the infrared light switch module, and the infrared light switch module is in signal connection with the control module.

In an optional embodiment, under the condition that the LED lamp includes a blue LED lamp, the LED lamp switch module includes a blue light switch module, and the LED lamp driving module includes a blue light LED driving module;

the blue light LED lamp is respectively electrically connected with the blue light LED driving module, the blue light LED driving module is in signal connection with the blue light switch module, and the blue light switch module is in signal connection with the control module.

The utility model provides a wireless light wave maintenance device, which only establishes a minimum feedback structure system in a default state, and has better energy saving property; 5V voltage is used for carrying out on-off control on the infrared light LED lamp and the blue light LED lamp which adopt 12V power supply, and the control performance and the safety performance are better; the wireless light wave maintenance equipment is connected with user equipment through the wireless communication module, receives control information and feeds back a control picture, is good in use convenience, is beneficial to reducing the volume of the wireless light wave maintenance equipment, and has good practicability and reliability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a wireless light wave maintenance device according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a control module according to an embodiment of the present invention;

fig. 3 shows a second conversion circuit of an embodiment of the present invention;

fig. 4 shows a third conversion circuit of an embodiment of the present invention;

fig. 5 shows a fourth conversion circuit of an embodiment of the present invention;

fig. 6 shows a schematic structural diagram of an infrared light switch module according to an embodiment of the present invention;

fig. 7 shows a schematic structural diagram of an infrared light driving module according to an embodiment of the present invention;

fig. 8 shows a schematic structural diagram of a wireless communication module according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that the electrical connection and the signal connection are both electrical connection relationships in nature, the electrical connection is mainly an electrical connection related to power supply, and the signal connection is mainly an electrical connection related to control signal transmission; control signal transmission is also the propagation of signal of telecommunication in essence, the embodiment of the utility model provides a for the electrical connection relation of distinguishing signal transmission and power supply, the event uses electric connection and signal connection to distinguish.

Fig. 1 shows a schematic structural diagram of a wireless light wave maintenance device according to an embodiment of the present invention. The embodiment of the utility model provides a control module, power module, LED lamp switch module, LED lamp drive module, LED lamp and wireless communication module, the LED lamp includes infrared light LED lamp, and/or ruddiness LED lamp, and/or blue light LED lamp.

The control module is in signal connection with the LED lamp driving module and the wireless communication module respectively; the LED lamp driving module is electrically connected with the LED lamp; the power supply module is electrically connected with the control module, the LED lamp driving module and the wireless communication module respectively. Optionally, the wireless light wave curing device further includes a blue light driving module

The power supply module is electrically connected to the control module, the LED lamp driving module and the wireless communication module, respectively, and in order to keep the clarity of fig. 1 of the drawings, the electrical connection relationship between the power supply module and each component is not shown in fig. 1 of the drawings.

Specifically, in the utility model discloses among the wireless formula light wave curing equipment, control module passes through signal control's mode, controls LED lamp drive module respectively, and wherein, LED lamp and display screen are driven by the drive circuit who corresponds, and not by control module direct drive, control module's calculation pressure reduces. In specific implementation, the wireless communication module is used for communication and control between the user equipment and the wireless broadcast maintenance equipment, on one hand, control signals of a user are transmitted to the control module, so that the user can select a lighting mode of the LED lamp, namely a physiotherapy mode, and on the other hand, display contents of the wireless broadcast maintenance equipment are transmitted to the user equipment to be displayed. Because the display module and the control module are transferred to the user equipment, the wireless light wave maintenance equipment is low in manufacturing cost, small in size and practical to a certain extent.

The following describes specific embodiments of the respective modules.

Fig. 2 shows a schematic structural diagram of a control module according to an embodiment of the present invention. The utility model discloses control module makes based on the STM32 chip, and is concrete, and this STM32 chip model is LQFP-48P-7X 7-STM 32 _ 072(48 pins), and the lectotype of STM32 chip specifically can confirm to required interface quantity, the embodiment of the utility model provides a only provide a feasible implementation mode and explain, below combine other parts to explain the concrete connection mode of this STM32 chip pin.

The utility model discloses power module includes multiple converting circuit, is directed to the utility model discloses wireless formula light wave maintenance of equipment, the utility model discloses power module includes first converting circuit, second converting circuit and third converting circuit, and wherein, first converting circuit output voltage is 12V, and second converting circuit output voltage is 5V, third converting circuit output voltage is 3.3V.

Specifically, the voltage drop of the mains supply can be realized by the wireless light wave curing equipment through the external power adapter, so that the mains supply voltage is converted into 12V and then is input into the wireless light wave curing equipment, namely, the voltage drop from the mains supply to 12V can be realized by the first conversion circuit through the power adapter. The first converting circuit may be an ac to dc voltage reducing circuit. In addition, the first conversion circuit can be powered by a storage battery, the storage battery can directly output 12V as output voltage, and the storage battery can be powered by the storage battery and can be disconnected from a mains supply, so that the high-voltage direct-current power supply has better practicability.

Fig. 3 shows the second converting circuit of the embodiment of the present invention, the output end of the first converting circuit is 12V, and the second converting circuit outputs 5V voltage after stepping down 12V voltage. Specifically, the utility model discloses second converting circuit includes linear voltage regulator, linear voltage regulator input VI voltage is 12V, and output voltage VO is 5V, and input and output are parallelly connected respectively has a plurality of voltage stabilizing capacitor, because in the alternating current changes direct current electric process in first converting circuit, voltage ripple is undulant great, and through increasing voltage stabilizing capacitor, suppression voltage that can be fine is undulant to obtain stable 5V voltage.

Fig. 4 shows the utility model discloses a third converting circuit, it is concrete, the utility model discloses a third converting circuit steps down 5V voltage to 3.3V, and is concrete, the utility model discloses a third converting circuit includes low dropout linear regulator, the low dropout linear regulator input with linear regulator output electric connection, low dropout linear regulator output is 3V, low dropout linear regulator enable end with control module signal connection. Specifically, the low dropout regulator comprises an input end, an output end, an enable end and an adjusting end, wherein the input end IN is connected with the output end of the second conversion circuit and is used for obtaining 5V voltage; the output end OUT outputs 3V voltage; the enable terminal EN is connected with a general input/output pin of the control module (STM32 chip) and is grounded through a resistor, so that the enable terminal EN keeps a low level potential in a default state, namely a standby state; because the utility model discloses low dropout linear regulator does not involve dynamic voltage control, consequently, adjust end ADJ can be unsettled or based on a electric capacity ground connection.

Fig. 5 shows the utility model discloses the fourth converting circuit of embodiment, it is concrete, the utility model discloses the third converting circuit with 5V voltage step-down to 3.3V, it is concrete, the utility model discloses a third converting circuit includes low dropout linear regulator, the low dropout linear regulator input with linear regulator output electric connection. Compare with third converting circuit, the utility model discloses low dropout linear regulator enable end EN is directly connected with input IN after based on a resistance, when input IN had voltage to get into promptly, this low dropout linear regulator carries out work immediately. Therefore, the fourth conversion circuit is mainly used for supplying power to a control module, namely, an STM32 chip, the output end OUT of the low dropout linear regulator of the fourth conversion circuit is connected with the pin VDD3 _ 3 of the STM32 chip, and when the first conversion circuit starts to output 12V voltage, namely when the wireless light wave curing equipment is plugged into a power adapter, the control module immediately obtains power input. The third conversion circuit is mainly used for supplying power to each functional module, whether the third conversion circuit is started or not is controlled based on the control module, and the control module controls the activation of the third conversion circuit by switching the high and low levels of the enabling end of the low dropout linear regulator of the third conversion circuit.

Because the infrared light switch module, the blue light switch module and the red light switch module are structurally displayed, and the infrared light LED driving module, the blue light LED driving module and the red light LED driving module are structurally similar, the infrared light LED lamp, the infrared light LED driving module and the infrared light switch module are taken as examples for explanation in the embodiment of the invention.

Fig. 6 shows a schematic structural diagram of an infrared light switch module according to an embodiment of the present invention. The embodiment of the utility model provides an in, carry out circular telegram control to infrared light LED lamp drive module with control module control infrared light switch module, rethread infrared light LED lamp drive module drives infrared LED lamp of seeing. The utility model discloses infrared light switch module includes first infrared phototriode VT2, second infrared phototriode VT3, photoelectric coupler G3 and switch field effect transistor U5. Specifically, the base of the first infrared triode VT2 is connected with a general input/output pin of the control module, the collector of the first infrared triode VT2 is connected with the base of the second infrared triode VT3, and the emitter of the first infrared triode VT2 is grounded; the emitter of the second infrared triode VT3 is grounded; two ends of an input path of a photoelectric coupler G3 are respectively connected to the output end of the second conversion circuit and the collector electrode of the second infrared triode VT3, and two ends of an output path of a photoelectric coupler G3 are respectively connected to the control end of a switching field effect transistor U5; the input end of the switching field effect transistor is connected with the output end of the first conversion circuit, namely the voltage of the input end of the switching field effect transistor is 12V, and the voltage of the output end of the switching field effect transistor is 12V. In the embodiment of the present invention, the switching field effect transistor U5 is of model AO 4437.

In specific implementation, when the control module gives an infrared lamp lighting signal, that is, the general input/output pin corresponding to the infrared light switch module is at a high level, the VT2 is turned on by a high level signal, correspondingly, the VT3 is turned on, and the G3 photoelectric coupler is internally lighted, so that the G3 internally works, the pin 4 of the switching field effect transistor is at a low level, and the output end of the switching field effect transistor starts to output 12V voltage.

Fig. 7 shows a schematic structural diagram of an infrared light driving module according to an embodiment of the present invention. Specifically, the infrared light driving module according to the embodiment of the present invention is the LED lamp driving module which is a constant voltage and constant current LED lamp driving module; the LED lamp driving module comprises a buck-boost type DC/DC converter, and the buck-boost type DC/DC converter comprises a buck-boost input end, a buck-boost output end, a buck-boost constant current detection end and a buck-boost enabling end; one electrode of the infrared light LED lamp is electrically connected with the buck-boost output end, and the other electrodes of the infrared light LED lamp and the like are electrically connected with the buck-boost constant current detection end; the buck-boost constant current detection end is also electrically connected with an integrating circuit, and the integrating circuit is in signal connection with the control module. Specifically, the buck-boost input end is connected with the output end of the switch field effect diode, and when the buck-boost type DC/DC converter obtains a power supply, the buck-boost type DC/DC converter is started, wherein SW is the buck-boost output end and is used for outputting voltage; FB is a buck-boost constant-current detection end, so that the LED lamp works at a set current to keep the light power of the LED lamp within a set range; r3 is used for current detection, when the current is large, the voltage is reduced through operation adjustment in the buck-boost type DC/DC converter, so that the current flowing through the infrared LED lamp is reduced, the lamp current of the infrared LED lamp is repeatedly enabled to work within a set range, and the power of the infrared LED lamp is kept constant. PWM is the control signal end of the control module, can set for the electric current of the infrared light LED lamp through the software, the control principle is that the duty ratio that sends PWM signal through the control module makes the voltage on the integral circuit that R4 and C5 make up rise with the rise of duty ratio rise voltage, FB changes LDE lamp current through obtaining the signal voltage to rise or reduce, thus realize the function of controlling the power of infrared light LED lamp.

Optionally, the utility model discloses the model of infrared light LED lamp is TK0514 IRA.

The embodiment of the utility model provides an in, carry out signal control to infrared light switch module with control module, realize that infrared light switch module controls the power supply of infrared light LED lamp drive module, utilize low pressure (5V) to control the infrared light LED lamp drive module of relative high pressure (12V), have good control performance.

Similarly, the drive mode of blue light switch module, blue light LED lamp drive module and blue light LED lamp is the same with the drive mode of infrared light switch module, infrared light LED lamp drive module and infrared light LED lamp, the utility model discloses do not carry out repeated explanation in addition. Optionally, the model number of the blue LED lamp is EP-B2424C-A3, and the model number of the red LED lamp is BN-C2020C-A3.

It should be noted that, in the concrete implementation, infrared light LED etc. the quantity of blue light LED lamp and the quantity of infrared light LED lamp are usually more, therefore, the embodiment of the utility model provides a for the realization is to the power control of blue light LED lamp and infrared light LED lamp, guarantees the normal operating of a plurality of blue light LED lamps and infrared light LED lamp, prevents that blue light LED lamp and infrared light LED lamp power from too big causing harm to the human body, adopts constant voltage constant current LED lamp drive module to control blue light LED lamp and infrared light LED lamp specially to guarantee the security and the reliability of light wave curing equipment.

Fig. 8 is a schematic structural diagram of a wireless communication module according to an embodiment of the present invention. The wireless communication module provided by the embodiment of the invention adopts a Bluetooth communication module, and particularly, the Bluetooth communication module comprises a Bluetooth chip which is connected with and communicates with the control module based on the serial port. Optionally, a voltage input terminal VCC of the bluetooth chip according to the embodiment of the present invention may be connected to an output terminal of the fourth conversion circuit, and when the first conversion circuit is powered on, the bluetooth chip is immediately started; the voltage input end VCC can also be connected with the output end of the third conversion circuit, and after the control module is started, the control module controls the corresponding third conversion circuit to start.

In specific implementation, after the user connects the power adapter to the mains supply, that is, after the first conversion circuit operates, the second conversion circuit synchronously starts to operate. The operation of the second conversion circuit respectively activates the control module and the wireless communication module to start, and the minimum feedback structure system of the wireless light wave maintenance equipment is established, namely the input (wireless communication module), the control (control module) and the output (wireless communication module) structure systems are established; a user acquires display information through user equipment and controls wireless light wave maintenance equipment through the user equipment; when a user needs nursing, the mode is selected through the user equipment, the control module respectively controls the on-off of the infrared light LED lamp driving module and the blue light LED lamp driving module through the infrared light switch module and the blue light switch module, and therefore the on-off of the infrared light LED lamp and the blue light LED lamp is controlled.

The embodiment of the utility model provides a wireless light wave maintenance equipment, only establish minimum feedback structure system under the default state, energy-conservation nature is better; the LED lamp powered by 12V is controlled to be switched on and off by using 5V voltage, so that the control performance and the safety performance are better; the wireless light wave maintenance equipment is connected with user equipment through the wireless communication module, receives control information and feeds back a control picture, is good in use convenience, is beneficial to reducing the volume of the wireless light wave maintenance equipment, and has good practicability and reliability.

The wireless light wave maintenance equipment provided by the embodiment of the invention is described in detail above, and the principle and the implementation mode of the invention are explained by applying a specific example, and the description of the above embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (9)

1. A wireless light wave maintenance device is characterized by comprising a control module, a power supply module, an LED lamp switch module, an LED lamp driving module, an LED lamp and a wireless communication module, wherein the LED lamp comprises an infrared LED lamp and/or a red LED lamp and/or a blue LED lamp;

the control module is in signal connection with the LED lamp driving module and the wireless communication module respectively;

the LED lamp driving module is electrically connected with the LED lamp;

the power supply module is electrically connected with the control module, the LED lamp driving module and the wireless communication module respectively.

2. The wireless lightwave curing device of claim 1, wherein the power supply module comprises a first converting circuit with an output voltage of 12V, a second converting circuit with an output voltage of 5V, and a third converting circuit with an output voltage of 3.3V;

the input end of the second conversion circuit is electrically connected with the output end of the first conversion circuit, and the input end of the third conversion circuit is electrically connected with the output end of the second conversion circuit.

3. The wireless lightwave curing apparatus of claim 2, wherein the second conversion circuit comprises a linear regulator, the output terminal voltage of the linear regulator being 5V;

the third conversion circuit comprises a low-dropout linear regulator, the input end of the low-dropout linear regulator is electrically connected with the output end of the linear regulator, the voltage of the output end of the low-dropout linear regulator is 3V, and the enabling end of the low-dropout linear regulator is in signal connection with the control module.

4. The wireless lightwave curing apparatus of claim 1, wherein the wireless communication module is a bluetooth communication module.

5. The wireless lightwave curing device of claim 1, wherein the LED lamp driving module is a constant voltage and constant current LED lamp driving module;

the LED lamp driving module comprises a buck-boost type DC/DC converter, and the buck-boost type DC/DC converter comprises a buck-boost input end, a buck-boost output end, a buck-boost constant current detection end and a buck-boost enabling end;

one electrode of the infrared light LED lamp is electrically connected with the buck-boost output end, and the other electrodes of the infrared light LED lamp and the like are electrically connected with the buck-boost constant current detection end;

the buck-boost constant current detection end is also electrically connected with an integrating circuit, and the integrating circuit is in signal connection with the control module.

6. The wireless lightwave curing device of claim 1, further comprising a blue LED lamp driver module and a blue LED lamp;

the blue LED lamp driving module is electrically connected with the blue LED lamp;

the power supply module is electrically connected with the blue light LED lamp driving module;

and the control module is in signal connection with the blue LED lamp driving module.

7. The wireless light wave curing apparatus of claim 1, wherein, in a case where the LED lamp includes a red LED lamp, the LED lamp switch module includes a red light switch module, and the LED lamp driving module includes a red LED driving module;

the red light LED lamp is electrically connected with the LED lamp driving module, the red light LED driving module is in signal connection with the red light switch module, and the red light switch module is in signal connection with the control module.

8. The wireless lightwave curing apparatus of claim 1, wherein, in a case where the LED lamp comprises an infrared LED lamp, the LED lamp switch module comprises an infrared light switch module, and the LED lamp driving module comprises an infrared light LED driving module;

the infrared light LED lamp is electrically connected with the LED lamp driving module, the infrared light LED driving module is in signal connection with the infrared light switch module, and the infrared light switch module is in signal connection with the control module.

9. The wireless lightwave curing apparatus of claim 1, wherein, in a case where the LED lamp comprises a blue LED lamp, the LED lamp switch module comprises a blue LED switch module, and the LED lamp driving module comprises a blue LED driving module;

the blue light LED lamp is respectively electrically connected with the blue light LED driving module, the blue light LED driving module is in signal connection with the blue light switch module, and the blue light switch module is in signal connection with the control module.

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