CN217216368U - Control circuit of bathing machine and multifunctional bathing machine - Google Patents

Abstract

The utility model discloses a bubble bath machine control circuit, include: a main control circuit and an external control circuit; the main control circuit is connected with an electrolysis pipeline of the bubble bath machine and is used for controlling the electrolysis pipeline to generate hydrogen; the external control circuit is connected with a loop switcher of the bubble bath machine and a hydrogen-rich water pipeline, is used for controlling the loop switcher to output the hydrogen generated by the electrolysis pipeline to the bubble bath machine or to the hydrogen-rich water pipeline, and is also used for controlling the hydrogen-rich water pipeline to generate and output hydrogen-rich water; the external control circuit comprises a power supply port, a control port, a photoelectric coupler, a switch controller, a loop switcher port and a hydrogen-rich water pipeline port; the photoelectric coupler controls the on-off state of the switch controller according to the control signal of the control port, so that the working states of the loop switcher and the hydrogen-rich water pipeline are controlled. The utility model also discloses a multi-functional bubble bath machine. Adopt the utility model discloses, can realize the effective control of bubble bath machine, the flexibility is strong, and the accuracy is high.

Description

Control circuit of bathing machine and multifunctional bathing machine

Technical Field

The utility model relates to a bubble bath equipment technical field especially relates to a bubble bath machine control circuit and a multi-functional bubble bath machine.

Background

The first article of hydrogen biology in 2007 published in Science, which first demonstrated that hydrogen can directly neutralize hydroxyl radicals, and was demonstrated to treat malignant melanoma in animals. The hydrogen has strong penetrability and can easily enter any part in cells such as cell nucleus, mitochondria and the like, which is an important characteristic for laying down the hydrogen to be used for treating diseases. The hydrogen-rich water is drinking water which is different from common water in that the water contains hydrogen with strong reducing power and can remove excessive active oxygen in the body through the oxidation and reduction resistance of the hydrogen-rich water.

At present, the hydrogen uptake by drinking hydrogen rich water is the most widely used method and is the safest and most common form of hydrogen health products. With the improvement of living standard, it is obvious that the drinking of hydrogen-rich water can not meet the demand of people, so that the bubble bath equipment capable of absorbing hydrogen is provided for people urgently.

Correspondingly, in order to better match the application of the hydrogen-absorbing bubble bath equipment, a corresponding control circuit needs to be designed to realize flexible control of the hydrogen-absorbing bubble bath equipment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a bubble bath machine control circuit is provided, can realize the effective control of bubble bath machine, and the flexibility is strong, and the accuracy is high.

The utility model aims to solve the technical problem that a simple structure of the bathing machine is provided, which is easy and convenient to operate and has high flexibility.

In order to solve the technical problem, the utility model provides a control circuit of a bathing machine, which comprises a main control circuit and an external control circuit; the main control circuit is connected with an electrolytic pipeline of the bubble bath machine and is used for controlling the electrolytic pipeline to generate oxygen and hydrogen; the external control circuit is connected with a loop switcher of the bubble bath machine and a hydrogen-rich water pipeline, is used for controlling the loop switcher to output the hydrogen generated by the electrolysis pipeline to the bubble bath machine or to the hydrogen-rich water pipeline, and is also used for controlling the hydrogen-rich water pipeline to generate and output hydrogen-rich water; the external control circuit comprises a power supply port, a control port, a photoelectric coupler, a switch controller, a loop switcher port and a hydrogen-rich water pipeline port; the power supply port is connected with the switch controller, the loop switcher port and the hydrogen-rich water pipeline port respectively and used for supplying power to the loop switcher port and the hydrogen-rich water pipeline port through the switch controller; the control end of the photoelectric coupler is connected with the control port, the output end of the photoelectric coupler is connected with the switch controller, and the photoelectric coupler controls the on-off state of the switch controller according to a control signal of the control port; the switch controller is connected with the port of the loop switcher and the port of the hydrogen-rich water pipeline, and the switch controller is used for controlling the working states of the loop switcher and the hydrogen-rich water pipeline.

As an improvement of the above scheme, the switch controller comprises a field effect transistor; the drain electrode of the field effect tube is respectively connected with the port of the loop switcher and the port of the hydrogen-rich water pipeline; the source electrode of the field effect tube is connected with the power supply port; the grid of field effect transistor is connected an output of optoelectronic coupler, another output of optoelectronic coupler connect power port, return circuit switch port and hydrogen-rich water pipeline port.

As an improvement of the above scheme, the switch controller further comprises a diode, wherein the anode of the diode is connected with the source electrode of the field effect transistor, and the cathode of the diode is connected with the drain electrode of the field effect transistor.

As an improvement of the above scheme, the external control circuit further includes a first voltage regulator diode, an anode of the first voltage regulator diode is connected to the source of the field effect transistor, and a cathode of the first voltage regulator diode is connected to the gate of the field effect transistor.

As an improvement of the above scheme, the external control circuit further includes at least one second zener diode, an anode of each second zener diode is connected to the drain of the field effect transistor, and a cathode of each second zener diode is connected to the power port.

As an improvement of the above scheme, the external control circuit further includes a first resistor, and the control port is connected to the forward control end of the photoelectric coupler through the first resistor.

As an improvement of the above scheme, the external control circuit further includes a second resistor, one end of the second resistor is connected to the source of the field effect transistor, and the other end of the second resistor is connected to the gate of the field effect transistor.

As an improvement of the above scheme, the external control circuit further includes a third resistor, one end of the third resistor is connected to one end of the photoelectric coupler, and the other end of the third resistor is connected to the power port.

As an improvement of the scheme, the hydrogen-rich water pipeline port comprises a water pump port and a mixing pump port.

Correspondingly, the utility model also provides a multifunctional bubble bath machine, which comprises a bubble bath machine body, an electrolysis pipeline, a loop switcher, a hydrogen-rich water pipeline and the bubble bath machine control circuit, wherein the electrolysis pipeline, the loop switcher, the hydrogen-rich water pipeline and the bubble bath machine control circuit are all arranged inside the bubble bath machine body; the input end of the electrolysis pipeline is connected with a water source, the output end of the electrolysis pipeline is connected with the input end of the loop switcher, and the electrolysis pipeline is used for electrolyzing the water source to generate oxygen and hydrogen and outputting the hydrogen to the loop switcher; the loop switcher is used for outputting the hydrogen generated by the electrolysis pipeline to the bubble bath machine or the hydrogen-rich water pipeline; the input of hydrogen-rich water pipeline connects the output of water source and return circuit switch, the hydrogen-rich water pipeline is used for mixing water source and hydrogen in order to generate hydrogen-rich water.

Implement the utility model discloses, following beneficial effect has:

the utility model discloses bathing machine control circuit adopts unique circuit structure, has realized bathing machine's effective control, and the flexibility is strong, and the accuracy is high. Specifically, the method comprises the following steps:

the utility model discloses accessible master control circuit drive electrolysis pipeline is in order to generate oxygen and hydrogen, still can switch over the conduction route of return circuit switch in real time through the external control circuit, wherein, when the return circuit switch switches on with the gas outlet of bubble bath machine, bubble bath machine output hydrogen, when the return circuit switch switches on with the hydrogen-rich water pipeline, bubble bath machine output hydrogen-rich water, simultaneously, still can directly export oxygen through the electrolysis pipeline to make bubble bath machine possess independent oxygen uptake function, hydrogen uptake function and hydrogen-rich water function simultaneously, the flexibility is strong, convenient operation;

the utility model can realize effective isolation of signals through the photoelectric coupler; and simultaneously, the utility model discloses still can pass through the state of on-off controller with the control circuit switch to the realization inhales the fast switch-over of hydrogen function and hydrogen-rich water function.

Drawings

FIG. 1 is a schematic view of the multifunctional bathing machine of the present invention;

FIG. 2 is a circuit diagram of a main control circuit of the bathing apparatus according to the first embodiment of the present invention;

FIG. 3 is a circuit diagram of a second embodiment of a main control circuit in the control circuit of the bubble bath machine of the present invention;

fig. 4 is a circuit diagram of a third embodiment of the main control circuit in the control circuit of the bubble bath machine of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 shows a schematic structural diagram of a control circuit 100 of the bathing machine of the present invention, which includes a main control circuit 1 and an external control circuit 2; the main control circuit 1 is connected with an electrolysis pipeline 3 of the bubble bath machine and is used for controlling the electrolysis pipeline 3 to generate oxygen and hydrogen; the external control circuit 2 is connected with a loop switcher 4 and a hydrogen-rich water pipeline 5 of the bubble bath machine, and is used for controlling the loop switcher 4 to output the hydrogen generated by the electrolysis pipeline 3 out of the bubble bath machine or to the hydrogen-rich water pipeline 5 and controlling the hydrogen-rich water pipeline 5 to generate and output hydrogen-rich water.

When the device works, a user can drive the electrolytic pipeline 3 through the main control circuit 1 to generate oxygen and hydrogen; simultaneously, the user still can switch the route of conducting of return circuit switch 4 in real time through external control circuit 2, and wherein, when return circuit switch 4 switches on with the gas outlet of bubble bath machine, bubble bath machine output hydrogen, when return circuit switch 4 switches on with hydrogen-rich water pipeline 5, bubble bath machine output hydrogen-rich water to make the bubble bath machine possess independent hydrogen function and hydrogen-rich water function simultaneously, the flexibility is strong, convenient operation.

The main control circuit 1 is a conventional circuit for controlling an electrolytic cell to perform electrolytic treatment, and for the prior art, specific circuits can be found in chinese patent "control circuit of hydrogen generation device and hydrogen generation device", patent nos.: CN202010670163.6, not limited herein.

Referring to fig. 2, fig. 2 shows a circuit diagram of a first embodiment of the external control circuit 2, in this embodiment, the external control circuit 2 includes a power port P1, a control port P3, a photo coupler PC1, a switch controller M, a loop switch port P5, and a hydrogen-rich water pipeline port P. Specifically, the method comprises the following steps:

the power supply port P1 is connected to the switch controller M, the loop switch port P5 and the hydrogen-rich water pipeline port P, respectively, and is used for supplying power to the loop switch port P5 and the hydrogen-rich water pipeline port P through the switch controller M;

the control end of the photoelectric coupler PC1 is connected with a control port P3, the output end of the photoelectric coupler PC1 is connected with the switch controller M, and the photoelectric coupler PC1 controls the on-off state of the switch controller M according to the control signal of the control port;

the switch controller M is connected to the port P5 of the loop switch and the port P of the hydrogen-rich water pipeline, and is configured to control the operating states of the loop switch P5 and the hydrogen-rich water pipeline P.

When a user inputs a hydrogen absorption command through the control port P3, the photoelectric coupler PC1 is disconnected, the photoelectric coupler PC1 outputs a low level to disconnect the switch controller M, at the moment, the port P5 of the loop switcher and the port P of the hydrogen-rich water pipeline are disconnected, the loop switcher 4 is conducted with the air outlet of the bubble bath machine (namely, the loop switcher 4 is not conducted with the hydrogen-rich water pipeline 5), and the hydrogen-rich water pipeline 5 is closed, so that the hydrogen absorption function is realized; when a user inputs a hydrogen-rich water instruction through the control port P3, the photoelectric coupler PC1 is turned on, the photoelectric coupler PC1 outputs a high level to turn on the switch controller M, at this time, the loop switch port P5 and the hydrogen-rich water pipeline port P are turned on, the loop switch 4 is turned on with the hydrogen-rich water pipeline 5 (i.e., the loop switch 4 is not turned on with the gas outlet of the bubble bath), and the hydrogen-rich water pipeline 5 is opened, thereby realizing the hydrogen-rich water function.

Therefore, the utility model discloses the effective isolation of signal is realized to accessible optoelectronic coupler PC1, simultaneously, the utility model discloses go back accessible switch controller M with control circuit switch 4's state to the realization inhales the fast switch-over of hydrogen function and hydrogen-rich water function.

Further, the hydrogen-rich water line port P includes a water pump port P2 and a mixing pump port P4, and the circuit switch port P is a solenoid valve port.

It should be noted that the hydrogen-rich water pipeline 4 is provided with a water pump and a mixing pump, wherein the water pump is used for pumping water and pressurizing the water, and the mixing pump is used for pressurizing and stirring the pressurized water and the hydrogen output by the electrolysis pipeline 3, so as to form the high-concentration nano hydrogen-rich water. Therefore, in the hydrogen-rich water production process, the water pump and the mixing pump can work synchronously and are matched with each other.

Correspondingly, the loop switcher 4 can be an electromagnetic valve, when the electromagnetic valve is powered off, the electromagnetic valve is communicated with the air outlet of the bubble bath machine, and the electrolysis pipeline 3 outputs hydrogen to the outside of the bubble bath machine through the electromagnetic valve; when the solenoid valve circular telegram, the solenoid valve switches on with hydrogen-rich water pipeline 5, and electrolysis pipeline 3 passes through the solenoid valve to hydrogen-rich water pipeline 5 output hydrogen to further generate hydrogen-rich water.

Referring to fig. 3, fig. 3 shows a circuit diagram of a second embodiment of the external control circuit 2, and unlike the first embodiment shown in fig. 2, in the present embodiment, the switch controller M includes a field effect transistor Q3. Wherein, the drain of the field effect transistor Q3 is respectively connected with the loop switcher port P5 and the hydrogen-rich water pipeline port P; the source electrode of the field effect transistor Q3 is connected with a power supply port P1; the gate of the field effect transistor Q3 is connected to an output terminal of a photocoupler PC1, and the other output terminal of the photocoupler PC1 is connected to the power supply port P1, the loop switch port P5 and the hydrogen-rich water pipe port P.

When a user inputs a hydrogen absorption command through the control port P3, the photoelectric coupler PC1 is disconnected, the photoelectric coupler PC1 outputs low level to cut off the field effect tube Q3, at the moment, the electromagnetic valve, the water pump and the mixing pump are powered off, the hydrogen-rich water pipeline 5 does not work, the electromagnetic valve is communicated with the air outlet of the bubble bath machine, and the electrolysis pipeline 3 outputs hydrogen to the outside of the bubble bath machine through the electromagnetic valve, so that the hydrogen absorption function is realized; when the user passes through control port P3 input hydrogen-rich water instruction, photoelectric coupler PC1 switches on, and photoelectric coupler PC1 outputs the high level so that field effect transistor Q3 switches on, and at this moment, solenoid valve, water pump and mixing pump circular telegram, hydrogen-rich water pipeline 5 work, and electrolysis pipeline 3 switches on through solenoid valve and hydrogen-rich water pipeline 5 to realize the hydrogen-rich water function.

Further, the switch controller M further includes a diode D1, an anode of the diode D1 is connected to the source of the fet Q3, and a cathode of the diode D1 is connected to the drain of the fet Q3. The reverse parallel connection of the diode D1 on the field effect transistor Q3 can effectively prevent the reverse induced current from breaking down the field effect transistor Q3, thereby ensuring the normal use of the circuit.

Referring to fig. 4, fig. 4 shows a circuit diagram of a third embodiment of the external control circuit 2, and unlike the second embodiment shown in fig. 3, in this embodiment, the external control circuit 2 further includes a first zener diode D2, at least one second zener diode (D3, D4), a first resistor R1, a second resistor R6, and a third resistor R5. Specifically, the method comprises the following steps:

the anode of the first zener diode D2 is connected to the source of the fet Q3, and the cathode of the first zener diode D2 is connected to the gate of the fet Q3.

The anode of each second zener diode (D3, D4) is connected to the drain of the fet Q3, and the cathode of each second zener diode (D3, D4) is connected to the power port P1.

One end of the first resistor R1 is connected with the control port P3, and the other end is connected with the positive control end of the photoelectric coupler PC 1.

One end of the second resistor R6 is connected with the source of the field effect transistor Q3, and the other end is connected with the grid of the field effect transistor Q3.

One end of the third resistor R5 is connected to one end of the photocoupler PC1, and the other end of the third resistor R5 is connected to the power supply port P1.

Therefore, the stability of the circuit can be further improved through the first voltage-regulator diode D2, the at least one second voltage-regulator diode (D3, D4), the first resistor R1, the second resistor R6 and the third resistor R5, and the safe operation of the circuit is guaranteed.

As shown in fig. 1, the utility model also discloses a multifunctional bubble bath machine, which comprises a bubble bath machine body, an electrolysis pipeline 3, a loop switcher 4, a hydrogen-rich water pipeline 5 and the bubble bath machine control circuit 100, wherein the electrolysis pipeline 3, the loop switcher 4, the hydrogen-rich water pipeline 5 and the bubble bath machine control circuit 100 are all arranged inside the bubble bath machine body; wherein, the input end of the electrolysis pipeline 3 is connected with a water source, the output end of the electrolysis pipeline 3 is connected with the input end of the loop switcher 4, and the electrolysis pipeline 3 is used for electrolyzing the water source to generate oxygen and hydrogen and outputting the hydrogen to the loop switcher 4; the loop switcher 4 is used for outputting the hydrogen generated by the electrolysis pipeline 3 to the bubble bath machine or the hydrogen-rich water pipeline 5; the water source and the output of return circuit switch 4 are connected to hydrogen-rich water pipeline 5's input, and hydrogen-rich water pipeline 5 is used for mixing water source and hydrogen in order to generate hydrogen-rich water.

It should be noted that the electrolysis pipeline 3 includes an electrolysis bath, the loop switch 4 includes an electromagnetic valve, the hydrogen-rich water pipeline 5 includes a water pump and a mixing pump, wherein the water pump is used for pumping the water source and pressurizing the water source, and the mixing pump is used for pressurizing and stirring the pressurized water source and the hydrogen output by the electrolysis pipeline 3, so as to form the high-concentration hydrogen-rich water.

To sum up, the utility model discloses accessible bubble bath machine control circuit realizes the fast switch-over between the pipeline to realized the nimble application of oxygen uptake function, hydrogen absorption function and hydrogen-rich water function, makeed the user can correspond the function according to actual demand free choice, the flexibility is strong.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and decorations can be made, which are also considered as the protection scope of the present invention.

Claims (10)

1. A control circuit of a bathing machine is characterized by comprising a main control circuit and an external control circuit;

the main control circuit is connected with an electrolysis pipeline of the bubble bath machine and is used for controlling the electrolysis pipeline to generate oxygen and hydrogen;

the external control circuit is connected with a loop switcher of the bubble bath machine and a hydrogen-rich water pipeline, is used for controlling the loop switcher to output the hydrogen generated by the electrolysis pipeline to the bubble bath machine or the hydrogen-rich water pipeline, and is also used for controlling the hydrogen-rich water pipeline to generate and output hydrogen-rich water;

the external control circuit comprises a power supply port, a control port, a photoelectric coupler, a switch controller, a loop switcher port and a hydrogen-rich water pipeline port;

the power supply port is connected with the switch controller, the loop switcher port and the hydrogen-rich water pipeline port respectively and used for supplying power to the loop switcher port and the hydrogen-rich water pipeline port through the switch controller;

the control end of the photoelectric coupler is connected with the control port, the output end of the photoelectric coupler is connected with the switch controller, and the photoelectric coupler controls the on-off state of the switch controller according to a control signal of the control port;

the switch controller is connected with the port of the loop switcher and the port of the hydrogen-rich water pipeline, and the switch controller is used for controlling the working states of the loop switcher and the hydrogen-rich water pipeline.

2. The bubble bath control circuit of claim 1, wherein the switch controller comprises a field effect transistor;

the drain electrode of the field effect tube is respectively connected with the port of the loop switcher and the port of the hydrogen-rich water pipeline;

the source electrode of the field effect tube is connected with the power supply port;

the grid of the field effect tube is connected with one output end of the photoelectric coupler, and the other output end of the photoelectric coupler is connected with the power supply port, the loop switcher port and the hydrogen-rich water pipeline port.

3. The control circuit of claim 2, wherein the switch controller further comprises a diode, wherein an anode of the diode is connected to a source of the fet, and a cathode of the diode is connected to a drain of the fet.

4. The bathing machine control circuit of claim 2 wherein said external control circuit further comprises a first zener diode, the anode of said first zener diode being connected to the source of said fet and the cathode of said first zener diode being connected to the gate of said fet.

5. The control circuit of claim 2, wherein the external control circuit further comprises at least one second voltage regulator diode, an anode of each second voltage regulator diode is connected to the drain of the field effect transistor, and a cathode of each second voltage regulator diode is connected to the power port.

6. The control circuit of claim 1, wherein the external control circuit further comprises a first resistor, and the control port is connected to the forward control end of the photoelectric coupler through the first resistor.

7. The control circuit of claim 2, wherein the external control circuit further comprises a second resistor, one end of the second resistor is connected to the source of the field effect transistor, and the other end of the second resistor is connected to the gate of the field effect transistor.

8. The control circuit of claim 1, wherein the external control circuit further comprises a third resistor, one end of the third resistor is connected to one end of the photoelectric coupler, and the other end of the third resistor is connected to the power port.

9. The bubble bath control circuit of claim 1, wherein the hydrogen-rich water line port comprises a water pump port and a mixing pump port.

10. A multifunctional bubble bath machine, which is characterized by comprising a bubble bath machine body, an electrolysis pipeline, a loop switcher, a hydrogen-rich water pipeline and the bubble bath machine control circuit of any one of claims 1 to 9, wherein the electrolysis pipeline, the loop switcher, the hydrogen-rich water pipeline and the bubble bath machine control circuit are all arranged inside the bubble bath machine body;

the input end of the electrolysis pipeline is connected with a water source, the output end of the electrolysis pipeline is connected with the input end of the loop switcher, and the electrolysis pipeline is used for electrolyzing the water source to generate oxygen and hydrogen and outputting the hydrogen to the loop switcher;

the loop switcher is used for outputting the hydrogen generated by the electrolysis pipeline to the bubble bath machine or the hydrogen-rich water pipeline;

the input of hydrogen-rich water pipeline connects the output of water source and return circuit switch, the hydrogen-rich water pipeline is used for mixing water source and hydrogen in order to generate hydrogen-rich water.

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