CN221060506U - Foam generation module and intelligent shower system - Google Patents

Abstract

The utility model relates to the technical field of bathroom equipment, and particularly discloses a foam generation module and an intelligent shower system, wherein the foam generation module comprises: the pipeline connecting piece comprises a first pipeline connecting piece and a second pipeline connecting piece; the inlet of the driving assembly is respectively connected with the air inlet assembly and the foam liquid inlet assembly through a first pipeline connecting piece, the outlet of the driving assembly is connected with a second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water inlet assembly; an air inlet assembly for controlling the flow of air into the first conduit connection; the foam liquid inlet assembly is used for controlling foam liquid to enter the first pipeline connecting piece; and the water inlet assembly is used for controlling hot water to enter the second pipeline connecting piece. According to the utility model, in the bathing process of a person, the foam liquid is sprayed onto the body of the person through the shower pipeline and the shower head, so that the person can automatically spray the foam liquid during bathing, and the comfort of the person during bathing is improved.

Description

Foam generation module and intelligent shower system

Technical Field

The utility model belongs to the technical field of bathroom equipment, and particularly relates to a foam generation module and an intelligent shower system.

Background

The importance of farms on biosafety is increasing, and the bathing process of a field is one of the focus of biosafety.

The current bath room in the field, personnel take a bath with foam liquid, can effectually improve the quality of bathing, guarantee biological safety. At present, when a person takes a bath, shampoo or bath foam (commonly called as foam) is manually adopted, so that inconvenience is brought to the person taking the bath, and the problem that the person does not need to add the foam or adds a small amount of the foam when taking the bath possibly exists, so that the bath effect is poor.

Therefore, how to design a foam generation module and combine with spraying pipeline, make the spraying pipeline can spray water automatically and spray foam automatically, improve the effect of bathing, become the urgent need of current plant.

Disclosure of utility model

In order to overcome the above-mentioned shortcomings of the prior art, the present utility model provides a foam generating module and an intelligent shower system, which solve the above-mentioned problems.

To achieve the above object, one aspect of the present utility model discloses a foam generating module comprising:

A pipe connection comprising a first pipe connection and a second pipe connection;

The inlet of the driving assembly is respectively connected with the air inlet assembly and the foam liquid inlet assembly through the first pipeline connecting piece, the outlet of the driving assembly is connected with the second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water inlet assembly;

A gas inlet assembly for controlling the flow of gas into the first conduit connection;

a foam liquid inlet assembly for controlling foam liquid to enter the first pipe connection;

A water inlet assembly for controlling hot water to enter the second pipe connection;

When the driving assembly works, the gas in the gas inlet assembly and the foam liquid in the foam liquid inlet assembly are driven to enter the driving assembly through the first pipeline connecting piece, and then the driving assembly sends the foam liquid and the gas to the second pipeline connecting piece, so that the foam liquid, the gas and the hot water are mixed in the second pipeline connecting piece to form foam.

Compared with the prior art, the utility model has the following effects: when the controller judges that foam liquid is required to be conveyed into the shower pipeline according to a program, the controller respectively controls the air inlet component, the foam liquid inlet component and the water inlet component to send air, foam liquid and hot water to the pipeline connecting piece, wherein the driving component provides power for the air inlet component and the foam liquid inlet component, the power of the water inlet component is from an external water source, the hot water is pressed into the pipeline connecting piece by the water pressure of the external water source, the mixing of the water, the air and the foam liquid is completed in the pipeline connecting piece to form foam, and the foam is sprayed on the body of a person through the shower pipeline and the shower sprinkler to realize automatic foam beating; meanwhile, the foam spraying and water spraying share the shower pipeline and the shower head, and the foam spraying amount is controlled according to a preset value set by the controller, so that the sprayed foam amount is proper. Therefore, the foam generating module designed by the utility model not only can automatically spray foam to improve the bathing comfort, but also can spray foam and spray water to share the shower pipeline and the shower sprinkler without additionally adding a foam spraying pipeline, and the sprayed foam quantity is determined by the preset value set by the controller, so that the sprayed foam quantity is ensured to be proper, and the bathing effect is improved.

Further, the waterproof device also comprises a waterproof shell, and the pipeline connecting piece, the air inlet assembly, the foam liquid inlet assembly, the water inlet assembly and the driving assembly are all arranged in the shell.

Further, the air inlet assembly comprises an air supply pipeline and an air inlet electromagnetic valve arranged on the air supply pipeline, the water inlet assembly comprises a water supply pipeline and a hot water electromagnetic valve arranged on the water supply pipeline, and the foam liquid inlet assembly comprises a foam liquid inlet pipeline and a second flow detection mechanism arranged on the foam liquid inlet pipeline.

Further, the drive assembly comprises 1 or 2 peristaltic pumps; when 1 peristaltic pump is arranged, the inlet of the peristaltic pump is respectively connected with the air supply pipeline and the foam liquid inlet pipeline through the first pipeline connecting piece, the outlet of the peristaltic pump is connected with the second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water supply pipeline; when 2 peristaltic pumps are arranged, inlets of the 2 peristaltic pumps are connected with the air supply pipeline and the foam liquid inlet pipeline through the first pipeline connecting piece, outlets of the 2 peristaltic pumps are connected with the second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water supply pipeline.

Further, a valve for adjusting the water temperature is arranged on the water supply pipeline.

Another aspect of the utility model discloses an intelligent shower system comprising any of the foam generating modules for delivering foam into a shower line, further comprising:

The water inlet module comprises a water mixing valve, one side of the water mixing valve is externally connected with a hot water inlet pipe and a cold water inlet pipe respectively, and the other side of the water mixing valve is connected with the main module through the shower pipeline;

The main module is used for controlling the on-off of the shower pipeline, and the shower pipeline is respectively connected with the shower head and the outlet of the second pipeline connecting piece of the foam generating module;

The sensor detection module is used for detecting whether a person stands in a bathing area, and the bathing area is arranged below the shower head;

The control system comprises a controller, and the controller is respectively and electrically connected with the main module and the sensor detection module.

Further, the main module comprises a normally closed electromagnetic valve arranged on the shower pipeline, and the normally closed electromagnetic valve is arranged on the shower pipeline and used for controlling on-off of the shower pipeline.

Further, the main module further comprises a waterproof box used for being waterproof, the normally closed electromagnetic valve is installed in the waterproof box, and a voice module used for broadcasting sound and a display screen used for displaying information are further arranged in the waterproof box.

Further, a first flow detection mechanism is arranged on the shower pipe.

Further, the sensor detection module comprises a microwave radar sensor, and a microwave radar radiation area of the microwave radar sensor is the bathing area.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a foam generating module according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an intelligent spray system according to an embodiment of the present utility model;

Fig. 3 is a schematic view of the rear panel of the waterproof case of the main module according to the embodiment of the present utility model;

Fig. 4 is a schematic view of the front panel of the waterproof case of the main module according to the embodiment of the present utility model;

Fig. 5 is a schematic structural diagram of a control system according to an embodiment of the present utility model.

The reference numerals are as follows:

1. A water inlet module; 11. a water mixing valve; 12. a hot water inlet pipe; 13. a cold water inlet pipe; 2. a main module; 21. a normally closed electromagnetic valve; 22. a waterproof box; 23. a voice module; 24. a display screen; 25. a pipe joint; 26. a second switching power supply; 27. an air switch; 3. a shower pipe; 4. a first flow rate detection mechanism; 5. a foam generation module; 51. a pipe connection; 511. a first pipe connection; 512. a second pipe connection; 52. an air intake assembly; 521. an air supply line; 522. an air inlet electromagnetic valve; 53. a water inlet assembly; 531. a water supply line; 532. a hot water solenoid valve; 533. a valve; 54. a foam liquid inlet assembly; 541 a foam liquid inlet pipeline; 542. a second flow rate detection mechanism; 543. a first check valve; 55. a housing; 56. a peristaltic pump; 57. a second check valve; 6. a sensor detection module; 7. a control system; 71. a controller; 72. a stainless steel box; 73. a leakage protector; 74. a connection terminal; 75. an intermediate relay; 76. a first switching power supply; 8. a bathing area; 9. shower sprinkler.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-2, the foam generating module 5 disclosed in one aspect of the present utility model includes:

A pipe connection 51, the pipe connection 51 including a first pipe connection 511 and a second pipe connection 512;

The inlet of the driving assembly is respectively connected with the air inlet assembly 52 and the foam liquid inlet assembly 54 through a first pipeline connecting piece 511, the outlet of the driving assembly is connected with a second pipeline connecting piece 512, and the second pipeline connecting piece 512 is also connected with the water inlet assembly 53; wherein, the driving component can be a peristaltic pump 56 or a diaphragm pump, and the peristaltic pump 56 is selected in the utility model;

An inlet assembly 52 for controlling the flow of gas into the first conduit connection 511;

A foam liquid inlet assembly 54 for controlling the flow of foam liquid into the first conduit connector 511;

The water inlet component 53 is used for controlling hot water to enter the second pipeline connecting piece 512, the water inlet component 53 is externally connected with an external hot water pipeline, and hot water can be sent to the second pipeline connecting piece 512 under the pressure of the external hot water pipeline;

When the driving assembly works, the gas in the gas inlet assembly 52 and the foam liquid in the foam liquid inlet assembly 54 are driven to enter the driving assembly through the first pipeline connecting piece 511, and then the driving assembly sends the foam liquid and the gas to the second pipeline connecting piece 512, so that the foam liquid, the gas and the hot water are mixed in the second pipeline connecting piece 512 to form foam, and the foam is sent to the shower pipeline 3 through the outlet of the second pipeline connecting piece 512.

In operation, the driving assembly, the air inlet assembly 52, the foam liquid inlet assembly 54 and the water inlet assembly 53 are electrically connected with the controller 71, and the foam generating module is intelligently controlled by the controller 71. When the controller 71 determines that foam liquid needs to be conveyed into the shower pipeline 3 according to a program, the controller 71 respectively controls the air inlet component 52 and the foam liquid inlet component 54 to feed air and foam liquid into the first pipeline connecting piece 511, the water inlet component 53 feeds hot water into the second pipeline connecting piece 512, wherein the driving component provides power for the air inlet component 52 and the foam liquid inlet component 53, the power of the water inlet component 53 comes from an external water source, hot water is pressed into the second pipeline connecting piece 512 by the water pressure of an external water source, the mixture of water, air and foam liquid is completed in the second pipeline connecting piece 512 to form foam, and the foam is sprayed on the body of a person through the shower pipeline 3 and the shower sprinkler 9, so that automatic foaming is realized; meanwhile, the shower pipe 3 and the shower head 9 are used for spraying foam and water, and the amount of the sprayed foam is controlled according to a preset value set by the controller 71, so that the amount of the sprayed foam is proper.

Further, the device also comprises a waterproof shell 55, wherein the pipeline connecting piece 51, the air inlet component 52, the foam liquid inlet component 54, the water inlet component 53 and the driving component are all arranged in the shell 55; the air intake assembly 52 includes an air supply pipe 521 and an air intake solenoid valve 522 disposed on the air supply pipe 521 and electrically connected to the controller 71, the water intake assembly 53 includes a water supply pipe 531 and a hot water solenoid valve 532 disposed on the water supply pipe 531 and electrically connected to the controller 71, and the foam liquid intake assembly 54 includes a foam liquid intake pipe 541 and a second flow rate detecting mechanism 542 disposed on the foam liquid intake pipe 541 and electrically connected to the controller 71, wherein the second flow rate detecting mechanism 542 may be a flow meter or a flow rate switch, and is mainly used for detecting whether liquid flows through the foam liquid intake pipe 541, for example, when no foam liquid is placed in a container for placing foam liquid, the controller 71 sends an alarm prompt according to a signal fed back by the second flow rate detecting mechanism 542, and prompts personnel to add foam liquid.

More specifically, the drive assembly includes 1 or 2 peristaltic pumps 56, the peristaltic pumps 56 being electrically connected to the controller 71; when 1 peristaltic pump 56 is arranged, the inlet of the peristaltic pump 56 is respectively connected with the air supply pipeline 521 and the foam liquid inlet pipeline 541 through the first pipeline connecting piece 511, and the outlet of the peristaltic pump 56 is connected with the water supply pipeline 531 and the shower pipeline 3 through the second pipeline connecting piece 512; the first pipe connector 511 and the second pipe connector 512 are tee joints at this time, one tee joint is used for connecting the air supply pipe 521, the foam liquid inlet pipe 541 and the inlet of the peristaltic pump 56, and the other tee joint is used for connecting the outlet of the peristaltic pump 56, the water supply pipe 531 and the shower pipe 3. When the peristaltic pump 56 works, the hot water electromagnetic valve 532 is opened, the air inlet electromagnetic valve 522 is periodically opened (the opening and closing time is set by a program), the peristaltic pump 56 can periodically pump the shampoo and bath lotion two-in-one solution and air in turn, and the pumped air and the shampoo and bath lotion two-in-one solution are mixed and rubbed in the pipeline of the pipeline connecting piece 51 to form foam, and the foam is sprayed out through the shower head 9.

When 2 peristaltic pumps are arranged, the inlets of the 2 peristaltic pumps 56 are connected with an air supply pipeline 521 and a foam liquid inlet pipeline 541,2 through a first pipeline connecting piece 511, and the outlets of the peristaltic pumps 56 are connected with the water supply pipeline 531 and the shower pipeline 3 through a second pipeline connecting piece 512; the first pipe connector 511 may be 2 tee joints, the second pipe connector 512 is 1 four-way, wherein the inlet of one tee joint is respectively connected with the air supply pipeline 521 and the foam liquid inlet pipeline 541, the outlet of the other tee joint is connected with the inlet of the other tee joint, the outlet of the other tee joint is respectively connected with the inlets of 2 peristaltic pumps 56, the outlet of 2 peristaltic pumps 56 and the water supply pipeline 531 are connected with the inlet of the four-way, and the outlet of the four-way is connected with the shower pipeline 3. The foam generation principle is the same as that of the peristaltic pump 56 described above and will not be described again.

It should be noted that this embodiment uses an implementation of 2 peristaltic pumps 56, because 2 peristaltic pumps 56 have a greater pumping force than 1 peristaltic pump 56, and can generate foam more efficiently, and at the same time, when 1 peristaltic pump 56 fails, another peristaltic pump 56 can continue to operate.

More preferably, the water supply pipeline 531 is provided with a valve 533 for adjusting water temperature, the valve 533 can be a manual adjusting valve, and when the shower is installed and debugged for the first time, the manual adjusting valve needs to be adjusted to a proper opening degree, so that the hot water inflow is adjusted, the foam temperature in the shower 9 is adjusted, the foam temperature is proper, and the bath comfort is prevented from being influenced by overhigh or overlow foam temperature. Preferably, the valve 533 may further comprise an electric control valve and a temperature sensor, and the self-adjusting foam temperature is set by a program of the controller 71, for example, the temperature sensor is used for detecting the foam temperature entering the shower 9 and sending a temperature signal to the controller 71, and the controller 71 sends an instruction to the electric control valve, and the opening of the electric control valve is automatically adjusted, so that the hot water inflow in the water supply pipeline 531 is adjusted, so as to realize automatic adjustment of the foam temperature.

The workflow of the foam generating module 5 is:

1. When normal clean water is used for bathing, the foam generating module 5 does not work, the air inlet electromagnetic valve 522, the hot water electromagnetic valve 532 and the 2 peristaltic pumps 56 are closed at the same time, the outlet of the foam generating module 5 is connected into the shower head 9 through the shower pipeline 3, and the second check valve 57 is arranged on the shower pipeline 3 to prevent the foam solution and hot water in the shower pipeline 3 from flowing back;

2. When foam spraying is needed, 2 peristaltic pumps 56 are started at the same time according to program setting, peristaltic pumps 56 pump shampoo and bath lotion two-in-one solution, meanwhile, a hot water electromagnetic valve 532 is opened, an air inlet electromagnetic valve 522 is opened periodically (opening and closing time is set by the program), and the pumped air and the shampoo and bath lotion two-in-one solution are mixed and rubbed in a pipeline to form foam, and the foam is sprayed out through a shower head 9; in the process of foam generation, the pipe connection piece 51 can be advanced with foam liquid, then gas, or advanced with gas, then foam liquid, or gas and foam liquid simultaneously;

3. The first check valve 543 and the second flow detection mechanism 542 are installed on the foam liquid inlet pipeline 541, the first check valve 543 can prevent foam in the foam liquid inlet pipeline 541 from flowing back when the peristaltic pump 56 pumps air, so that the foam quantity is reduced, the second flow detection mechanism 542 can detect whether the peristaltic pump 56 pumps the shampoo and bath lotion two-in-one solution in real time, the liquid level of the shampoo and bath lotion two-in-one solution can be indirectly reflected, and a person is reminded of timely replenishing the liquid.

Another aspect of the present disclosure discloses an intelligent shower system, as shown in fig. 2, comprising a foam generating module 5, further comprising:

the water inlet module 1 comprises a water mixing valve 11, one side of the water mixing valve 11 is externally connected with a hot water inlet pipe 12 and a cold water inlet pipe 13 respectively, and the other side of the water mixing valve is connected with the main module 2 through a shower pipeline 3; the water mixing valve 11 is preferably a constant-temperature water mixing valve so as to ensure that the water temperature of the shower pipeline 3 is constant, and a user can automatically adjust the water temperature to improve the comfort during bath;

The main module 2 is used for controlling the on-off of the shower pipeline 3, the shower pipeline 3 is respectively connected with the shower head 9 and the foam generating module 5, and the foam generating module 5 is communicated with the shower head 9 through the shower pipeline 3; wherein, the foam made by the foam generating module 5 is sprayed out from the shower head 9 through the shower pipeline 3 so as to realize automatic foam spraying;

The sensor detection module 6 is used for detecting whether a person stands in the bath area 8, and the bath area 8 is positioned below the shower head 9;

The control system 7 comprises a controller 71, and the controller 71 is respectively and electrically connected with the main module 2 and the sensor detection module 6; as shown in fig. 5, the control system 7 further includes a stainless steel box 72, and a leakage protector 73, a connection terminal 74, an intermediate relay 75, a first switching power supply 76, etc. mounted in the stainless steel box 72, where the stainless steel box 72 is used for protecting electrical devices therein. The controller 71, the main module 2, the sensor detection module 6 and the foam generation module 5 are powered through the stainless steel box 72, various signals detected by the sensor detection module 6 are processed through the controller 71, the main module 2 and the foam generation module 5 are controlled to normally operate according to program setting, and the whole bathing process is detected.

When the sensor detection module 6 detects that a person stands in the bath area 8, a signal is sent to the controller 71, the controller 71 controls the shower pipeline 3 to be opened through the work of the main module 2, and then hot water is sprayed out of the shower head 9 to wash the person; according to the program set by the controller 71, after the flushing time reaches the preset time, the controller 71 controls the shower pipeline 3 to be closed through the main module 2, and meanwhile, the controller 71 controls the foam generating module 5 to convey foam into the shower pipeline 3 so that the foam is sprayed onto a person through the shower 9; when the foam spraying time reaches the preset time, the controller 71 controls the foam generating module 5 to stop delivering the foam into the shower pipeline 3, and simultaneously controls the shower pipeline 3 to be opened to flush the personnel after a period of time according to a set program, and the process is repeated to finish the automatic bathing of the personnel. In the process of bathing, if the sensor detection module 6 detects that the person leaves the bathing area 8 during the bathing process, a feedback signal is sent to the controller 71, and the controller 71 determines that the bathing is not qualified and reminds the person to correct the bathing behavior. Therefore, the utility model automatically sprays the shampoo and the bath foam through the foam generating module 5, prevents the problem that the personnel cannot foam, realizes the automatic spraying of the shower head 9 through the main module 2 and the water mixing valve 11, monitors the bathing process of the personnel through the sensor detecting module 6, ensures that the personnel always stands in the bathing area 8 when bathing, and realizes the automatic control of the bathing process and standardizes the bathing flow through the program set by the controller 71.

It should be noted that, the controller 71 of the present utility model is provided with a transceiver module, a timing module, a control module, etc., where the transceiver module, the timing module and the control module are in communication connection, the transceiver module is configured to receive the signal detected by the sensor detection module 6, and convert and transmit the signal to the control module, and the control module sends a relevant instruction to the normally closed electromagnetic valve 21 according to the signal, so as to implement opening and closing of the normally closed electromagnetic valve 21, and sends the signal to the voice module 23, sends a corresponding voice broadcast according to a preset program, and sends an alarm signal to the background, and in this process, the control module sends the relevant instruction to the timing module to implement the timing function.

The controller of the utility model is a PLC controller in the prior art, is a digital logic controller for automatic control, can load control instructions into a memory at any time for storage and execution, is formed by modularizing and combining an internal CPU, an instruction and data memory, an input/output unit, a power supply module, a digital simulation unit and the like, is widely applied to the field of industrial control, belongs to the prior art and is not repeated.

With the above-described embodiment, more specifically, as shown in fig. 3 and 4, the main module 2 includes a normally closed electromagnetic valve 21 mounted on the shower pipe 3 and connected to the water mixing valve 11 through the shower pipe 3, the normally closed electromagnetic valve 21 is electrically connected to the controller 71, and the normally closed electromagnetic valve 21 is connected to the shower pipe 3 through a pipe joint 25. Wherein, the shower line 3 is in an off state when the shower is not taking a bath, and when the shower line 3 needs to be opened, the controller 71 controls the normally closed solenoid valve 21 to be opened.

More specifically, the main module 2 further includes a waterproof box 22 for waterproofing, a voice module 23 and a display screen 24, the normally closed electromagnetic valve 21 is installed in the waterproof box 22, the voice module 23 for broadcasting sound and the display screen 24 for displaying information are also provided in the waterproof box 22, and the voice module 23 and the display screen 24 are respectively electrically connected with the controller 71.

The shower pipeline 3 and the waterproof box 22 are sealed and waterproof by sealant, and the waterproof box 22 is designed to play a waterproof role on internal devices. The waterproof box 22 is also internally provided with a second switching power supply 26, an air switch 27 and the like, and the second switching power supply 26 and the air switch 27 are used for supplying power to the main module 2, so that the power utilization safety is ensured; the voice module 23 broadcasts information reminding in the bathing process, such as the bathing flow, whether a bather stands in a designated area and the like, and meanwhile, the display screen 24 of the main module 2 displays information such as the bathing time and the like, so that the bather is reminded of the bathing time, all internal wires are packaged into a waterproof connector, and the waterproof connector and a waterproof box 22 are sealed by sealant. It should be noted that, the voice module 23 is a voice playing module in the prior art, such as an RS485 voice module, including a speaker and a playing board, for playing sound.

In connection with the above embodiment, it is preferable that the shower line 3 is provided with a first flow rate detecting mechanism 4 electrically connected to the controller 71. The first flow detection mechanism 4 may be a flow meter or a flow switch, and the flow meter or the flow switch can feed back whether the shower pipeline 3 has water flow to the controller 71 so as to remind personnel to open the constant temperature water mixing valve, and the flow meter can also record the water consumption for bathing so as to make a decision according to the set water consumption accurately by the controller 71, thereby achieving the purpose of saving water.

In the above embodiment, more specifically, the sensor detection module 6 is a microwave radar sensor, and is disposed on the waterproof box 22, and is configured to emit a microwave radar radiation area, so as to detect the movement of a person, determine whether the person is in the bathing area 8, send a signal to the controller 71, and control the normally closed electromagnetic valve 21 to open and close according to the signal information by the controller 71, so as to complete voice broadcasting and alarming such as water induction, constant temperature water discharge, foam spraying, whole body kneading, and achieve the purposes of automatic control and standard flow of the bathing process of the person.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A foam generating module, comprising:

A pipe connection comprising a first pipe connection and a second pipe connection;

The inlet of the driving assembly is respectively connected with the air inlet assembly and the foam liquid inlet assembly through the first pipeline connecting piece, the outlet of the driving assembly is connected with the second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water inlet assembly;

A gas inlet assembly for controlling the flow of gas into the first conduit connection;

a foam liquid inlet assembly for controlling foam liquid to enter the first pipe connection;

A water inlet assembly for controlling hot water to enter the second pipe connection;

When the driving assembly works, the gas in the gas inlet assembly and the foam liquid in the foam liquid inlet assembly are driven to enter the driving assembly through the first pipeline connecting piece, and then the driving assembly sends the foam liquid and the gas to the second pipeline connecting piece, so that the foam liquid, the gas and the hot water are mixed in the second pipeline connecting piece to form foam.

2. The foam generating module of claim 1, further comprising a housing for waterproofing, wherein the conduit connection, the air intake assembly, the foam liquid intake assembly, the water intake assembly, and the drive assembly are disposed within the housing.

3. The foam generating module according to claim 1, wherein the air intake assembly comprises an air supply pipeline and an air intake solenoid valve arranged on the air supply pipeline, the water intake assembly comprises a water supply pipeline and a hot water solenoid valve arranged on the water supply pipeline, and the foam liquid intake assembly comprises a foam liquid intake pipeline and a second flow detection mechanism arranged on the foam liquid intake pipeline.

4. A foam generating module according to claim 3, wherein said drive assembly comprises 1 or 2 peristaltic pumps; when 1 peristaltic pump is arranged, the inlet of the peristaltic pump is respectively connected with the air supply pipeline and the foam liquid inlet pipeline through the first pipeline connecting piece, the outlet of the peristaltic pump is connected with the second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water supply pipeline; when 2 peristaltic pumps are arranged, inlets of the 2 peristaltic pumps are connected with the air supply pipeline and the foam liquid inlet pipeline through the first pipeline connecting piece, outlets of the 2 peristaltic pumps are connected with the second pipeline connecting piece, and the second pipeline connecting piece is also connected with the water supply pipeline.

5. A foam generating module according to claim 3, wherein the water supply line is provided with a valve for regulating the water temperature.

6. An intelligent shower system, comprising the foam generating module of any one of claims 1-5 for delivering foam into a shower line, further comprising:

The water inlet module comprises a water mixing valve, one side of the water mixing valve is externally connected with a hot water inlet pipe and a cold water inlet pipe respectively, and the other side of the water mixing valve is connected with the main module through the shower pipeline;

The main module is used for controlling the on-off of the shower pipeline, and the shower pipeline is respectively connected with the shower head and the outlet of the second pipeline connecting piece of the foam generating module;

The sensor detection module is used for detecting whether a person stands in a bathing area, and the bathing area is arranged below the shower head;

The control system comprises a controller, and the controller is respectively and electrically connected with the main module and the sensor detection module.

7. The intelligent shower system of claim 6, wherein said main module includes a normally closed solenoid valve mounted on said shower line, said normally closed solenoid valve being disposed on said shower line for controlling the on-off of said shower line.

8. The intelligent shower system of claim 7, wherein the main module further comprises a waterproof box for waterproofing, the normally closed solenoid valve is installed in the waterproof box, and a voice module for broadcasting sound and a display screen for displaying information are further arranged in the waterproof box.

9. An intelligent shower system in accordance with claim 6, wherein said shower conduit is provided with a first flow detection mechanism.

10. The intelligent shower system of claim 6, wherein said sensor detection module comprises a microwave radar sensor, and wherein a microwave radar radiation area of said microwave radar sensor is said bathing area.