CN215895273U - Shower control box and shower - Google Patents

Abstract

The utility model discloses a shower control box and a shower, wherein the shower control box comprises a valve body assembly and a box body; the cartridge has a first layer structure and a second layer structure, the first layer structure being located above or below the second layer structure, a portion of the valve body assembly being disposed in the first layer structure, and the remainder of the valve body assembly being disposed in the second layer structure. The utility model can reasonably utilize the internal space of the box body for layout, thereby leading the shower control box of the utility model to have compact structure and small volume, being suitable for an open-mounted shower and being convenient for installation and maintenance.

Description

Shower control box and shower

Technical Field

The utility model relates to the field of bathrooms, in particular to a shower control box and a shower.

Background

The shower is one of the important components of the household life, and with the continuous progress of science and technology, people gradually pursue the quality of life, and the control of the shower gradually develops towards intellectualization. The core component of a shower is a shower control box, which generally includes a valve body assembly and a box body, etc., wherein the valve body assembly is arranged in the box body and used for performing the functions of temperature regulation, flow regulation, water switching, etc. The valve body assembly is arranged on the same layer in the box body, so that the volume of the shower control box is overlarge and the shower control box can only be used for a concealed shower; however, the concealed shower has large limitation, needs to be grooved on the wall in advance, and is inconvenient to install due to the fact that a waterway and a circuit are embedded. In addition, when the shower control box is broken or the water channel leaks water, the whole outer wall needs to be knocked off, the shower control box or the leaked water channel can be maintained or replaced, and the overall replacement cost is high.

SUMMERY OF THE UTILITY MODEL

Aiming at the technical problems in the prior art, the utility model provides a shower control box capable of saving occupied space and a shower.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a shower control box comprises a valve body assembly and a box body; the method is characterized in that: the cartridge has a first layer structure and a second layer structure, the first layer structure being located above or below the second layer structure, a portion of the valve body assembly being disposed in the first layer structure, the remainder of the valve body assembly being disposed in the second layer structure.

Further, the circuit board is configured on the first layer structure; the valve body assembly comprises a constant temperature mechanism capable of adjusting temperature, flow and water on and off and a plurality of water distribution electromagnetic valves, wherein the water outlet end of the constant temperature mechanism is communicated with the water inlet ends of the water distribution electromagnetic valves; the constant temperature mechanism is positioned in the second layer structure, and each water distribution electromagnetic valve is positioned in the first layer structure respectively; and each water distribution electromagnetic valve is electrically connected with the circuit board respectively.

Furthermore, the constant temperature mechanism is an electronic constant temperature box which is electrically connected with the circuit board.

Furthermore, the valve body assembly also comprises a booster pump, wherein the water inlet end of the booster pump is communicated with the water outlet end of the constant temperature mechanism, and the water outlet end of the booster pump is communicated with the water inlet ends of the water diversion electromagnetic valves; the valve body assembly further comprises a pressure sensor, the pressure sensor is arranged on a communicating pipeline between the water inlet end of the booster pump and the mixed water outlet end of the constant temperature mechanism, and the pressure sensor is electrically connected with the circuit board.

Furthermore, the valve body assembly also comprises a first valve body and a second valve body, the first valve body is positioned in the first layer structure, and the first valve body is provided with a water passing channel communicated with the water inlet end of each water dividing electromagnetic valve; the second valve body is positioned in the second layer structure and is provided with a cold water inlet channel communicated with a cold water inlet end of the constant temperature mechanism, a hot water inlet channel communicated with a hot water inlet end of the constant temperature mechanism and a water outlet channel communicated with the water outlet channel and a water outlet end of the booster pump.

Furthermore, the box body comprises an upper shell, a lower shell and a connecting seat, the upper shell and the lower shell are distributed up and down, and the bottom end of the upper shell is connected with the top end of the lower shell through the connecting seat to form a first-layer structure and a second-layer structure; the first layer structure and the second layer structure are staggered left and right and/or front and back.

Furthermore, the top end of the box body is provided with a panel and at least one magnetic control knob which can be rotated and/or pressed, when the magnetic control knob is used, the magnetic control knob is placed on the panel, or the magnetic control knob leaves the panel to serve as a remote controller, the circuit board detects a magnetic field change signal caused by the action of the magnetic control knob, and the valve body assembly is controlled to execute a corresponding function according to the signal.

Furthermore, the quantity of magnetic control knob is two, sets up first magnetism on each magnetic control knob respectively and inhales magnet, set up a plurality of second magnetism on the circuit board and inhale magnet, magnet and the cooperation is inhaled to magnet one by one is inhaled to first magnetism, and the first magnetism on each magnetic control knob is inhaled magnet and is inhaled the magnet magnetism with the second magnetism that corresponds and inhale the complex magnetic pole inequality.

The utility model also provides a shower which comprises a plurality of water outlet terminals and the shower control box, wherein the water outlet terminals correspond to the water distribution electromagnetic valves one by one, and each water outlet terminal is respectively communicated with the water outlet end of the corresponding water distribution electromagnetic valve.

The water distribution box further comprises a vertical back plate, the bottom end of the back plate is connected to the rear side of the box body, the water outlet terminals comprise top sprays, the top sprays are arranged at the top end of the back plate and connected with the corresponding water distribution electromagnetic valves through water outlet pipes arranged on the back side of the back plate; the back of the back plate is also provided with an atmosphere lamp which is electrically connected with the circuit board.

Compared with the prior art, the utility model has the following beneficial effects:

1. the box body of the shower control box is provided with the first layer structure and the second layer structure which are distributed up and down, one part of the valve body assembly is arranged on the first layer structure, and the other part of the valve body assembly is arranged on the second layer structure, so that the shower control box can be reasonably arranged by utilizing the internal space of the box body, and the shower control box is compact in structure, small in size, suitable for open-mounted showers and convenient to install and maintain.

2. The valve body assembly preferably comprises the constant temperature mechanism and a plurality of water distribution electromagnetic valves, so that the shower control box has the functions of flow regulation, temperature regulation, water distribution and the like, and is more convenient to operate and control. The constant temperature mechanism is preferably an electronic constant temperature box, so that the flow and temperature regulation of the shower head is more convenient and accurate, and the shower experience is good. The valve body assembly further comprises the booster pump, so that the shower control box disclosed by the utility model also has an automatic boosting function, and can meet the bathing requirement under the condition of low water pressure. The utility model also comprises a pressure sensor, so that the booster pump can realize automatic pressurization according to the water pressure.

3. The valve body assembly further comprises a first valve body and a second valve body, so that the water diversion electromagnetic valve, the constant temperature mechanism and the booster pump are connected more conveniently, and the pipeline arrangement is reduced, so that the compactness of the structure of the water diversion electromagnetic valve is further improved, and the occupied space is further reduced.

4. The first layer structure and the second layer structure are staggered left and right and/or front and back, so that the box body is in a step shape, is attractive in shape, can further save space, and has the function of placing objects.

5. The arrangement of the magnetic control knob enables the magnetic control knob to be taken down from the panel when the magnetic control knob is not used, and the inconvenience of cleaning due to the fact that the surface of the panel is uneven is avoided. In addition, the magnetic control knob and the circuit board are completely separated by the panel, the waterproof performance is good, and a special waterproof process is not needed; the magnetic control knob can be rotated and/or pressed, so that at least two functional items can be realized by one magnetic control knob, and compared with the touch keys on the touch panel in the prior art, the magnetic control knob can be less than the touch keys on the basis of realizing the same number of functional items, so that the size of the panel can be smaller, and the occupied space of the panel can be reduced.

The utility model is further explained in detail with the accompanying drawings and the embodiments; however, a shower control box and a shower according to the present invention are not limited to the embodiments.

Drawings

Figure 1 is an exploded view of the shower control box of the present invention;

figure 2 is a second exploded schematic view of the shower control box of the present invention;

FIG. 3 is a schematic structural view of the valve body assembly of the present invention;

FIG. 4 is an exploded schematic view of the valve body assembly of the present invention;

fig. 5 is a schematic structural view of the electronic thermostatic cartridge of the present invention;

FIG. 6 is a first cross-sectional view of the valve body assembly of the present invention (illustrating the direction of water flow);

FIG. 7 is a second cross-sectional view of the valve body assembly of the present invention (illustrating the direction of water flow);

FIG. 8 is a third cross-sectional view of the valve body assembly of the present invention (illustrating the direction of water flow);

FIG. 9 is a schematic perspective view of the shower control box of the present invention with the magnetic knob on;

FIG. 10 is a top plan view of the shower control box of the present invention with the magnet knob on;

FIG. 11 is a top plan view of the shower control box of the present invention with its faceplate in a clear aperture state;

FIG. 12 is a schematic perspective view of the shower control box of the present invention after lifting the magnetic knob;

figure 13 is a functional block diagram of the shower control box of the present invention;

FIG. 14 is a schematic circuit diagram of a key wireless transmitter circuit according to the present invention;

FIG. 15 is a schematic circuit diagram of the main control board of the present invention;

FIG. 16 is a schematic diagram of the circuit structure of the Hall sensing circuit of the present invention;

fig. 17 is a schematic circuit diagram of a wireless receiving circuit of the present invention;

fig. 18 is a schematic circuit configuration diagram of an electronic thermostatic cartridge drive circuit of the present invention;

FIG. 19 is a schematic circuit diagram of the drive circuit of the water diversion solenoid valve of the present invention;

FIG. 20 is a schematic diagram of the circuit configuration of the booster pump control circuit of the present invention;

FIG. 21 is a circuit diagram of a display circuit according to the present invention;

fig. 22 is a schematic circuit diagram of the WIFI interface circuit of the present invention;

FIG. 23 is a schematic diagram of the circuit configuration of the lamp ring circuit of the present invention;

figure 24 is an exploded schematic view of the shower of the present invention;

FIG. 25 is a schematic perspective view of the shower of the present invention;

wherein, 1, a magnetic control knob, 11, a magnetic control magnet, 12, a first magnetic magnet, 13, a key wireless transmitting circuit, 2, a circuit board, 21, a hall sensing circuit, 22, a second magnetic magnet, 23, a main control board, 24, a wireless receiving circuit, 25, a main system circuit, 26, a booster pump control circuit, 27, a WIFI interface circuit, 28, a lamp ring circuit, 29, a display circuit, 3, a box body, 31, a panel, 311, a diaphragm, 32, an upper shell, 33, a valve body component, 331, an electronic constant temperature box, 3311, a cold water proportional valve, 3312, a hot water proportional valve, 3313, a temperature sensor, 3314, a switch electromagnetic valve, 3315, a flow sensor, 3316, a flow regulating valve, 3317, a MCU, 332, a water diversion electromagnetic valve, 333, a booster pump, 334, a second valve body, 335, a first valve body, 3341, a hot water inlet channel, 3342, a cold water inlet channel, 3343, a water outlet channel, 3351. water channel, 336, pressure sensor, 337, booster pump inlet valve body, 34, connecting seat, 35, lower casing, 4, the top spouts, 5, backplate, 6, removal group, 7, outlet pipe, 8, the fixing base is spouted on the top.

Detailed Description

Referring to fig. 1-23, a shower control box of the present invention comprises a valve assembly 33 and a box body 3; the box body 3 has a first layer structure and a second layer structure distributed up and down, and particularly, but not limited to, the first layer structure is located above the second layer structure, and in other embodiments, the first layer structure is located below the second layer structure. A part of the valve body assembly 3 is disposed in the first layer structure, and the remaining part of the valve body assembly 33 is disposed in the second layer structure. Therefore, the utility model can reasonably utilize the internal space of the box body 3 for layout, thereby leading the shower control box of the utility model to have compact structure and small volume, being suitable for open-mounted showers and being convenient for installation and maintenance.

In this embodiment, the present invention further includes a circuit board 2, and the circuit board 2 is configured in the first layer structure. The valve body assembly 33 includes a thermostatic mechanism capable of adjusting temperature, flow rate and water opening and closing, and a plurality of water diversion electromagnetic valves 332, the thermostatic mechanism is specifically an electronic thermostatic box 331, but is not limited thereto, and in other embodiments, the thermostatic mechanism is a mechanical thermostatic box. The water outlet end of the electronic thermostatic box 331 is communicated with the water inlet ends of the water diversion electromagnetic valves 332. The valve assembly 33 further includes a booster pump 333, the booster pump 333 is located between the water outlet end of the electronic thermostatic box 331 and the water inlet ends of the water diversion electromagnetic valves 332, specifically, the water inlet end of the booster pump 333 is connected to the water outlet end of the electronic thermostatic box 331, and the water outlet end of the booster pump 333 is connected to the water inlet ends of the water diversion electromagnetic valves 332. The electronic constant temperature box 331 and the booster pump 333 are positioned in the second layer structure, and each water distribution electromagnetic valve 332 is respectively positioned in the first layer structure; the electronic constant temperature box 331, the booster pump 333 and each water diversion electromagnetic valve 332 are electrically connected to the circuit board 2, respectively. The electronic thermostatic box 331 may be a three jun electronic thermostatic box whose model number is HZ-20, and the electronic thermostatic box 331 integrates a cold water proportional valve 3311, a hot water proportional valve 3312, a temperature sensor 3313, an on-off solenoid valve 3314, a flow sensor 3315, a flow control valve 3316, and an MCU3317, as shown in fig. 5.

In this embodiment, the valve body assembly 33 further includes a first valve body 335 and a second valve body 334, the first valve body 335 being located in the first layer of the structure, and the second valve body 334 being located in the second layer of the structure. As shown in fig. 6-8, the water dividing solenoid valves 332 are disposed on the first valve body 335, and the first valve body 335 is provided with a water passing channel 3351 communicated with the water inlet end of each water dividing solenoid valve 332; the second valve body 334 has a cold water inlet passage 3342 connected to a cold water inlet port of the electronic thermostatic cartridge 331, a hot water inlet passage 3341 connected to a hot water inlet port of the electronic thermostatic cartridge 331, and a water outlet passage 3343 connected to the water outlet port of the pressurizing pump 333 and the water outlet passage 3351. The valve body assembly 33 further comprises a pressure sensor 336, the pressure sensor 336 is arranged on a communication pipeline between the water inlet end of the booster pump 33 and the mixed water outlet end of the electronic thermostatic box, and the pressure sensor 336 is electrically connected with the circuit board 2. The water inlet end of the booster pump 333 is specifically connected to the water outlet end of the electronic thermostatic box 331 (i.e., the water outlet end of the on-off solenoid valve 3314) through the booster pump water inlet valve body 337 and the second valve body 334, and the pressure sensor 336 is specifically disposed on the booster pump water inlet valve body 337, as shown in fig. 4.

In this embodiment, the box body 3 includes an upper casing 32, a lower casing 35, and a connecting seat 34, the upper casing 32 and the lower casing 35 are distributed vertically, and the bottom end of the upper casing 32 is connected to the top end of the lower casing 35 through the connecting seat 34 to form the first layer structure and the second layer structure, specifically, a part of the upper casing 32 and the connecting seat 34 constitutes the first layer structure, and the other part of the lower casing 35 and the connecting seat 34 constitutes the second layer structure. Because a part of the valve body assembly 33 is located in the first layer structure, and the rest is located in the second layer structure, a yielding opening is arranged in the middle of the connecting seat 34 to avoid the transition part between the upper part and the lower part of the valve body assembly 33.

In this embodiment, the first layer structure and the second layer structure are staggered left and right (or staggered front and back, etc.), so that the top end of the second layer structure is partially located outside the first layer structure to form an object placing surface, as shown in fig. 9. Therefore, the box body of the utility model is in a ladder shape, has beautiful shape, can further save space and has the function of placing objects.

In this embodiment, the top end of the box body 3 is provided with a panel 31, and the panel 31 is made of glass, but not limited thereto, and in other embodiments, the panel is made of acrylic material or the like. The utility model also comprises at least one magnetic control knob 1 which can be rotated and/or pressed, when in use, the magnetic control knob 1 is placed on the panel 31, or the magnetic control knob 1 is separated from the panel to be used as a remote controller, the circuit board 2 detects a magnetic field change signal caused by the action of the magnetic control knob 1 and controls the valve body assembly 33 to execute corresponding functions according to the signal. The number of the magnetic control knobs 1 is two, but is not limited thereto.

In this embodiment, the magnetic control knob 1 is further provided with a first magnetic attraction magnet 12, the circuit board 2 is provided with a second magnetic attraction magnet 22, and the first magnetic attraction magnet 12 and the second magnetic attraction magnet 22 are magnetically attracted to be matched, so that when the magnetic control knob 1 is placed on the panel 31, the magnetic attraction of the first magnetic attraction magnet 12 and the second magnetic attraction magnet 22 can be utilized to prevent the magnetic control knob 1 from sliding off the panel 31, and the magnetic control knob 1 is guided to be placed at an accurate position on the panel 31. The magnetic poles of the first magnetic attraction magnet 12 on each magnetic control knob 1 and the corresponding second magnetic attraction magnet 22 are different, so that the magnetic control knob has the fool-proof function, and the two magnetic control knobs 1 are prevented from being misplaced.

In this embodiment, as shown in fig. 13, the magnetic control knob 1 is provided with a magnetic control magnet 11 and a key wireless transmitting circuit 13, the circuit board 2 includes a hall sensing circuit 21 correspondingly matched with the magnetic control magnet 11, a wireless receiving circuit 24 correspondingly matched with the key wireless transmitting circuit 13, a main control board 23, and a main system circuit 25 capable of controlling the shower to perform any one or more of flow regulation, temperature regulation, water switching, water outlet switching and pre-cooling, and the hall sensing circuit 21, the wireless receiving circuit 24, and the main system circuit 25 are respectively electrically connected with the main control board 23.

In this embodiment, the circuit structure of the key wireless transmitting circuit 13 is as shown in fig. 14, and includes three parts, a, b, and c, where the part a is a power input interface circuit; the part b is a microprocessor, the part c is a 433MHz transmitting circuit, and a 433 transmitting module U1' is adopted. The circuit structure of the main control board 23 is shown in fig. 15. The circuit structure of the hall sensing circuits 21 is shown in fig. 16, the hall sensing circuit comprises 8 hall sensing circuits 21, the 8 hall sensing circuits 21 are divided into two groups and are matched with the magnetic control magnets 11 of the two magnetic control knobs 1 one by one, namely, the magnetic control magnet 11 of one magnetic control knob 1 corresponds to the four hall sensing circuits 21, so that the sensing precision is improved. The circuit configuration of the wireless receiving circuit 24 is shown in fig. 17.

In this embodiment, the main system circuit 25 includes an electronic thermostat box driving circuit electrically connected to the MCU3317 of the electronic thermostat box 331, and the electronic thermostat box driving circuit is electrically connected to the main control board 23. The circuit structure of the electronic thermostatic cartridge drive circuit is shown in fig. 18. The main system circuit 25 further includes a plurality of solenoid valve driving circuits electrically connected to the plurality of water diversion solenoid valves 332 one by one, and each solenoid valve driving circuit is electrically connected to the main control board 23. The circuit structure of the solenoid valve driving circuit is shown in fig. 19, and the utility model totally comprises 5 solenoid valve driving circuits.

In this embodiment, the circuit board 2 further includes a booster pump control circuit 26 electrically connected to the booster pump 333, the booster pump control circuit 26 is electrically connected to the main control board 23, a circuit structure of the booster pump control circuit 26 is as shown in fig. 20, and in the drawing, a part on the right side of the diode D1 is the booster pump 333. In the two magnetic control knobs 1, the valve body assembly 33 can be controlled to execute a pre-cooling function by long pressing one of the magnetic control knobs, the shower can be controlled to execute a pressurizing function by double clicking one of the magnetic control handles, and at the moment, the increased water pressure can be controlled by rotating one of the magnetic control handles.

In this embodiment, the circuit board 2 further includes an ambience lamp control circuit (not shown in the figure) for controlling the shower to perform the ambience lamp switching and mode adjusting functions, and the ambience lamp control circuit is electrically connected to the main control board 23. In two magnetic control knobs 1, through double click another magnetic control knob, can open the atmosphere lamp, at this moment, through selecting another magnetic control knob, can adjust the mode of atmosphere lamp, be four modes respectively in spring, summer, autumn and winter, also can carry out the regulation of colour temperature and luminance, increase shower experience.

In this embodiment, the circuit board 2 further includes a display circuit 29 for displaying water temperature and/or flow rate, and the display circuit 29 is electrically connected to the main control board 23. The circuit structure of the display circuit 29 is shown in fig. 21, and the present invention includes two display circuits 29, one for displaying the flow rate and the other for displaying the temperature. Therefore, the flow and temperature display can be displayed through the panel 31, so that the user can see the change of the temperature and the flow, thereby facilitating the adjustment of the temperature and the flow by the user. The display circuit 29 turns off the display when the flow rate and the temperature reach a preset time (for example, 10s), and turns on again only when the flow rate and the temperature change, thereby achieving the power saving mode.

In this embodiment, the circuit board 2 further includes a WIFI interface circuit 27, and the WIFI interface circuit 27 is electrically connected to the main control board 23, so that the main control board 23 can wirelessly communicate with the intelligent terminal. The circuit structure of the WIFI interface circuit 27 is shown in fig. 22. The circuit board 2 further includes a light indicating circuit, specifically, but not limited to, a light ring circuit 28, for indicating the position of the magnetic control knob 1 on the panel and emitting light to pass through the panel. The lamp ring circuits 28 correspond to the magnetic control knobs 1 one by one and are electrically connected with the main control board 23. The circuit structure of the lamp ring circuit 28 is shown in fig. 23, and the lamp ring circuit comprises two lamp ring circuits 28 which correspond to the two magnetic control knobs 1 one by one. When the magnetic control knob 1 is placed on the panel 31, the light on the light indicating circuit (i.e. the light ring circuit 28) is turned on, and the user can see the annular aperture 311 through the panel 31, thereby finding the position of the magnetic control knob. When the magnet knob 1 is moved away from the panel 31, the light on the light indicating circuit (i.e., the light ring circuit 28) is turned off, so that the diaphragm 311 is not visible on the panel 31. Thus, the power saving effect can be achieved.

In this embodiment, the main control board 23 has a high temperature protection function, and when the temperature needs to be adjusted to a preset first safe temperature (for example, 40 ℃), the magnetic control button for adjusting the temperature needs to be pressed for a long time (the long time can be set to 5s, etc.), the high temperature protection is released, and then the magnetic control button is rotated again to adjust the temperature, so as to adjust the temperature to a second safe temperature, which may be, for example, 48 ℃.

In this embodiment, the main control board 23 has a memory function, and can memorize the flow and temperature used last time, so that the user does not need to repeatedly adjust the flow and temperature. According to the utility model, when the magnetic control knob 1 is not used, the magnetic control knob 1 can be taken down from the panel of the shower, so that the unevenness of the surface of the panel is avoided, and the shower is easy to clean; the magnetic control knob 1 and the circuit board 2 are directly and completely separated by the panel, the waterproof performance is good, and a special waterproof process is not needed; the magnetic control knob 1 can be rotated and pressed, so that one magnetic control knob 1 can have two functional items, therefore, compared with the touch keys on the touch panel in the prior art, the magnetic control knob 1 can have the number of the magnetic control knobs 1 smaller than that of the touch keys on the basis of realizing the same number of functional items, so that the size of the panel can be smaller, and the occupied space of the panel can be reduced. The utility model can utilize the booster pump to boost when the water pressure of the shower is lower, thereby improving the shower effect. The utility model also comprises a WIFI interface circuit 27, so that the utility model can carry out wireless communication with the intelligent terminal, and a user can remotely control the shower device (for example, pre-cooling and the like) through the corresponding APP on the intelligent terminal (for example, a mobile phone and the like), thereby improving the use convenience of the user. The utility model also comprises a light indicating circuit (namely a lamp ring circuit 28) which is used for indicating the placing position of the magnetic control knob 1 on the panel and can emit light to transmit through the panel, so that the utility model can utilize the annular light emitted by the light indicating circuit (namely the lamp ring circuit 28) to indicate the placing position of the magnetic control knob 1, thereby being convenient for a user to quickly find out the accurate operating position of the magnetic control knob 1.

Referring to fig. 24 and 25, a shower of the present invention includes a shower control box according to the present invention. The utility model also comprises a plurality of water outlet terminals which are in one-to-one correspondence with the plurality of water distribution electromagnetic valves 332, and each water outlet terminal is respectively communicated with the water outlet end of the corresponding water distribution electromagnetic valve 332. A plurality of water terminals spout 4, handheld gondola water faucet and two kinds at least in the tap down including the top, specifically, a plurality of water terminals spout 4 and handheld gondola water faucet (not embodying in the figure) including the top, the top is spouted 4 and is set up the water structure of a plurality of differences, can go out different splash, and a outlet pipe 7 is connected respectively to this a plurality of water structures, this outlet pipe 7 constitute the top spout 4 with the intercommunication pipeline of dividing water solenoid valve 332. Specifically, the top spray 4 is provided with four different water outlet structures, and four water outlet pipes 7 are correspondingly connected with the top spray fixing seat 8. Therefore, the number of the water diversion electromagnetic valves 332 is 5, one of the water diversion electromagnetic valves corresponds to the handheld shower head, and the other four water outlet pipes 7 are connected with the top shower 4. The 5 water diversion electromagnetic valves 332 are respectively and electrically connected with the 5 electromagnetic valve driving circuits of the circuit board 2 one by one.

In this embodiment, the shower head further includes a vertical back plate 5, the bottom end of the vertical back plate 5 is connected to the rear side surface of the box body 3, the top shower 4 is arranged at the top end of the back plate 5, the water outlet pipe 7 is arranged on the back surface of the back plate 5, a moving group 6 is further arranged on one side of the back plate 5, and the moving group 6 is used for inserting a handheld shower head. The back of the back plate 5 is also provided with an atmosphere lamp which is electrically connected with the atmosphere lamp control circuit of the circuit board 2.

According to the shower provided by the utility model, a household power supply supplies power to a circuit board 2, the circuit board 2 is controlled by two magnetic control knobs 1, and then the electronic constant temperature box 331, each water diversion electromagnetic valve 332 and the booster pump 333 are controlled by the circuit board 2, when the magnetic control knobs 1 are placed on the glass panel 31, the first magnetic attraction magnets 12 on the magnetic control knobs 1 and the second magnetic attraction magnets 22 on the circuit board 2 attract each other in a corresponding magnetic manner, so that the magnetic control knobs 1 cannot slide off the glass panel 31. Magnet 22 one-to-one is inhaled with two second on the circuit board 2 respectively to magnet 12 is inhaled to the first magnetism of two magnetic control knobs 1, and when the magnetic control knob of flow control was put on the position of the magnetic control knob that adjusts the temperature, because the magnet principle of repelling each other, just can't put, and only the magnetic control knob that adjusts the temperature could be put on the position of the magnetic control knob that adjusts the temperature, and in the same way, only the magnetic control knob that adjusts the flow could be put on the position of the magnetic control knob of flow control, prevents that two magnetic control knobs 1 from putting the wrong position.

When the magnetic control knob 1 is arranged on the glass panel 31, the flow/temperature can be adjusted by rotating (when the high temperature needs to be adjusted, the high temperature can be adjusted by releasing the knob for a plurality of seconds), and the water can be switched on and off by pressing. The magnetic control knob 1 can be taken up independently to be used as a remote controller, remote switch or switching operation can be carried out, and the remote control distance can reach 10 meters at most; therefore, a user can completely place the two magnetic control knobs outside the bathroom, and the magnetic control knobs are provided with magnets, so that the user can adjust the magnetic control knobs only by installing the fixed seats outside the bathroom; the user can carry out cold discharge, switch or shower function switching in advance, and then can directly shower after entering the bathroom. The utility model can also realize pre-cooling by remote operation through the mobile phone APP. In a low water pressure state, the utility model can automatically detect the water pressure and carry out automatic pressurization. The two lamp ring circuits 28 form an aperture 311 on the glass panel 31, which facilitates the alignment of the magnetic control knob 1.

The water inlet and outlet process of the utility model is shown in figures 6-8: cold water and hot water respectively enter the second valve body 334 and then enter the electronic constant temperature box 331 through a cold water inlet passage and a hot water inlet passage of the second valve body 334, and the opening and closing of the cold water and the hot water, and the proportion and the flow rate of the cold water and the hot water can be controlled through the electronic constant temperature box 331; water flowing out of a mixed water outlet of the electronic constant temperature box 331 enters the booster pump 333, and when the pressure sensor 336 detects that the water pressure is too low, the booster pump 333 automatically feeds water and boosts the pressure; the water flowing out from the water outlet end of the booster pump 333 flows to the 5 water-dividing electromagnetic valves 332 after sequentially passing through the mixed water channel of the second valve body 334 and the water passing channel of the first valve body 335, and whether the top shower 4 or the handheld shower head discharges water can be controlled by controlling the switches of the 5 water-dividing electromagnetic valves 332.

The utility model relates to a shower, wherein the corresponding relation between each action of two magnetic control knobs and each function of a valve body assembly 33 is as follows:

one of the magnetic control knobs is used for controlling flow, water switching, pre-cooling and pressurization: when the magnetic control knob is rotated along a preset direction (for example, clockwise direction or anticlockwise direction), the flow rate is increased, otherwise, the magnetic control knob is rotated reversely, the flow rate is reduced; the electronic constant temperature box is opened when the magnetic control knob is lightly pressed, and the electronic constant temperature box is closed when the magnetic control knob is lightly pressed again; pressing the magnetic control knob for a plurality of seconds, for example 5 seconds, starting the pre-cooling function, namely opening one of the water diversion electromagnetic valves; automatically closing the pre-cooling function after cooling discharge is finished; and the magnetic control knob is double-clicked, the booster pump is turned on, the booster mode is switched, and at the moment, the magnetic knob is rotated to adjust the rotating speed of the booster pump, so that the increased water pressure is controlled.

The other magnetic control knob is used for controlling temperature, switching water outlet, high temperature and atmosphere lamps: when the magnetic control knob is rotated along a preset direction (for example, clockwise direction or anticlockwise direction), the temperature is adjusted to be high, otherwise, the temperature is adjusted to be low when the magnetic control knob is rotated reversely; lightly pressing the magnetic control knob to control the water diversion electromagnetic valve, and defaulting to open the handheld shower head, then performing top spraying and switching in sequence to obtain handheld shower water, top spraying spray water, top spraying jet rain water and top spraying waterfall water in sequence; when the magnetic control knob is pressed for a plurality of seconds, for example, 5 seconds, the high temperature protection is released, and then the magnetic control knob is rotated again for temperature; the magnetic control knob is double-clicked, the lamp light adjusting mode is switched, the atmosphere lamp behind the back plate is turned on, at the moment, the magnetic control knob is rotated, and the modes of the atmosphere lamp are adjusted, namely four modes of spring, summer, autumn and winter; the color temperature and the brightness can be adjusted, and the shower physical examination is increased.

The shower provided by the utility model integrates water switching, water outlet switching, temperature adjustment, flow adjustment, automatic pressurization and atmosphere lamp adjustment, and the two magnetic control knobs can be placed on a glass panel to adjust temperature, adjust flow, switch water and switch water outlet, and can also be used as a remote controller to perform remote switching or switching operation. The utility model can also carry out remote operation through the mobile phone APP, thereby improving the convenience of use of the user.

The shower control box and the shower provided by the utility model have the same or can be realized by adopting the prior art.

The above embodiments are only used to further illustrate a shower control box and a shower of the present invention, but the present invention is not limited to the embodiments, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention fall within the protection scope of the technical solution of the present invention.

Claims (10)

1. A shower control box comprises a valve body assembly and a box body; the method is characterized in that: the cartridge has a first layer structure and a second layer structure, the first layer structure being located above or below the second layer structure, a portion of the valve body assembly being disposed in the first layer structure, the remainder of the valve body assembly being disposed in the second layer structure.

2. A shower control box according to claim 1, wherein: a circuit board disposed in the first layer structure; the valve body assembly comprises a constant temperature mechanism capable of adjusting temperature, flow and water on and off and a plurality of water distribution electromagnetic valves, wherein the water outlet end of the constant temperature mechanism is communicated with the water inlet ends of the water distribution electromagnetic valves; the constant temperature mechanism is positioned in the second layer structure, and each water distribution electromagnetic valve is positioned in the first layer structure respectively; and each water distribution electromagnetic valve is electrically connected with the circuit board respectively.

3. A shower control box according to claim 2, wherein: the constant temperature mechanism is an electronic constant temperature box which is electrically connected with the circuit board.

4. A shower control box according to claim 2, wherein: the valve body assembly further comprises a booster pump, a water inlet end of the booster pump is communicated with a water outlet end of the constant temperature mechanism, and a water outlet end of the booster pump is communicated with water inlet ends of the water diversion electromagnetic valves; the valve body assembly further comprises a pressure sensor, the pressure sensor is arranged on a communicating pipeline between the water inlet end of the booster pump and the mixed water outlet end of the constant temperature mechanism, and the pressure sensor is electrically connected with the circuit board.

5. A shower control box according to claim 4, wherein: the valve body assembly further comprises a first valve body and a second valve body, the first valve body is positioned in the first layer structure, and the first valve body is provided with a water passing channel communicated with the water inlet end of each water diversion electromagnetic valve; the second valve body is positioned in the second layer structure and is provided with a cold water inlet channel communicated with a cold water inlet end of the constant temperature mechanism, a hot water inlet channel communicated with a hot water inlet end of the constant temperature mechanism and a water outlet channel communicated with the water outlet channel and a water outlet end of the booster pump.

6. A shower control box according to claim 2, wherein: the box body comprises an upper shell, a lower shell and a connecting seat, wherein the upper shell and the lower shell are distributed up and down, and the bottom end of the upper shell is connected with the top end of the lower shell through the connecting seat to form a first layer structure and a second layer structure; the first layer structure and the second layer structure are staggered left and right and/or front and back.

7. A shower control box according to any one of claims 2 to 6, wherein: the top end of the box body is provided with a panel and at least one magnetic control knob which can be rotated and/or pressed, when the box body is used, the magnetic control knob is placed on the panel, or the magnetic control knob leaves the panel to serve as a remote controller, the circuit board detects a magnetic field change signal caused by the action of the magnetic control knob, and the valve body assembly is controlled to execute a corresponding function according to the signal.

8. A shower control box according to claim 7, wherein: the magnetic control knob's quantity is two, sets up first magnetism on each magnetic control knob and inhales magnet respectively, set up a plurality of second magnetism on the circuit board and inhale magnet, magnet cooperation is inhaled with second magnetism one by one to first magnetism magnet, and the first magnetism of each magnetic control knob is inhaled magnet and is inhaled the magnet magnetism with the second magnetism that corresponds and inhale the complex magnetic pole inequality respectively.

9. A shower, includes a plurality of water terminals, its characterized in that: the shower control box according to any one of claims 2 to 8, further comprising a plurality of water outlet terminals, wherein the water outlet terminals correspond to the water distribution solenoid valves one by one, and each water outlet terminal is respectively communicated with the water outlet end of the corresponding water distribution solenoid valve.

10. A shower as claimed in claim 9, wherein: the water distribution box further comprises a vertical back plate, the bottom end of the back plate is connected to the rear side of the box body, the water outlet terminals comprise top spray, the top spray is arranged at the top end of the back plate, and the top spray is connected with the corresponding water distribution electromagnetic valves through water outlet pipes arranged on the back side of the back plate; the back of the back plate is also provided with an atmosphere lamp which is electrically connected with the circuit board.

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