CN108661276B - A cooling and heating decorative panel - Google Patents

Abstract

The invention discloses a cooling and heating decorative panel, which comprises a decorative panel body, a semiconductor module, a cooling and heating water tank, a circulating water pump, a water outlet tee module, a water return tee module and a control module; the decorative panel body, through The water supply pipe is connected to the circulating water pump, and the cooling and heating water tank is connected to the water return pipe and the return water tee module; the circulating water pump is connected to the cooling and heating water tank through the water outlet tee module; the semiconductor The electronic module is sealed by an insulating metal heat-conducting sheet, and is located inside the cooling water tank and the heating water tank; the semiconductor module, the cooling and heating water tank, the circulating water pump, the water outlet tee module and the return water tee module pass through a wired circuit. , to connect the control module; the control module is located on the upper side cover of the cooling and heating water tank. In different seasons, different instructions are activated, and the product of the present invention automatically switches functions, bringing health and comfort to home life, and simultaneously achieving the purpose of energy saving and emission reduction.

Description

A cooling and heating decorative panel

technical field

The invention relates to the field of interior decoration, in particular to a cooling and heating decorative board.

Background technique

There are only a few methods that are environmentally friendly, healthy, effective, and beautiful in indoor cooling and heating devices, and very few of them do not produce a greenhouse effect on zero emissions of air, and can recycle energy. In reality, a device that can both cool and heat has dual functions. Due to cost and hardware installation conditions, it is difficult to popularize and promote it in the decoration field, and it is difficult for everyone to enjoy it. Commonly used indoor cooling and heating equipment, such as air conditioners, compressors are noisy, consume electricity, and the heat emitted by the air accelerates the greenhouse effect, and the moisture in the air is taken away, and the cold or heat is uneven, which will also cause partial health in the sub-health group. Headaches, frozen shoulders and respiratory problems. The semiconductor refrigeration and heating technology, plus the cooling and heating device combined with the circulating water pump device and the internal structure of the plate is a bright spot of physical temperature change. At the same time, the water in the water tank is reasonably arranged for the use of domestic water, without any pollution discharge. After years of repeated research and testing, the living environment that maintains people's suitable temperature in all seasons can be truly realized with the help of interior decoration materials. As we all know, because the semiconductor refrigeration will release heat, there will be a cooling fan in the traditional semiconductor electric box, which will release the heat, which is not used reasonably, and the heat released by the semiconductor is far greater than that of refrigeration, so this advantage is not rationally used by humans.

The traditional decoration floor heating system needs to make the foundation and heating device first, then fix it with cement, and then pave the decorative board. The construction steps are complicated, the disassembly and assembly are extremely inconvenient, and the labor cost is high. The new cooling and heating decorative panel technology can directly install the cooling and heating decorative panel in one step, reducing the paving steps and labor costs, and the installation and disassembly are extremely convenient. How to organically combine new decorative panels with energy-saving and environmentally-friendly semiconductor refrigeration and heating technology to form a refrigeration and heating system that is not only beneficial to health, improves human comfort, but also achieves energy-saving and environmental protection purposes has become a challenge for engineering and scientific research personnel. A difficult problem ahead. Therefore urgently need to research and develop a kind of reliable quality, install conveniently, and have the novel decorative plate of refrigeration and heating dual function.

Contents of the invention

In order to solve the problems existing in the prior art, the inventor, making the best use of the situation, actively researched and practiced to invent a kind of decoration material based on physical conduction variable temperature technology, with dual functions of cooling and heating, which does not release heat to the outside and has no living noise , using low-voltage direct current, base material insulation, good safety performance, low energy consumption materials, and integration of decoration and cooling and heating. The invention can solve the dependence of human life on air conditioning and refrigeration in summer, and can also share the heating load of floor heating, electric appliances and radiators in winter.

To achieve the above object, the present invention adopts the following technical solutions:

A cooling and heating decorative panel, including a decorative panel body, a semiconductor module, a cooling and heating water tank, a circulating water pump, a water outlet tee module, a return water tee module and a control module. Preferably, the decorative panel body is fed through water The pipe is connected to the circulating water pump, and the cooling and heating water tank is connected through the return pipe and the return water tee module, and the circulating water pump is connected to the cooling and heating water tank through the water outlet tee module. The module is located inside the cooling and heating water tank, the semiconductor module, the cooling and heating water tank, the circulating water pump, the water outlet tee module and the water return tee module are connected to the control module through a wired circuit. The control module is located on the upper side cover of the cooling and heating water tank.

Preferably, the decorative board body is made of microcrystalline stone powder mixed with plastic particles in proportion, and is extruded and cooled by a mold. The board has good heat and cold conduction properties, and its round shape The porous structure has the functions of compressive resistance and heat preservation.

Preferably, the decorative board body is composed of a decorative board, a main structure and a water tank edge strip; the main structure is a solid heat-conducting material with several horizontally arranged circular hollow tubes distributed in the middle; the water tank edge The strips are located on two opposite sides of the main structure, so that the decorative plate body forms an airtight composite structure against water, but there is a quick connection port for pneumatic water pipes for water supply and return.

Preferably, the semiconductor electronic module is sealed by an insulating metal heat conducting sheet, located between the cooling water tank and the heating water tank, and connected to the LC multiple isolator in the control module through a wired circuit.

Preferably, the cooling and heating water tank is composed of a cooling water tank, a heating water tank, and a semiconductor electronic module sealed by an insulating metal sheet; the outer circumference of the cooling and heating water tank is wrapped with a complete thermal insulation layer; the The cooling water tank and the heating water tank each have a direct connection water port, and the two direct connection water ports are connected through a small booster pump and a fine water pipe; the side of the cooling water tank is provided with a cooling water outlet and a cooling water return port, The side of the heating water tank has a heating water outlet and a heating water return port; the cooling water outlet is connected to the synchronous electromagnetic water valve A1 of the water outlet three-way module through a water pipe, and the heating The water outlet is connected to the synchronous electromagnetic water valve B1 of the outlet three-way module through the water supply pipe, and the cooling water return port is connected to the synchronous electromagnetic water valve B2 of the return water three-way module through the return pipe. The heating water return port is connected to the synchronous electromagnetic water valve A2 of the return water three-way module through a water pipe; the water outlet three-way module is connected to the circulating water pump, and the return water three-way module is connected to the The quick connection port of the backwater pneumatic water pipe of the decorative plate body mentioned above.

Preferably, the circulating water pump is connected to the water supply pneumatic water pipe quick connection port of the decorative panel body through a water supply pipe, connected to the water outlet tee module through a water pipe, and connected to the control module in the wired circuit. LC duplex isolator.

Preferably, the control module includes a human-computer interaction interface, a human-computer interaction interface circuit drive module, and a temperature control intelligent sensing module. Preferably, the human-computer interaction interface includes operating instructions pasted on the surface, an ITO material touch screen, a liquid crystal display, and several mechanical keys, and the ITO material touch screen, liquid crystal display, and several mechanical keys are connected by wire The circuit drive module of the human-computer interaction interface, the circuit drive module includes an on-chip programmable system chip, and is connected to the temperature control sensing module by wire, and the temperature control sensing module includes a temperature sensing chip, and the temperature sensing chip also As the controller of the synchronous electromagnetic valves, the circulating water pump, the synchronous electromagnetic water valves, the small booster pump and the semiconductor module are connected in a wired manner through the LC compound isolator.

Compared with traditional semiconductor refrigeration and heating equipment, the assembled decorative wallboard of the present invention has at least the following beneficial effects:

The invention patent is a cooling and heating decorative plate, which does not emit any substance gas into the atmosphere, does not produce freon, does not destroy air humidity, and has good environmental protection performance.

The patent of the invention is a cooling and heating decorative panel. When starting or switching the cooling and heating commands, the temperature can be adjusted according to the surrounding temperature through intelligent temperature sensing, so it has a suitable temperature for human living for a long time.

The patent of the invention is a cooling and heating decorative plate. In the process of cooling and heating, the energy consumption is reduced, and the energy saving effect is obvious. When the semiconductor is cooling, a large amount of heat energy will be released automatically and transferred to the system through the metal heat conducting sheet on the outer layer of the semiconductor. The heat of the warm water tank is not released in the air, but all of it is used and converted into hot water. In summer, hot water can be used as domestic water, and in winter, semiconductor heating is fully utilized; in order to prevent freezing, there is also a special connection to transfer a small amount of hot water to the cold water tank, which has a good energy-saving effect.

The main body of the invention patent is a cooling and heating decorative board, which not only has a functional board, but also has the function of a decorative board. All the edge strips of the sink and some water pipes will be covered again by the decorative lines, without affecting the decoration effect.

The patent of this invention changes the traditional way of wiring or water pipes. There is no additional water pipe inserted inside the board. The circular hollow pipes arranged horizontally in the main structure of the decorative board are used, and the water pipes with quick pneumatic sockets are installed on two adjacent boards. to guide water flow. From the inner circular hollow tube structure of the decorative plate to the upper and lower water tank edge ribs, there are special device structures, which ensure the water flow seal of the cooling and heating decorative plate and the coordinated work of the supporting devices.

The present invention can be used as but not limited to walls, floors, ceilings, bed boards, and furniture boards.

Description of drawings

In order to make the content of the invention more easily understood clearly, the present invention will be described in further detail below in conjunction with the accompanying drawings, wherein:

Fig. 1 Schematic diagram of the principle of a cooling and heating decorative panel;

Fig. 2 Schematic diagram of the three-dimensional structure of the decorative plate body;

Fig. 3 Schematic diagram of the sectional structure and water flow of the decorative plate body;

Figure 4 Schematic diagram of the cooling and heating water tank and its peripheral devices;

Figure 5 Schematic diagram of the man-machine interface of the control module;

Figure 6 Schematic diagram of the circuit principle of the control module.

The reference signs in the figure represent:

(Picture 1 (001)) - Decorative plate body; (Picture 1 (002)) - Refrigeration and heating water tank; (Picture 1 (003)) - Control module; (Picture 2 (102)) - Decorative plate; (Picture 2 (103))-main structure; (Fig. 2 (106))-pneumatic connecting water pipe; (Fig. 2 (107))-water supply pipe; (Fig. 2 (108))-return pipe; (Fig. 3 (103))- Main body section structure; (Figure 3 (106)) - pneumatic connecting water pipe; (Figure 3 (107) - water supply pneumatic water pipe quick connection port; (Figure 3 (108)) - return water pneumatic water pipe quick connection port; (Figure 3 ( (Fig. 3 (110))-circular hollow tube; (Fig. 4 (201) (202))-semiconductor module; (Fig. 4 (203))-cooling water tank; (Fig. 4 (204)) - heating water tank; (Figure 4 (205)) - heating water outlet; (Figure 4 (206)) - water outlet tee module A1; (Figure 4 (207)) - synchronous electromagnetic water valve A1 ; (Figure 4 (208)) - circulating water pump; (Figure 4 (209)) - synchronous electromagnetic water valve B1; (Figure 4 (210)) - cooling water return port; (Figure 4 (211)) - heating water Water return port; (Figure 4 (212)) - synchronous electromagnetic water valve A2; (Figure 4 (213)) - synchronous electromagnetic water valve B2; (Figure 4 (214)) - backwater tee module B1; (Figure 4 ( 215))-directly connected water port; (Fig. 4 (216))-small booster pump; (Fig. 4 (217))-directly connected water port; (Fig. 4 (218)-fine water pipe; (Fig. 4 (219)) - thermal insulation layer; (Fig. 4 (220)) - cooling water outlet.

Detailed ways

See Figure 1-6, a cooling and heating decorative panel, including a decorative panel body (Figure 1 (001)), a semiconductor module (Figure 4 (201) (202)), a cooling and heating water tank (Figure 1 (002)) , circulating water pump (Fig. 4 (208)), outlet tee module A1 (Fig. 4 (206)), return water tee module B1 (Fig. 4 (214)) and control module (Fig. 1 (003)); The body of the decorative plate is connected to the circulating water pump (Figure 4 (208)) through the water supply pipe (Figure 2 (107)), and the water return pipe (Figure 2 (108)) and the return water tee module B1 (Figure 4 214)) is connected to the cooling and heating water tank (Fig. 1 (002)), and the circulating water pump (Fig. 4 (208)) is connected to the cooling system through the outlet tee module A1 (Fig. The heating water tank, the semiconductor module (Fig. 4 (201) (202)) is located inside the cooling and heating water tank (Fig. 1 (002)), and the semiconductor module (Fig. 4 (201) (202)) , the cooling and heating water tank (Figure 1 (002)) and the circulating water pump (Figure 4 (208)) are connected to the control module (Figure 1 (003)) through a wired circuit, and the control module (Figure 1 (003)) is located at the upper cover plate of the cooling and heating water tank (Fig. 1 (002)).

The main body of the decorative plate (Figure 1 (001)), the structural material is mixed with microcrystalline stone and plastic material in proportion, and is formed by extruding and cooling through a mold. The plate has good properties of heat conduction and cooling capacity , its circular hollow tube (Fig. 3 (110)) has the effects of compressive resistance and heat preservation.

Preferably, the decorative plate body (Figure 1 (001)) is composed of a decorative plate (Figure 2 (102)), a main structure (Figure 2 (103)) and a sink edge strip (Figure 3 (109)) ; The main structure (Fig. 2 (103)) is a solid heat-conducting material with several horizontally arranged circular hollow tubes (Fig. 3 (110)) distributed in the middle; It is located on the two opposite sides of the main structure (Fig. 2 (103)), so that the decorative plate body (Fig. 1 (001)) forms an airtight combination structure for water, but there is a quick connection port for pneumatic water pipes for water supply and Backwater.

The decorative board body (Fig. 1 (001)) is composed of several independent decorative boards (Fig. 2 (102)); the several independent decorative boards are spliced and connected, and the independent decorative boards are composed of (Fig. 2 (103)) and a tank edge strip (Fig. 3 (109)); the main structure (Fig. 2 (103)) is a circular hollow tube distributed horizontally in the middle (Fig. 3 (110) ) of solid heat-conducting material; the sidewall of the sink (Fig. 3 (109)) is located on the two opposite sides of the main structure (Fig. 2 (103)), so that the body of the decorative plate forms a closed combined structure of water flow as shown in the figure 3 As shown in the overall structure, but there is a quick connection port of the pneumatic water pipe (at the position of (107) (108) in Figure 3) for water supply and return.

The semiconductor electronic module (Figure 4 (201) (202)) is sealed by an insulating metal heat conducting sheet, located between the cooling water tank and the heating water tank, and connected to the control module (Figure 1 (003)) in the LC compound isolator (Figure 6 (306)).

The cooling and heating water tank (Fig. 1 (002)) includes a cooling water tank (Fig. 4 (203)), a heating water tank (Fig. 4 (204)), a water outlet tee module A1 (Fig. 4 (206)) and Backwater tee module B1 (Fig. 4 (214)); the periphery of the cooling and heating water tank is wrapped with a complete thermal insulation layer (as shown in Fig. 4 (219)); 203)) and the middle position of the heating water tank (Fig. 4 (204)), the semiconductor electronic module (Fig. 4 (201) (202)) sealed by the insulating metal heat conducting sheet is installed; the cooling water tank and the heating Each water tank has a direct connection water port (Fig. 4 (217) (215)), and the two direct connection water ports (Fig. 4 (217) (215)) are passed through a small booster pump (Fig. 4 (216)) The thin water pipe (Fig. 4 (218)) is connected; the side of the refrigerated water tank (Fig. 4 (203)) has a refrigerated water outlet (Fig. 4 (220)) and a refrigerated water return port (Fig. 4 (210)), The side of the heating water tank (Fig. 4 (204)) has a heating water outlet (Fig. 4 (205)) and a heating water return port (Fig. 4 (211)), and the cooling water outlet (Fig. Fig. 4 (220)) connects the synchronous electromagnetic water valve A1 (Fig. 4 (207)) of the water outlet tee module A1 (Fig. 4 (206)) through the water pipe, and the heating water outlet (Fig. 4 (206)) 205)) connect the synchronous electromagnetic water valve B1 (Figure 4 (209)) of the return water tee module B1 (Figure 4 (214)) through water pipes, and the cooling water return port (Figure 4 (210)) The synchronous electromagnetic water valve B2 (Fig. 4 (213)) of the return water tee module is connected through the water pipe, and the heating water return port (Fig. 4 (211)) is connected to the return water three-way through the return pipe. The synchronous electromagnetic water valve A2 (Figure 4 (212)) of the pass module, the water outlet three-way module A1 (Figure 4 (206)) is connected to the circulating water pump (Figure 4 (208)), and the return water The three-way module B1 (Figure 4 (214)) is connected to the quick connection port of the backwater pneumatic water pipe of the decorative plate body (Figure 3 (108) near the plate) through the return pipe (Figure 2 (108)).

The circulating water pump (Figure 4 (208)) is connected to the water supply pneumatic water pipe quick connection port of the decorative plate body (Figure 3 (107)) through the water supply pipe (Figure 2 (107)), and the water supply pipe is connected to the The water outlet tee module A1 (Fig. 4 (206)) is connected to the LC compound isolator in the control module (Fig. 6 (306)) through a wired circuit.

The control module (Fig. 1 (003)) includes a human-computer interaction interface as shown in Fig. 5, a human-computer interaction interface circuit drive module (Fig. 6 (301)), a temperature control sensing module (Fig. 6 (305)) . The human-computer interaction interface includes operating instructions pasted on the surface, an ITO material touch screen, a liquid crystal display, and a number of mechanical buttons as shown in Figure 5, the ITO material touch screen (Figure 6 (302)), the liquid crystal display (Figure 6 (303)) and a number of mechanical keys (Figure 6 (304)), connected to the circuit drive module of the human-computer interaction interface (Figure 6 (301)) by wire, the implementation of the circuit drive module can be Select the on-chip programmable system chip, which can realize the front-end analog drive circuit of the ITO material touch screen, liquid crystal display, and several mechanical keys in the chip, saving material costs. The circuit drive module (Figure 6 (301)) is wired Connect the temperature control sensing module (Figure 6 (305)), the temperature control sensing module includes a temperature sensing chip, the temperature sensing chip is selected from the industry's ultra-low power consumption microprocessor, embedded with a temperature sensor, also as the The above synchronous solenoid valves, small booster pumps and the controllers of the semiconductor electronic modules are connected to each synchronous solenoid valves and small booster pumps in a wired manner through the LC compound isolator (Figure 6 (306)). and the semiconductor electronic module described above transmit control signals, and the LC compound isolator uses a capacitive inductive compound isolator, which can ensure the separation of strong and weak currents of the system and improve the safety of system operation.

The product of the present invention is composed of two water tanks, a cooling water tank and a heating water tank (Fig. 4 (203) (204)), and a semiconductor electronic module sealed by an insulating metal sheet is installed in the middle of the water tank (Fig. 4 (201) (202) )), the water outlet tee module A1 (Fig. 4 (206)) and the return water tee module B1 (Fig. 4 (214)) are installed outside the water tank, the synchronous electromagnetic water valve A1 (Fig. 4 (207)), and the synchronous electromagnetic water valve valve B1 (209)), synchronous solenoid water valve A2 (212)), synchronous solenoid water valve B2 (213)). For the decorative panel body, no waterproof hose is inserted inside, and the water supply pipe (Fig. 2 (107)) and the quick connection port of the water supply pneumatic water pipe (Fig. 3 (107)) are directly connected to the water tank edge strip (Fig. 3 (109)) Connection, when we use the control module (Figure 1 (003) to turn on the refrigeration command, the semiconductor (Figure 4 (201) (201)) starts to start, the two water tanks are cold water and hot water respectively, when the water temperature sensing device, The temperature control sensing module (Fig. 6 (305)) located in the control module, when the induction water temperature cooling temperature reaches the set temperature, the circulating water pump is automatically started to draw out the water in the cooling water tank (the water temperature can be set in the control module), and the pop-up Open the synchronous electromagnetic water valve A1 (Fig. 4 (207)) of the water three-way module, and begin to deliver the water of the semiconductor refrigeration water tank into the water supply pipe (Fig. 2 (107), through the quick connection port of the water supply pneumatic water pipe (Fig. The connection of the interface of the sink edge strip (Figure 3 (109)), the water source directly flows to the circular hollow tube inside the decorative plate (Figure 3 (110)), so that the water source is directly poured into a row of hollow holes, and there is a sink edge at the same time The strip (Figure 3 (109)) ensures that the upper and lower ends of the edge strip do not seep water, and the airtightness is good. Each board is connected to another board by splicing. Figure 3 (106)), the pneumatic quick connectors at both ends are directly inserted into two adjacent water holes, so that the water source can be unblocked in the decorative plate tube, and the second decorative plate is introduced, and the last decorative plate is introduced in sequence in the same way, and the return pipe ( Figure 2 (108)) is the same as the connection method between the water inlet pipe and the plate, and the return pipe is connected to the return water tee module B1 (Figure 4 (214)), and the cooling command will also start the synchronous electromagnetic water valve B2 ( Figure 4 (213)), the recovery corresponds to the water tank. The scientific combination of the whole device has the characteristics of intelligent temperature sensing control and long-term work. In different seasons, we start different commands, and the product of the present invention will automatically switch functions, giving Home life brings health and comfort.

Claims (6)

1. A refrigerating and heating dalle comprises a dalle body, a semiconductor module, a refrigerating and heating water tank, a circulating water pump, a water outlet three-way module, a water return three-way module and a control module, wherein the dalle body is connected with the circulating water pump through a water supply pipe and is connected with the refrigerating and heating water tank through a water return pipe and the water return three-way module, the circulating water pump is connected with the refrigerating and heating water tank through the water outlet three-way module, the semiconductor module is positioned in the refrigerating and heating water tank, the semiconductor module, the refrigerating and heating water tank, the circulating water pump, the water outlet three-way module and the water return three-way module are connected with the control module in a wired circuit mode, the control module is positioned on an upper side cover plate of the refrigerating and heating water tank, the refrigerating and heating water tank comprises a refrigerating water tank, a heating water tank and a semiconductor electronic module sealed by an insulating metal sheet, the refrigeration and heating water tank is wrapped by a complete heat insulation layer, the refrigeration water tank and the heating water tank are respectively provided with a direct connection water port, the two direct connection water ports are connected with a thin water pipe through a small booster pump, the side surface of the refrigeration water tank is provided with a refrigeration water outlet and a refrigeration water return port, the side surface of the heating water tank is provided with a heating water outlet and a heating water return port, the refrigeration water outlet is connected with a synchronous electromagnetic water valve A1 of the water outlet three-way module through a water pipe, the heating water outlet is connected with a synchronous electromagnetic water valve B1 of the water outlet three-way module through a water pipe, the refrigeration water return port is connected with a synchronous electromagnetic water valve B2 of the backwater three-way module through a water pipe, the heating water return port is connected with a synchronous electromagnetic water valve A2 of the backwater three-way module through a water pipe, and the water outlet three-way module is connected with the circulating water pump, the backwater three-way module is connected with the backwater pneumatic water pipe quick connector of the decorative plate body through a backwater pipe.

2. A refrigerated and warm decorative panel as claimed in claim 1, characterized in that: the decorative plate body structure is prepared by mixing microcrystalline powder and plastic particles in proportion and extruding, cooling and molding through a mold, and has good heat conduction and cold conduction properties, and the cross section of the decorative plate body structure is a circular hole structure.

3. A refrigerated and warm decorative panel as claimed in claim 1, characterized in that: the decorative plate body comprises a decorative plate, a main structure and a water tank edge blocking strip, wherein the main structure is a solid heat conduction material of a plurality of horizontally-arranged circular hollow pipes distributed in the middle, the water tank edge blocking strip is positioned on two opposite sides of the main structure, so that the decorative plate body is of a closed combined structure for water, and a quick pneumatic water pipe connecting port is reserved for water supply and water return.

4. A refrigerated and warm decorative panel as claimed in claim 1, characterized in that: the semiconductor electronic module is sealed by an insulated metal heat conducting sheet, is positioned between the refrigerating water tank and the heating water tank, and is connected with the LC compound isolator in the control module in a wired circuit mode.

5. A refrigerated and warm decorative panel as claimed in claim 1, characterized in that: the circulating water pump is connected with a water supply pneumatic water pipe quick connector of the decorative plate body through a water supply pipe, is connected with the water outlet three-way module through a water pipe, and is connected with the LC compound isolator in the control module in a wired circuit mode.

6. A refrigerated and warm decorative panel as claimed in claim 1, characterized in that: the control module comprises a human-computer interaction interface, a human-computer interaction interface circuit driving module and a temperature control induction module, wherein the human-computer interaction interface comprises an operation specification pasted on the surface, an ITO (indium tin oxide) material touch screen, a liquid crystal display screen and a plurality of mechanical keys, the ITO material touch screen, the liquid crystal display screen and the plurality of mechanical keys are connected with the circuit driving module of the human-computer interaction interface in a wired mode, the circuit driving module is connected with the temperature control induction module in a wired mode, the temperature control induction module comprises a temperature induction chip, and the temperature control induction module is connected with the circulating water pump, each path of synchronous electromagnetic water valves, the small booster pump and the semiconductor module in a wired mode through an LC (liquid crystal) duplex isolator.