CN216143810U - High integrated waterway system - Google Patents

Abstract

The utility model aims to provide a high-integration water path system which has simple structure, convenient disassembly, assembly and maintenance and high safety coefficient and can effectively prevent misoperation. The water supply device comprises a water inlet mechanism, a water outlet mechanism and a heat exchanger, wherein the water inlet mechanism is communicated with the water outlet mechanism through the heat exchanger, the water outlet mechanism comprises a valve body control assembly and a water supplementing assembly, and the valve body control assembly is connected with the water supplementing assembly through a sleeve and a clamp spring. The utility model is applied to the technical field of pipeline structures.

Description

High integrated waterway system

Technical Field

The utility model relates to the technical field of pipeline structures, in particular to a high-integration water pipeline system.

Background

The wall-mounted boiler is a water heater using natural gas as energy, and has multiple safety protection measures such as anti-freezing protection, dry burning prevention protection, accidental flameout protection, over-high temperature protection, power water pump anti-blocking protection and the like. The wall-mounted stove has a strong household central heating function, so that the wall-mounted stove is widely applied.

In decades of the advent of wall-mounted boilers and the introduction of the commercial era, wall-mounted boilers with various structural properties have emerged in the heating and ventilating product markets of various countries including china, wherein the existing wall-mounted boilers can be classified into a single-function type and a heating and bathing dual-purpose type according to their purposes. Because the function of the dual-purpose type hanging stove of heating and bathing is more comprehensive, applied also more, but because of the technical limitation, the inside waterway system of the dual-purpose type hanging stove of current heating adopts mechanical valve, it is difficult to get through the pipeline to there is not provided with the relief valve, when overhauing the operation, need the medium in the evacuation pipeline, the maloperation appears easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects of the prior art and provides a high-integration water path system which is simple in structure, convenient to disassemble, assemble and maintain, high in safety coefficient and capable of effectively preventing misoperation.

The technical scheme adopted by the utility model is as follows: the water supply device comprises a water inlet mechanism, a water outlet mechanism and a heat exchanger, wherein the water inlet mechanism is communicated with the water outlet mechanism through the heat exchanger, the water outlet mechanism comprises a valve body control assembly and a water supplementing assembly, and the valve body control assembly is connected with the water supplementing assembly through a sleeve and a clamp spring.

Furthermore, the water inlet mechanism comprises a power water pump, a first pipeline body, a heating water output chamber and a bathroom input chamber, the heating water output chamber and the bathroom input chamber are both arranged in the first pipeline body, and the power water pump is communicated with the heating water output chamber.

Further, bathroom input cavity has bathroom water input interface, bathroom input cavity room is connected with filtering component, flow sensing subassembly and extension cavity, the delivery outlet of extension cavity with the heat exchanger treat the heating pipeline and connect, heating water output cavity with the high temperature pipeline of heat exchanger is connected, the line between the input port of high temperature pipeline and the delivery outlet with treat that the line between the input port of heating pipeline and the delivery outlet parallels, filtering component locates flow sensing component with between the bathroom water input interface and filtering component with bathroom water input interface is linked together.

Further, the flow response subassembly includes connector, rivers rotor subassembly, steady current subassembly and hall element, the connector is connected on the first pipeline body, steady current subassembly reaches hall element all with the rivers rotor subassembly is connected, the rivers rotor subassembly with steady current subassembly all sets up inside the bathroom input cavity, hall element sets up on the connector, the extension cavity with the output intercommunication of flow response subassembly.

Further, the moisturizing subassembly with valve body control assembly constitutes the second pipeline body, this internal tee bend cavity and the bathroom of being equipped with of second pipeline goes out the water cavity, the tee bend cavity is including the heating water interface of intaking, heating water interface and the heat transfer passageway of going out that are linked together, valve body control assembly is used for control heating water interface with heating water interface of going out or intercommunication between the heat transfer passageway switches, the input port of bathroom goes out the water cavity with treat the delivery outlet intercommunication of heating pipeline, the delivery outlet of bathroom goes out the water cavity is provided with bathroom output interface.

Further, valve body control assembly includes driving motor, first closed piston and second closed piston, first closed piston with the second closed piston all sets up driving motor's activity is served, first closed piston is opened or is sealed heating water inlet interface with intercommunication mouth between the heat transfer passageway, the second closed piston is opened or is sealed heating water inlet interface with intercommunication mouth between the heating water outlet interface.

Furthermore, the bathroom water outlet cavity is communicated with the heat exchange channel through a supplement cavity, a hand-push piston matched with the supplement cavity is arranged on the second pipeline body in a sliding mode, a one-way valve is arranged in the supplement cavity, and the output end of the one-way valve is communicated with the heat exchange channel.

Furthermore, an automatic water replenishing valve is arranged between the replenishing cavity and the heat exchange channel (17).

Furthermore, a temperature sensor matched with the bathroom water outlet cavity is further arranged on the second pipeline body.

Further, a safety pressure relief valve communicated with the heat exchange channel is further arranged on the second pipeline body.

The utility model has the following beneficial effects:

1. the disassembly and the assembly are convenient, and all parts of all integrated waterway systems can be maintained conveniently;

2. the problem that the valve is difficult to open due to medium pressure is effectively solved;

3. the installation can be fast, and the space utilization rate is improved;

4. and a safety relief valve is arranged, so that the safety factor is high.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a cross-sectional view of the first conduit body from a first perspective;

FIG. 3 is a cross-sectional view of the first conduit body from a second perspective;

FIG. 4 is a cross-sectional view of the water outlet assembly from a first perspective;

fig. 5 is a cross-sectional view of the water outlet assembly from a second perspective.

Detailed Description

As shown in fig. 1 to 5, in this embodiment, the present invention includes a water inlet mechanism, a water outlet mechanism and a heat exchanger 1, the water inlet mechanism and the water outlet mechanism are communicated through the heat exchanger 1, the water outlet mechanism includes a valve body control assembly 2 and a water supplement assembly 3, the valve body control assembly 2 is connected with the water supplement assembly 3 through a sleeve 4 and a clamp spring 5; the water inlet mechanism comprises a power water pump 6, a first pipeline body 7, a heating water output chamber 25 and a bathroom input chamber 8, the heating water output chamber 25 and the bathroom input chamber 8 are arranged in the first pipeline body 7, and the power water pump 6 is communicated with the heating water output chamber 25.

According to the scheme, the valve body control assembly 2 and the water replenishing assembly 3 are assembled together through the sleeve 4 and the clamp spring 5, so that parts are more convenient to overhaul and replace; through setting up power water pump 6 drives the heating water entering carry out the heat exchange with bathroom water in the heat exchanger 1, effectively heat domestic water, in addition through right power of the last power water pump 6 of mechanism of intaking controls, can change the velocity of flow adjustment heating efficiency of heating water. Through first pipeline body 7 realizes highly integrated with a plurality of interfaces, reduces waterway structure's volume, realizes quick installation, improves space utilization.

One preferred scheme is that the bathroom input chamber 8 is provided with a bathroom water input interface 9, the bathroom input chamber is connected with a filtering assembly 10, a flow sensing assembly 11 and an extension chamber 12, an output port of the extension chamber 12 is connected with a pipeline to be heated of the heat exchanger 1, the heating water output chamber 25 is connected with a high-temperature pipeline of the heat exchanger 1, a connecting line between an input port and an output port of the high-temperature pipeline is parallel to a connecting line between an input port and an output port of the pipeline to be heated, the filtering assembly 10 is arranged between the flow sensing assembly 11 and the bathroom water input interface 9, and the filtering assembly 10 is communicated with the bathroom water input interface 9; the flow sensing assembly 11 comprises a connector, a water flow rotor assembly, a current stabilizing assembly and a Hall element, wherein the connector is connected to the first pipeline body 7, the current stabilizing assembly reaches the Hall element and is connected to the water flow rotor assembly, the water flow rotor assembly and the current stabilizing assembly are arranged inside the bathroom input cavity 8, the Hall element is arranged on the connector, and the extension cavity 12 is communicated with the output end of the flow sensing assembly 11.

According to the scheme, as the sanitary water input interface 9 inputs domestic water, the domestic water passes through the filtering assembly 10 and the flow sensing assembly 11 and then enters the pipeline to be heated of the heat exchanger 1 to be heated. The filtering assembly 10 filters impurities, and the flow sensor assembly monitors the flow rate of the sanitary water. In addition, the distance between the flow sensing assembly 11 and the input port of the pipeline to be heated is prolonged by arranging the extension pipeline, and then sufficient installation space is provided for the flow sensing assembly 11.

One preferred scheme is, moisturizing subassembly 3 with valve body control assembly 2 constitutes second pipeline body 13, be equipped with tee bend cavity and bathroom in the second pipeline body 13 and go out water cavity 14, tee bend cavity is including the heating water interface of intaking 15, heating water interface of going out 16 and the heat transfer passageway 17 that are linked together, valve body control assembly 2 is used for controlling heating water interface of intaking 15 with heating water interface of going out 16 or the intercommunication between the heat transfer passageway 17 switches, bathroom go out water cavity 14's input port with treat the delivery outlet intercommunication of heating pipeline, bathroom goes out water cavity 14's delivery outlet and is provided with bathroom output interface 18.

According to the scheme, the three-way cavity is matched with the valve body control assembly 2 to output heating water from two different output channels, the heating water outlet port 16 is used for directly outputting the heating water back to a heating water loop when the heating water is not needed to be heated in a bathroom, the heat exchange channel 17 is communicated with the high-temperature pipeline of the heat exchanger 1, and the heat is transferred to the pipeline to be heated in the heat exchanger 1 to heat the bathroom water. The bathroom water outlet chamber 14 is used for outputting heated domestic water.

One preferred scheme is, valve body control assembly 2 includes driving motor, first closed piston and second closed piston, first closed piston with the second closed piston all sets up driving motor's activity is served, first closed piston is opened or is sealed heating water intake interface 15 with communication port between heat transfer passage 17, the second closed piston is opened or is sealed heating water intake interface 15 with communication port between heating water outlet 16.

According to the scheme, the first closed piston and the second closed piston which act synchronously control the heating water output channel, so that the communication port between the heating water inlet interface 15 and the heating water outlet interface 16 can be opened while the communication port between the heating water inlet interface 15 and the heat exchange channel 17 is closed, and then the heating water is output to the heating water loop; when the communication port between the heating water inlet port 15 and the heat exchange channel 17 is opened, the communication port between the heating water inlet port 15 and the heating water outlet port 16 is closed, so that heating water is input into the heat exchange channel 17 to heat the bathroom water; two communication ports can also be opened simultaneously. Heating water outlet port 16 through one-way backward flow subassembly with heat transfer passageway 17 intercommunication, one-way backward flow subassembly is including connecting pipe fitting, shutoff piece, link and reset spring, the input of connecting the pipe fitting with heating water output interface connection, the output of connecting the pipe fitting with heating passageway connects, the link is fixed to be set up in the connecting pipe fitting, the shutoff piece with opening on the link cooperatees, reset spring sets up the shutoff piece is close to the one side of the output of connecting the pipe fitting, reset spring's the other end with the spacing cooperation of link. When the valve body is closed or is closed to lead to that the heating water velocity of flow is too slow in the heating water return circuit that heating water outlet port 16 connects, for preventing that the heater from making this part of water temperature too high vaporization increase pressure to local heating water superheating, through setting up the one-way backward flow subassembly makes the heating water that heating water inlet port 15 got into passes through automatically when water pressure reachs certain limit the one-way backward flow subassembly gets into in the heat transfer passage 17, and then makes the heating water pass through in power water pump 6 flows back to the return circuit, the heating water velocity of flow of heater part is accelerated, prevents to appear the safety problem.

Preferably, as shown in fig. 1, the bathroom water outlet chamber 14 is communicated with the heat exchange channel 17 through a supplementary chamber 19, a hand-push piston 20 matched with the supplementary chamber 19 is slidably disposed on the second pipe body 13, a check valve 21 is disposed in the supplementary chamber 19, and an output end of the check valve 21 is communicated with the heat exchange channel 17; as shown in fig. 1, an automatic water replenishing valve 22 is further disposed between the replenishing chamber 19 and the heat exchange channel (17); the second pipeline body 13 is also provided with a temperature sensor 23 matched with the bathroom water outlet cavity 14; and a safety pressure relief valve 24 communicated with the heat exchange channel 17 is further arranged on the second pipeline body 13.

According to the scheme, the supplement chamber 19 is arranged to communicate the bathroom water supply loop with the heat exchange channel 17 when heating water needs to be supplemented, and therefore bathroom water supply enters the heat exchange channel 17 through the one-way valve 21 under the action of water pressure. The heating water cannot flow back to the domestic water part by providing the check valve 21. The hand-push piston 20 is manually controlled to be inserted into or pulled out of the supplementary chamber 19, so that whether the supplementary chamber 19 is communicated with the bathroom water outlet cavity 14 or not is controlled. The heating water is supplemented according to the requirement by arranging the water supplementing assembly 3; the automatic water replenishing valve 22 is arranged to communicate with a heating system, so that the valve is opened when water is required to be replenished, and the replenishing cavity 19 is communicated with the heat exchange channel 17 to replenish water; the temperature sensor 23 is arranged to detect the temperature of the heated domestic water; the safety relief valve 24 is arranged to automatically discharge heating water from a valve port when the pressure in the pipeline is too high, so that the operations of preventing the pressure in the pipeline from being too high, manually discharging the heating water and the like are prevented.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims (10)

1. A highly integrated waterway system, characterized in that: it includes water inlet mechanism, water outlet mechanism and heat exchanger (1), water inlet mechanism with water outlet mechanism passes through heat exchanger (1) is linked together, water outlet mechanism includes valve body control assembly (2) and moisturizing subassembly (3), valve body control assembly (2) through sleeve pipe (4) and jump ring (5) with moisturizing subassembly (3) are connected.

2. The highly integrated waterway system of claim 1, wherein: the water inlet mechanism comprises a power water pump (6), a first pipeline body (7), a heating water output chamber (25) and a bathroom input chamber (8), the heating water output chamber (25) and the bathroom input chamber (8) are arranged in the first pipeline body (7), and the power water pump (6) is communicated with the heating water output chamber (25).

3. The highly integrated waterway system of claim 2, wherein: bathroom input cavity (8) has bathroom water input interface (9), bathroom input cavity room is connected with filtering component (10), flow induction subassembly (11) and extension cavity (12), the delivery outlet of extension cavity (12) with heat exchanger (1) treat that the heated tube connects, heating water output cavity (25) with the high temperature pipeline of heat exchanger (1) is connected, line between the input port of high temperature pipeline and the delivery outlet with treat that the line between the input port of heated tube and the delivery outlet parallels, filtering component (10) are located flow induction subassembly (11) with between bathroom water input interface (9) and filtering component (10) with bathroom water input interface (9) are linked together.

4. The highly integrated waterway system of claim 3, wherein: flow response subassembly (11) are including connector, rivers rotor subassembly, steady flow assembly and hall element, the connector is connected on first pipeline body (7), steady flow assembly reaches hall element all with the rivers rotor subassembly is connected, the rivers rotor subassembly with steady flow assembly all sets up inside bathroom input cavity (8), hall element sets up on the connector, extension cavity (12) with the output intercommunication of flow response subassembly (11).

5. The highly integrated waterway system of claim 3, wherein: moisturizing subassembly (3) with valve body control assembly (2) constitute second pipeline body (13), be equipped with tee bend cavity and bathroom in second pipeline body (13) and go out water cavity (14), the tee bend cavity is including the heating water that is linked together intake interface (15), heating water play water interface (16) and heat transfer passageway (17), valve body control assembly (2) are used for controlling heating water intake interface (15) with heating water goes out water interface (16) or intercommunication between heat transfer passageway (17) is switched, the input port of bathroom play water cavity (14) with treat the delivery outlet intercommunication of heating pipeline, the delivery outlet of bathroom play water cavity (14) is provided with bathroom output interface (18).

6. The highly integrated waterway system of claim 5, wherein: valve body control module (2) includes driving motor, first closed piston and second closed piston, first closed piston with the second closed piston all sets up driving motor's activity is served, first closed piston is opened or is sealed heating water intake interface (15) with intercommunication mouth between heat transfer passageway (17), the second closed piston is opened or is sealed heating water intake interface (15) with intercommunication mouth between heating water outlet interface (16).

7. The highly integrated waterway system of claim 5, wherein: bathroom goes out water cavity (14) through supplementary cavity (19) with heat transfer passageway (17) intercommunication, sliding on second pipeline body (13) be provided with supplementary cavity (19) complex hand push piston (20), be provided with check valve (21) in supplementary cavity (19), the output of check valve (21) with heat transfer passageway (17) intercommunication.

8. The highly integrated waterway system of claim 7, wherein: an automatic water replenishing valve (22) is further arranged between the replenishing cavity (19) and the heat exchange channel (17).

9. The highly integrated waterway system of claim 5, wherein: the second pipeline body (13) is further provided with a temperature sensor (23) matched with the bathroom water outlet cavity (14).

10. The highly integrated waterway system of claim 5, wherein: and the second pipeline body (13) is also provided with a safety pressure relief valve (24) communicated with the heat exchange channel (17).

Images