CN106979612B

CN106979612B - Wall-mounted stove

Info

Publication number: CN106979612B
Application number: CN201710295301.5A
Authority: CN
Inventors: 卢楚鹏; 梁展程
Original assignee: Guangdong Wanhe Thermal Energy Technology Co Ltd
Current assignee: Guangdong Wanhe Thermal Energy Technology Co Ltd
Priority date: 2017-04-28
Filing date: 2017-04-28
Publication date: 2022-12-20
Anticipated expiration: 2037-04-28
Also published as: CN106979612A

Abstract

The invention relates to a wall-mounted furnace. The wall-mounted furnace comprises a water inlet device, a plate type heat exchanger, a water pump, a main machine heat exchanger, an integrated water path and a channel switching device; the integrated water channel comprises a heating hot water pipeline and a heating water return pipeline, the heating water return pipeline is fixedly connected with the heating hot water pipeline, and the heating water return pipeline comprises at least three interfaces; the channel switching device is fixedly arranged on the heating hot water pipeline and is used for sealing the water outlet interface of the heating hot water pipeline; the water inlet device is communicated with the plate heat exchanger, one water outlet port of the heating hot water pipeline is used for being connected with a water inlet of the radiator, and a water inlet of the machine main heat exchanger is connected with a water outlet of the water pump; this hanging stove function is diversified, and integrated water route will be heated hot water pipeline and heating return water pipe and integrated together, can save space, realization bathroom and heating that can be fine.

Description

Wall-mounted stove

Technical Field

The invention relates to the field of household heating equipment, in particular to a wall-mounted furnace.

Background

The wall-mounted furnace is used for bathroom and heating, and circulating water in a heating system is subjected to reciprocating heating in the circulating process, so that heat is continuously output to a building, and a heat source is provided for the building. In the bathroom system, the sanitary water can provide hot water after heat exchange. The conventional hanging stove need set up bathroom water inlet and bathroom delivery port in the heat exchanger both sides when laying the pipeline, also need set up in the heat exchanger both sides after heating water inlet and the heating play water, if pipeline bathroom water inlet and the delivery port homonymy of laying in advance, heating water inlet and delivery port homonymy then cross connection's the condition can appear. The phenomenon that parts or structures are overlapped often appears in the use of conventional hanging stove in the use, and the space that needs is great.

Disclosure of Invention

The invention aims to provide a wall-mounted furnace which is small in required space, high in integration level and easy to assemble and disassemble.

The technical scheme adopted by the invention is as follows: the wall-mounted furnace comprises a water inlet device, a plate type heat exchanger, a water pump, a machine main heat exchanger, an integrated water path and a channel switching device;

the integrated water channel comprises a heating hot water pipeline and a heating water return pipeline, the heating water return pipeline and the heating hot water pipeline are integrally formed, the heating water return pipeline comprises at least three interfaces, the first interface of the heating water return pipeline is connected with a water outlet of a plate heat exchanger radiator, the second interface of the heating water return pipeline is connected with a water inlet of a water pump, the third interface of the heating water return pipeline is used for being connected with a water outlet of the radiator, the heating hot water pipeline comprises at least one water inlet interface and at least two water outlet interfaces, and the water inlet interface and the water outlet interface of the heating hot water pipeline are communicated;

the channel switching device is fixedly arranged on the heating hot water pipeline and is used for switching channels so that the water inlet of the heating hot water pipeline is communicated with the water outlet interface respectively;

the water inlet device is communicated with the plate heat exchanger, one water outlet interface of the heating hot water pipeline is used for being connected with a water inlet of the radiator, a water inlet of the machine main heat exchanger is connected with a water outlet of the water pump, and a water outlet of the machine main heat exchanger is connected with a water inlet interface of the heating hot water pipeline.

Compared with the background technology, the wall-mounted furnace has the following beneficial effects: the wall-mounted furnace realizes a bathroom mode and a heating mode through mutual cooperation of the integrated waterway, the channel switching device, the water inlet device, the plate heat exchanger, the water pump and the main machine heat exchanger, sanitary water enters the plate heat exchanger from the water inlet device to be discharged after heat exchange in the bathroom mode, and when the sanitary water enters, the channel switching device works to enable the integrated waterway, the plate heat exchanger, the water pump and the main machine heat exchanger to be communicated and to circulate; when in a heating mode, sanitary water does not enter, the channel switching device works to enable the integrated water channel, the water pump, the main machine heat exchanger and the radiator to be communicated and circulated, and the channel switching device is used for adjusting the integrated water channel to realize diversified functions; meanwhile, the integrated water channel integrates a heating hot water pipeline and a heating water return pipeline together, so that the space can be saved, and bathroom and heating can be well realized.

In one embodiment, the integrated water channel further comprises a sanitary water outlet pipeline and a sanitary water inlet pipeline, the sanitary water outlet pipeline and the sanitary water inlet pipeline are respectively and integrally formed with the heating hot water pipeline, the sanitary water outlet pipeline is connected with the plate heat exchanger, and two ends of the sanitary water inlet pipeline are respectively connected with the water inlet device and the plate heat exchanger. The integrated water route is with heating hot water pipeline, heating return water pipeline, health outlet pipe and health inlet pipe integration together, can be better save installation space, reduce the installation degree of difficulty, the part easy dismouting is easy to be dismantled, can not appear blocking part or structure overlapping phenomenon, the maintenance of being convenient for.

In one embodiment, the heating water return pipeline and the sanitary water inlet pipeline are located on the same side of the heating hot water pipeline, the sanitary water outlet pipeline is located on one side, far away from the heating water return pipeline and the sanitary water inlet pipeline, of the heating hot water pipeline, and the sanitary water outlet pipeline and the water inlet of the water inlet device are located on the same side. The heating hot water pipeline, the heating water return pipeline, the sanitary water outlet pipeline and the sanitary water inlet pipeline which are reasonably arranged can adapt to the condition that the sanitary water inlet and the sanitary water outlet are on the same side, and the condition that the heating water inlet and the heating water outlet are on the same side accords with the use habit through the arrangement.

In one embodiment, the sanitary water outlet pipe comprises a third pipe body, a third water inlet port and a fourth water outlet port, the third water inlet port and the fourth water outlet port are fixedly arranged on the third pipe body and are communicated with the third pipe body, and the third water inlet port is connected with the plate heat exchanger. The sanitary water outlet pipeline integrates the third pipeline bodies, the third water inlet interfaces and the fourth water outlet interfaces together, so that the installation space can be saved, and meanwhile, the sanitary water outlet pipeline can be installed well.

In one embodiment, a water outlet connector is arranged on the fourth water outlet connector and is used for being connected with a water outlet valve, the integrated waterway further includes a water supplementing pipeline, the water supplementing pipeline includes a fifth pipeline body, a fifth water inlet connector and a sixth water outlet connector, the fifth water inlet connector and the sixth water outlet connector are fixedly arranged on the fifth pipeline body and are communicated with the fifth pipeline body, the fifth water inlet connector is fixedly connected with the third pipeline body and is communicated with the third pipeline body, the sixth water outlet connector is fixedly connected with the heating hot water pipeline and is communicated with a channel formed by the water inlet connector and the water outlet connector of the heating hot water pipeline, a water supplementing valve is arranged on the fifth pipeline body, and the water supplementing valve can enable the fifth water inlet connector and the sixth water outlet connector to be communicated or cut off. The water replenishing pipeline is added on the integrated water channel, so that sanitary water can be introduced into the heating hot water pipeline through the sanitary water outlet pipeline, water can be replenished in time according to needs, and the use is more convenient.

In one embodiment, the sanitary water inlet pipe comprises a fourth pipe body, a fourth water inlet port and a fifth water outlet port, the fourth water inlet port and the fifth water outlet port are fixedly arranged on the fourth pipe body and are communicated with the fourth pipe body, the fourth water inlet port is connected with a water inlet device, and the fifth water outlet port is connected with the plate heat exchanger. The sanitary water inlet pipeline integrates the fourth pipeline body, the fourth water inlet interface and the fifth water outlet interface together, so that the installation space can be saved, and meanwhile, the installation is convenient.

In one embodiment, the heating hot water pipeline comprises a first pipeline body, a first water inlet interface, a first water outlet interface and a second water outlet interface, wherein the first water inlet interface, the first water outlet interface and the second water outlet interface are fixedly arranged on the first pipeline body and are communicated with the first pipeline body, the channel switching device is fixedly arranged on the first pipeline body and is used for enabling the first water inlet interface to be communicated with the first water outlet interface or enabling the first water inlet interface to be communicated with the second water outlet interface, the first water inlet interface is connected with the main machine heat exchanger, the first water outlet interface is connected with the plate heat exchanger, and the second water outlet interface is used for being connected with a water inlet of the radiator. The heating hot water pipeline realizes independent communication of the two channels through the channel switching device, can be regulated and controlled, and is convenient to control.

In one embodiment, a heating water inlet pipe is fixedly arranged on the first water inlet connector, and the heating water inlet pipe is connected with a main heat exchanger of the machine. The heating carries out the setting of water pipe can be that the piping erection is more convenient, improves the installation effectiveness.

In one embodiment, the heating hot water pipeline further comprises a built-in bypass, the heating hot water pipeline further comprises two connecting interfaces, one connecting interface is arranged on a water supply channel formed by the first water inlet interface and the first water outlet interface, the other connecting interface is arranged on a water supply channel formed by the first water inlet interface and the second water outlet interface, and two ends of the built-in bypass are respectively connected with the connecting interfaces. Through the built-in bypass, when the heating channel is blocked, heating water forms certain water pressure, the sealing device in the built-in bypass is pushed to enter the adjacent channel, and safety accidents caused by overlarge pressure are avoided.

In one embodiment, the heating hot water pipeline further comprises a detection interface, the detection interface is fixedly arranged on a water supply channel formed by the first water inlet interface and the second water outlet interface, and a water pressure sensor is arranged on the detection interface. The water pressure sensor can transmit water pressure to the controller, monitor internal pressure and ensure safety.

In one embodiment, the heating hot water pipeline further comprises a pressure relief interface, the pressure relief interface is fixedly arranged on a water supply channel formed by the first water inlet interface and the second water outlet interface, and a pressure relief valve is arranged on the pressure relief interface. The pressure relief can be carried out by arranging the pressure relief interface and the pressure relief valve, so that overlarge pressure is avoided, and the safety is ensured.

In one embodiment, the heating hot water pipeline further comprises a first mounting interface, and the channel switching device is fixedly arranged on the first mounting interface. Set up first installation interface and be used for installing channel auto-change over device on heating hot water pipeline, it is more convenient to make the installation, and it is more convenient to change, just can realize the control to channel auto-change over device through external controlling means simultaneously.

In one embodiment, the channel switching device is an electromagnetic three-way valve. The electromagnetic three-way valve can quickly realize channel conversion, and has good operation stability and low cost.

In one embodiment, the water inlet device comprises a sanitary water inlet valve group, a water flow sensor, a sanitary water inlet pipe and a water inlet joint, at least three interfaces are arranged on the sanitary water inlet valve group, the first interface of the sanitary water inlet valve group is connected with the water flow sensor, the second interface of the sanitary water inlet valve group is connected with the sanitary water inlet pipe, the third interface of the sanitary water inlet valve group is connected with the water inlet joint, one end, far away from the sanitary water inlet valve group, of the sanitary water inlet pipe is connected with a plate heat exchanger, and the sanitary water inlet pipe is a movable pipe capable of being adjusted. The water inlet device can realize the control of sanitary water inlet through the matching of the sanitary water inlet valve group, the water flow sensor, the sanitary water inlet pipe and the water inlet joint, and can monitor whether water flows pass through the water flow sensor or not so as to feed back the water flow in time.

In one of them embodiment, heating return water pipeline includes second pipeline body, the second interface of intaking, second installation interface and third interface of going out water, the second interface of intaking, second installation interface and the fixed setting of third interface of going out water on the second pipeline body and communicate with the second pipeline body, the second interface of intaking is used for being connected with the delivery port of radiator, the water pump is fixed on the second installation interface, the third interface of going out water is connected with plate heat exchanger.

In one embodiment, the heating water return pipeline further comprises an expansion water pipe connector, the expansion water pipe connector is fixedly arranged on the second pipeline body and is communicated with the second pipeline body, an expansion water pipe is arranged on the expansion water pipe connector, and the expansion water pipe is connected with the expansion water tank. The arrangement of the expansion water pipe connector, the expansion water pipe and the expansion water tank can keep the water pressure in the heating channel constant, and the water pressure cannot rise or fall due to the exchange of water at high temperature and low temperature.

In one embodiment, the heating water return pipeline further comprises a plugging interface, the plugging interface is fixedly arranged on the second pipeline body and is communicated with the second pipeline body, and a plug is arranged on the plugging interface. The arrangement of the plugging interface and the plug can make the interface as a sewage draining exit, an expansion water pipe interface, a water pressure switch interface and the like according to the requirements of customers or machine structures.

In one embodiment, the plate heat exchanger comprises a heat exchanger body, a first water inlet, a first water outlet, a second water inlet and a second water outlet, wherein the first water inlet, the first water outlet, the second water inlet and the second water outlet are arranged on the heat exchanger body.

In one embodiment, the first water inlet and the first water outlet are located on the same side, the second water inlet and the second water outlet are located on the same side and far away from the first water inlet and the first water outlet, the first water inlet is communicated with the second water outlet, and the first water outlet is communicated with the second water inlet.

In one embodiment, a water outlet of the water pump is connected with a heating water return pipe, and the heating water return pipe is connected with a water inlet interface of a heating hot water pipeline.

Drawings

Fig. 1 is a first perspective view of a wall-hanging stove;

fig. 2 is a second perspective view of the wall-hanging stove;

fig. 3 is a third perspective view of the wall-hanging stove;

fig. 4 is a fourth perspective view of the wall-hanging stove;

fig. 5 is a sectional view of a wall-hanging stove;

FIG. 6 is an exploded view of a wall-hanging stove;

FIG. 7 is a perspective view of a plate heat exchanger;

fig. 8 is a perspective view of the integrated waterway;

FIG. 9 is a rear view of the integrated waterway;

FIG. 10 is a cross-sectional view of the integrated waterway;

the reference numerals are explained below:

001-an integrated water channel, 110-a heating hot water pipeline, 111-a first pipeline body, 112-a first water inlet port, 113-a first water outlet port, 114-a second water outlet port, 115-a connection port, 116-a first installation port, 117-a detection port, 118-a pressure relief port, 120-a heating water return pipeline, 121-a second pipeline body, 122-an expansion water pipe port, 123-a second water inlet port, 124-a second installation port, 125-a third water outlet port, 126-a blocking port, 130-a sanitary water outlet pipeline, 131-a third pipeline body, 132-a third water inlet port, 133-a fourth water outlet port, 140-a sanitary water inlet pipeline, 141-a fourth pipeline body, 142-a fourth water inlet port, 143-a fifth water outlet port, 150-a water supplement, 151-a fifth pipeline body, 152-a fifth water inlet port, 153-a sixth water outlet port;

002-channel switching device;

003-water inlet device, 310-sanitary water inlet valve group, 320-water flow sensor, 330-sanitary water inlet pipe, 340-water inlet joint;

004-plate heat exchanger, 410-heat exchanger body, 420-first water inlet, 430-first water outlet, 440-second water inlet, 450-second water outlet;

005-water pump;

006-heating return pipe;

007-water outlet joint;

008-water replenishing valve;

009-built-in bypass;

010-a pressure relief valve;

011-water pressure sensor;

012-plug;

013-connecting a water pipe;

014-expansion water pipe;

015-heating water inlet pipe.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting. As used herein, the singular forms "a", "an" and "the" may be intended to include the plural forms as well, unless the context clearly indicates otherwise. The terms "comprising," "including," "having," and "having" are intended to be inclusive and therefore specify the presence of stated features, elements, and/or components, but do not preclude the presence or addition of one or more other features, elements, components, and/or groups thereof.

When an element or layer is referred to as being "on," "engaged to," "connected to" another element or layer, it can be directly on, engaged, connected or coupled to the other element or layer, or intervening elements or layers may be present. In contrast, when an element is referred to as being "directly on," "directly engaged to," "directly connected to" or "directly coupled to" another element or layer, there may be no intervening elements or layers present. Other words used to describe the relationship between elements (e.g., "between" versus "directly between," "adjacent" versus "directly adjacent," etc.) will be interpreted in a similar manner. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Terms such as "first," "second," and other numerical items when used herein do not imply a sequence or order unless clearly indicated by the context. Thus, a first element, first member, first region, first layer, or first section described below could be termed a second element, second member, second region, second layer, or second section without departing from the teachings of the example embodiments.

Referring to fig. 1, 6, 8 and 9, in an embodiment of the present invention, a wall-mounted furnace is disclosed, which includes a water inlet device 003, a plate heat exchanger 004, a water pump 005 and a main machine heat exchanger, and is characterized by further including an integrated waterway 001 and a channel switching device 002;

the integrated water channel 001 comprises a heating hot water pipeline 110 and a heating water return pipeline 120, the heating water return pipeline 120 and the heating hot water pipeline 110 are integrally formed, the heating water return pipeline 120 comprises at least three interfaces, the first interface of the heating water return pipeline 120 is connected with a water outlet of a radiator of a plate heat exchanger 004, the second interface of the heating water return pipeline 120 is connected with a water inlet of a water pump 005, the third interface of the heating water return pipeline 120 is used for being connected with a water outlet of the radiator, the heating hot water pipeline 110 comprises at least one water inlet interface and at least two water outlet interfaces, and the water inlet interface and the water outlet interface of the heating hot water pipeline 110 are communicated;

the channel switching device 002 is fixedly arranged on the heating hot water pipeline 110, and the channel switching device 2 is used for switching channels to enable the water inlet interface of the heating hot water pipeline 110 to be communicated with the water outlet interface respectively;

the water inlet device 003 is communicated with the plate heat exchanger 004, one water outlet interface of the heating hot water pipeline 110 is used for being connected with a water inlet of a radiator, a water inlet of the main machine heat exchanger is connected with a water outlet of the water pump 005, and a water outlet of the main machine heat exchanger is connected with a water inlet interface of the heating hot water pipeline 110.

The wall-mounted boiler realizes a bathroom mode and a heating mode through mutual matching of the integrated waterway, the channel switching device, the water inlet device, the plate heat exchanger, the water pump and the main machine heat exchanger, sanitary water enters the plate heat exchanger from the water inlet device to be subjected to heat exchange and then is discharged in the bathroom mode, and when the sanitary water enters, the channel switching device works to enable the integrated waterway, the plate heat exchanger, the water pump and the main machine heat exchanger to be communicated and circulate; when in a heating mode, sanitary water does not enter, the channel switching device works to enable the integrated waterway, the water pump, the main machine heat exchanger and the radiator to be communicated and circulated, and the integrated waterway is adjusted by the channel switching device to realize diversified functions; meanwhile, the heating hot water pipeline and the heating water return pipeline are integrated together through the integrated water channel, so that the space can be saved, and bathroom and heating can be well achieved.

Referring to fig. 8 and 9, optionally, the integrated waterway 001 further includes a sanitary outlet pipe 130 and a sanitary inlet pipe 140, the sanitary outlet pipe 130 and the sanitary inlet pipe 140 are respectively formed integrally with the heating hot water pipe 110, the sanitary outlet pipe 130 is connected to the plate heat exchanger 004, and two ends of the sanitary inlet pipe 140 are respectively connected to the water inlet device 003 and the plate heat exchanger 004. The integrated water route is with heating hot water pipeline, heating return water pipeline, health and sanitation outlet conduit and health inlet channel integration together, can be better save installation space, reduce the installation degree of difficulty, the part easy dismouting is easy to be dismantled, can not appear blocking part or structure overlapping phenomenon, the maintenance of being convenient for.

Referring to fig. 8, alternatively, the heating water return pipe 120 and the sanitary water inlet pipe 140 are located on the same side of the heating hot water pipe 110, the sanitary water outlet pipe 130 is located on a side of the heating hot water pipe 110 away from the heating water return pipe 120 and the sanitary water inlet pipe 140, and the sanitary water outlet pipe 130 is located on the same side as the water inlet of the water inlet device 003. The heating hot water pipeline, the heating water return pipeline, the sanitary water outlet pipeline and the sanitary water inlet pipeline which are reasonably arranged can adapt to the condition that the sanitary water inlet and the sanitary water outlet are on the same side, and the condition that the heating water inlet and the heating water outlet are on the same side can be met, and meanwhile, the use habit is better met through the arrangement.

Referring to fig. 8, 9 and 10, optionally, the sanitary outlet pipe 130 includes a third pipe body 131, a third water inlet port 132 and a fourth water outlet port 133, the third water inlet port 132 and the fourth water outlet port 133 are fixedly disposed on the third pipe body 131 and are communicated with the third pipe body 131, and the third water inlet port 132 is connected with the plate heat exchanger 004. The sanitary water outlet pipeline integrates the third pipeline bodies, the third water inlet interfaces and the fourth water outlet interfaces together, so that the installation space can be saved, and meanwhile, the sanitary water outlet pipeline can be well installed.

Referring to fig. 5, fig. 8 and fig. 10, optionally, a water outlet joint 007 is arranged on the fourth water outlet joint 133, the water outlet joint 007 is used for being connected with a water outlet valve, the integrated waterway 001 further includes a water replenishing pipeline 150, the water replenishing pipeline 150 includes a fifth pipeline body 151, a fifth water inlet joint 152 and a sixth water outlet joint 153, the fifth water inlet joint 152 and the sixth water outlet joint 153 are fixedly arranged on the fifth pipeline body 151 and are communicated with the fifth pipeline body 151, the fifth water inlet joint 152 is fixedly connected with the third pipeline body 131 and is communicated with the third pipeline body 131, the sixth water outlet joint 153 is fixedly connected with the heating hot water pipeline 110 and is communicated with a channel formed by the water inlet joint and the water outlet joint of the heating hot water pipeline 110, a water replenishing valve 008 is arranged on the fifth pipeline body 151, and the water replenishing valve 008 can enable the fifth water inlet joint 152 and the sixth water outlet joint 153 to be communicated or cut off. The water replenishing pipeline is added on the integrated water channel, so that sanitary water can be introduced into the heating hot water pipeline through the sanitary water outlet pipeline, water can be replenished in time according to needs, and the use is more convenient.

Referring to fig. 8 and 9, optionally, the sanitary water inlet pipe 140 includes a fourth pipe body 141, a fourth water inlet joint 142 and a fifth water outlet joint 143, the fourth water inlet joint 142 and the fifth water outlet joint 143 are fixedly arranged on the fourth pipe body 141 and are communicated with the fourth pipe body 141, the fourth water inlet joint 142 is connected with the water inlet device 003, and the fifth water outlet joint 143 is connected with the plate heat exchanger 004. The sanitary water inlet pipeline integrates the fourth pipeline body, the fourth water inlet interface and the fifth water outlet interface, so that the installation space can be saved, and meanwhile, the installation is convenient.

Referring to fig. 8, 9 and 10, optionally, the heating hot water pipeline 110 includes a first pipeline body 111, a first water inlet port 112, a first water outlet port 113 and a second water outlet port 114, the first water inlet port 112, the first water outlet port 113 and the second water outlet port 114 are fixedly disposed on the first pipeline body 111 and are communicated with the first pipeline body 111, the channel switching device 002 is fixedly disposed on the first pipeline body 111 and is used for communicating the first water inlet port 112 with the first water outlet port 113 or communicating the first water inlet port 112 with the second water outlet port 114, the first water inlet port 112 is connected with the main heat exchanger of the machine, the first water outlet port 113 is connected with the plate heat exchanger 004, and the second water outlet port 114 is used for being connected with a water inlet of the radiator. The heating hot water pipeline realizes independent communication of the two channels through the channel switching device, can be regulated and controlled, and is convenient to control.

Referring to fig. 5, optionally, a heating water inlet pipe 015 is fixedly disposed on the first water inlet port 112, and the heating water inlet pipe 015 is connected to the main heat exchanger of the machine. The heating carries out the setting of water pipe can be that the piping erection is more convenient, improves the installation effectiveness.

Referring to fig. 1, 2 and 8, optionally, a built-in bypass 009 is further included, the heating hot water pipe 110 further includes two connection ports 115, one connection port 115 is disposed on a water supply channel formed by the first water inlet port 112 and the first water outlet port 113, the other connection port 115 is disposed on a water supply channel formed by the first water inlet port 112 and the second water outlet port 114, and both ends of the built-in bypass 009 are respectively connected to the connection ports 115. Through the arrangement of the built-in bypass, when the heating channel is blocked, heating water forms certain water pressure, the sealing device in the built-in bypass is pushed to enter the adjacent channel, and safety accidents caused by overlarge pressure are avoided.

Referring to fig. 1 and 8, optionally, the heating hot water pipe 110 further includes a detection interface 117, the detection interface 117 is fixedly disposed on a water supply channel formed by the first water inlet interface 112 and the second water outlet interface 114, and a water pressure sensor 011 is disposed on the detection interface 117. The water pressure sensor can transmit water pressure to the controller, so that the internal pressure is monitored, and safety is guaranteed.

Referring to fig. 1 and 8, optionally, the heating hot water pipeline 110 further includes a pressure relief interface 118, the pressure relief interface 118 is fixedly disposed on a water supply channel formed by the first water inlet interface 112 and the second water outlet interface 114, and a pressure relief valve 010 is disposed on the pressure relief interface 118. The pressure relief can be carried out by arranging the pressure relief interface and the pressure relief valve, so that overlarge pressure is avoided, and the safety is ensured.

Referring to fig. 1, 8 and 10, optionally, the heating hot water pipe 110 further includes a first installation interface 116, and the channel switching device 002 is fixedly disposed on the first installation interface 116. Set up first installation interface and be used for installing channel auto-change over device on heating hot water line, make the installation more convenient, it is more convenient to change, just can realize the control to channel auto-change over device through external controlling means simultaneously.

Optionally, the channel switching device 002 is an electromagnetic three-way valve. The electromagnetic three-way valve can quickly realize channel conversion, and has good operation stability and low cost.

Referring to fig. 1, 5 and 6, optionally, water inlet device 003 includes sanitary valve set 310, water flow sensor 320, sanitary inlet tube 330 and water supply connector 340, be provided with at least three interface on the sanitary valve set 310, the first of sanitary valve set 310 the interface is connected with water flow sensor 320, the second of sanitary valve set 310 the interface is connected with sanitary inlet tube 330, the third of sanitary valve set 310 the interface is connected with water supply connector 340, the one end that sanitary inlet tube 330 kept away from sanitary valve set 310 is connected with plate heat exchanger 004, sanitary inlet tube 330 is the movable tube that can adjust. The water inlet device can realize the control of sanitary water inlet through the cooperation of the sanitary water inlet valve group, the water flow sensor, the sanitary water inlet pipe and the water inlet joint, and can monitor whether water flows through the water flow sensor or not and feed back the water flow sensor in time.

Referring to fig. 8, 9 and 10, optionally, the heating water return pipe 120 includes a second pipe body 121, a second water inlet port 123, a second mounting port 124 and a third water outlet port 125, the second water inlet port 123, the second mounting port 124 and the third water outlet port 125 are fixedly disposed on the second pipe body 121 and are communicated with the second pipe body 121, the second water inlet port 123 is connected with a water outlet of the radiator, the water pump 005 is fixed on the second mounting port 124, and the third water outlet port 125 is connected with the plate heat exchanger 004.

Referring to fig. 8 and 10, optionally, the heating water return pipe 120 further includes an expansion water pipe joint 122, the expansion water pipe joint 122 is fixedly disposed on the second pipe body 121 and is communicated with the second pipe body 121, an expansion water pipe 014 is disposed on the expansion water pipe joint 122, and the expansion water pipe 014 is connected with the expansion water tank. The arrangement of the expansion water pipe connector, the expansion water pipe and the expansion water tank can keep the water pressure in the heating channel constant, and the water pressure can not rise or fall due to the exchange of water at high temperature and low temperature.

Referring to fig. 8, optionally, the heating water return pipe 120 further includes a plugging interface 126, the plugging interface 126 is fixedly disposed on the second pipe body 121 and is communicated with the second pipe body 121, and a plug 012 is disposed on the plugging interface 126. The arrangement of the plugging interface and the plug can make the interface as a sewage draining exit, an expansion water pipe interface, a water pressure switch interface and the like according to the requirements of customers or machine structures.

Referring to fig. 7, optionally, the plate heat exchanger 004 includes a heat exchanger body 410, a first water inlet 420, a first water outlet 430, a second water inlet 440, and a second water outlet 450, and the first water inlet 420, the first water outlet 430, the second water inlet 440, and the second water outlet 450 are disposed on the heat exchanger body 410.

Referring to fig. 7, alternatively, the first water inlet 420 and the first water outlet 430 are located on the same side, the second water inlet 440 and the second water outlet 450 are located on the same side and far away from the first water inlet 420 and the first water outlet 430, the first water inlet 420 is communicated with the second water outlet 450, and the first water outlet 430 is communicated with the second water inlet 440.

Referring to fig. 1, optionally, a water outlet of the water pump 005 is connected to a heating water return pipe 006, and the heating water return pipe 006 is connected to a water inlet port of the heating hot water pipe 110.

Referring to fig. 3, 5 and 10, optionally, a connection water pipe 013 is provided on the second water outlet port 114 and the second water inlet port 123.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A wall-mounted furnace comprises a water inlet device (003), a plate-type heat exchanger (004), a water pump (005) and a machine main heat exchanger, and is characterized by also comprising an integrated water channel (001) and a channel switching device (002);

the integrated water channel (001) comprises a heating hot water pipeline (110) and a heating water return pipeline (120), the heating water return pipeline (120) and the heating hot water pipeline (110) are integrally formed, the heating water return pipeline (120) comprises at least three interfaces, a second interface of the heating water return pipeline (120) is connected with a water inlet of a water pump (005), a third interface of the heating water return pipeline (120) is used for being connected with a water outlet of a radiator, the heating hot water pipeline (110) comprises at least one water inlet interface and at least two water outlet interfaces, and the water inlet interface and the water outlet interface of the heating hot water pipeline (110) are communicated;

the channel switching device (002) is fixedly arranged on the heating hot water pipeline (110), and the channel switching device (002) is used for switching channels to enable the water inlet interface of the heating hot water pipeline (110) to be communicated with the water outlet interface respectively;

the water inlet device (003) is communicated with the plate heat exchanger (004), one water outlet interface of the heating hot water pipeline (110) is used for being connected with a water inlet of a radiator, a water inlet of the machine main heat exchanger is connected with a water outlet of a water pump (005), and a water outlet of the machine main heat exchanger is connected with the water inlet interface of the heating hot water pipeline (110);

the plate heat exchanger (004) comprises a heat exchanger body (410), a first water inlet (420), a first water outlet (430), a second water inlet (440) and a second water outlet (450), wherein the first water inlet (420), the first water outlet (430), the second water inlet (440) and the second water outlet (450) are arranged on the heat exchanger body (410), the first water inlet (420) and the first water outlet (430) are positioned on the same side, the second water inlet (440) and the second water outlet (450) are positioned on the same side and are far away from the first water inlet (420) and the first water outlet (430), the first water inlet (420) is communicated with the second water outlet (450), and the first water outlet (430) is communicated with the second water inlet (440);

the integrated waterway (001) further comprises a sanitary water outlet pipeline (130) and a sanitary water inlet pipeline (140), the sanitary water outlet pipeline (130) and the sanitary water inlet pipeline (140) are respectively and integrally formed with the heating hot water pipeline (110), the sanitary water outlet pipeline (130) is connected with the plate heat exchanger (004), and two ends of the sanitary water inlet pipeline (140) are respectively connected with the water inlet device (003) and the plate heat exchanger (004); the sanitary water outlet pipeline (130) and the water inlet of the water inlet device (003) are positioned on the same side;

a first interface of the heating water return pipeline (120) is correspondingly communicated with the first water outlet (430), and the other water outlet interface of the heating hot water pipeline (110) is correspondingly communicated with the second water inlet (440);

the sanitary water outlet pipeline (130) is correspondingly communicated with the second water outlet (450), and the sanitary water inlet pipeline (140) is correspondingly communicated with the first water inlet (420).

2. The hanging stove according to claim 1, characterized in that the sanitary water inlet pipe (140) comprises a fourth pipe body (141), a fourth water inlet port (142) and a fifth water outlet port (143), the fourth water inlet port (142) and the fifth water outlet port (143) are fixedly arranged on the fourth pipe body (141) and are communicated with the fourth pipe body (141), the fourth water inlet port (142) is connected with the water inlet device 003, and the fifth water outlet port (143) is connected with the plate heat exchanger (004).

3. The wall hanging stove according to claim 1, characterized in that the heating water return pipe (120) and the sanitary water inlet pipe (140) are located on the same side of the heating hot water pipe (110), and the sanitary water outlet pipe (130) is located on a side of the heating hot water pipe (110) away from the heating water return pipe (120) and the sanitary water inlet pipe (140).

4. The wall hanging stove according to claim 1, characterized in that the sanitary water outlet pipe (130) comprises a third pipe body (131), a third water inlet interface (132) and a fourth water outlet interface (133), the third water inlet interface (132) and the fourth water outlet interface (133) are fixedly arranged on the third pipe body (131) and are communicated with the third pipe body (131), and the third water inlet interface (132) is connected with the plate heat exchanger (004).

5. The wall-hanging stove according to claim 4, characterized in that a water outlet joint (007) is provided on the fourth water outlet port (133), the water outlet joint (007) is used for being connected with a water outlet valve, the integrated waterway (001) further comprises a water replenishing pipeline (150), the water replenishing pipeline (150) comprises a fifth pipeline body (151), a fifth water inlet port (152) and a sixth water outlet port (153), the fifth water inlet port (152) and the sixth water outlet port (153) are fixedly provided on the fifth pipeline body (151) and are communicated with the fifth pipeline body (151), the fifth water inlet port (152) is fixedly connected with the third pipeline body (131) and are communicated with the third pipeline body (131), the sixth water outlet port (153) is fixedly connected with a hot water heating pipeline (110) and is communicated with a channel formed by the water inlet port and the water outlet port of the hot water heating pipeline (110), a water replenishing valve (008) is provided on the fifth pipeline body (151), and the water replenishing valve (008) can enable the fifth water inlet port (152) and the sixth water outlet port (153) to be in a cut-off state or be communicated with the sixth water outlet port (153).

6. The wall hanging stove according to claim 1, characterized in that the heating hot water pipe (110) comprises a first pipe body (111), a first water inlet port (112), a first water outlet port (113) and a second water outlet port (114), the first water inlet port (112), the first water outlet port (113) and the second water outlet port (114) are fixedly arranged on the first pipe body (111) and communicated with the first pipe body (111), the channel switching device (002) is fixedly arranged on the first pipe body (111) and used for enabling the first water inlet port (112) to be communicated with the first water outlet port (113) or enabling the first water inlet port (112) to be communicated with the second water outlet port (114), the first water inlet port (112) is connected with a main heat exchanger of the machine, the first water outlet port (113) is connected with a plate heat exchanger (004), and the second water outlet port (114) is used for being connected with a water inlet of a radiator.

7. The wall hanging stove according to claim 6, further comprising a built-in bypass (009), wherein the heating hot water pipe (110) further comprises two connection ports (115), one connection port (115) is provided on a water supply channel formed by the first water inlet port (112) and the first water outlet port (113), the other connection port (115) is provided on a water supply channel formed by the first water inlet port (112) and the second water outlet port (114), and both ends of the built-in bypass (009) are respectively connected with the connection ports (115).

8. The hanging stove as claimed in claim 1, wherein the water inlet device (003) comprises a sanitary water inlet valve set (310), a water flow sensor (320), a sanitary water inlet pipe (330) and a water inlet joint (340), at least three interfaces are provided on the sanitary water inlet valve set (310), the first interface of the sanitary water inlet valve set (310) is connected with the water flow sensor (320), the second interface of the sanitary water inlet valve set (310) is connected with the sanitary water inlet pipe (330), the third interface of the sanitary water inlet valve set (310) is connected with the water inlet joint (340), one end of the sanitary water inlet pipe (330) far away from the sanitary water inlet valve set (310) is connected with the plate heat exchanger (004), and the sanitary water inlet pipe (330) is a movable pipe capable of being adjusted.

9. The wall hanging stove according to claim 1, characterized in that the heating water return pipe (120) comprises a second pipe body (121), a second water inlet port (123), a second mounting port (124) and a third water outlet port (125), the second water inlet port (123), the second mounting port (124) and the third water outlet port (125) are fixedly arranged on the second pipe body (121) and are communicated with the second pipe body (121), the second water inlet port (123) is used for being connected with a water outlet of a radiator, the water pump (005) is fixed on the second mounting port (124), and the third water outlet port (125) is connected with the plate heat exchanger (004).

10. The wall hanging stove according to claim 1, characterized in that the water outlet of the water pump (005) is connected with the heating water return pipe (006), and the heating water return pipe (006) is connected with the water inlet interface of the heating hot water pipe (110).