CN213040631U - Gas heat and water supply system - Google Patents

Abstract

The utility model discloses a gas heat supply water supply system, include: the heat source main body comprises a plurality of wall-mounted furnaces, a first water inlet pipe, a water supply outlet pipe, a heat supply outlet pipe and a water return pipe, wherein the first water inlet pipe is connected with a water inlet of each wall-mounted furnace, the water supply outlet pipe is connected with a water supply outlet of each wall-mounted furnace, the heat supply outlet pipe is connected with a heat supply outlet of each wall-mounted furnace, and the water return pipe is connected with a water return port of each wall-mounted furnace; the water supply device is connected with the water supply outlet pipe; and the heat supply device is connected with the heat supply water outlet and the water return pipe. According to the utility model discloses gas heat supply water supply system can satisfy the great regional heat supply of heat load demand and water supply demand to a plurality of hanging stoves installation is maintained conveniently, when certain hanging stove need be maintained, does not need other hanging stoves of bring to rest, can realize normal heat supply and water supply, uses and experiences better.

Description

Gas heat and water supply system

Technical Field

The utility model belongs to the technical field of the gas equipment technique and specifically relates to a gas heat supply water supply system is related to.

Background

In the great region of some heat load demands, generally install central heating system, and in some regions that do not install central heating system, adopt single hanging stove to carry out independent heating water supply usually, because single hanging stove heat load is not enough to occupation space is big, can't satisfy the user demand, and when hanging stove need overhaul, need stop heating water supply, cause very big inconvenience for user's life and work.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a gas heat supply water supply system, gas heat supply water supply system can satisfy the heat supply and the water supply demand in the great region of heat load demand, and the installation is maintained conveniently.

According to the utility model discloses gas heat supply water supply system, include: the heat source main body comprises a plurality of wall-mounted furnaces, a first water inlet pipe, a water supply outlet pipe, a heat supply outlet pipe and a water return pipe, each wall-mounted furnace is provided with a water inlet, a water supply outlet, a heat supply outlet and a water return port, the first water inlet pipe is connected with the water inlet of each wall-mounted furnace, the water supply outlet pipe is connected with the water supply outlet of each wall-mounted furnace, the heat supply outlet pipe is connected with the heat supply outlet of each wall-mounted furnace, and the water return pipe is connected with the water return port of each wall-mounted furnace; the water supply device is connected with the water supply outlet pipe; and the heat supply device is connected with the heat supply water outlet and the water return pipe.

According to the utility model discloses gas heat supply water supply system through setting up a plurality of hanging stoves, realizes a plurality of hanging stove linkage uses, can satisfy the great regional heat supply of heat load demand and the demand of supplying water to a plurality of hanging stove installation maintenance convenience, when certain hanging stove needs to be maintained, does not need other hanging stoves of the shut down operation, can realize normal heat supply and supply water, can be in order to satisfy all-weather hot water and heating demand, uses to experience better.

According to some embodiments of the utility model, it is a plurality of the hanging stove sets up in parallel, and is a plurality of the flue intercommunication of hanging stove.

According to some embodiments of the present invention, each wall-hanging stove still has a gas inlet, the heat source main body further includes a gas pipe, the gas pipe is connected with each gas inlet of the wall-hanging stove.

According to some embodiments of the utility model, gas heat supply water supply system still includes connecting device, the heat supply outlet pipe with the wet return all with connecting device connects, heating device includes heat supply inlet tube and heat supply drain pipe, the heat supply inlet tube with heat supply drain pipe all with connecting device connects.

In some embodiments, a heating circulation pump is disposed on the heating drain pipe.

In some embodiments, the connecting device comprises a decoupling tank having a first port, a second port, a third port and a fourth port in communication with each other, wherein the first port is in communication with the heat supply inlet pipe, the second port is in communication with the heat supply drain pipe, the third port is in communication with the heat supply outlet pipe, and the fourth port is in communication with the return pipe.

In some examples, the gas-fired heating water supply system further comprises: the first expansion water tank is arranged on the heat supply drain pipe, or the first expansion water tank is arranged in the wall-mounted furnace.

In some other embodiments, the connection device includes a heat exchanger, the heat exchanger has a first interface, a second interface, a third interface, and a fourth interface, the first interface communicates with the second interface, the third interface communicates with the fourth interface, wherein the first interface communicates with the heat supply water inlet pipe, the second interface communicates with the heat supply water outlet pipe, the third interface communicates with the heat supply water outlet pipe, and the fourth interface communicates with the water return pipe.

In some examples, the heat exchanger is a plate heat exchanger.

In some examples, the gas-fired heating water supply system further comprises: the second expansion water tank is arranged on the heat supply and drainage pipe; and the third expansion water tank is arranged on the water return pipe, or the third expansion water tank is arranged in the wall-mounted furnace.

According to the utility model discloses a further embodiment, heating device still includes: a plurality of heat supply portions, every heat supply portion all with the heat supply inlet tube heat supply drain pipe intercommunication.

According to some embodiments of the present invention, the water supply device comprises a plurality of water supply portions, a plurality of the water supply portions with the water supply outlet pipe connection.

In some embodiments, the water supply device further comprises: the water supply main pipe is connected with the water supply outlet pipe; a plurality of water supply branch pipes, every water supply branch pipe all with the water supply is responsible for and is connected, and is a plurality of the water supply portion one-to-one locates a plurality ofly on the water supply branch pipe to it is a plurality of to make water supply portion parallelly connected the setting.

In some embodiments, each of the water supply parts includes one or more water supply branches.

In some specific embodiments, the gas heating and water supplying system further includes a water storage container, and both ends of the water supply main pipe, the first water inlet pipe, and the water supply outlet pipe are connected to the water storage container.

In some examples, a water pump is provided on the water supply main.

In some examples, the water supply device further comprises a second water inlet pipe connected with the water storage container and the water supply part.

In some specific examples, the second water inlet pipe is connected with the plurality of water supply parts through a plurality of water inlet branch pipes in a one-to-one correspondence manner.

According to some embodiments of the utility model, be equipped with the water supply circulating pump on the first inlet tube.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of a gas heating and water supply system according to an embodiment of the present invention;

FIG. 2 is an enlarged view of section A shown in FIG. 1;

fig. 3 is a schematic structural view of a gas heating and water supply system according to another embodiment of the present invention;

fig. 4 is a schematic structural view of a gas heating and water supply system according to yet another embodiment of the present invention;

FIG. 5 is an enlarged view of section B shown in FIG. 4;

fig. 6 is a schematic structural view of a gas heating and water supply system according to still another embodiment of the present invention.

Reference numerals:

a gas-fired heat and water supply system 100,

a heat source main body 10, a flue 101, a wall-hanging stove 11, a water inlet 111, a water supply outlet 112, a heat supply outlet 113, a water return port 114, a gas inlet 115, a first water inlet pipe 121, a water supply outlet pipe 122, a heat supply outlet pipe 123, a water return pipe 124, a gas pipe 125, a water supply circulating pump 13,

a water supply device 20, a water supply part 201, a water supply branch part 202, a water supply main pipe 21, a water supply branch pipe 22, a water pump 23,

a heating device 30, a heating part 301, a heating water inlet pipe 31, a heating water outlet pipe 32, a heating circulating pump 33, a heating water inlet branch pipe 34, a heating water outlet branch pipe 35, a first connecting pipe 36, a second connecting pipe 37,

a decoupling reservoir 41, a first port 411, a second port 412, a third port 413, a fourth port 414,

a heat exchanger 42, a first port 421, a second port 422, a third port 423, a fourth port 424,

a water storage container 50, a second water inlet pipe 60, a water inlet branch pipe 61, a controller 70, a water separator 81, a water collector 82,

a first expansion tank 91, a second expansion tank 92 and a third expansion tank 93.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

A gas heating and water supply system 100 according to an embodiment of the present invention will be described with reference to fig. 1 to 6. This gas heat supply water supply system 100 can be used for the great region of heat load demand such as school, office park, mill, hotel, hospital to realize central heating and centralized water supply.

As shown in fig. 1 to 6, a gas heating and water supplying system 100 according to an embodiment of the present invention includes a heat source main body 10, a water supplying device 20, and a heating device 30.

The heat source main body 10 includes a plurality of wall-hanging furnaces 11, a first water inlet pipe 121, a water supply outlet pipe 122, a heat supply outlet pipe 123, and a water return pipe 124, each wall-hanging furnace 11 has a water inlet 111, a water supply outlet 112, a heat supply outlet 113, and a water return port 114, the first water inlet pipe 121 is connected to the water inlet 111 of each wall-hanging furnace 11, the water supply outlet pipe 122 is connected to the water supply outlet 112 of each wall-hanging furnace 11, the heat supply outlet pipe 123 is connected to the heat supply outlet 113 of each wall-hanging furnace 11, and the water return pipe 124 is connected to the water return port 114. The water supply device 20 is connected to the water supply outlet pipe 122, and the heating device 30 is connected to the heating water outlet 113 and the water return pipe 124.

According to the utility model discloses gas heat supply water supply system 100 through setting up a plurality of hanging stoves 11, realizes a plurality of hanging stove 11 linkage uses, can satisfy the great regional heat supply of heat load demand and the demand of supplying water to a plurality of hanging stoves 11 installation maintenance convenience, when certain hanging stove 11 needs be maintained, does not need other hanging stoves 11 of shut down operation, can realize normal heat supply and supply water, can be in order to satisfy all-weather hot water and heating demand, use and experience better.

It should be noted that, in order to realize control of each water path, a control valve may be disposed between each of the first water inlet pipe 121, the water supply outlet pipe 122, the heat supply outlet pipe 123, and the water return pipe 124 and a corresponding water receiving port of the wall-hanging stove 11.

Specifically, the first water inlet pipe 121 is connected with the water inlet 111 of each wall-hanging stove 11 through a first water inlet pipe section, and a water inlet control valve is arranged on the first water inlet pipe section to control the water path connection and disconnection between the first water inlet pipe 121 and the water inlet 111 of the wall-hanging stove 11. The water supply outlet pipe 122 is connected with the water supply outlet 112 of each wall-mounted furnace 11 through a water supply outlet branch pipe, and a water supply outlet control valve is arranged on the water supply outlet branch pipe to control the water path connection and disconnection between the water supply outlet pipe 122 and the water supply outlet 112 of the wall-mounted furnace 11. The heat supply water outlet pipe 123 is connected with the heat supply water outlet 113 of each wall-mounted furnace 11 through a heat supply water outlet branch pipe, and a heat supply water outlet control valve is arranged on the heat supply water outlet branch pipe to control the water paths of the heat supply water outlet pipe 123 and the heat supply water outlet 113 of the wall-mounted furnace 11 to be switched on and off. The water return pipe 124 is connected to the water return port 114 of each wall-mounted furnace 11 through a water return branch pipe. And a water return control valve is arranged on the water return branch pipe to control the water path connection and disconnection between the water return pipe 124 and the water return port 114 of the wall-mounted furnace 11.

As shown in fig. 1 and 3-4 and 6, according to some embodiments of the present invention, a plurality of wall-hanging furnaces 11 are connected in parallel, and flues 101 of the plurality of wall-hanging furnaces 11 are communicated. Through setting up a plurality of hanging stove 11 parallelly connected, the running state of a plurality of hanging stove 11 does not influence each other, when needs maintenance individual hanging stove 11, all the other hanging stoves 11 also can normal operating to realize normal heat supply and water supply.

According to some embodiments of the present invention, each wall-mounted stove 11 further has a gas inlet 115, the heat source main body 10 further includes a gas pipe 125, and the gas pipe 125 is connected to the gas inlet 115 of each wall-mounted stove 11.

Specifically, the gas pipe 125 is connected to the gas inlet 115 of each wall-hanging stove 11 through a gas branch pipe, and a gas control valve is provided on the gas branch pipe to control the connection and disconnection between the gas pipe 125 and the gas inlet 115 of the wall-hanging stove 11.

As shown in fig. 1-6, according to some embodiments of the present invention, the gas heating and water supplying system 100 further includes a connecting device, the heating outlet pipe 123 and the water return pipe 124 are both connected to the connecting device, the heating device 30 includes a heating inlet pipe 31 and a heating outlet pipe 32, and the heating inlet pipe 31 and the heating outlet pipe 32 are both connected to the connecting device. The heat source body 10 and the heat supplying means 30 can be coupled by providing a coupling means. Are connected together so as to supply heat to the heating apparatus 30 using the heat source main body 10, thereby realizing heating.

In some embodiments, a heating circulation pump 33 is provided on the heating drain pipe 32. By providing the heat supply circulation pump 33 on the heat supply drain pipe 32, the water of the heat supply apparatus 30 can be circulated to meet the heating requirement.

As shown in fig. 1-3, in some embodiments, the connection means comprises a decoupling canister 41, the decoupling canister 41 having a first port 411, a second port 412, a third port 413, and a fourth port 414, the first port 411, the second port 412, the third port 413, and the fourth port 414 being in communication with each other. The decoupling tank 41 may also be referred to herein as a mixer, and as the decoupling tank 41 is a conventional structure in the art, it will not be described in detail herein.

The first port 411 is communicated with the heat supply water inlet pipe 31, the second port 412 is communicated with the heat supply water outlet pipe 32, the third port 413 is communicated with the heat supply water outlet pipe 123, and the fourth port 414 is communicated with the water return pipe 124.

Specifically, the hot water discharged from the heat supply water outlet 113 of the wall-hanging stove 11 flows through the heat supply water outlet pipe 123, enters the decoupling tank 41 through the third port 413, and flows through the heat supply water inlet pipe 31 from the first port 411 of the decoupling tank 41, thereby entering the heat supply device 30 to realize heating.

Further, water discharged from the heating drain pipe 32 of the heating apparatus 30 enters the decoupling tank 41 through the second port 412, and water discharged from the fourth port 414 of the decoupling tank 41 flows through the water return pipe 124 and flows into the wall-hanging stove 11 from the water return port 114, and the cycle is repeated.

As shown in fig. 1, in some alternative examples, the gas heating and water supply system 100 further includes a first expansion tank 91, and the first expansion tank 91 is provided on the heating drain pipe 32.

As shown in fig. 3, in other alternative examples, the gas-fired heating and water-supplying system 100 further includes a plurality of first expansion water tanks 91, and the plurality of first expansion water tanks 91 are disposed in the plurality of wall-hanging furnaces 11 in a one-to-one correspondence manner.

Therefore, the first expansion water tank 91 is arranged on the heat supply and drainage pipe 32 or in the wall-hanging furnace 11, so that the expansion amount of the system water can be accommodated, and the effects of constant pressure and water supplement for the system are achieved.

As shown in fig. 4-6, in other embodiments, the connection device includes a heat exchanger 42, the heat exchanger 42 has a first port 421, a second port 422, a third port 423, and a fourth port 424, the first port 421 communicates with the second port 422, and the third port 423 communicates with the fourth port 424.

For example, the heat exchanger 41 has a first heat exchange flow channel and a second heat exchange flow channel, the first heat exchange flow channel and the second heat exchange flow channel are not communicated, and fluid in the first heat exchange flow channel and the second heat exchange flow channel can exchange heat, the first interface 421 and the second interface 422 are both communicated with the first heat exchange flow channel, and the third interface 423 and the fourth interface 424 are both communicated with the second heat exchange flow channel. The first interface 421 is communicated with the heat supply water inlet pipe 31, the second interface 422 is communicated with the heat supply water outlet pipe 32, the third interface 423 is communicated with the heat supply water outlet pipe 123, and the fourth interface 424 is communicated with the water return pipe 124.

Specifically, hot water discharged from the heat supply water outlet 113 of the wall-hanging furnace 11 flows through the heat supply water outlet pipe 123, enters the heat exchanger 41 from the third port 423, then is discharged out of the heat exchanger 41 from the fourth port 424, and water discharged from the fourth port 424 flows through the water return pipe 124 and flows into the wall-hanging furnace 11 from the water return port 114. The hot water formed after heat exchange in the heat exchanger 41 flows out of the heat exchanger 41 from the first interface 421, then enters the heat supply device 30 through the heat supply inlet pipe 31 to realize heating, and the water discharged from the heat supply drain pipe 32 of the heat supply device 30 enters the heat exchanger 41 through the second interface 422 to exchange heat again, and the circulation is repeated.

In some examples, the heat exchanger 42 is a plate heat exchanger, which is simple in structure and easy to assemble and disassemble.

Because the two water paths connected with the first heat exchange flow path and the second heat exchange flow path of the heat exchanger 42 are not communicated, an expansion water tank needs to be respectively arranged in the two water paths, so that the expansion amount of the system water is accommodated, and the constant pressure effect and the water replenishing effect for the system are also achieved.

As shown in fig. 4, in some alternative examples, the gas-fired heating and water-supplying system 100 further includes a second expansion tank 92 and a third expansion tank 93, the second expansion tank 92 is provided on the heating drain pipe 32, and the third expansion tank 93 is provided on the return pipe 124.

As shown in fig. 6, in other alternative examples, the gas-fired heating and water-supplying system 100 further includes a second expansion tank 92 and a plurality of third expansion tanks 93, the second expansion tank 92 is provided on the heating and water-discharging pipe 32, and the plurality of third expansion tanks 93 are provided in the plurality of wall-hanging furnaces 11 in a one-to-one correspondence.

As shown in fig. 1 and fig. 3-4 and fig. 6, according to a further embodiment of the present invention, the heat supply device 30 further includes a plurality of heat supply portions 301, and each heat supply portion 301 is communicated with the heat supply inlet pipe 31 and the heat supply drain pipe 32. The heat supply unit 301 is mainly a radiator, a floor heater, a fan coil, and other end radiators, and the heat supply device 30 further includes a temperature sensor.

Specifically, the heating apparatus 30 may include a water separator 81 and a water collector 82. The water separator 81 and the water collector 82 may include one or more than one, respectively.

In the embodiment where the water separator 81 and the water collector 82 are respectively one, the heat supply water inlet pipe 31 is connected to the water separator 81, the heat supply water outlet pipe 32 is connected to the water collector 82, the plurality of heat supply units 301 are respectively connected to the water separator 81 through the heat supply water inlet branch pipes 34, and the plurality of heat supply units 301 are respectively connected to the water collector 82 through the heat supply water outlet branch pipes 35, so that the connection is convenient.

As shown in fig. 1 and fig. 4 and 6, in the embodiment in which the water separator 81 and the water collector 82 are plural, respectively, the heating water inlet pipe 31 is connected to each water separator 81 through the first connection pipe 36, and the heating water outlet pipe 32 is connected to each water collector 82 through the second connection pipe 37. Each water separator 81 is connected to a part of the plurality of heat supplying parts 301 through a heat supply water inlet branch pipe 34, each water collector 82 is connected to the part of the plurality of heat supplying parts 301 through a heat supply water outlet branch pipe 35,

further, in order to realize the control of each water path, a control valve is arranged on each water pipe of the first connecting pipe 36, the second connecting pipe 37, the heat supply water inlet branch pipe 34 and the heat supply water outlet branch pipe 35, specifically, control valves are respectively arranged on the pipes between the water separator 81 and the heat supply part 301, between the water collector 82 and the heat supply part 301, between the water separator 81 and the first connecting pipe 36, and between the water collector 82 and the second connecting pipe 37, thereby conveniently controlling the on-off of the water path.

As shown in fig. 1 and 3-4 and 6, according to some embodiments of the present invention, the water supply device 20 includes a plurality of water supply parts 201, and the plurality of water supply parts 201 are connected to the water supply outlet pipe 122. Wherein, the water supply part 201 is mainly a shower head, a hand basin, a vegetable basin and other terminal water supply parts 201, and the water supply device 20 further comprises a booster pump, a temperature sensor and the like.

From this, a plurality of hanging stove 11 linkage uses, can satisfy a plurality of water supply portion 201 water supply demands of the great region of heat load demand, and a plurality of hanging stove 11 installation are maintained conveniently, when certain hanging stove 11 need be maintained, do not need other hanging stoves 11 of shut down, can realize normally supplying water, can be in order to satisfy all-weather hot water demand, and use experience is better.

In some embodiments, the water supply device 20 further includes a main water supply pipe 21 and a plurality of branch water supply pipes 22, the main water supply pipe 21 is connected to the water outlet pipe 122, each branch water supply pipe 22 is connected to the main water supply pipe 21, and the plurality of water supply parts 201 are disposed on the plurality of branch water supply pipes 22 in a one-to-one correspondence manner, so that the plurality of water supply parts 201 are disposed in parallel, the structure is simple, and the use states of the respective water supply parts 201 do not affect each other.

In some embodiments, each water supply 201 includes one or more water supply branches 202. For example, the water supply part 201 may be all water supply points in one room in a school, a factory, a hotel, a hospital, and each water supply point is one water supply branch part 202.

In some embodiments, the gas heating and water supplying system 100 further includes a water storage container 50, and both ends of the water supply main 21, the first water inlet pipe 121, and the water supply outlet pipe 122 are connected to the water storage container 50. Through setting up water storage container 50, can store the hot water after hanging stove 11 heats to satisfy user's user demand.

Specifically, as shown in fig. 1, water in the water storage container 50 may flow through the first water inlet pipe 121, enter the wall-hanging stove 11 through the water inlet 111 for heating, and hot water heated by the wall-hanging stove 11 may be discharged through the water outlet 112 and then flow into the water storage container 50 through the water outlet 122. The water in the water storage tank 50 may flow through the water supply main pipe 21 and the plurality of water supply branch pipes 22 to supply water to the respective water supply units 201, or may be returned to the water storage tank 50 through the water supply main pipe 21.

In some examples, a water pump 23 is provided on the water supply main 21. By providing the water pump 23 in the main water supply pipe 21, the water in the water storage tank 50, the main water supply pipe 21, and the plurality of branch water supply pipes 22 can be circulated.

In some examples, a second water inlet pipe 60 is further included, and the second water inlet pipe 60 is connected with the water storage container 50 and the water supply part 201. It can be understood that the second water inlet pipe 60 can be connected to a water source, and by providing the second water inlet pipe 60, water can be replenished to the water storage container 50 in real time, raw water (for example, unheated cold water) can be provided to each water supply part 201, or warm water formed by mixing with heated water can be provided, so as to meet water demands of different users.

In some specific examples, the second water inlet pipe 60 is connected with the plurality of water supply parts 201 through the plurality of water inlet branch pipes 61 in a one-to-one correspondence, and the structure is simple and the connection is convenient.

According to some embodiments of the present invention, the first water inlet pipe 121 is provided with a water supply circulation pump 13. Through set up water supply circulating pump 13 on first inlet tube 121, can take out the water (for example the water in the water storage container 50) of first inlet tube 121 upper reaches and heat in hanging stove 11 to realize normal heat supply and water supply, satisfy all-weather hot water and heating demand.

According to the utility model discloses gas heating water supply system 100 still includes controller 70, and controller 70 includes central control portion and unit control portion. The controller 70 can communicate with the wall-hanging furnaces 11, control valves on pipelines, the water supply circulating pump 13, the water pump 23, the heat supply circulating pump 33, the temperature sensor and other components, the controller 70 can control the on and off of the structures, and when the wall-hanging furnaces 11 are heated, the number of the wall-hanging furnaces 11 which are turned on and the heat load and the outlet water temperature of each wall-hanging furnace 11 can be continuously adjusted according to the change of water flow and the change of temperature, so that the outlet water temperature is ensured to be constant.

The operation of the gas heating and water supply system 100 according to the present invention will be described with reference to the accompanying drawings.

In the embodiment shown in fig. 1 to 3, the gas heating and water supply system 100 includes a heat source body 10, a water supply device 20, a heat supply device 30, a decoupling tank 41, a water storage container 50, a second water inlet pipe 60, and a controller 70.

When heating is needed, the central control part judges whether heating is needed or not, estimates the total heat load needed, determines the number of the wall-hanging furnaces 11 needing to be opened according to the estimated total heat load, and opens the wall-hanging furnaces 11 to perform heating circulation. At this time, the circulating pump inside the wall-hanging stove 11 is turned on to drive water flow to circulate and heat continuously in the heating cycle, and then the water flow is connected to the water of the heating device 30 through the decoupling tank 41 to deliver the hot water to the heating device 30. While the wall-hanging stove 11 is heating, the controller 70 will also continuously adjust the number of the wall-hanging stoves 11 that are turned on, the heat load of each wall-hanging stove 11 and the outlet water temperature according to the change of the water flow and the temperature change, so as to ensure the outlet water temperature to be constant.

When hot water is needed, the central control part judges whether hot water heating is needed or not, estimates the total heat load needed, determines the number of the wall-hanging furnaces 11 needing to be started according to the estimated total heat load, and starts the wall-hanging furnaces 11 to perform hot water heating circulation.

The water supply circulating pump 13 circulates heated hot water to the water storage container 50, meanwhile, cold water in the water storage container 50 is brought back to the wall-hanging stove 11 for heating, when the water temperature in the water storage container 50 reaches a certain temperature, the water pump 23 is started to operate, the hot water is brought to each water supply part 201, and the situation that the hot water is instantly started is guaranteed. When the water supply part 201 is used, the second water inlet pipe 60 connected to the water storage container 50 will synchronously add water into the water storage container 50, so as to ensure that the water level in the water storage container 50 is constant. While the wall-hanging stove 11 is heating, the controller 70 will also continuously adjust the number of the wall-hanging stoves 11 that are turned on, the heat load of each wall-hanging stove 11 and the outlet water temperature according to the change of the water flow and the temperature change, so as to ensure the outlet water temperature to be constant. When hot water is running, heating does not work.

In the controller 70, the total time length used by each wall-hanging stove 11 and the fault condition are recorded, and options at each start are adjusted according to the records to ensure that the service time of each wall-hanging stove 11 is basically equal, and meanwhile, the fault products are removed so as not to be started.

In the embodiment shown in fig. 4 to 6, the gas heating and water supply system 100 includes a heat source body 10, a water supply device 20, a heat supply device 30, a heat exchanger 42, a water storage container 50, a second water inlet pipe 60, and a controller 70.

When heating is needed, the central control part judges whether heating is needed or not, estimates the total heat load needed, determines the number of the wall-hanging furnaces 11 needing to be opened according to the estimated total heat load, and opens the wall-hanging furnaces 11 to perform heating circulation. At this time, the opened circulation pump inside the wall-hanging stove 11 drives water flow to continuously circulate and heat in the heating circulation, and then the water of the heating device 30 is exchanged with the heat through the heat exchanger 42, so as to promote the water of the heating device 30. While the wall-hanging stove 11 is heating, the controller 70 will also continuously adjust the number of the wall-hanging stoves 11 that are turned on, the heat load of each wall-hanging stove 11 and the outlet water temperature according to the change of the water flow and the temperature change, so as to ensure the outlet water temperature to be constant.

When hot water is needed, the central control part judges whether hot water heating is needed or not, estimates the total heat load needed, determines the number of the wall-hanging furnaces 11 needing to be started according to the estimated total heat load, and starts the wall-hanging furnaces 11 to perform hot water heating circulation.

The water supply circulation pump 13 circulates the heated hot water to the water storage tank 50, and at the same time, brings the cold water in the water storage tank 50 back to the wall-hanging stove 11 to be heated. When the temperature of the water in the water storage container 50 reaches a certain temperature, the water pump 23 is started to operate, so as to bring the hot water to each water supply part 201, thereby ensuring that the hot water is instantly boiled. When the water supply part 201 is used, the second water inlet pipe 60 connected to the water storage container 50 will synchronously add water into the water storage container 50, so as to ensure that the water level in the water storage container 50 is constant. While the wall-hanging stove 11 is heating, the controller 70 will also continuously adjust the number of the wall-hanging stoves 11 that are turned on, the heat load of each wall-hanging stove 11 and the outlet water temperature according to the change of the water flow and the temperature change, so as to ensure the outlet water temperature to be constant.

According to the utility model discloses gas heating water supply system 100 has following technological effect:

1) products with different quantities and different rated loads are combined into various systems with different total powers, so that the heating and hot water requirements of larger areas (such as schools, hospitals, hotels and the like) can be met, for example, the all-weather heating and hot water requirements can be met, and the situation that hot water in the water supply part 201 is available when the hot water is started can be realized;

2) the system is flexible to install, is not limited by a field, can be installed in a narrow space, does not need a special equipment room, can automatically run after being installed and debugged, does not need to be watched by personnel, and saves labor;

3) the system has the characteristics of unified centralized control and single maintenance, can be normally used during maintenance, and fully ensures the requirements of users;

4) the fuel used by the system is clean energy such as natural gas or liquefied gas and the like, so that the emission of atmospheric pollutants can be effectively reduced;

5) by adopting the decoupling tank 41, automatic hydraulic coupling can be realized, hydraulic balance between the heat source main body 10 and the heat supply device 30 is automatically adjusted under the condition that the resistance of the heat supply device 30 changes, so that the smoothness of heating is ensured, frequent start-stop adjustment of the wall-mounted furnace 11 is prevented, energy waste is avoided, the requirement of large flow and small temperature difference can be met in the heat supply device 30, and the heat supply device 30 is ensured to be better used;

6) by adopting the heat exchanger 42 to exchange heat, two parts of water in the heat exchanger 42 are not mixed, so that impurities, rust, water scale and the like in the water can be reduced to enter the wall-mounted furnace 11, and the failure rate of the wall-mounted furnace 11 is reduced.

In the description of the present invention, it is to be understood that the terms "center", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Other constructions and operations of the gas-fired heating and water supply system 100 according to the embodiments of the present invention are known to those skilled in the art and will not be described in detail herein.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (19)

1. A gas heating water supply system, comprising:

the heat source main body comprises a plurality of wall-mounted furnaces, a first water inlet pipe, a water supply outlet pipe, a heat supply outlet pipe and a water return pipe, each wall-mounted furnace is provided with a water inlet, a water supply outlet, a heat supply outlet and a water return port, the first water inlet pipe is connected with the water inlet of each wall-mounted furnace, the water supply outlet pipe is connected with the water supply outlet of each wall-mounted furnace, the heat supply outlet pipe is connected with the heat supply outlet of each wall-mounted furnace, and the water return pipe is connected with the water return port of each wall-mounted furnace;

the water supply device is connected with the water supply outlet pipe;

and the heat supply device is connected with the heat supply water outlet and the water return pipe.

2. The gas-fired heat and water supply system according to claim 1, wherein a plurality of the wall-mounted furnaces are arranged in parallel, and flues of the plurality of the wall-mounted furnaces are communicated.

3. A gas-fired heat and water supply system as claimed in claim 1, wherein each of the wall-mounted furnaces further has a gas inlet, and the heat source body further includes a gas pipe connected to the gas inlet of each of the wall-mounted furnaces.

4. The gas-fired heat and water supply system according to claim 1, further comprising a connecting device, both of said heat supply water outlet pipe and said water return pipe being connected to said connecting device,

the heating device comprises a heating water inlet pipe and a heating water drain pipe, and the heating water inlet pipe and the heating water drain pipe are connected with the connecting device.

5. The gas heating and water supply system according to claim 4, wherein a heating circulation pump is provided on the heating drain pipe.

6. Gas-fired heating and water supply system according to claim 4, characterised in that the connection means comprise a decoupling tank having a first port, a second port, a third port and a fourth port communicating with each other,

wherein, first opening with heat supply inlet tube intercommunication, the second opening with heat supply drain pipe intercommunication, the third opening with heat supply outlet pipe intercommunication, the fourth opening with the wet return intercommunication.

7. The gas-fired heat-supply water system of claim 6, further comprising:

the first expansion water tank is arranged on the heat supply drain pipe, or the first expansion water tank is arranged in the wall-mounted furnace.

8. The gas-fired heat-supply water system of claim 4, wherein the connecting means comprises a heat exchanger having a first port, a second port, a third port and a fourth port, the first port in communication with the second port and the third port in communication with the fourth port,

the first interface is communicated with the heat supply water inlet pipe, the second interface is communicated with the heat supply water drain pipe, the third interface is communicated with the heat supply water outlet pipe, and the fourth interface is communicated with the water return pipe.

9. A gas-fired heat and water supply system according to claim 8 wherein the heat exchanger is a plate heat exchanger.

10. The gas-fired heat-supply water system of claim 8, further comprising:

the second expansion water tank is arranged on the heat supply and drainage pipe;

and the third expansion water tank is arranged on the water return pipe, or the third expansion water tank is arranged in the wall-mounted furnace.

11. The gas-fired heat-supply water system of claim 4, wherein the heating device further comprises: a plurality of heat supply portions, every heat supply portion all with the heat supply inlet tube heat supply drain pipe intercommunication.

12. A gas-fired heat and water supply system as claimed in claim 1 wherein the water supply means includes a plurality of water supply portions connected to the water supply outlet pipe.

13. The gas-fired heat-supply water system of claim 12, wherein the water supply means further comprises:

the water supply main pipe is connected with the water supply outlet pipe;

a plurality of water supply branch pipes, every water supply branch pipe all with the water supply is responsible for and is connected, and is a plurality of the water supply portion one-to-one locates a plurality ofly on the water supply branch pipe to it is a plurality of to make water supply portion parallelly connected the setting.

14. A gas-fired heat-supply water system according to claim 13, wherein each water supply includes one or more water supply branches.

15. The gas heating and water supplying system according to claim 13, further comprising a water storage container, wherein both ends of the water supply main pipe, the first water inlet pipe and the water supply outlet pipe are connected with the water storage container.

16. The gas heating and water supply system according to claim 15, wherein a water pump is provided on the water supply main.

17. The gas heating and water supply system according to claim 15, further comprising a second water inlet pipe connected to the water storage container and the water supply portion.

18. The gas heating and water supply system according to claim 17, wherein the second water inlet pipe is connected to the plurality of water supply parts in one-to-one correspondence through a plurality of water inlet branch pipes.

19. The gas heating and water supply system according to claim 1, wherein a water supply circulating pump is provided on the first water inlet pipe.

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