CN211503216U - Water heating stove - Google Patents

Abstract

The utility model relates to a indirect heating equipment technical field specifically provides a water heater, include: the inlet end of the first heat exchanger is communicated with a first water return pipe; the inlet end of the domestic hot water heat exchange system is communicated with the outlet end of the first heat exchanger; and the shunt controller is arranged at the outlet end of the domestic hot water heat exchange system and is suitable for dividing the outlet end of the domestic hot water heat exchange system into two paths and respectively controlling the flow of the two pipelines, wherein the outlet end of one pipeline is communicated with the first return pipe, and the outlet end of the other pipeline and the first return pipe are communicated with the heating loop. The domestic hot water heat exchange system is connected with the heating loop in series, the shunt controller can realize the simultaneous supply of domestic hot water and heating hot water without using a three-way regulating valve, the cost is reduced, meanwhile, when the water heater provides a heating function, the domestic hot water system is in a standby state, when the domestic hot water function is used, the flow direction of a hot water pipe does not need to be adjusted, the regulation and control of the shunt controller are reduced, and therefore the fault rate of the shunt controller is reduced.

Description

Water heating stove

Technical Field

The utility model relates to a indirect heating equipment technical field, concretely relates to water heater.

Background

The water heater is a common heat exchange device, taking a household gas wall-mounted boiler as an example, the existing household mostly adopts a wall-mounted boiler with dual purposes of domestic hot water and heating hot water, and although the wall-mounted boiler can realize the functions of providing heating hot water and domestic hot water, the wall-mounted boiler cannot provide heating hot water and domestic hot water at the same time. That is, when heating is started, water heated in the main heat exchanger enters the heating circulation system, and domestic hot water cannot be produced at this time. When the domestic hot water is started, in order to ensure the preferential supply of the domestic hot water, the water heated in the main heat exchanger enters the domestic hot water circulating system, so that the supply of the heating system is cut off. For families with more members in winter, the room temperature is greatly reduced frequently due to the fact that the hot water function is used more and the using time is long, and the comfort is greatly influenced.

In order to solve the above problems, a wall-mounted gas boiler is provided in the prior art, in which an electric three-way valve with an adjustable opening is disposed at a water outlet end of a main heat exchanger, and the opening of a heating pipeline and the opening of a hot water pipeline are adjusted to simultaneously supply a heating system and a hot water system. However, the three-way regulating valve is complex in structure and high in structural precision, and a control system needs to be added, so that the wall-mounted furnace is high in cost. And the three-way regulating valve needs frequent control switching when the wall-mounted boiler is used, and the control logic is complex, so that the failure rate of the three-way regulating valve is high when the wall-mounted boiler is used for a long time, and the maintenance cost is increased.

SUMMERY OF THE UTILITY MODEL

For solving current hanging stove manufacturing cost height, and the high technical problem of governing valve fault rate, the utility model provides a need not frequently to adjust heating rivers to reduce hanging stove cost and governing valve frequency of use's water heater.

The utility model provides a pair of water heater, include:

the inlet end of the first heat exchanger is communicated with a first water return pipe;

the inlet end of the domestic hot water heat exchange system is communicated with the outlet end of the first heat exchanger; and

the shunt controller is arranged at the outlet end of the domestic hot water heat exchange system and is suitable for dividing the outlet end of the domestic hot water heat exchange system into two paths and respectively controlling the flow of the two pipelines, the outlet end of one pipeline is communicated with the first return pipe, and the outlet end of the other pipeline and the first return pipe are communicated with the heating loop.

In some embodiments, the flow dividing controller comprises a three-way valve, an inlet end of the three-way valve is communicated with an outlet end of the domestic hot water heat exchange system, one outlet end of the three-way valve is communicated with a heating loop, and the other outlet end of the three-way valve is communicated with the first water return pipe.

In some embodiments, the outlet ends of the domestic hot water heat exchange system are respectively communicated with the first return pipe and the heating loop;

the shunt controller includes:

the first two-way valve is arranged on a pipeline of which the outlet end of the domestic hot water heat exchange system is communicated with the first return pipe; and

and the second two-way valve is arranged on a pipeline for communicating the outlet end of the domestic hot water heat exchange system with the heating loop.

In some embodiments, the domestic hot water heat exchange system comprises a second heat exchanger, a first medium inlet end of the second heat exchanger is communicated with an outlet end of the first heat exchanger, a first medium outlet end of the second heat exchanger is communicated with an inlet end of the three-way valve, and a second medium inlet end and a second medium outlet end of the second heat exchanger are communicated with the domestic water pipeline.

In some embodiments, the second heat exchanger is a plate heat exchanger.

In some embodiments, the water heater further comprises:

the circulating pump is arranged on the first water return pipe; and

and the first temperature sensor is arranged on a pipeline connecting the first heat exchanger with the domestic hot water heat exchange system.

In some embodiments, the water heater further comprises:

the second temperature sensor is arranged on a pipeline of which the outlet end of the second medium is communicated with the domestic water pipeline; and

and the third temperature sensor is arranged on a pipeline which is communicated with the heating loop at one outlet end of the three-way valve.

In some embodiments, the water heater further comprises:

the water pressure sensor is arranged on the first water return pipe; and

and the water flow sensor is arranged at the second medium inlet end.

In some embodiments, the first heat exchanger is a gas heater, which includes a gas valve and a burner, the gas valve being connected to the gas circuit, and the inlet end of the gas valve being connected to a gas supply system.

In some embodiments, the first heat exchanger further comprises a fan and a smoke collection cage disposed above the burner.

The utility model provides a water heater, the first return pipe of entry end intercommunication of first heat exchanger, exit end intercommunication themogenesis hot water heat transfer system, shunt controller divide into two pipelines with life hot water heat transfer system's exit end, and control the flow of two pipelines respectively, and one of them pipeline communicates in first return pipe to form life hot water heat transfer circulation, wherein another pipeline and first return pipe communicate in the heating return pipe, thereby form heating heat transfer circulation. Through establishing ties life hot water heat transfer system and heating return circuit, on the one hand, shunt controller need not to use three-way control valve can realize life hot water and the hot-water while supply of heating, reduces the cost, and on the other hand, when the water heater provides the heating function, life hot water system is in operating condition always, consequently when using life hot water function, need not to adjust the flow direction of hot-water line, reduces the regulation and control of shunt controller to reduce shunt controller's fault rate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a hot water boiler according to some embodiments of the present invention.

Fig. 2 is a schematic structural view of a hot water boiler according to other embodiments of the present invention.

Description of reference numerals:

1-a first water return pipe; 2-a circulating pump; 10-a first heat exchanger; 11-a gas valve; 12-a burner; 13-a fan; 14-a smoke collecting hood; 20-a second heat exchanger; 21-a first media inlet end; 22-first medium outlet end; 23-a second media inlet end; 24-a second medium outlet end; 30-three-way valve; 31-a first two-way valve; 32-a second two-way valve; 41-a first temperature sensor; 42-a second temperature sensor; 43-a third temperature sensor; 44-water pressure sensor; 45-water flow sensor.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some examples of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

The utility model provides a water heater can be used to water heater indirect heating equipment, for example domestic hanging stove, heating stove etc. can realize heating and life hot water and supply simultaneously. It should be noted that, in order to realize the heating and domestic hot water function and use simultaneously, the dual-purpose wall hanging stove among the prior art can be divided into two kinds:

the utility model provides a be the hanging stove of two combustion system, this kind of burning water heater inside is provided with two sets of combustion system of heat supply water burning and heating burning, and the user can open a certain set alone or open two sets of combustion system simultaneously as required to realize life hot water and heating and use simultaneously. However, the water heater is equivalent to the combination of two wall-mounted furnaces, the volume of the water heater is large, more household activity space is occupied, and the production cost of the two sets of combustion systems is high, so that the water heater is not practical for most households. Most importantly, when a user only uses one function, the system of the other function is completely shut down, for example, in spring, summer and autumn, the heating system does not need to work at all, and is in an idle and waste state for a long time, so that the utilization rate is low.

The other is to adopt a single combustion system, and adopt a three-way regulating valve to divide hot water heated by a combustion chamber into two ways for supply, wherein one way is used for supplying a heating system, and the other way is used for supplying a domestic hot water heat exchange system. When the water heater is used for a certain function independently, the controller controls one outlet of the three-way regulating valve to be closed, so that single-function supply is realized, when the water heater provides living hot water and heating dual-function simultaneous supply, the controller controls two outlet ends of the three-way regulating valve to be opened, and the flow of the two outlet ends is required to be regulated according to the temperature. It can be seen that when any function of the water heater is switched, the three-way regulating valve is required to be controlled to regulate the flow direction and the flow rate of the hot water pipe, and the control logic is complex and frequent. When the water heater is actually used, the three-way regulating valve is complex in structure and frequent in action, so that faults are prone to occur, corresponding functions of the water heater are lost, the cost of the three-way regulating valve is much higher than that of an on-off valve, the maintenance cost is high, and the user experience is reduced. The utility model discloses just based on this, provide a hot water boiler that hot water boiler need not frequently to adjust the hot water flow to, show in figure 1 according to the utility model discloses some embodiments hot water boiler's structure.

As shown in fig. 1, in some embodiments, the present invention provides a water heater including a first heat exchanger 10, a split flow controller, a domestic hot water heat exchange system, and a circulation pipeline, wherein the first heat exchanger 10 is a main heat exchanger of the water heater and provides heat for circulating water of the water heater. The circulating pipeline comprises a first water return pipe 1, the first water return pipe 1 is used as a water return pipe of system circulating water and is communicated with the inlet end of the first heat exchanger 10, and therefore the circulating water in the circulating pipeline enters the first heat exchanger 10 through the first water return pipe 1 to be heated. The outlet end of the first heat exchanger 10 is communicated with a domestic hot water heat exchange system, and the domestic hot water system is connected in series on a heating pipeline. The shunt controller is arranged at the outlet end of the domestic hot water system, the outlet end of the domestic hot water heat exchange system is divided into two paths, the flow rates of the two pipelines are respectively controlled, the outlet end of one pipeline is communicated with the heating loop, and therefore hot water flowing out of the domestic hot water heat exchange system enters the heating pipeline to form heating circulation. The outlet end of the other pipeline is communicated with the first return pipe 1, and low-temperature water after heat exchange of the domestic hot water heat exchange system flows back to the first return pipe 1 to form domestic hot water heat exchange circulation.

In the present embodiment, the first heat exchanger 10 is, for example, a gas heater, which may include a gas valve 11, a burner 12, a fan 13, a smoke collecting hood 14, and the like, the gas valve 11 may be, for example, an existing gas proportional valve, an air inlet end of the gas valve 11 is communicated with a gas supply pipeline, an air outlet end of the gas valve 11 is communicated with the burner 12, and the gas valve 11 may provide different combustion powers by controlling an intake air ratio or a flow rate of natural gas and air. The burner 12 can adopt a combustion fire row composed of a plurality of fire holes, and different combustion powers can be realized by controlling the combustion quantity of the combustion fire row. The fan 13 and the smoke collecting hood 14 discharge smoke generated by combustion.

With continued reference to fig. 1, in the present embodiment, the domestic hot water heat exchange system includes a second heat exchanger 20, the second heat exchanger 20 may be a plate heat exchanger, and a first medium inlet port 21 of the plate heat exchanger is communicated with an outlet port of the first heat exchanger 10, so that hot water heated by the first heat exchanger 10 enters the plate heat exchanger through the first medium inlet port 21. The first medium outlet end of the plate heat exchanger is respectively communicated with the heating loop and the first water return pipe 1 through a shunt controller. The second medium inlet end 23 and the second medium outlet end 24 are communicated with a domestic hot water pipeline, for example, the second medium inlet end 23 can be communicated with a tap water supply pipeline, and the second medium outlet end 24 is communicated with a bathroom, a kitchen and the like at the tail end of the domestic hot water, so that the low-temperature domestic water enters the plate heat exchanger through the second medium inlet end 23, and the high-temperature domestic hot water after heat exchange enters the tail end of the life through the second medium outlet end 24, thereby providing the domestic hot water for bathing, washing and the like of a user.

In this embodiment, the flow dividing controller includes a three-way valve 30, the three-way valve 30 is disposed at the first medium outlet 22 of the plate heat exchanger, an inlet end of the three-way valve 30 is communicated with the first medium outlet 22, and two outlet ends of the three-way valve are respectively communicated with the heating pipeline and the first water return pipe 1. The three-way valve 30 can be a general three-way on-off valve, and the switching of the pipelines is realized by controlling the on-off of the two outlet ends, for example, when the pipeline communicated with the first return pipe 1 is disconnected, the hot water heated by the first heater 10 enters the second heat exchanger 20 at the moment, the circulating water flowing out from the second heat exchanger 20 enters the heating pipeline, and the heating pipeline exchanges heat with the indoor air of the user, so that the user is heated, and the low-temperature water in the heating pipeline after participating in the heat exchange returns to the first return pipe 1, thereby realizing the circulating heat exchange. When the three-way valve 30 is disconnected from the pipeline communicating with the heating loop, the hot water heated by the first heater 10 enters the second heat exchanger 20, the low-temperature water participating in heat exchange in the second heat exchanger 20 returns to the first return pipe 1 to participate in the next heat exchange cycle, and the water heater only provides the domestic hot water function at this time.

In some embodiments, the water heater further comprises a temperature sensor and a temperature limiter, such as shown in fig. 1, which comprises a first temperature sensor 41 disposed on a pipeline of the outlet end of the first heat exchanger 10 communicating with the second heat exchanger 20, for detecting the outlet water temperature of the first heat exchanger 10; the second temperature sensor 42 is arranged on a pipeline communicated with the domestic water pipeline at the second medium outlet end 24 and is used for detecting the outlet water temperature of the domestic hot water; and a third temperature sensor 43 disposed on a pipeline where the three-way valve 30 communicates with the heating pipeline, for detecting the temperature of the inlet water of the heating loop. A temperature limiter can be arranged on the corresponding hot water pipe, for example, on a domestic hot water outlet pipe, so that the user can be prevented from being scalded due to overhigh temperature of the outlet water.

In some embodiments, the circulation pipeline is further provided with a circulation pump 2, a water flow sensor 45, a water pressure sensor 44 and the like. The circulating pump 2 is arranged on a first return pipe 1 of which one outlet end of the three-way valve 30 is communicated with the first heat exchanger, thereby providing circulating power for heating return water and life heat exchange return water. The water flow sensor 45 is provided at the second medium inlet port 23 and detects the flow rate of the domestic intake water. The water pressure sensor 44 is arranged on the first return pipe 1 and used for detecting the return water pressure of the system, and the rotating speed of the circulating pump 2 can be adjusted through the return water pressure.

The structure of the hot water boiler according to some embodiments is described above, and the operation principle of the hot water boiler according to the above embodiments is described below with reference to fig. 1.

When the water heater provides domestic hot water and a heating function at the same time, a passage of the three-way valve 30 is controlled to be switched to an outlet end communicated with a heating loop, return water of the first return water pipe 1 enters the first heat exchanger 10 under the action of the circulating pump 2, hot water heated by the first heat exchanger 10 flows into the first medium inlet end 21 of the second heat exchanger 20, hot water flowing out of the first medium outlet end 22 enters a downstream heating pipeline through the three-way valve 30 to participate in heating heat exchange, and low-temperature water after heat exchange flows back to the first return water pipe 1 to participate in next circulation.

When the water heater only provides the domestic hot water function, the passage of the control three-way valve 30 is switched to the outlet end communicated with the first return pipe 1, the return water of the first return pipe 1 enters the first heat exchanger 10 under the action of the circulating pump 2, the hot water heated by the first heat exchanger 10 flows into the first medium inlet end 21 of the second heat exchanger 20, and the low-temperature water participating in heat exchange in the second heat exchanger 20 flows back to the first return pipe 1 through the first medium outlet end 22 to participate in the next heat exchange cycle.

According to the above, the utility model discloses a water heater, when the water heater provides the heating function, life hot water heat transfer system is in standby state, and life hot water is along with opening up for use, consequently when the water heater provides life hot water function, need not to switch the flow direction of heating pipeline, reduces three-way valve 30's switching frequency and control logic, and then reduces three-way valve 30's fault rate, and life hot water heat transfer system establishes ties with the heating system simultaneously, need not the use when the governing valve can realize life hot water and heating function. It should be noted that, when the domestic hot water and the heating function are simultaneously turned on, the heating power of the first heat exchanger 10 can be correspondingly increased, so as to ensure that the circulating water flowing out through the second heat exchanger 20 meets the requirement of heating heat exchange, and the temperature of the domestic hot water can be adjusted by adjusting the water flow rate of the second medium inlet port 23.

The structure and principle of the hot water boiler of some embodiments of the present invention are explained above, and on the basis of the disclosure of the above embodiments, the hot water boiler of the present invention may have other alternative embodiments.

Fig. 2 shows the structure of the hot water boiler according to some alternative embodiments of the present invention, in this embodiment, the difference from the above embodiments is that the split flow controller includes a first two-way valve 31 and a second two-way valve 32, the first medium outlet end 22 of the second heat exchanger 20 communicates with the first return pipe 1 and the heating loop respectively, the first two-way valve 31 is disposed on the pipeline communicating the first medium outlet end 22 with the first return pipe 1, thereby controlling the on-off of the pipeline, and the second two-way valve 32 is disposed on the pipeline communicating the first medium outlet end 22 with the heating pipeline, thereby controlling the on-off of the pipeline. The specific working principle and the control method thereof are the same as those in the above embodiment, and those skilled in the art can implement the scheme of the embodiment on the basis of the above disclosure, and are not described herein again.

It should be understood that the above embodiments are only examples for clearly illustrating the present invention, and are not intended to limit the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (10)

1. A water heater, comprising:

the inlet end of the first heat exchanger (10) is communicated with the first water return pipe (1);

the inlet end of the domestic hot water heat exchange system is communicated with the outlet end of the first heat exchanger (10); and

the shunt controller is arranged at the outlet end of the domestic hot water heat exchange system and is suitable for dividing the outlet end of the domestic hot water heat exchange system into two paths and respectively controlling the flow of the two pipelines, the outlet end of one pipeline is communicated with the first water return pipe (1), and the outlet end of the other pipeline and the first water return pipe (1) are communicated with the heating loop.

2. The water heater of claim 1,

the flow dividing controller comprises a three-way valve (30), the inlet end of the three-way valve (30) is communicated with the outlet end of the domestic hot water heat exchange system, one outlet end of the three-way valve is communicated with the heating loop, and the other outlet end of the three-way valve is communicated with the first water return pipe (1).

3. The water heater of claim 1,

the outlet end of the domestic hot water heat exchange system is respectively communicated with the first water return pipe (1) and the heating loop;

the shunt controller includes:

the first two-way valve (31) is arranged on a pipeline communicated with the first water return pipe (1) at the outlet end of the domestic hot water heat exchange system; and

and the second two-way valve (32) is arranged on a pipeline for communicating the outlet end of the domestic hot water heat exchange system with the heating loop.

4. The water heater according to claim 2,

the domestic hot water heat exchange system comprises a second heat exchanger (20), wherein a first medium inlet end (21) of the second heat exchanger (20) is communicated with an outlet end of the first heat exchanger (10), a first medium outlet end (22) is communicated with an inlet end of the three-way valve (30), and a second medium inlet end (23) and a second medium outlet end (24) are communicated with a domestic water pipeline.

5. The water heater according to claim 4,

the second heat exchanger (20) is a plate heat exchanger.

6. The water heater of claim 1, further comprising:

the circulating pump (2) is arranged on the first water return pipe (1); and

and the first temperature sensor (41) is arranged on a pipeline connecting the first heat exchanger (10) and the domestic hot water heat exchange system.

7. The water heater of claim 4, further comprising:

the second temperature sensor (42) is arranged on a pipeline communicated with the domestic water pipeline at the second medium outlet end (24); and

and a third temperature sensor (43) arranged on a pipeline of which one outlet end of the three-way valve (30) is communicated with the heating loop.

8. The water heater of claim 4, further comprising:

the water pressure sensor (44) is arranged on the first water return pipe (1); and

a water flow sensor (45) disposed at the second media inlet end (23).

9. The water heater of claim 1,

the first heat exchanger (10) is a gas heater, and comprises a gas valve (11) and a burner (12), wherein the gas path is communicated with the gas valve, and the inlet end of the gas valve (11) is communicated with a gas supply system.

10. The water heater according to claim 9,

the first heat exchanger (10) further comprises a fan (13) and a smoke collection hood (14) which are arranged on the combustor (12).

Images