CN220892584U - Gas wall-mounted furnace - Google Patents
Gas wall-mounted furnace Download PDFInfo
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- CN220892584U CN220892584U CN202322254329.8U CN202322254329U CN220892584U CN 220892584 U CN220892584 U CN 220892584U CN 202322254329 U CN202322254329 U CN 202322254329U CN 220892584 U CN220892584 U CN 220892584U
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 103
- 239000008236 heating water Substances 0.000 claims description 8
- 238000010438 heat treatment Methods 0.000 abstract description 8
- 238000002485 combustion reaction Methods 0.000 description 2
- 238000001514 detection method Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000006467 substitution reaction Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000003993 interaction Effects 0.000 description 1
- 239000013589 supplement Substances 0.000 description 1
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- Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
Abstract
The utility model discloses a gas wall-mounted furnace, which comprises a heat exchanger and a pipe assembly, wherein the heat exchanger is provided with a heat exchange channel, the heat exchange channel is provided with a water inlet and a water outlet, the heat exchanger can heat water flowing through the heat exchange channel, the pipe assembly is provided with two input channels and two output channels, the pipe assembly is connected with the heat exchanger, the pipe assembly can enable the outlet of one of the input channels to be communicated with the water inlet, and the inlet of one of the output channels to be communicated with the water outlet. Through the structure, one of the input channels is used for supplying the bathroom water for input, and the input bathroom water can be discharged from the outlet of one of the output channels after passing through the heat exchange channels, wherein the heat exchanger can directly heat the bathroom water flowing through the heat exchange channels, so that the heating efficiency of the bathroom water can be improved.
Description
Technical Field
The utility model relates to the technical field of wall-mounted furnaces, in particular to a gas wall-mounted furnace.
Background
In the prior art, some gas wall-mounted stoves are provided with a heating pipeline, a bathroom pipeline and a plate heat exchange module, wherein heating water in the heating pipeline subjected to heat exchange can heat bathroom water in the bathroom pipeline in the plate heat exchange module, but the gas wall-mounted stoves have the problem of low heating efficiency of the bathroom water.
Disclosure of utility model
The utility model aims to at least solve one of the technical problems in the prior art, and therefore, the utility model provides a gas wall-mounted stove which can improve the heating efficiency of bathroom water.
According to an embodiment of the utility model, a gas wall-mounted boiler comprises a heat exchanger and a pipe assembly, wherein the heat exchanger is provided with heat exchange channels, the heat exchange channels are provided with water inlets and water outlets, the heat exchanger can heat water flowing through the heat exchange channels, the pipe assembly is provided with two input channels and two output channels, the pipe assembly is connected with the heat exchanger, the pipe assembly can enable the outlet of one of the input channels to be communicated with the water inlets, and the inlet of one of the output channels to be communicated with the water outlets.
According to the embodiment of the utility model, the gas wall-mounted furnace has at least the following beneficial effects: through the structure, one of the input channels is used for supplying the bathroom water for input, and the input bathroom water can be discharged from the outlet of one of the output channels after passing through the heat exchange channels, wherein the heat exchanger can directly heat the bathroom water flowing through the heat exchange channels, so that the heating efficiency of the bathroom water can be improved.
According to some embodiments of the utility model, the tube assembly comprises a first tube group connected to the heat exchanger, the first tube group being provided with two of the inlet channels, the first tube group being capable of communicating the outlet of one of the inlet channels with the water inlet, and a second tube group connected to the heat exchanger, the second tube group being provided with two of the outlet channels, the second tube group being capable of communicating the inlet of one of the outlet channels with the water outlet.
According to some embodiments of the utility model, the first tube group includes a first valve element and a first pipe element, the first valve element is provided with three first valve ports, the first valve element is connected with the heat exchanger, one of the first valve ports is communicated with the water inlet, the first pipe element is provided with two first pipe elements, the pipe cavity of the first pipe element is the input channel, the first pipe element is connected with the first valve element, the other two first valve ports are communicated with the outlets of the two input channels in a one-to-one correspondence manner, and the first valve element can enable the outlet of one of the input channels to be communicated with the water inlet.
According to some embodiments of the utility model, the heat exchanger and the first valve element are connected to two ends of the water inlet pipe, respectively, so that one end opening of the water inlet pipe is communicated with one of the first valve ports, and the other end opening of the water inlet pipe is communicated with the water inlet.
According to some embodiments of the utility model, the first valve element is provided as a three-way valve.
According to some embodiments of the utility model, the first valve element is provided as an electromagnetic three-way valve.
According to some embodiments of the utility model, the second tube group includes a second valve element and a second tube element, the second valve element is provided with three second valve ports, the second valve element is connected with the heat exchanger, so that one of the second valve ports is communicated with the water outlet, two second tube elements are provided, the tube cavity of the second tube element is the output channel, the second tube element is connected with the second valve element, so that the other two second valve ports are communicated with inlets of the two output channels in a one-to-one correspondence manner, and the second valve element can enable the inlet of one of the output channels to be communicated with the water outlet.
According to some embodiments of the utility model, the heat exchanger further comprises a water outlet pipe, wherein the heat exchanger and the second valve element are respectively connected with two ends of the water outlet pipe, so that an opening at one end of the water outlet pipe is communicated with one of the second valve ports, and the opening at the other end of the water outlet pipe is communicated with the water outlet.
According to some embodiments of the utility model, the second valve element is provided as a three-way valve.
According to some embodiments of the utility model, the second valve element is provided as an electromagnetic three-way valve.
Drawings
The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:
FIG. 1 is a schematic diagram of an embodiment of a gas wall-hanging stove of the present utility model;
FIG. 2 is a schematic view of the flow direction of the gas wall-hanging stove shown in FIG. 1;
FIG. 3 is a schematic view of another water flow direction of the wall-mounted gas boiler shown in FIG. 1.
Reference numerals:
a heat exchanger 100;
Tube assembly 200, first tube set 210, first valve element 211, first tube element 212, second tube set 220, second valve element 221, second tube element 222;
A water inlet pipe 310 and a water outlet pipe 320.
Detailed Description
Reference will now be made in detail to the present embodiments of the present utility model, examples of which are illustrated in the accompanying drawings, wherein the accompanying drawings are used to supplement the description of the written description so that one can intuitively and intuitively understand each technical feature and overall technical scheme of the present utility model, but not to limit the scope of the present utility model.
In the description of the present utility model, if any, the first, second, third, fourth, fifth, etc. are described for the purpose of distinguishing between technical features only, and should not be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.
In the description of the present utility model, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present utility model and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.
In the present utility model, unless clearly defined otherwise, the terms "disposed," "mounted," "connected," and the like are to be construed broadly and may be connected directly or indirectly through an intermediary; the connecting device can be fixedly connected, detachably connected and integrally formed; may be a mechanical connection; may be a communication between two elements or an interaction between two elements. The specific meaning of the words in the utility model can be reasonably determined by a person skilled in the art in combination with the specific content of the technical solution.
Referring to fig. 1 to 3, a gas wall-hanging stove according to an embodiment of the present utility model includes a heat exchanger 100 and a pipe assembly 200.
The heat exchanger 100 is provided with heat exchange channels having a water inlet and a water outlet, the heat exchanger 100 is capable of heating water flowing through the heat exchange channels, the tube assembly 200 is provided with two input channels and two output channels, the tube assembly 200 is connected with the heat exchanger 100, the tube assembly 200 is capable of communicating the outlet of one of the input channels with the water inlet and the inlet of one of the output channels with the water outlet.
It will be appreciated that the tube assembly 200 enables the outlet of one of the inlet channels to communicate with the water inlet and enables the inlet of one of the outlet channels to communicate with the water outlet, i.e. the tube assembly 200 enables the outlet of one of the two inlet channels to communicate with the water inlet and enables the inlet of one of the two outlet channels to communicate with the water outlet.
It is understood that the two input channels can be respectively supplied with the bathroom water and the heating water, and the input bathroom water or heating water can be discharged from the outlet of the corresponding output channel after passing through the heat exchange channel.
It can be appreciated that the gas wall-mounted boiler has a bathroom mode, specifically, referring to fig. 2, bathroom water is input into one of the input channels, and the input bathroom water can be discharged from the outlet of one of the output channels after passing through the heat exchange channels.
It will be appreciated that the gas wall-hanging stove has a heating mode, specifically, referring to fig. 3, heating water is input into another input channel, and the input heating water can be discharged from an outlet of the other output channel after passing through the heat exchange channel.
With the above-described structure, one of the input passages is used for the input of the bathroom water, and the input bathroom water can be discharged from the outlet of one of the output passages through the heat exchange passage, wherein the heat exchanger 100 can directly heat the bathroom water flowing through the heat exchange passage, and thus, the heating efficiency of the bathroom water can be improved.
In the present embodiment, the heat exchanger 100 includes a combustion chamber, and a gas burner and a coil pipe provided in the combustion chamber. Wherein, the coil pipe spare is equipped with the heat transfer passageway, and gas burner can heat the water that flows through the heat transfer passageway.
Tube assembly 210 includes a first tube set 210 and a second tube set 220.
Referring to fig. 1 to 3, a first tube group 210 is connected to the heat exchanger 100, the first tube group 210 is provided with two input channels, the first tube group 210 enables an outlet of one of the input channels to communicate with a water inlet, a second tube group 220 is connected to the heat exchanger 100, the second tube group 220 is provided with two output channels, and the second tube group 220 enables an inlet of one of the output channels to communicate with a water outlet.
The first tube set 210 includes a first valve element 211 and a first tube element 212.
Referring to fig. 1 to3, the first valve member 211 is provided with three first valve ports, the first valve member 211 is connected with the heat exchanger 100 such that one of the first valve ports is communicated with the water inlet, the first pipe member 212 is provided with two, the pipe cavity of the first pipe member 212 is an input channel, the first pipe member 212 is connected with the first valve member 211 such that the remaining two first valve ports are communicated with the outlets of the two input channels in one-to-one correspondence, and the first valve member 211 can enable the outlet of one of the input channels to be communicated with the water inlet. Wherein the first valve member 211 is provided as an electromagnetic three-way valve.
With the above-described structure, the first valve element 211 is provided so that one of the outlets of the two input passages communicates with the water inlet.
The first valve member 211 is connected to the heat exchanger 100, specifically referring to fig. 1 to 3, and further includes a water inlet pipe 310, wherein the heat exchanger 100 and the first valve member 211 are connected to both ends of the water inlet pipe 310, respectively, such that an end opening of the water inlet pipe 310 is communicated with one of the first valve ports, and the other end opening of the water inlet pipe 310 is communicated with the water inlet.
In some embodiments, a first sensing member is provided at one of the first ports, the first sensing member being capable of sensing the flow rate of water entering the inlet tube 310. Wherein the first detecting member is provided as a water flow sensor.
The second tube set 220 includes a second valve member 221 and a second tube member 222.
Referring to fig. 1 to3, the second valve 221 is provided with three second valve ports, the second valve 221 is connected to the heat exchanger 100 such that one of the second valve ports is communicated with the water outlet, the second pipe 222 is provided with two second pipe 222, the pipe cavity of the second pipe 222 is an output channel, the second pipe 222 is connected to the second valve 221 such that the other two second valve ports are communicated with inlets of the two output channels in one-to-one correspondence, and the second valve 221 can enable the inlet of one of the output channels to be communicated with the water outlet. Wherein the second valve member 221 is provided as an electromagnetic three-way valve.
With the above-described structure, the second valve element 221 is provided so that one of the inlets of the two output passages communicates with the water outlet.
The second valve 221 is connected to the heat exchanger 100, specifically referring to fig. 1 to 3, and further includes a water outlet pipe 320, where the heat exchanger 100 and the second valve 221 are connected to two ends of the water outlet pipe 320, respectively, such that an end opening of the water outlet pipe 320 is communicated with one of the second valve ports, and the other end opening of the water outlet pipe 320 is communicated with the water outlet.
In some embodiments, the inlets of the two output channels are respectively provided with a second detection member, and the two second detection members can respectively detect the flow velocity of water flowing into the two output channels. Wherein the second detecting member is provided as a water flow sensor.
In some embodiments, a first temperature detector is disposed at one of the first ports, and a second temperature detector is disposed at the inlet of both output channels. Through the structure, the difference value between the temperature value obtained by the first detector and the temperature value obtained by one of the second detectors can reflect the temperature change of the bathroom water after being heated; the difference between the temperature value obtained by the first detector and the temperature value obtained by the other second temperature detector can reflect the temperature change of the heating water after being heated. Wherein the first temperature detector is configured as a temperature sensor; the second temperature detector is configured as a temperature sensor.
In some embodiments, the tube assembly 200 is provided with three inlet channels and three outlet channels, the tube assembly 200 being connected to the heat exchanger 100, the tube assembly 200 being capable of communicating the outlet of one of the inlet channels with the water inlet and the inlet of one of the outlet channels with the water outlet.
In some embodiments, the tube assembly 200 is provided with four inlet channels and four outlet channels, the tube assembly 200 being connected to the heat exchanger 100, the tube assembly 200 being capable of communicating the outlet of one of the inlet channels with the water inlet and the inlet of one of the outlet channels with the water outlet.
Of course, the present utility model is not limited to the above-described embodiments, and those skilled in the art can make equivalent modifications and substitutions without departing from the spirit of the present utility model, and these equivalent modifications and substitutions are included in the scope of the present utility model as defined in the appended claims.
Claims (10)
1. The utility model provides a gas hanging stove which characterized in that: comprising
A heat exchanger (100) provided with a heat exchange channel having a water inlet and a water outlet, the heat exchanger (100) being capable of heating water flowing through the heat exchange channel;
The pipe assembly (200) is provided with two input channels and two output channels, the pipe assembly (200) is connected with the heat exchanger (100), the pipe assembly (200) can enable the outlet of one of the input channels to be communicated with the water inlet, and can enable the inlet of one of the output channels to be communicated with the water outlet.
2. The gas wall-hanging stove of claim 1, wherein:
The tube assembly (200) includes:
A first tube group (210) connected to the heat exchanger (100), the first tube group (210) being provided with two of the input channels, the first tube group (210) being capable of communicating an outlet of one of the input channels with the water inlet;
A second tube group (220) connected to the heat exchanger (100), the second tube group (220) being provided with two of the output channels, the second tube group (220) being capable of communicating an inlet of one of the output channels with the water outlet.
3. The gas wall-hanging stove of claim 2, wherein:
The first tube group (210) includes:
The first valve (211) is provided with three first valve ports, and the first valve (211) is connected with the heat exchanger (100) so that one of the first valve ports is communicated with the water inlet;
The two first pipe fittings (212) are arranged, the pipe cavities of the first pipe fittings (212) are the input channels, the first pipe fittings (212) are connected with the first valve pieces (211) so that the other two first valve ports are communicated with the outlets of the two input channels in a one-to-one correspondence manner,
The first valve member (211) enables the outlet of one of the inlet channels to communicate with the water inlet.
4. A gas wall-hanging stove as claimed in claim 3, wherein:
The heat exchanger further comprises a water inlet pipe (310), wherein the heat exchanger (100) and the first valve element (211) are respectively connected with two ends of the water inlet pipe (310), so that an opening at one end of the water inlet pipe (310) is communicated with one of the first valve openings, and the opening at the other end of the water inlet pipe (310) is communicated with the water inlet.
5. A gas wall-hanging stove as claimed in claim 3, wherein:
the first valve element (211) is provided as a three-way valve.
6. The gas wall-hanging stove of claim 5, wherein:
The first valve element (211) is configured as an electromagnetic three-way valve.
7. The gas wall-hanging stove of claim 2, wherein:
the second tube set (220) comprises
The second valve (221) is provided with three second valve ports, and the second valve (221) is connected with the heat exchanger (100) so that one of the second valve ports is communicated with the water outlet;
The two second pipe fittings (222) are arranged, the pipe cavities of the second pipe fittings (222) are the output channels, the second pipe fittings (222) are connected with the second valve pieces (221) so that the other two second valve ports are communicated with inlets of the two output channels in a one-to-one correspondence manner,
The second valve member (221) is capable of communicating an inlet of one of the output channels with the water outlet.
8. The gas wall-hanging stove of claim 7, wherein:
The heat exchanger is characterized by further comprising a water outlet pipe (320), wherein the heat exchanger (100) and the second valve element (221) are respectively connected with two end parts of the water outlet pipe (320), so that an opening at one end part of the water outlet pipe (320) is communicated with one of the second valve ports, and the opening at the other end part of the water outlet pipe (320) is communicated with the water outlet.
9. The gas wall-hanging stove of claim 7, wherein:
the second valve element (221) is configured as a three-way valve.
10. The gas wall-hanging stove of claim 9, wherein:
The second valve element (221) is configured as an electromagnetic three-way valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202322254329.8U CN220892584U (en) | 2023-08-14 | 2023-08-14 | Gas wall-mounted furnace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202322254329.8U CN220892584U (en) | 2023-08-14 | 2023-08-14 | Gas wall-mounted furnace |
Publications (1)
Publication Number | Publication Date |
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CN220892584U true CN220892584U (en) | 2024-05-03 |
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Family Applications (1)
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CN202322254329.8U Active CN220892584U (en) | 2023-08-14 | 2023-08-14 | Gas wall-mounted furnace |
Country Status (1)
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CN (1) | CN220892584U (en) |
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2023
- 2023-08-14 CN CN202322254329.8U patent/CN220892584U/en active Active
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