CN218033306U - Heating stove circulation system - Google Patents
Heating stove circulation system Download PDFInfo
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- CN218033306U CN218033306U CN202221942203.9U CN202221942203U CN218033306U CN 218033306 U CN218033306 U CN 218033306U CN 202221942203 U CN202221942203 U CN 202221942203U CN 218033306 U CN218033306 U CN 218033306U
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- 238000010438 heat treatment Methods 0.000 title claims abstract description 160
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 268
- 230000001105 regulatory effect Effects 0.000 claims description 17
- 238000001514 detection method Methods 0.000 claims description 8
- 239000008400 supply water Substances 0.000 claims description 3
- 238000004891 communication Methods 0.000 description 7
- 238000000034 method Methods 0.000 description 6
- 238000010586 diagram Methods 0.000 description 2
- 238000005485 electric heating Methods 0.000 description 2
- 239000008399 tap water Substances 0.000 description 2
- 235000020679 tap water Nutrition 0.000 description 2
- 238000012360 testing method Methods 0.000 description 2
- 238000012546 transfer Methods 0.000 description 2
- 230000004308 accommodation Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
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Abstract
The application belongs to the technical field of heating equipment, and particularly relates to a heating furnace circulating system which comprises a heating circulating device, a heating element, an adjusting device and a plurality of water conveying pipelines; the first end of the heating element is communicated with the water outlet of the heating circulating device, and the second end of the heating element is communicated with the water return port of the heating circulating device; the water inlet of the adjusting device is communicated with the water outlet, and the water delivery ports of the adjusting device are communicated with the first ends of the water delivery pipelines so as to adjust the temperature of water flow in the water delivery pipelines; the second ends of the water conveying pipelines are all communicated with the water return port, and each water conveying pipeline is provided with at least one water utilization node. The temperature that has solved rivers in the different hydraulic pipe-line of this application has differed to influence the problem that the user used experience.
Description
Technical Field
This application belongs to heating equipment technical field, concretely relates to heating stove circulation system.
Background
The heating stove is a common heating equipment, can heat cold water to rivers after will heating through heating stove circulation system are carried to heating element departments such as radiator, and then improve indoor temperature through heating element.
The heating stove circulation system can also be carried the rivers after the heating to a plurality of water nodes through a plurality of hydraulic pipe-lines to make the user can utilize the heating stove to use hot water more conveniently. But because the length of a plurality of hydraulic pipelines is different for the temperature of rivers is different in the different hydraulic pipelines, thereby influences user's use and experiences.
SUMMERY OF THE UTILITY MODEL
In order to solve the above-mentioned problem among the correlation technique, for the temperature that solves different water piping in the correlation technique rivers is different, thereby influences the problem that the user used and experienced, this application provides a heating stove circulation system.
The embodiment of the application provides a heating stove circulating system, which comprises a heating circulating device, a heating element, a regulating device and a plurality of water conveying pipelines;
the first end of the heating element is communicated with the water outlet of the heating circulating device, and the second end of the heating element is communicated with the water return port of the heating circulating device;
the water inlet of the adjusting device is communicated with the water outlet, and the water delivery ports of the adjusting device are communicated with the first ends of the water delivery pipelines so as to adjust the temperature of water flow in the water delivery pipelines;
the second ends of the water conveying pipelines are communicated with the water return port, and each water conveying pipeline is provided with at least one water utilization node.
By adopting the technical scheme, in the circulating system of the heating furnace, when the indoor temperature is increased by using the heating element, the heating circulating device heats the water flow and enables the heated water to flow to the heating element through the water outlet, so that the indoor temperature can be increased by using the heating element; when using hot water through the water node, heat heating cycle system delivery port exhaust rivers through adjusting device for rivers flow through adjusting device's water delivery port, and make rivers flow to a plurality of water piping's water node, thereby can reduce the difference of water temperature in the water piping, improved user's use and experienced.
In the above preferred technical solution, the heating circulation device further comprises a water inlet pipeline, and the water inlet pipeline is communicated with the water return port to supply water to the heating circulation device.
In the above preferred technical solution, the heating system further comprises a control element, the control element is provided with a first port, a second port and a third port, the first port is communicated with the water outlet of the heating circulation device, the second port is communicated with the water inlet of the regulating device, and the third port is communicated with the first end of the heating element;
when the control element is in a first state, the first port is communicated with the third port, and the first port is disconnected with the second port;
when the control member is in a second state, the first port is communicated with the third port, and the first port is communicated with the second port.
In the above preferred technical solution, the first end of the heating element is communicated with the water delivery port of the adjusting device, so that the first end of the heating element is communicated with the water outlet through the adjusting device.
In the above preferred technical solution, each of the water pipes is provided with at least one first temperature detecting member, and the heating element is provided with a second temperature detecting member.
In the above preferred technical solution, the first temperature detection members are arranged in one-to-one correspondence with the water consumption nodes, and the first temperature detection members are arranged between the corresponding water consumption nodes and the adjusting device.
In the above preferred technical solution, each water conveying pipeline is provided with an adjusting piece, and the adjusting piece is used for adjusting the flow rate of water flow in the corresponding water conveying pipeline.
In the above preferred technical solution, each water conveying pipeline is provided with a communicating pipeline, a first end of the communicating pipeline is communicated between the adjusting piece and the water consumption node, and a second end of the communicating pipeline is communicated with the water return port.
In the above preferred technical solution, the adjusting device is set as a zero-cold-water circulating pump to heat the water flow in the plurality of water conveying pipelines.
In the above preferred technical solution, the heating circulation device is an electric heating circulation device; or the heating circulating device is a gas heating circulating device.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the description below are some embodiments of the present application, and those skilled in the art can obtain other drawings based on the drawings without inventive labor.
FIG. 1 is a schematic diagram of a heating stove circulation system including controls provided by an embodiment of the present application;
fig. 2 is a schematic diagram of a heating stove circulation system provided by an embodiment of the present application that does not include a control.
Reference numerals are as follows:
100. a heating cycle device; 110. an air intake duct; 120. a water inlet pipeline; 200. a heating element; 210. a second temperature detection member; 300. an adjustment device; 400. a water delivery pipeline; 410. a water consumption node; 420. an adjustment member; 430. a first temperature detection member; 440. a communicating pipeline; 500. and a control member.
Detailed Description
As described in the background art, in a circulating system of a heating stove, in addition to providing hot water to a heating element, hot water also needs to be provided to different water using nodes through a plurality of water conveying pipelines, because the lengths of the plurality of water conveying pipelines are different, the flowing time of water flow in the water conveying pipelines with different lengths is different, so that the temperature of water flow in different water conveying pipelines is different, for example, in the water conveying pipeline with longer length, because the flowing time of water flow is longer, the temperature of water flow at the water using node is lower, thereby affecting the normal use of a user, and further affecting the use experience of the user.
In order to solve the technical problem, an embodiment of the present application provides a heating stove circulation system, in which a heating circulation device, a heating element, an adjusting device and a plurality of water conveying pipelines are arranged, the heating circulation device heats water flow, and the heated water flows to the heating element through a water outlet, so that the indoor temperature can be increased by using the heating element; and when using hot water through the water node, heat heating circulation system delivery port exhaust rivers through adjusting device for rivers flow through adjusting device's delivery port, and make rivers flow to the water node of a plurality of water pipes, thereby can reduce the difference of the interior rivers temperature of water pipe, improved user's use and experienced.
In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
Referring to fig. 1-and 2, the present embodiment provides a heating stove circulation system including a heating circulation device 100, a heating element 200, a regulating device 300, and a plurality of water transfer pipelines 400; the first end of the heating element 200 is communicated with the water outlet of the heating circulation device 100, and the second end of the heating element 200 is communicated with the water return port of the heating circulation device 100, so that the heating element 200 can increase the indoor temperature.
And, with continued reference to fig. 1-and 2, the water inlet of the regulating device 300 is communicated with the water outlet, and the water delivery port of the regulating device 300 is communicated with the first ends of the plurality of water delivery pipelines 400; the second ends of the water conveying pipelines 400 are all communicated with the water return port, and each water conveying pipeline 400 is provided with at least one water using node 410, so that hot water can be provided for different water using nodes 410 of the water conveying pipelines 400 by using the heating and circulating device 100.
In the embodiment of the present application, the heating cycle device 100 may be provided as an electric heating furnace or a gas heating furnace as long as it can heat the water flow; when the heating cycle device 100 is provided as a gas heating stove, the heating cycle device 100 is provided with the gas inlet duct 110 so as to communicate with the gas inlet duct 110, thereby enabling the gas inlet duct to be used for supplying gas to the heating cycle device 100. The heating element 200 may be a radiator, etc., so as to transfer heat to the indoor space by heat radiation, etc., to increase the indoor temperature.
By adopting the above technical scheme, when the indoor temperature is increased by using the heating element 200, the heating circulation device 100 heats the water flow, and the heated water flow flows to the first end of the heating element 200 through the water outlet, so that the indoor temperature can be increased by using the heating element 200, and then flows out through the second end of the heating element 200, and further the water flow returns to the heating circulation device 100 through the water return port; when hot water is used through the water consumption node 410, water flow heated by the heating and circulating device 100 flows to the water inlet of the adjusting device 300 through the water outlet, and is heated again through the adjusting device 300, so that the water flow flows out through the water delivery port of the adjusting device 300, and flows to the water consumption nodes 410 of the water delivery pipelines 400, thereby reducing the difference of water flow temperatures in the water delivery pipelines 400, and improving the use experience of users.
In the embodiment of the present application, the adjusting device 300 may be set to be a zero cold water circulating pump or other device capable of adjusting the temperature of the water flow to heat the water flow in the multiple water conveying pipelines 400, so as to reduce the difference of the water flow temperature in the multiple water conveying pipelines 400.
It is easily understood that, since the heating cycle device 100 does not heat the water flow at all times, the water flow temperature of the water delivery pipe 400 gradually decreases when the heating cycle device 100 does not heat. And when the adjusting device 300 is set as a zero-cold-water circulating pump, it is easy to understand that the start cycle of the zero-cold-water circulating pump may be set, for example, after a set time, the zero-cold-water circulating pump is started, so that the water flows in the plurality of water conveying pipelines 400 can be heated; or detection pieces such as temperature sensors can be arranged in the water conveying pipelines 400, so that the water flow temperature in the water conveying pipelines 400 can be acquired through the detection pieces, and the on-off state of the zero-cold-water circulating pump can be controlled according to the water flow temperature.
A specific connection manner of the heating cycle device 100, the heating element 200 and the adjusting device 300 will be described below.
Illustratively, referring to fig. 1, the heating stove circulation system further includes a control 500, and the control 500 is provided with a first port, a second port, and a third port; wherein, the first port is communicated with the water outlet of the heating circulation device 100, the second port is communicated with the water inlet of the adjusting device 300, and the third port is communicated with the first end of the heating element 200.
And when the control member 500 is in the first state, the first port is communicated with the third port, that is, the water outlet of the heating cycle device 100 is communicated with the first end of the heating element 200, and the first port is disconnected from the second port, that is, the water outlet of the heating cycle device 100 is disconnected from the water inlet of the adjusting device 300, so that the indoor temperature can be increased only by the heating element 200 without using the water usage node 410.
When the control member 500 is in the second state, the first port is communicated with the third port, that is, the water outlet of the heating circulation device 100 is communicated with the first end of the heating element 200, and the first port is communicated with the second port, that is, the water outlet of the heating circulation device 100 is communicated with the water inlet of the adjusting device 300, so that the indoor temperature can be increased by using the heating element 200, and the temperature of the water flow in the water conveying pipelines 400 can be adjusted by the adjusting device 300.
It is easy to understand that, by adopting the above technical solution, the heating element 200 and the heating cycle device 100 are always in a communication state, and the heating element 200 is not adjusted by the adjusting device 300, since the water flow flowing in the heating element 200 is used for increasing the indoor temperature, when the water flow temperature in the heating element 200 is low, the water flow will have an influence on the room temperature, and will not have an influence on the water usage of the user node. When the water flow temperature of the heating element 200 needs to be adjusted, the control member 500 is adjusted to enable the control member 500 to be in the first state, so that the water outlet of the heating circulation device 100 is disconnected from the water inlet of the adjusting device 300, and the adjustment process of the water flow temperature in the heating element 200 is more convenient.
Or, for example, referring to fig. 2, the first end of the heating element 200 is communicated with the water delivery port of the adjusting device 300, so that the first end of the heating element 200 is communicated with the water outlet port through the adjusting device 300. So that the temperature of the water current in the heating element 200 can be adjusted by the adjusting device 300.
Referring to fig. 1 and 2, in the present embodiment, the heating stove circulation system further includes a water inlet line 120, and the water inlet line 120 is communicated with the water return port to supply water to the heating circulation device 100. It will be readily appreciated that the water inlet line 120 may be in communication with a tap water line, thereby enabling flow of water from the tap water line through the water inlet line 120 and into the heating cycle device 100.
And the water inlet pipe 120 may also be communicated with the second ends of the plurality of water pipes 400 or the second end of the heating element 200, so that the water flows in both the water pipes 400 and the heating element 200 can return to the heating cycle device 100 through the water inlet pipe 120.
Referring to fig. 1-2, a specific structure of the water conveying pipeline 400 is described below, in this embodiment of the present application, the number of the water conveying pipelines 400 may be set to be one or more, this is not limited in this embodiment of the present application, and the number of the water using nodes 410 of each water conveying pipeline 400 may be set to be one or more, for example, one water using node 410 is provided on each water conveying pipeline 400.
All be provided with regulating part 420 on every conduit 400, regulating part 420 is used for adjusting the flow of the interior rivers of the conduit 400 that corresponds, thereby make the rivers flow of every conduit 400 all can control through regulating part 420, and then make the accommodation process of the rivers temperature in every conduit 400 more convenient, wherein, regulating part 420 sets up to water servo or governing valve etc. this does not do the restriction, as long as can guarantee to the control of conduit 400 rivers can.
Also, in the embodiment of the present application, each water pipe 400 is provided with at least one first temperature detector 430 so that the temperature of the water flow in the water pipe 400 can be detected using the first temperature detector 430, and the heating element 200 is provided with a second temperature detector 210 so that the temperature of the water flow in the heating element 200 can be detected using the second temperature detector 210.
Further, in the embodiment of the present application, the adjusting part 420 and the adjusting device 300 can be controlled according to the first temperature detecting part 430 and the second temperature detecting part 210, so that the temperature of the water flow in the water conveying pipeline 400 can be adjusted by the adjusting device 300, and the difference between the water flow temperatures of the plurality of water conveying pipelines 400 is reduced, so as to improve the user experience.
By adopting the above technical scheme, when the indoor temperature is raised by the heating element 200, the heating circulation device 100 heats the water flow, and the heated water flow flows to the first end of the heating element 200 through the water outlet, so that the indoor temperature can be raised by the heating element 200; the second temperature detector 210 detects the temperature of the water flow in the heating element 200, and if the temperature of the water flow in the heating element 200 is low, the flow rate of the water flow in the water pipe 400 is reduced through the adjuster 420, and the heating circulation device 100 is turned on, so that the temperature of the water flow in the heating element 200 can be increased;
when hot water is used through the water using node 410, the water heated by the heating and circulating device 100 flows to the regulating device 300 through the water outlet and flows to the water using nodes 410 of the plurality of water conveying pipelines 400 through the regulating device 300, and at this time, the first temperature testing part arranged on the water conveying pipeline 400 detects the temperature of the water flow in the water conveying pipeline 400; if the temperature of rivers in conduit 400 is lower, then reduce the flow of rivers in other conduit 400 through regulating part 420, and heat rivers again through adjusting device 300, make rivers flow through the delivery port of adjusting device 300, and make rivers flow to conduit 400 with water node 410, thereby can heat this conduit 400 rivers in, in order to reduce the difference of the interior rivers temperature of a plurality of conduits 400, user's use experience has been improved.
Specifically, the first temperature detecting members 430 are disposed in one-to-one correspondence with the water consumption nodes 410, and the first temperature detecting members 430 are disposed between the corresponding water consumption nodes 410 and the adjusting device 300. Therefore, the temperature of the water flow at all the water using nodes 410 can be detected by using the plurality of first temperature detecting members 430 to obtain the temperature of the water flow at all the water using nodes 410, so that the adjusting process of the water flow temperature is more accurate; and the first temperature detecting member 430 is disposed between the water consumption node 410 and the adjusting device 300, so that the temperature of the water flow can be relatively accurately obtained, and the influence of the user on the temperature of the water flow in the process of using hot water is avoided.
Referring to fig. 1-2, in the embodiment of the present application, each water conveying pipeline 400 is provided with a communication pipeline 440, a first end of the communication pipeline 440 is communicated between the adjusting member 420 and the water using node 410, and a second end of the communication pipeline 440 is communicated with the water return port, since a switch is generally disposed at the water using node 410, when a user uses water at the water using node 410, the water pressure in the water conveying pipeline 400 is reduced, and the communication pipeline 440 is disposed on the water conveying pipeline 400, so that the communication pipeline 440 can be used to balance the water pressure.
In summary, when the indoor temperature is raised by the heating element 200, the heating circulation device 100 heats the water flow and makes the heated water flow to the first end of the heating element 200 through the water outlet, so that the indoor temperature can be raised by the heating element 200; the second temperature detector 210 detects the temperature of the water flow in the heating element 200, and if the temperature of the water flow in the heating element 200 is low, the heating cycle device 100 is turned on, so that the temperature of the water flow in the heating element 200 can be increased;
when a user uses hot water through the water using node 410, the water heated by the heating and circulating device 100 flows to the adjusting device 300 through the water outlet and flows to the water using nodes 410 of the plurality of water conveying pipelines 400 through the adjusting device 300, and at this time, the first temperature testing part arranged on the water conveying pipelines 400 detects the temperature of the water flow in the water conveying pipelines 400; if the temperature of rivers is lower in conduit 400, heat rivers once more through adjusting device 300 for rivers flow through adjusting device 300's delivery port, and make rivers flow to conduit 400's water consumption node 410, thereby can heat this conduit 400 internal rivers, in order to reduce the difference of a plurality of conduit 400 internal rivers temperature, improved user's use and experienced.
In the description of the embodiments of the present application, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.
In the embodiments of the present application, unless otherwise specifically stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as the case may be.
In the description of the embodiments of the present application, it should be understood that the terms "inner", "outer", "upper", "bottom", "front", "back", and the like, when used in conjunction with the orientation or positional relationship shown in the drawings, are used merely for convenience in describing the present application and for simplicity in description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present application.
Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the scope of the technical solutions of the embodiments of the present application.
Claims (10)
1. A heating stove circulating system is characterized by comprising a heating circulating device, a heating element, a regulating device and a plurality of water conveying pipelines;
the first end of the heating element is communicated with the water outlet of the heating circulating device, and the second end of the heating element is communicated with the water return port of the heating circulating device;
the water inlet of the adjusting device is communicated with the water outlet, and the water delivery ports of the adjusting device are communicated with the first ends of the water delivery pipelines so as to adjust the temperature of water flow in the water delivery pipelines;
the second ends of the water conveying pipelines are communicated with the water return port, and each water conveying pipeline is provided with at least one water utilization node.
2. A heating stove circulation system according to claim 1, further comprising a water inlet line communicating with the water return port to supply water to the heating circulation device.
3. A heating stove circulation system according to claim 2, further comprising a control provided with a first port communicating with the water outlet of the heating circulation device, a second port communicating with the water inlet of the regulating device, and a third port communicating with a first end of the heating element;
when the control piece is in a first state, the first port is communicated with the third port, and the first port is disconnected from the second port;
when the control member is in a second state, the first port is communicated with the third port, and the first port is communicated with the second port.
4. The heating stove circulation system according to claim 2, wherein the first end of the heating element communicates with the water delivery port of the regulating device so that the first end of the heating element communicates with the water outlet port through the regulating device.
5. A heating stove circulation system according to claim 1, characterized in that each water conveying pipe is provided with at least one first temperature detecting member, and the heating element is provided with a second temperature detecting member.
6. The heating stove circulation system according to claim 5, characterized in that the first temperature detection pieces are provided in one-to-one correspondence with the water usage nodes, and the first temperature detection pieces are provided between the corresponding water usage nodes and the adjustment device.
7. The heating stove circulation system according to claim 1, characterized in that each water conveying pipeline is provided with an adjusting piece for adjusting the flow rate of water flow in the corresponding water conveying pipeline.
8. A heating stove circulating system according to claim 7, characterized in that each water conveying pipeline is provided with a communicating pipeline, a first end of the communicating pipeline is communicated between the adjusting piece and the water using node, and a second end of the communicating pipeline is communicated with the water return port.
9. Heating stove circulation system according to any one of claims 1-8, characterized in that the regulating device is arranged as a zero cold water circulation pump to heat the water flow in the plurality of water conveying lines.
10. The heating stove circulation system of claim 1, wherein the heating circulation device is provided as an electrical heating circulation device; or the heating circulating device is a gas heating circulating device.
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CN202221942203.9U CN218033306U (en) | 2022-07-26 | 2022-07-26 | Heating stove circulation system |
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CN202221942203.9U CN218033306U (en) | 2022-07-26 | 2022-07-26 | Heating stove circulation system |
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CN218033306U true CN218033306U (en) | 2022-12-13 |
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