CN211502983U - Integrated phase-change heat storage boiler - Google Patents
Integrated phase-change heat storage boiler Download PDFInfo
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- CN211502983U CN211502983U CN201921549931.1U CN201921549931U CN211502983U CN 211502983 U CN211502983 U CN 211502983U CN 201921549931 U CN201921549931 U CN 201921549931U CN 211502983 U CN211502983 U CN 211502983U
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Abstract
The utility model relates to an integration phase transition heat-retaining boiler, its characterized in that: the energy storage system comprises a boiler module, an energy storage module, a user side module and a circulating pipeline; the boiler module and the user side module are respectively arranged at two ends of the circulating pipeline; the energy storage module is connected to the output end of the boiler module in parallel; a heat exchange medium is arranged in the circulating pipeline; the utility model not only meets the heating demand of the user, but also reduces the economic burden; the equipment integration can reduce the field installation time and cost, the data networking can be monitored in real time, the problem is discovered at the earliest, and the potential safety hazard and the maintenance cost are reduced.
Description
Technical Field
The utility model relates to a phase transition heat-retaining boiler structure field especially relates to an integration phase transition heat-retaining boiler.
Background
Similar products in the market at present are boilers and heat storage equipment, and are mainly applied to large places. The equipment mainly aims at small houses, has no errors in heat storage and heat supply, meets the heat supply requirements of common people, and saves electricity charge.
The pipeline of the equipment is integrated at the top end or the side surface of the equipment, and is connected by adopting a loose joint, so that the later maintenance is facilitated. Meanwhile, the device collects various data, and the data are uploaded through the internet, so that real-time monitoring can be realized.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide an integration phase transition heat-retaining boiler, can solve general phase transition heat-retaining modularization integrated degree low, the problem that field installation is wasted time and energy.
In order to solve the technical problem, the utility model adopts the technical scheme that: the utility model provides an integration phase transition heat-retaining boiler, its innovation point lies in: the energy storage system comprises a boiler module, an energy storage module, a user side module and a circulating pipeline; the boiler module and the user side module are respectively arranged at two ends of the circulating pipeline; the energy storage module is connected to the output end of the boiler module in parallel; a heat exchange medium is arranged in the circulating pipeline;
a heating body is arranged in the boiler module, and the heating body adopts an electric heating mode to heat a medium in a circulating pipeline in the boiler module; a phase change energy storage bar group is arranged in the energy storage module and connected to the circulating pipeline; a radiator is arranged in the user side and connected to the circulating pipeline;
an expansion tank, a water replenishing valve and a safety valve are sequentially arranged in parallel on a circulating pipeline connected between the output end of the boiler module and the input end of the energy storage module from the boiler module to the energy storage module; a water pump is connected in series on a circulating pipeline connected between the output end of the boiler module and the input end of the energy storage module;
an electric three-way valve is arranged at the input end of the energy storage module; two ports of the electric three-way valve are connected to the circulating pipeline, and the other port of the electric three-way valve is connected to the input end of the energy storage module;
and a proportional valve is connected in parallel between the input port and the output port of the user side module.
Furthermore, temperature sensors are arranged in the output end of the boiler module, the output end of the energy storage module, the input end and the output end of the user side module and the user side module.
Furthermore, the electric three-way valve, the water pump and the proportional valve are all controlled by electromagnetic signals.
The utility model has the advantages that:
1) the utility model not only meets the heating demand of the user, but also reduces the economic burden; the equipment integration can reduce the field installation time and cost, the data networking can be monitored in real time, the problem is discovered at the earliest, and the potential safety hazard and the maintenance cost are reduced.
Drawings
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Fig. 1 is the utility model discloses an integration phase transition heat-retaining boiler connection structure sketch.
Fig. 2 is the utility model discloses an integration phase transition heat-retaining boiler internal connection structure schematic diagram.
Detailed Description
The following examples are presented to enable those skilled in the art to more fully understand the present invention and are not intended to limit the scope of the present invention.
Fig. 1 and fig. 2 show an integrated phase-change heat storage boiler, which includes a boiler module 1, an energy storage module 2, a user side module 3 and a circulation pipeline 4; the boiler module 1 and the user side module 3 are respectively arranged at two ends of the circulating pipeline 4; the energy storage module 2 is connected in parallel to the output end of the boiler module 1; and a heat exchange medium is arranged in the circulating pipeline 4.
A heating body is arranged in the boiler module 1, and the heating body 11 adopts an electric heating mode to heat a medium in a circulating pipeline in the boiler module 1; a phase change energy storage bar group is arranged in the energy storage module 2 and connected to the circulating pipeline 4; a radiator is arranged in the user side and connected to the circulating pipeline 4.
An expansion tank 12, a water replenishing valve 13 and a safety valve 14 are sequentially arranged in parallel on a circulating pipeline 4 connected between the output end of the boiler module 1 and the input end of the energy storage module 2 from the boiler module 1 to the energy storage module 2; and a water pump 15 is connected in series on the circulating pipeline 4 connected between the output end of the boiler module 1 and the input end of the energy storage module 2.
An electric three-way valve 21 is arranged at the input end of the energy storage module 2; two ports of the electric three-way valve 21 are connected to the circulation pipeline 4, and the other port of the electric three-way valve 21 is connected to the input end of the energy storage module 2.
A proportional valve 31 is connected in parallel between the input port and the output port of the user side module 3.
Temperature sensors are arranged in the output end of the boiler module 1, the output end of the energy storage module 2, the input end and the output end of the user side module 3 and the user side module 3.
The electric three-way valve 21, the water pump and the proportional valve are all controlled by electromagnetic signals.
In valley electricity, the boiler module 1 is supplied with electricity while storing, two ports connected with the circulating pipeline 4 on the three-way electric valve 21 are closed, the port connected with the energy storage module 2 is opened, the water pump 15 is opened, the heating body is opened, and the proportional valve is closed.
When the temperature T0 is more than 60 ℃ and the temperature T0-T1 is less than 1 ℃, two ports connected with the circulating pipeline 4 on the three-way electric valve 21 are closed, the port connected with the energy storage module 2 is opened, the water pump 15 is opened, the heating body 11 is opened, and the state is that the boiler module directly supplies power; when T2 > 20 ℃, the proportional valve is open, and when T2 < 15 ℃, the proportional valve 31 is closed.
When the peak power is supplied, the energy storage module is directly supplied initially, two ports connected with the circulating pipeline 4 on the three-way electric valve 21 are opened, the port connected with the energy storage module 2 is closed, the water pump 15 is opened, the heating body 11 is closed, and the proportional valve 31 is closed; when the temperature T1 is less than 50 ℃, two ports connected with the circulating pipeline 4 on the three-way electric valve 21 are closed, the port connected with the energy storage module 2 is opened, the water pump is opened, the heating body 11 is opened, and the boiler module 1 is in a direct supply state.
When T2 > 20 ℃, proportional valve 31 is open, and when T2 < 15 ℃, proportional valve 31 is closed.
It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (3)
1. An integration phase transition heat-retaining boiler which characterized in that: the energy storage system comprises a boiler module, an energy storage module, a user side module and a circulating pipeline; the boiler module and the user side module are respectively arranged at two ends of the circulating pipeline; the energy storage module is connected to the output end of the boiler module in parallel; a heat exchange medium is arranged in the circulating pipeline;
a heating body is arranged in the boiler module, and the heating body adopts an electric heating mode to heat a medium in a circulating pipeline in the boiler module; a phase change energy storage bar group is arranged in the energy storage module and connected to the circulating pipeline; a radiator is arranged in the user side and connected to the circulating pipeline;
an expansion tank, a water replenishing valve and a safety valve are sequentially arranged in parallel on a circulating pipeline connected between the output end of the boiler module and the input end of the energy storage module from the boiler module to the energy storage module; a water pump is connected in series on a circulating pipeline connected between the output end of the boiler module and the input end of the energy storage module;
an electric three-way valve is arranged at the input end of the energy storage module; two ports of the electric three-way valve are connected to the circulating pipeline, and the other port of the electric three-way valve is connected to the input end of the energy storage module;
and a proportional valve is connected in parallel between the input port and the output port of the user side module.
2. The integrated phase-change heat storage boiler of claim 1, wherein: and temperature sensors are arranged in the output end of the boiler module, the output end of the energy storage module, the input end and the output end of the user side module and the user side module.
3. The integrated phase-change heat storage boiler of claim 1, wherein: the electric three-way valve, the water pump and the proportional valve are all controlled by electromagnetic signals.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921549931.1U CN211502983U (en) | 2019-09-18 | 2019-09-18 | Integrated phase-change heat storage boiler |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921549931.1U CN211502983U (en) | 2019-09-18 | 2019-09-18 | Integrated phase-change heat storage boiler |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN211502983U true CN211502983U (en) | 2020-09-15 |
Family
ID=72405404
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921549931.1U Active CN211502983U (en) | 2019-09-18 | 2019-09-18 | Integrated phase-change heat storage boiler |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN211502983U (en) |
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2019
- 2019-09-18 CN CN201921549931.1U patent/CN211502983U/en active Active
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20210226 Address after: 226200 No.25 Jiangtian Road, Qidong high tech Industrial Development Zone, Nantong City, Jiangsu Province Patentee after: JIANGMEN UNBEATABLE ENERGY GROUP Co.,Ltd. Address before: 226200 500 Lin Yang Road, Qidong Economic Development Zone, Nantong, Jiangsu Patentee before: JIANGSU UNBEATABLE ENERGY TECHNOLOGY Co.,Ltd. |
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| TR01 | Transfer of patent right |