CN221036234U - Energy control equipment based on geothermal energy well - Google Patents
Energy control equipment based on geothermal energy well Download PDFInfo
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- CN221036234U CN221036234U CN202322632705.2U CN202322632705U CN221036234U CN 221036234 U CN221036234 U CN 221036234U CN 202322632705 U CN202322632705 U CN 202322632705U CN 221036234 U CN221036234 U CN 221036234U
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Abstract
The utility model discloses energy control equipment based on a geothermal energy well, and relates to the technical field of energy control equipment, comprising a base component, a storage component and a control component; the base assembly comprises two supports, two groups of mounting holes are formed in the bottoms of the two supports, a ground source heat pump is mounted on one side of the supports, a plurality of support plates are mounted on the outer surface wall of the ground source heat pump, the control assembly comprises an electric control cabinet, a box body is mounted on one side of the electric control cabinet, a touch screen is arranged on one side of the box body, two supports are arranged on one side of the ground source heat pump, two groups of mounting holes are formed in the bottoms of the two supports, the ground source heat pump is conveniently and fixedly mounted, and a geothermal energy input valve is arranged on one side of the ground source heat pump to control the ground source heat pump.
Description
Technical Field
The utility model relates to the technical field of energy control equipment, in particular to energy control equipment based on a geothermal energy well.
Background
Geothermal energy is natural thermal energy extracted from the crust of the earth, which comes from lava inside the earth and exists in thermal form, which is the energy that causes volcanic eruptions and earthquakes.
However, in the prior art, the device power supply device cannot convert geothermal energy into electric energy, and does not have intelligent control.
Disclosure of utility model
The utility model aims to solve the problems in the prior art and provides an energy control device based on a geothermal energy well.
In order to achieve the above purpose, the present utility model adopts the following technical scheme: an energy control device based on a geothermal energy well comprises a base component, a storage component and a control component; the base assembly comprises two supports, two groups of mounting holes are formed in the bottoms of the two supports, a ground source heat pump is mounted on one side of the two supports, a plurality of support plates are mounted on the outer surface wall of the ground source heat pump, and a geothermal energy input valve is mounted on one side of the ground source heat pump; the storage assembly comprises a heat storage, a plurality of supporting blocks are arranged on the outer surface wall of the heat storage, a round hole is formed in one side of the heat storage, an input conduit is arranged in the round hole, a control valve body is arranged at one end of the input conduit, and an inverter is arranged on one side of the control valve body; the control assembly comprises an electric control cabinet, a box body is arranged on one side of the electric control cabinet, and a touch screen is arranged on one side of the box body.
Preferably, the plurality of support plates are fixedly installed with the ground source heat pump, the ground heat energy input valve is electrically connected with the ground source heat pump, and a communicating pipe is installed at one side of the ground heat energy input valve.
Preferably, the communicating pipe is communicated with the inside of the ground source heat pump, the input conduit is communicated with the inside of the heat storage, and a connecting pipe is arranged at one side of the inverter.
Preferably, the inverter is communicated with the connecting pipe, the box body is electrically connected with the electric control cabinet, and a sudden stop switch is arranged on one side of the box body.
Preferably, the emergency stop switch is electrically connected with the box body, an operation key is installed on one side of the box body, and the operation key is electrically connected with the box body.
Preferably, the communicating pipe is communicated with the inside of the heat storage, one side of the electric control cabinet is communicated with the connecting pipe, and the plurality of supporting blocks are fixedly arranged on the outer surface wall of the inverter.
Preferably, a plurality of supporting blocks are fixedly arranged on the box body and the electric control cabinet, and a plurality of supporting plates are fixedly arranged on the outer surface wall of the heat storage.
Compared with the prior art, the utility model has the advantages and positive effects that:
1. According to the utility model, two supports are arranged on one side of the ground source heat pump, two groups of mounting holes are formed at the bottoms of the two supports, so that the ground source heat pump can be conveniently and fixedly mounted, and a geothermal energy input valve is arranged on one side of the ground source heat pump to control the ground source heat pump.
2. In the utility model, an input conduit is arranged at one side of a heat storage, a control valve body is arranged at one end of the input conduit, the control valve body is electrically connected with an inverter, one side of the inverter is connected with an electric control cabinet and a box body, and a scram switch and an operation key are arranged on the box body so as to facilitate scram in emergency, thereby ensuring safety.
Drawings
Fig. 1 is a schematic diagram of the overall structure of an energy control device based on a geothermal energy well according to the present utility model;
Fig. 2 is a schematic structural view of a base assembly of an energy control device based on a geothermal energy well according to the present utility model;
FIG. 3 is a schematic diagram showing a storage assembly of an energy control device based on a geothermal well according to the present utility model;
Fig. 4 is a schematic diagram showing a control assembly structure of an energy control device based on a geothermal well according to the present utility model.
Legend description: 1. a base assembly; 101. a support; 102. a mounting hole; 103. a ground source heat pump; 104. a support plate; 105. a geothermal energy input valve; 106. a communicating pipe; 2. a storage component; 201. a heat storage; 202. a support block; 203. an input conduit; 204. a control valve body; 205. an inverter; 206. a connecting pipe; 3. a control assembly; 301. an electric control cabinet; 302. a case; 303. a touch screen; 304. an emergency stop switch; 305. and operating the keys.
Detailed Description
In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.
Embodiment 1 as shown in fig. 1 to 4, the present utility model provides an energy control device based on a geothermal energy well, comprising a base assembly 1, a storage assembly 2 and a control assembly 3; the base assembly 1 comprises two supports 101, two groups of mounting holes 102 are formed in the bottoms of the two supports 101, a ground source heat pump 103 is mounted on one side of the two supports 101, a plurality of support plates 104 are mounted on the outer surface wall of the ground source heat pump 103, and a geothermal energy input valve 105 is mounted on one side of the ground source heat pump 103; the storage assembly 2 comprises a heat storage 201, a plurality of supporting blocks 202 are arranged on the outer surface wall of the heat storage 201, a round hole is formed in one side of the heat storage 201, an input conduit 203 is arranged in the round hole, a control valve body 204 is arranged at one end of the input conduit 203, and an inverter 205 is arranged on one side of the control valve body 204; the control assembly 3 comprises an electric control cabinet 301, a box body 302 is arranged on one side of the electric control cabinet 301, and a touch screen 303 is arranged on one side of the box body 302.
The whole embodiment 1 achieves the effects that two groups of mounting holes 102 are formed in the bottoms of two supports 101, a ground source heat pump 103 is mounted on one side of the two supports 101, a plurality of support plates 104 are mounted on the outer surface wall of the ground source heat pump 103, and a geothermal energy input valve 105 is mounted on one side of the ground source heat pump 103; the storage assembly 2 comprises a heat storage 201, a plurality of supporting blocks 202 are arranged on the outer surface wall of the heat storage 201, a round hole is formed in one side of the heat storage 201, an input conduit 203 is arranged in the round hole, a control valve body 204 is arranged at one end of the input conduit 203, and an inverter 205 is arranged on one side of the control valve body 204; the control assembly 3 comprises an electric control cabinet 301, a box body 302 is arranged on one side of the electric control cabinet 301, a touch screen 303 is arranged on one side of the box body 302, two supports 101 are arranged on one side of the ground source heat pump 103, two groups of mounting holes 102 are formed in the bottoms of the two supports 101, the ground source heat pump is convenient to fixedly mount, a ground heat energy input valve 105 is arranged on one side of the ground source heat pump 103 to control the ground source heat pump 103, a plurality of support plates 104 are fixedly mounted with the ground source heat pump 103, the ground heat energy input valve 105 is electrically connected with the ground source heat pump 103, a communicating pipe 106 is arranged on one side of the ground heat energy input valve 105, and the communicating pipe 106 is communicated with the inside of the ground source heat pump 103.
In embodiment 2, as shown in fig. 1-4, a plurality of support plates 104 are fixedly installed with a ground source heat pump 103, a ground heat energy input valve 105 is electrically connected with the ground source heat pump 103, a communication pipe 106 is installed on one side of the ground heat energy input valve 105, the communication pipe 106 is communicated with the inside of the ground source heat pump 103, an input conduit 203 is communicated with the inside of a heat storage 201, a connection pipe 206 is installed on one side of an inverter 205, the inverter 205 is communicated with the connection pipe 206, a box 302 is electrically connected with an electric control cabinet 301, a scram switch 304 is installed on one side of the box 302, the scram switch 304 is electrically connected with the box 302, an operation button 305 is installed on one side of the box 302, the operation button 305 is electrically connected with the box 302, the communication pipe 106 is communicated with the inside of the heat storage 201, a plurality of support blocks 202 are fixedly installed with the outer surface wall of the inverter 205, a plurality of support blocks 202 are fixedly installed with the box 302 and the electric control cabinet 301, and a plurality of support plates 104 are fixedly installed with the outer surface wall of the heat storage 201.
The effect achieved in the whole embodiment 2 is that the input conduit 203 is communicated with the inside of the heat storage 201, the connecting pipe 206 is installed on one side of the inverter 205, the inverter 205 is communicated with the connecting pipe 206, the box 302 is electrically connected with the electric control cabinet 301, the scram switch 304 is installed on one side of the box 302, the scram switch 304 is electrically connected with the box 302, the operation key 305 is installed on one side of the box 302, the operation key 305 is electrically connected with the box 302, the communicating pipe 106 is communicated with the inside of the heat storage 201, one side of the electric control cabinet 301 is communicated with the connecting pipe 206, the plurality of support blocks 202 are fixedly installed with the outer surface wall of the inverter 205, the plurality of support blocks 202 are fixedly installed with the box 302 and the electric control cabinet 301, the plurality of support plates 104 are fixedly installed with the outer surface wall of the heat storage 201, the input conduit 203 is installed on one side of the heat storage 201, the control valve 204 is installed on one end of the input conduit 203, the control valve 204 is electrically connected with the inverter 205, the electric control cabinet 301 and the box 302 are connected with one side of the inverter 205, the scram switch 304 and the operation key 305 are arranged on the box 302 so as to guarantee the scram safety under the scram condition.
Working principle: two groups of mounting holes 102 are formed in the bottoms of the two supports 101, a ground source heat pump 103 is mounted on one side of the two supports 101, a plurality of support plates 104 are mounted on the outer surface wall of the ground source heat pump 103, and a ground heat energy input valve 105 is mounted on one side of the ground source heat pump 103; the storage assembly 2 comprises a heat storage 201, a plurality of supporting blocks 202 are arranged on the outer surface wall of the heat storage 201, a round hole is formed in one side of the heat storage 201, an input conduit 203 is arranged in the round hole, a control valve body 204 is arranged at one end of the input conduit 203, and an inverter 205 is arranged on one side of the control valve body 204; the control assembly 3 comprises an electric control cabinet 301, a box body 302 is arranged on one side of the electric control cabinet 301, a touch screen 303 is arranged on one side of the box body 302, two supports 101 are arranged on one side of the ground source heat pump 103, two groups of mounting holes 102 are formed in the bottoms of the two supports 101, the fixed mounting is facilitated, a ground heat energy input valve 105 is arranged on one side of the ground source heat pump 103 to control the ground heat pump 103, a plurality of support plates 104 are fixedly mounted with the ground source heat pump 103, the ground heat energy input valve 105 is electrically connected with the ground source heat pump 103, a communicating pipe 106 is arranged on one side of the ground heat energy input valve 105, the communicating pipe 106 is communicated with the inside of the ground source heat pump 103, an input conduit 203 is communicated with the inside of a heat memory 201, a connecting pipe 206 is arranged on one side of an inverter 205, the inverter 205 is communicated with the connecting pipe 206, the box body 302 is electrically connected with the electric control cabinet 301, an emergency stop switch 304 is arranged on one side of the box body 302, the emergency stop switch 304 is electrically connected with the box 302, an operation key 305 is installed on one side of the box 302, the operation key 305 is electrically connected with the box 302, the communicating pipe 106 is communicated with the inside of the heat storage 201, one side of the electric control cabinet 301 is communicated with the connecting pipe 206, the supporting blocks 202 are fixedly installed on the outer surface wall of the inverter 205, the supporting blocks 202 are fixedly installed on the box 302 and the electric control cabinet 301, the supporting plates 104 are fixedly installed on the outer surface wall of the heat storage 201, the input conduit 203 is installed on one side of the heat storage 201, the control valve 204 is installed on one end of the input conduit 203, the control valve 204 is electrically connected with the inverter 205, one side of the inverter 205 is connected with the electric control cabinet 301 and the box 302, and the emergency stop switch 304 and the operation key 305 are arranged on the box 302 so as to ensure the safety in emergency.
The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.
Claims (7)
1. An energy control device based on a geothermal energy well is characterized by comprising a base assembly (1), a storage assembly (2) and a control assembly (3);
The base assembly (1) comprises two supports (101), two groups of mounting holes (102) are formed in the bottoms of the two supports (101), a ground source heat pump (103) is arranged on one side of each support (101), a plurality of support plates (104) are arranged on the outer surface wall of each ground source heat pump (103), and a geothermal energy input valve (105) is arranged on one side of each ground source heat pump (103);
The storage assembly (2) comprises a heat storage (201), a plurality of supporting blocks (202) are arranged on the outer surface wall of the heat storage (201), a round hole is formed in one side of the heat storage (201), an input conduit (203) is arranged in the round hole, a control valve body (204) is arranged at one end of the input conduit (203), and an inverter (205) is arranged on one side of the control valve body (204);
The control assembly (3) comprises an electric control cabinet (301), a box body (302) is arranged on one side of the electric control cabinet (301), and a touch screen (303) is arranged on one side of the box body (302).
2. An geothermal energy well-based energy control apparatus of claim 1, wherein: the support plates (104) are fixedly arranged with the ground source heat pump (103), the ground heat energy input valve (105) is electrically connected with the ground source heat pump (103), and a communicating pipe (106) is arranged at one side of the ground heat energy input valve (105).
3. An geothermal energy well-based energy control apparatus of claim 2, wherein: the communicating pipe (106) is communicated with the inside of the ground source heat pump (103), the input conduit (203) is communicated with the inside of the heat storage (201), and a connecting pipe (206) is arranged on one side of the inverter (205).
4. A geothermal energy well-based energy control apparatus according to claim 3, wherein: the inverter (205) is communicated with the connecting pipe (206), the box body (302) is electrically connected with the electric control cabinet (301), and a scram switch (304) is arranged on one side of the box body (302).
5. An geothermal energy well-based energy control apparatus of claim 4, wherein: the emergency stop switch (304) is electrically connected with the box body (302), an operation key (305) is arranged on one side of the box body (302), and the operation key (305) is electrically connected with the box body (302).
6. An geothermal energy well-based energy control apparatus of claim 4, wherein: the communicating pipe (106) is communicated with the inside of the heat storage (201), one side of the electric control cabinet (301) is communicated with the connecting pipe (206), and the plurality of supporting blocks (202) are fixedly arranged on the outer surface wall of the inverter (205).
7. An geothermal energy well-based energy control apparatus of claim 1, wherein: a plurality of supporting blocks (202) are fixedly arranged with the box body (302) and the electric control cabinet (301), and a plurality of supporting plates (104) are fixedly arranged with the outer surface wall of the heat storage (201).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322632705.2U CN221036234U (en) | 2023-09-27 | 2023-09-27 | Energy control equipment based on geothermal energy well |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322632705.2U CN221036234U (en) | 2023-09-27 | 2023-09-27 | Energy control equipment based on geothermal energy well |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221036234U true CN221036234U (en) | 2024-05-28 |
Family
ID=91190259
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322632705.2U Active CN221036234U (en) | 2023-09-27 | 2023-09-27 | Energy control equipment based on geothermal energy well |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN221036234U (en) |
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2023
- 2023-09-27 CN CN202322632705.2U patent/CN221036234U/en active Active
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