CN219063577U - Ground source heat pump system with intelligent heat exchange function - Google Patents

Abstract

The utility model discloses a ground source heat pump system with an intelligent heat exchange function, which comprises: the device comprises a fan coil, a ground source heat pump, a water pump, a ground pipeline and a heat energy split-flow heat-insulation structure; the heat energy split-flow heat-insulation structure comprises a split-flow structure arranged between the fan coil and the ground source heat pump, a heat-insulation structure arranged between the water pump and the ground source heat pump and a heat energy analysis structure arranged in the indoor control panel. Through the mode, the ground source heat pump system with the intelligent heat exchange function adopts the heat energy split-flow heat preservation structure, so that heat energy can be transmitted into the fan coil according to actual requirements, and meanwhile, the heat energy transmitted into the ground source heat pump is preserved, so that the intelligent heat exchange ratio adjusting function according to indoor required temperature is realized, and the heat exchange efficiency is greatly improved.

Description

Ground source heat pump system with intelligent heat exchange function

Technical Field

The utility model relates to the technical field of energy, in particular to a ground source heat pump system with an intelligent heat exchange function.

Background

The ground source heat pump system mainly comprises a ground source heat pump, a fan coil, a water pump and a ground buried pipeline, wherein a ground heat source is transmitted to the ground source heat pump through the water pump during heating, and then the heat source is converted into heat energy to be transmitted to the fan coil, so that the indoor heating is performed.

The heat energy transmitted by the ground source heat pump is neutralized by the fan coil to reach the set temperature and then is sent into a room, so that the indoor temperature is controlled to be kept, however, the heat energy required by the room temperature is different in the rising process and the keeping process, and the heat energy transmitted from the ground source heat pump is generally larger than the required heat energy when the temperature rises, so that the heat energy is wasted.

Disclosure of Invention

The utility model mainly solves the technical problem of providing the ground source heat pump system with the intelligent heat exchange function, and the proportion of heat energy can be intelligently adjusted according to indoor required temperature.

In order to solve the technical problems, the utility model adopts a technical scheme that: a ground source heat pump system with intelligent heat exchange function, comprising: the heat energy split-flow heat-insulation structure is characterized by comprising a fan coil, a ground source heat pump, a water pump and a ground pipeline, wherein the fan coil, the ground source heat pump, the water pump and the ground pipeline are sequentially connected, and the heat energy split-flow heat-insulation structure can be used for transmitting heat energy into the fan coil according to actual requirements and simultaneously has a heat-insulation effect on the heat energy transmitted into the ground source heat pump;

the heat energy split-flow heat-insulation structure comprises a split-flow structure arranged between the fan coil and the ground source heat pump, a heat-insulation structure arranged between the water pump and the ground source heat pump and a processing module arranged in the indoor control panel.

In a preferred embodiment of the present utility model, the split-flow structure includes a three-way pipe and two electromagnetic valves, the three-way pipe is connected with the fan coil and the ground source heat pump respectively through a first water inlet pipe, the other end of the three-way pipe is connected with the heat insulation structure, and the two electromagnetic valves are respectively disposed at the heat insulation structure end and the first water inlet pipe end between the fan coil and the three-way pipe.

In a preferred embodiment of the present utility model, the heat insulation structure includes a return pipe, one end of which is connected to the tee, and the other end of which is connected to the outlet pipe between the fan coil and the ground source heat pump, and a metal heat pipe, which is hermetically connected to an opening in the return pipe.

In a preferred embodiment of the utility model, the metal heat pipe is wound on a second water inlet pipeline between the water pump and the ground source heat pump.

In a preferred embodiment of the present utility model, the return conduit and the first water inlet conduit between the fan coil and the tee are of telescoping material.

In a preferred embodiment of the present utility model, the processing module is connected to a temperature sensor installed in the ground source heat pump and two solenoid valves through wires, respectively.

The beneficial effects of the utility model are as follows: according to the ground source heat pump system with the intelligent heat exchange function, the heat energy split-flow heat preservation structure is adopted, so that heat energy can be transmitted into the fan coil according to actual requirements, and meanwhile, the heat energy transmitted into the ground source heat pump is preserved, so that the intelligent heat energy proportioning function according to indoor required temperature is realized, and the heat exchange efficiency is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of a ground source heat pump system with intelligent heat exchange function.

Fig. 2 is a schematic cross-sectional view of a connection between a return line and a metal heat conduction pipe of a ground source heat pump system with intelligent heat exchange function.

The components in the drawings are marked as follows: 1. a ground source heat pump; 2. a first water inlet pipe; 3. a second water inlet pipe; 4. a fan coil; 5. a water pump; 6. a ground pipeline; 7. a three-way pipe; 8. an electromagnetic valve; 9. a temperature sensor; 10. a return line; 11. a metal heat pipe; 12. and a water outlet pipeline.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Referring to fig. 1 and 2, a ground source heat pump system with intelligent heat exchange function includes: the heat energy distribution heat preservation structure comprises a distribution structure arranged between the fan coil 4 and the ground source heat pump 1, wherein the distribution structure is used for distributing heat energy conveyed into the fan coil 4 according to set requirements, so that the heat energy is fully utilized.

The heat insulation structure is arranged between the water pump 5 and the ground source heat pump 1 and is used for insulating heat energy conveyed to the ground source heat pump 1 and guaranteeing conversion of the heat energy.

And the processing module is arranged in the indoor control panel and is used for comparing the temperature transmitted by the temperature sensor with the indoor temperature required to be reached and then shunting the heat energy transmitted to the fan coil 4 through the two electromagnetic valves 8 according to the comparison structure.

The split-flow structure comprises a three-way pipe 7 and two electromagnetic valves 8, wherein the three-way pipe 7 is respectively connected with the fan coil 4 and the ground source heat pump 1 through a first water inlet pipeline 2, the other end of the three-way pipe 7 is connected with the heat insulation structure, the two electromagnetic valves 8 are respectively arranged at the heat insulation structure end and the first water inlet pipeline 2 end between the fan coil 4 and the three-way pipe 7, and the electromagnetic valves 8 split the heat energy conveyed to the fan coil 4, so that the heat energy is not wasted, and the heat energy is maximally utilized.

The heat insulation structure comprises a backflow pipeline 10 and a metal heat conduction pipe 11, one end of the backflow pipeline 10 is connected with the three-way pipe 7, and the other end of the backflow pipeline is connected with a water outlet pipeline 12 positioned between the fan coil 4 and the ground source heat pump 1, so that heat energy after heat insulation is recycled.

The metal heat-conducting pipe 11 is in sealing connection with an opening in the middle of the backflow pipeline 10 after being cut at the diameter, and the metal heat-conducting pipe 11 is wound on the second water inlet pipeline 3 between the water pump 5 and the ground source heat pump 1, so that the metal heat-conducting pipe 11 is tightly attached to the second water inlet pipeline 3, heat preservation efficiency is improved, and meanwhile, the metal heat-conducting pipe 11 is combined with the backflow pipeline 10, and the expansion function of the section is guaranteed.

The return pipe 10 and the first water inlet pipe 2 between the fan coil 4 and the tee 7 are made of telescopic materials, and the telescopic materials adopted in the embodiment are rubber, so that the heat energy carriers distributed in different proportions and flowing from the water outlet pipe 12 between the fan coil 4 and the ground source heat pump 1 and the return pipe 10 can smoothly flow on the premise of not replacing the pipes.

The processing module is respectively connected with a temperature sensor 9 and two electromagnetic valves 8 which are arranged in the ground source heat pump 1 through wires.

When the device is used, the required temperature is input according to the control panel, the processing module detects heat energy after heat exchange of the ground source heat pump 1 according to the temperature sensor 9, and respectively controls and opens the two electromagnetic valves 8, so that redundant heat energy carriers flow into the backflow pipeline 10 to insulate the second water inlet pipeline 3, and heat energy loss of the second water inlet pipeline 3 is reduced.

Compared with the prior art, the ground source heat pump system with the intelligent heat exchange function adopts the heat energy split-flow heat preservation structure, so that heat energy can be transmitted into the fan coil according to actual requirements, and meanwhile, the heat energy transmitted into the ground source heat pump is preserved, so that the intelligent heat exchange ratio adjusting function according to indoor required temperature is realized, and the heat exchange efficiency is greatly improved.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "upper", "lower", "left", "right", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. A ground source heat pump system with intelligent heat exchange function, comprising: the heat energy distribution heat insulation structure is characterized by further comprising a heat energy distribution heat insulation structure which can transmit heat energy into the fan coil according to actual requirements and has a heat insulation effect on the heat energy transmitted into the ground source heat pump;

the heat energy split-flow heat-insulation structure comprises a split-flow structure arranged between the fan coil and the ground source heat pump, a heat-insulation structure arranged between the water pump and the ground source heat pump and a processing module arranged in the indoor control panel.

2. The ground source heat pump system with intelligent heat exchange function according to claim 1, wherein the flow dividing structure comprises a three-way pipe and two electromagnetic valves, the three-way pipe is respectively connected with the fan coil and the ground source heat pump through a first water inlet pipeline, the other end of the three-way pipe is connected with the heat insulation structure, and the two electromagnetic valves are respectively arranged at the heat insulation structure end and the first water inlet pipeline end between the fan coil and the three-way pipe.

3. A ground source heat pump system with intelligent heat exchange function according to claim 2, wherein the heat insulation structure comprises a return pipe and a metal heat conduction pipe, one end of the return pipe is connected with the tee, the other end of the return pipe is connected with the water outlet pipe between the fan coil and the ground source heat pump, and the metal heat conduction pipe is connected with an opening on the return pipe in a sealing manner.

4. A ground source heat pump system having intelligent heat exchange function according to claim 3, wherein the metal heat pipe is wound around a second water intake pipe between the water pump and the ground source heat pump.

5. A ground source heat pump system with intelligent heat exchange function according to claim 3, wherein the return pipe and the first water inlet pipe between the fan coil and the tee are made of telescopic materials.

6. A ground source heat pump system with intelligent heat exchange function according to claim 5, wherein the processing module is connected with a temperature sensor installed in the ground source heat pump and two electromagnetic valves through wires, respectively.

Images