CN214792689U - Medium-deep geothermal energy heat exchange device - Google Patents

Abstract

The utility model discloses a middle-deep geothermal energy heat transfer device, including frame, heat pump and filter tube, the frame below is provided with the heat pump, the frame top is provided with the heat pump, be provided with the conveyer pipe on the frame lateral wall, the conveyer pipe middle part is provided with the filter tube, the filter tube below is provided with the collecting vessel, the heat pump with the frame passes through screwed connection, the conveyer pipe with the frame is pegged graft, the filter tube with the conveyer pipe passes through screwed connection, the collecting vessel with the filter tube passes through threaded connection. Has the advantages that: the utility model discloses a set up filter tube and collecting vessel, can filter the heat energy of pumping, it causes the device interior jam and then leads to heat energy conversion rate slow to have impurity in avoiding heat energy, satisfies the demand that middle and deep geothermal energy heat transfer device used.

Description

Medium-deep geothermal energy heat exchange device

Technical Field

The utility model relates to a heat transfer device technical field, concretely relates to middle and deep geothermal energy heat transfer device.

Background

Geothermal Energy is natural heat Energy extracted from the earth's crust, which comes from lava rock inside the earth and exists in the form of heat, which is Energy that causes volcanic eruptions and earthquakes.

At present, the current middle-deep geothermal energy heat exchange device mostly adopts simple structure, because the heat energy of pumping comes from the underground, have impurity in making heat energy easily and cause the device in block up, and then lead to heat energy conversion rate slow, can not satisfy the demand that middle-deep geothermal energy heat exchange device used, secondly, current middle-deep geothermal energy heat exchange device mostly directly takes whole heat transfer, because geothermal energy temperature is high, make the geothermal energy heat transfer effect cause the device heat exchange efficiency low slowly easily, the efficiency of middle-deep geothermal energy heat exchange device work has been reduced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects of the prior art, the middle-deep geothermal energy heat exchange device is provided, and the problems that the pumping heat energy comes from the underground, impurities are easily contained in the heat energy to cause blockage in the device, the heat energy conversion speed is low, and the use requirements of the middle-deep geothermal energy heat exchange device cannot be met in the conventional middle-deep geothermal energy heat exchange device are solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a middle and deep geothermal energy heat transfer device, including frame, heat pump and filter tube, the frame below is provided with the heat pump, the frame top is provided with the heat pump, be provided with the conveyer pipe on the frame lateral wall, the conveyer pipe middle part is provided with the filter tube, the filter tube below is provided with the collecting vessel, the heat pump with the frame passes through screwed connection, the conveyer pipe with the frame is pegged graft, the filter tube with the conveyer pipe passes through screwed connection, the collecting vessel with the filter tube passes through threaded connection.

Further, conveyer pipe one end is connected with a jar body, jar body top is provided with the inlet tube.

Through adopting above-mentioned technical scheme, the jar body can be to heat energy conversion.

Further, the inlet tube below is provided with the heat exchange tube, heat exchange tube one end is connected with retaining seat one, the heat exchange tube other end is connected with retaining seat two, be provided with the heat transfer board between the heat exchange tube, jar body below is provided with the outlet pipe, inlet tube one side is provided with the temperature table.

Through adopting above-mentioned technical scheme, the outlet pipe can discharge the water of conversion heat energy.

Further, the tank body is welded with the conveying pipe, and the water inlet pipe is welded with the tank body.

Through adopting above-mentioned technical scheme, the inlet tube can be right the jar body carries out the water injection.

Furthermore, the heat exchange tube is connected with the first water storage seat in an inserting mode, and the second water storage seat is connected with the heat exchange tube in an inserting mode.

Through adopting above-mentioned technical scheme, the retaining seat one can disperse the heat energy and pour into in the heat exchange tube.

Furthermore, the heat exchange plate is connected with the heat exchange tube through a clamping groove, and the water outlet pipe is welded with the tank body.

By adopting the technical scheme, the heat exchange plate can accelerate heat conversion of the heat exchange tube.

Furthermore, the water thermometer is connected with the tank body in an inserting mode, the water storage seat I is welded with the tank body, and the water storage seat II is welded with the tank body.

By adopting the technical scheme, the water thermometer can measure the heat energy temperature converted by the tank body.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1. the utility model discloses a through setting up filter tube and collecting vessel, can filter the heat energy of pump sending, avoid having impurity in the heat energy to cause the jam in the device and then lead to the heat energy conversion slow, can not satisfy the problem that the heat energy conversion of middle and deep layer is slow, satisfy the demand that heat energy heat transfer device of middle and deep layer used;

2. for solving current middle-deep geothermal energy heat transfer device and mostly directly taking whole heat transfer, because geothermal energy temperature is high, make geothermal energy heat transfer effect cause device heat exchange efficiency low slowly easily, reduced the problem of middle-deep geothermal energy heat transfer device work efficiency, the utility model discloses a set up heat exchange tube and heat transfer board, can disperse the heat transfer to heat energy, avoid geothermal energy heat transfer effect to cause device heat exchange efficiency low slowly, improved the efficiency of middle-deep geothermal energy heat transfer device work.

Drawings

Fig. 1 is a schematic structural view of a middle-deep geothermal energy heat exchange device according to the present invention;

FIG. 2 is an internal view of a tank body of a heat exchange device for geothermal energy in a middle deep layer;

FIG. 3 is a schematic view of the connection relationship between the filtering tube and the collecting barrel in the heat exchanger for geothermal energy in the middle and deep layers.

The reference numerals are explained below:

1. a machine base; 2. a heat pumping pipe; 3. a heat pump; 4. a delivery pipe; 5. a filter tube; 6. a collection barrel; 7. a tank body; 8. a water inlet pipe; 9. a heat exchange pipe; 10. a water storage seat I; 11. a water storage seat II; 12. a heat exchange plate; 13. a water outlet pipe; 14. a water temperature meter.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-3, the heat exchanger for geothermal energy in middle and deep layers in this embodiment comprises a base 1, a heat pump 3 and a filter tube 5, wherein the heat pump 2 is disposed below the base 1, the heat pump 3 is disposed above the base 1, a delivery tube 4 is disposed on one side wall of the base 1, the filter tube 5 is disposed in the middle of the delivery tube 4, a collecting barrel 6 is disposed below the filter tube 5, the heat pump 2 is connected with the base 1 through screws, the heat pump 3 is connected with the base 1 through screws, one end of the delivery tube 4 is connected with a tank 7, a water inlet tube 8 is disposed above the tank 7, the tank 7 can convert heat energy, a heat exchange tube 9 is disposed below the water inlet tube 8, one end of the heat exchange tube 9 is connected with a first water storage seat 10, the other end of the heat exchange tube 9 is connected with a second water storage seat 11, a heat exchange plate 12 is disposed between the heat exchange tubes 9, a water outlet tube 13 is disposed below the tank 7, a water temperature meter 14 is disposed on one side of the water inlet tube 8, the outlet pipe 13 can be discharged the water of conversion heat energy, jar body 7 and conveyer pipe 4 welding, inlet tube 8 and jar body 7 welding, inlet tube 8 can carry out the water injection to jar body 7, heat exchange tube 9 pegs graft with retaining seat one 10, retaining seat two 11 pegs graft with heat exchange tube 9, retaining seat one 10 can disperse to heat energy and pour into in the heat exchange tube 9, the temperature table 14 pegs graft with jar body 7, retaining seat one 10 and jar body 7 welding, retaining seat two 11 and jar body 7 welding, the temperature table 14 can measure the heat energy temperature of jar body 7 conversion.

As shown in fig. 1 and fig. 3, in this embodiment, the conveying pipe 4 is inserted into the base 1, the filtering pipe 5 is connected with the conveying pipe 4 through a screw, and the collecting barrel 6 is connected with the filtering pipe 5 through a screw thread, so that the pumped heat energy can be filtered, the situation that impurities exist in the heat energy cause blockage in the device and further the heat energy conversion speed is low is avoided, and the use requirement of the heat exchange device for the geothermal energy in the middle-deep layer is met.

As shown in fig. 1 and fig. 2, in this embodiment, the heat exchange plate 12 is connected with the heat exchange tube 9 through a clamping groove, and the water outlet pipe 13 is welded to the tank 7, so that heat can be dispersed for heat exchange, the low heat exchange efficiency of the device caused by the slow geothermal heat exchange effect is avoided, and the working efficiency of the middle-deep geothermal heat exchange device is improved.

The specific implementation process of this embodiment is as follows: with device switch on, 8 one ends of inlet tube insert the cold water pipe, outlet pipe 13 one end is connected, start heat pump 3, through heat pump 2 with the extraction of geothermal energy, in frame 1 inflow conveyer pipe 4, impurity in the geothermal energy is filtered through filter tube 5, fall into collecting vessel 6, geothermal energy after the filtration flows in retaining seat 10, in retaining seat 10 dispersion inflow heat exchange tube 9, inject cold water into jar body 7 through inlet tube 8, the heat transfer circulates, accelerate the efficiency of heat transfer through heat transfer board 12, heat energy after the heat transfer, observe the temperature through thermometer 14, flow in retaining seat two 11, unified emission utilizes, this deep geothermal energy heat transfer device simple operation in middle of this, the efficiency of deep geothermal energy heat transfer device work has been improved.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Without departing from the design concept of the present invention, various modifications and improvements made by the technical solution of the present invention by those skilled in the art should fall into the protection scope of the present invention, and the technical contents claimed by the present invention have been fully recorded in the claims.

Claims (7)

1. A middle-deep geothermal energy heat exchange device is characterized in that: including frame (1), heat pump (3) and filter tube (5), frame (1) below is provided with heat pump pipe (2), frame (1) top is provided with heat pump (3), be provided with conveyer pipe (4) on frame (1) a lateral wall, conveyer pipe (4) middle part is provided with filter tube (5), filter tube (5) below is provided with collecting vessel (6), heat pump pipe (2) with frame (1) passes through the screw connection, heat pump (3) with frame (1) passes through the screw connection, conveyer pipe (4) with frame (1) is pegged graft, filter tube (5) with conveyer pipe (4) pass through the screw connection, collecting vessel (6) with filter tube (5) pass through threaded connection.

2. The heat exchange device for the geothermal energy in the middle and deep layers of claim 1, wherein: conveyer pipe (4) one end is connected with jar body (7), jar body (7) top is provided with inlet tube (8).

3. The heat exchange device for the geothermal energy in the middle and deep layers of claim 2, wherein: the improved water-saving tank is characterized in that a heat exchange tube (9) is arranged below the water inlet tube (8), one end of the heat exchange tube (9) is connected with a water storage seat I (10), the other end of the heat exchange tube (9) is connected with a water storage seat II (11), a heat exchange plate (12) is arranged between the heat exchange tubes (9), a water outlet tube (13) is arranged below the tank body (7), and a water temperature meter (14) is arranged on one side of the water inlet tube (8).

4. The heat exchange device for the geothermal energy in the middle and deep layers of claim 2, wherein: the jar body (7) with conveyer pipe (4) welding, inlet tube (8) with jar body (7) welding.

5. The heat exchange device for the geothermal energy in the middle and deep layers of claim 3, wherein: the heat exchange tube (9) is connected with the first water storage seat (10) in an inserting mode, and the second water storage seat (11) is connected with the heat exchange tube (9) in an inserting mode.

6. The heat exchange device for the geothermal energy in the middle and deep layers of claim 3, wherein: the heat exchange plate (12) is connected with the heat exchange tube (9) through a clamping groove, and the water outlet pipe (13) is welded with the tank body (7).

7. The heat exchange device for the geothermal energy in the middle and deep layers of claim 3, wherein: the water thermometer (14) is connected with the tank body (7) in an inserting mode, the water storage seat I (10) is welded with the tank body (7), and the water storage seat II (11) is welded with the tank body (7).

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