CN201653595U

CN201653595U - Shallow-layer geothermal energy tester

Info

Publication number: CN201653595U
Application number: CN201020144010XU
Authority: CN
Inventors: 刘琪
Original assignee: CHONGQING JINGTIAN SHALLOW LAYER GEOTHERMAL DEVELOPMENT Co Ltd
Current assignee: Chongqing Jing Tian energy investment (Group) Limited by Share Ltd
Priority date: 2010-03-30
Filing date: 2010-03-30
Publication date: 2010-11-24
Anticipated expiration: 2020-03-30

Abstract

The utility model discloses a shallow-layer geothermal energy tester. The shallow-layer geothermal energy tester is characterized in that the shallow-layer geothermal energy tester comprises a U-shaped tube (1) buried underground, and temperature sensors (5) are uniformly and symmetrically distributed on the two straight branches of the U-shaped tube (1); two ports of the U-shaped tube (1) protrude out of the ground and are respectively connected with a main water inlet pipe (2) and a main water return pipe (3); a water circulating pump (6) is connected in serial with the main water return pipe (3); a heat pump set (4) is connected in parallel with the main water inlet pipe (2) and the main water return pipe (3); the water outlet pipe of the heat pump set (4) is communicated with the main water inlet pipe (2); and the water inlet pipe of the heat pump set (4) is communicated with the main water return pipe (3). The shallow-layer geothermal energy tester can effectively test the heat exchange state of the shallow ground and the heat exchange capacity of different depths under the ground, and can observe and monitor the change of geothermal energy, thereby providing reliable data for constructing warming and air conditioning systems of buildings.

Description

The geothermal using tester

Technical field

The utility model belongs to a kind of ground heat test device, specifically a kind of tester of testing geothermal using.

Background technology

At present, country advocates energy-conserving and environment-protective, advocates to utilize green energy resource energetically.

Underground heat is utilized under this environment and background in a large number.

Underground heat mainly is to utilize earth surface or shallow-layer as Cooling and Heat Source, carries out the heating air-conditioner system of energy conversion.

In to a such geothermal heating system air-conditioning system of buildings design and installation, need calculate dozen how many heat exchange wells according to the heat or the exchange capability of heat of ground, buildings place shallow-layer, bury how many heat-exchange tubes underground.

If well-digging very little, the heat-exchange tube of burying underground is not enough, may cause the heat exchange of whole buildings not enough, can't reach the cooling and the intensification of expection.

If well-digging too much, the heat-exchange tube of burying underground is too many, can increase building cost, waste material again.

Summary of the invention

Technical problem to be solved in the utility model is to provide the geothermal using tester of the heat of a kind of accurate test ground shallow-layer.

The technical solution of the utility model is as follows: a kind of geothermal using tester, its key is: comprise be embedded in underground " U " shape pipe, should " U " be distributed with temperature sensor symmetrically and evenly on two straight tubes of shape pipe, described " U " two ports of shape pipe elevate above the soil and are connected with main water inlet tube and main water return tube respectively, be in series with water circulating pump on this main water return tube, be parallel with source pump on described main water inlet tube and the main water return tube, the rising pipe of this source pump is communicated with main water inlet tube, and the water inlet pipe of described source pump is communicated with main water return tube.

By temperature sensor test " U " the shape pipe goes up the temperature of diverse location symmetry Inlet and outlet water, obtains the heat exchange situation of different depth and soil, and this temperature is subtracted each other the value that obtains calculate and can obtain system's refrigeration (heat) and measure the coefficient of performance.

Water circulating pump drives " U " water in the shape pipe constantly circulates, and passes in and out the situation of change that can observe underground heat.

Above-mentioned optimization setting is parallel with 3 source pump on main water inlet tube and the main water return tube.

Above-mentioned " U " shape pipe is the PE pipe, employing PE material heat transfer efficiency is higher.

Beneficial effect: the utility model can effectively be tested the heat exchange situation of shallow layer surface, and the exchange capability of heat of the following different depth in the face of land, can also observe and monitor the situation of ground thermal distortion simultaneously.

For the heating air-conditioner system of building constructure provides reliable data.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Embodiment

The utility model is described in further detail below in conjunction with drawings and Examples:

As shown in Figure 1, a kind of geothermal using tester of the utility model is by U " shape pipe 1, main water inlet tube 2, main water return tube 3, source pump 4, temperature sensor 5 and water circulating pump 6 form, and two " U " shapes pipes 1 in parallel are embedded in underground, and " U " shape pipe 1 is that PE manages.

This " U " shape is managed on 1 two straight tubes and is distributed with temperature sensor 5 symmetrically and evenly, described " U " shape is managed 1 two ports and is elevated above the soil and be connected with main water inlet tube 2 and main water return tube 3 respectively, be in series with water circulating pump 6 on this main water return tube 3, be parallel with 3 source pump 4 on described main water inlet tube 2 and the main water return tube 3, the rising pipe of this source pump 4 is communicated with main water inlet tube 2, and the water inlet pipe of described source pump 4 is communicated with main water return tube 3.

Claims

1. geothermal using tester, it is characterized in that: comprise being embedded in underground " U " shape pipe (1), should be distributed with temperature sensor (5) symmetrically and evenly on (1) two straight tube of " U " shape pipe, elevate above the soil and be connected with main water inlet tube (2) and main water return tube (3) respectively in described " U " shape pipe (1) two ends, be in series with water circulating pump (6) on this main water return tube (3), be parallel with source pump (4) on described main water inlet tube (2) and the main water return tube (3), the rising pipe of this source pump (4) is communicated with main water inlet tube (2), and the water inlet pipe of described source pump (4) is communicated with main water return tube (3).

2. according to the described geothermal using tester of claim 1, it is characterized in that: be parallel with 3 source pump (4) on described main water inlet tube (2) and the main water return tube (3).

3. according to the described geothermal using tester of claim 1, it is characterized in that: described " U " shape pipe (1) is the PE pipe.