CN203642557U

CN203642557U - Geothermal heat temperature compensation system based on solar energy

Info

Publication number: CN203642557U
Application number: CN201320826154.7U
Authority: CN
Inventors: 王怡岷
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-12-16
Filing date: 2013-12-16
Publication date: 2014-06-11
Anticipated expiration: 2023-12-16

Abstract

The utility model discloses a geothermal heat temperature compensation system based on solar energy. The geothermal heat temperature compensation system comprises a solar power generation device, an electric heating element and a buried pipe. The buried pipe is buried in soil, and the electric heating element is arranged in the buried pipe and connected with the solar power generation device. According to the geothermal heat temperature compensation system, solar energy is converted into electric energy, electric energy is directly conveyed underground to be converted into heat energy to heat soil, heat utilization efficiency is high, and no heat losses of the pipeline are generated. The geothermal heat temperature compensation system can solve the problem that a single heating ground-source heat pump system is adopted in winter, the temperature of soil for heating drops year by year, and the heating effect in winter gradually becomes worse year by year, and the geothermal heat temperature compensation system is easy to popularize.

Description

A kind of geotemperature bucking-out system based on solar energy

Technical field

The utility model relates to a kind of geotemperature bucking-out system.

Background technology

At present, earth source heat pump market is very fiery, the engineering of whole nation applying ground source heat pump is also in cumulative year after year, thing followed problem also displays, due to a few years ago, there is wrong understanding to earth source heat pump in people, and there is very different phenomenon in some project installation business, cause some engineering refrigeration or heating effect very poor, especially those single refrigeration or the engineering that heats, the not only weak effect of integrally cooling or heating, and cause the change of temperature field of ground heat exchanger, thus cause whole engineering not turn round.

Utility model content

The technical problems to be solved in the utility model is: the geotemperature bucking-out system based on solar energy that a kind of capacity usage ratio is high is provided.

In order to solve the problems of the technologies described above, the utility model comprises device of solar generating, electrical heating element and underground pipe, and underground pipe is embedded in soil, and electrical heating element is arranged in underground pipe, and electrical heating element connects device of solar generating.

For the ease of making, described underground pipe is straight tube.

For better by thermal energy transfer to soil, described underground pipe is U-shaped pipe, electrical heating element is heating cable, in the shape of a spiral, heating cable is attached on the inwall of underground pipe heating cable, the two ends of underground pipe are respectively in two straight tubes in U-shaped pipe.

Stable in order to guarantee the delivery of heating cable, include charging and discharging controller, device of solar generating connects the charging end of charging and discharging controller, and electrical heating element connects the output of charging and discharging controller.

Can better accept sunlight in order to make device of solar generating, described device of solar generating comprises solar panel, solar panel rotates and is arranged on a holder, solar panel is connected with the motor reducer that drives its rotation, and the power line of motor reducer connects the output of charging and discharging controller.

In order to make the good stability of solar panel rotational motion, described holder comprises base plate, brace table and power transmission shaft, motor reducer is arranged on base plate, one end of power transmission shaft is connected with the output shaft of motor reducer, the other end of power transmission shaft is rotated and is arranged in brace table by bearing, the back side of solar panel is fixed with a support bar, and support bar is vertically fixed on the centre position of power transmission shaft.

The beneficial effects of the utility model are: the utility model utilizes solar energy to change into electric energy, then electric energy is delivered directly to underground conversion heat energy heats to soil, and efficiency of utilization is high, and there is no the heat loss of pipeline.The earth-source hot-pump system that the utility model can solve single heating in winter cause for the soil temperature of heat-obtaining decline year by year, the warming effect problem of variation year by year, be easy to promote.

Accompanying drawing explanation

Fig. 1 is the structural representation of specific embodiment of the utility model one;

Fig. 2 is the structural representation of specific embodiment of the utility model two;

Fig. 3 is the syndeton signal enlarged drawing of solar panel and holder;

Fig. 4 is the right view of Fig. 3;

In figure: 1, solar panel, 2, motor reducer, 3, base plate, 4, charging and discharging controller, 5, wire, 6, underground pipe, 7, heating cable, 8, support bar, 9, brace table, 10, power transmission shaft.

The specific embodiment

Specific embodiment one

The concrete implementation column of one as shown in Figure 1, it comprises solar panel 1, charging and discharging controller 4, wire 5, underground pipe 6 and heating cable 7.Underground pipe 6 is embedded in soil, heating cable 7 is arranged in underground pipe 6, underground pipe 6 is straight tube, heating cable can arbitrarily be arranged in underground pipe 6, also can rule be arranged in underground pipe 6, as one end upward form of straight lines down of one end, there is all form or spiral forms upward of a bending and two ends, the two ends of heating cable 7 are connected with wire 5, wire 5 is connected on the output on charging and discharging controller 4, and solar panel 1 is connected on the charging end of charging and discharging controller 4.Heating cable 7 also can adopt other electrical heating element, as resistance wire etc.

As shown in Figure 3 and Figure 4, solar panel 1 rotates and is arranged on a holder, and solar panel 1 is connected with the motor reducer 2 that drives its rotation, and the power line of motor reducer 2 connects the output of charging and discharging controller 4.Holder comprises base plate 3, brace table 9 and power transmission shaft 10, motor reducer 2 is arranged on base plate 3, one end of power transmission shaft 10 is connected with the output shaft of motor reducer 2, the other end of power transmission shaft 10 is rotated and is arranged in brace table 9 by bearing, the back side of solar panel 1 is fixed with a support bar 8, and support bar 8 is vertically fixed on the centre position of power transmission shaft 10.

The construction method of this specific embodiment, comprises the steps: that heating cable 7 put into underground pipe 6 by (1), and the two ends of heating cable 7 are connected to upper conductor 5, and wire 5 exposes outside underground pipe 6; (2) underground pipe 6 is embedded in the soil that needs compensation temperature, and wire 5 is basseted; (3) holder is fixed on to sun-drenched position, solar panel 1 is installed on holder; (4) solar panel 1, motor reducer 2 and wire 5 are all connected on charging and discharging controller 4.

Specific embodiment two

The concrete implementation column of one as shown in Figure 2, it comprises solar panel 1, charging and discharging controller 4, wire 5, underground pipe 6 and heating cable 7.Underground pipe 6 is embedded in soil, and heating cable 7 is arranged in underground pipe 6, and underground pipe 6 is U-shaped pipe, and in the shape of a spiral, heating cable 7 is attached on the inwall of underground pipe 6 heating cable 7, and the two ends of underground pipe 6 are respectively in two straight tubes in U-shaped pipe.The two ends of heating cable 7 are connected with wire 5, and wire 5 is connected on the output on charging and discharging controller 4, and solar panel 1 is connected on the charging end of charging and discharging controller 4.Heating cable 7 also can adopt other electrical heating element, as resistance wire etc.

The solar panel 1 of this specific embodiment also rotates and is arranged on a holder, and concrete set-up mode is identical with specific embodiment one.

The construction method of this specific embodiment, comprise the steps: that (1) is spirally wound on one than on the soft rod of U-shaped pipe range by heating cable 7, again the two ends of heating cable 7 are tied up on soft rod, the radius of soft rod adds that the thickness of heating cable is less than the interior pore radius of U-shaped pipe, U-shaped pipe is all stretched out at soft rod is inserted into soft rod two ends from one end of U-shaped pipe, the two ends of heating cable 7 are unclamped from soft rod, the automatically outside distending of spiral that unclamps rear heating cable 7 is attached on the inwall of U-shaped pipe, soft rod is extracted out and heating cable 7 is retained in U-shaped pipe, then at a wire 5 of the each connection in the two ends of heating cable 7, wire 5 stretches out outside underground pipe 6, (2) underground pipe 6 is embedded in the soil that needs compensation temperature, and the wire 5 that connects heating cable 7 is basseted, (3) holder is fixed on to sun-drenched position, solar panel 1 is installed on holder, and (4) are all connected to solar panel 1, wire 5 and motor reducer 2 on charging and discharging controller 4.

Claims

1. the geotemperature bucking-out system based on solar energy, is characterized in that: comprise device of solar generating, electrical heating element and underground pipe, underground pipe is embedded in soil, and electrical heating element is arranged in underground pipe, and electrical heating element connects device of solar generating.

2. the geotemperature bucking-out system based on solar energy according to claim 1, is characterized in that: described underground pipe is straight tube.

3. the geotemperature bucking-out system based on solar energy according to claim 1, it is characterized in that: described underground pipe is U-shaped pipe, electrical heating element is heating cable, heating cable in the shape of a spiral, heating cable is attached on the inwall of underground pipe, and the two ends of underground pipe are respectively in two straight tubes in U-shaped pipe.

4. according to the geotemperature bucking-out system based on solar energy described in any one in claim 1-3, it is characterized in that: include charging and discharging controller, device of solar generating connects the charging end of charging and discharging controller, and electrical heating element connects the output of charging and discharging controller.

5. the geotemperature bucking-out system based on solar energy according to claim 4, it is characterized in that: described device of solar generating comprises solar panel, solar panel rotates and is arranged on a holder, solar panel is connected with the motor reducer that drives its rotation, and the power line of motor reducer connects the output of charging and discharging controller.

6. the geotemperature bucking-out system based on solar energy according to claim 5, it is characterized in that: described holder comprises base plate, brace table and power transmission shaft, motor reducer is arranged on base plate, one end of power transmission shaft is connected with the output shaft of motor reducer, the other end of power transmission shaft is rotated and is arranged in brace table by bearing, the back side of solar panel is fixed with a support bar, and support bar is vertically fixed on the centre position of power transmission shaft.