CN202734352U - Tubular pile annular wall embedding type and W-shaped ground source heat pump buried pipe system - Google Patents

Abstract

A tubular pile annular wall embedding type and W-shaped ground source heat pump buried pipe system comprises one or a plurality of buried pipe heat exchangers, a ground source heat pump and tubular piles, wherein the number of the tubular piles is corresponding to the number of the buried pipe heat exchangers, each buried pipe heat exchanger is embedded in an annular wall of a tubular pile, and a medium inlet end and a medium outlet end of each buried pipe heat exchanger are respectively and correspondingly connected with a medium outlet end and a medium inlet end of the ground source heat pump. Each buried pipe heat exchanger is W-shaped and comprises a plurality of U-shaped pipes arranged in sequence around the annular wall of the tubular pile along the annular direction. According to the tubular pile annular wall embedding type and W-shaped ground source heat pump buried pipe system, the embedding of the buried pipe heat exchangers of a ground source heat pump system is combined with the tubular piles of underground construction, so the cost of embedding the buried pipe heat exchangers through drilling is saved, the cost of construction is reduced, the problem that the heat pump system occupies large underground space is solved, the buried pipe heat exchangers can be effectively protected, the durability and the reliability of the buried pipe heat exchangers are improved, and meanwhile the good heat conductivity and heat capacity of concrete can be fully utilized to improve the heat transferring effect.

Description

The W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type

Technical field

The utility model relates to a kind of ground buried pipe of ground source heat pump system, particularly a kind of ground buried pipe of ground source heat pump system that is embedded in the pile tube ring wall.

Background technology

Earth source heat pump be a kind of utilize underground shallow layer geothermal energy resources (also claiming the ground temperature energy) but not only heat supply but also the high-efficiency energy-saving air conditioning system that can freeze.Earth source heat pump realizes that by a small amount of high-grade energy (such as electric energy) of input low-temperature heat energy shifts to high potential temperature heat energy.Ground can distinguish in the winter time as the thermal source of heat pump heating and the low-temperature receiver of summer air-conditioning, namely in the winter time, the heat in the ground energy " got " out, and after the raising temperature, the supply indoor heating; Summer, indoor heat is taken out, be discharged in the ground energy and go.Usually earth source heat pump consumes the energy of 1kW, and the user can obtain 4kW above heat or cold.Earth source heat pump is than the electric energy of electric boiler heating saving more than 2/3rds, and than the energy of fuel boiler saving more than 1/2nd, operating cost only is 50～60% of ordinary central air-conditioner.Therefore, in recent ten years, geothermal heat pump air-conditioning system North America such as the U.S., Canada and in, Northern Europe such as the countries such as Switzerland, Sweden have obtained faster development, formally included in the planning of China " 12 " new forms of energy " geothermal energy " this, plan in the five-year, finish 3.5 hundred million square metres of Heating by Ground Source Heat Pump (refrigeration) areas, about at least 700 hundred million yuan of overall market scales, the earth source heat pump market that can estimate China will start one and take turns climax.

There are the following problems for earth-source hot-pump system: the one, and burying underground of its underground heat exchange system (underground pipe system) can take a large amount of soils, gives the originally urban area increase with regard to the land used anxiety more difficult, is difficult for carrying out spread; The 2nd, the initial stage of earth-source hot-pump system construction has high input, and wherein the drilling construction expense of underground pipe accounts for sizable ratio; The 3rd, the construction quality of underground pipe can't be ensured at present traditional boring pipe laying conscientiously.

Summary of the invention

The technical problems to be solved in the utility model provide a kind of take the underground space little, reduce the good ground buried pipe of ground source heat pump system in the pile tube ring wall of being embedded in of operating expenses, heat-transfer effect.

For solving the above-mentioned technical problem that exists in the prior art, the utility model proposes following technical scheme:

A kind of W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type is characterized in that comprising ground heat exchanger, earth source heat pump and pile tube; Described ground heat exchanger has one or more, and the quantity of pile tube is corresponding with ground heat exchanger quantity; Each ground heat exchanger is embedded in the ring wall of a pile tube; The medium inlet end of ground heat exchanger is connected the media outlet end connection corresponding to the medium inlet end with earth source heat pump with the media outlet end;

Described ground heat exchanger is the W type, and it comprises many U-shaped pipes that are arranged in order around the pile tube hoop; For two adjacent U-shaped pipes, the media outlet end of last U-shaped pipe connects the medium inlet end of a rear U-shaped pipe; The medium inlet end of first U-shaped pipe is as the medium inlet end of this ground heat exchanger, and the media outlet end of the U-shaped pipe of last root is as the media outlet end of this ground heat exchanger.

Described ground heat exchanger has a plurality of, and the quantity of pile tube is corresponding with ground heat exchanger quantity; The media outlet end of each ground heat exchanger and medium inlet end be respectively after the parallel connection, again with the medium inlet end connection corresponding to the media outlet end of earth source heat pump.

Preferably, W type underground pipe is composed in series by many U-shaped pipes, and two straight tubes of the U-shaped pipe of each root all are embedded in the pile tube ring wall, and the terminal linkage section of two straight tubes is arranged along the ring wall hoop of pile tube; The linkage section of adjacent two U-shaped pipes is arranged along the ring wall hoop of pile tube.

The medium inlet end of described ground heat exchanger and media outlet end are exposed at outside the pile tube top.

Described pile tube is steel-pipe pile, prefabricated reinforced concrete pile tube or steel pipe concrete pipe pile.

Scheme 1, described pile tube are steel-pipe piles, and two straight-tube portions of the U-shaped pipe of described each root are welded on the inwall of ring wall of steel-pipe pile.

Scheme 2, described pile tube are the prefabricated reinforced concrete pile tubes, and two straight-tube portion colligations of the U-shaped pipe of described each root are on the steel reinforcement cage of prefabricated reinforced concrete pile tube.

Scheme 3, described pile tube are steel pipe concrete pipe piles, and two straight-tube portions of the U-shaped pipe of described each root are welded on the steel pipe walls of steel pipe concrete pipe pile, and are wrapped up by concrete.

When engineering construction, the outer 1m in pipe pile top must be exposed in two terminations on described ground heat exchanger top, and ground heat exchanger bottom linkage section has certain interval, for example 0.5～2m from the pile tube bottom.

The utility model combines the pile tube of burying underground with underground engineering of the ground heat exchanger of earth-source hot-pump system; both can save the cost that ground heat exchanger boring is buried underground; reduce cost; can also solve heat pump and take the large problem of the underground space; and can effectively protect ground heat exchanger; improve its durability and reliability, can also take full advantage of the good heat conductivity of concrete and thermal capacitance simultaneously, improve heat-transfer effect.

Description of drawings

Fig. 1 is axial cross section schematic diagram of the present utility model.

Fig. 2 is the schematic diagram after the single pile tube horizontal development among Fig. 1.

Fig. 3 is the schematic top plan view of Fig. 1.

Among the figure, 1. pile tube, 11. concrete, 2. ground heat exchanger, the terminal linkage section of two straight tubes of 21.U type pipe, 22. connect house stewards' (the medium inlet end of each ground heat exchanger be connected with it corresponding connection with the media outlet end), 3. earth source heat pump.

The specific embodiment

A kind of W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type comprises ground heat exchanger, earth source heat pump and pile tube; Described ground heat exchanger has one or more, and the quantity of pile tube is corresponding with ground heat exchanger quantity; Each ground heat exchanger is embedded in the ring wall of a pile tube; The medium inlet end of ground heat exchanger is connected the media outlet end connection corresponding to the medium inlet end with earth source heat pump with the media outlet end; Described ground heat exchanger is the W type, and it comprises many U-shaped pipes that are arranged in order around the pile tube hoop; For two adjacent U-shaped pipes, the media outlet end of last U-shaped pipe connects the medium inlet end of a rear U-shaped pipe; The medium inlet end of first U-shaped pipe is as the medium inlet end of this ground heat exchanger, and the media outlet end of the U-shaped pipe of last root is as the media outlet end of this ground heat exchanger.

Described ground heat exchanger has a plurality of, and the quantity of pile tube is corresponding with ground heat exchanger quantity; The media outlet end of each ground heat exchanger and medium inlet end be respectively after the parallel connection, again with the medium inlet end connection corresponding to the media outlet end of earth source heat pump.

Preferably, W type underground pipe is composed in series by many U-shaped pipes, and two straight tubes of the U-shaped pipe of each root all are embedded in the pile tube ring wall, and the terminal linkage section of two straight tubes is arranged along the ring wall hoop of pile tube; The linkage section of adjacent two U-shaped pipes is arranged along the ring wall hoop of pile tube.

The medium inlet end of described ground heat exchanger and media outlet end are exposed at outside the pile tube top.

Described pile tube is steel-pipe pile, prefabricated reinforced concrete pile tube or steel pipe concrete pipe pile.

Scheme 1, described pile tube are steel-pipe piles, and two straight-tube portions of the U-shaped pipe of described each root are welded on the inwall of ring wall of steel-pipe pile.

Scheme 2, described pile tube are the prefabricated reinforced concrete pile tubes, and two straight-tube portion colligations of the U-shaped pipe of described each root are on the steel reinforcement cage of prefabricated reinforced concrete pile tube.

Scheme 3, described pile tube are steel pipe concrete pipe piles, and two straight-tube portions of the U-shaped pipe of described each root are welded on the steel pipe walls of steel pipe concrete pipe pile, and are wrapped up by concrete.

The ground buried pipe of ground source heat pump system that hereinafter with reference to the accompanying drawings the utility model is embedded in the pile tube ring wall is described in detail.

Pile tube ties up to prefabrication, and its manufacturing process is as follows: make steel reinforcement cage; Steel reinforcement cage is connected with the pile crown metal connecting piece, settles various built-in fittings; Steel reinforcement cage is packed in the punching block, and casting concrete in the punching block is finished the pile body blank; The above-mentioned punching block that the pile body blank is housed is around the rotation of stake axle, and concrete centrifugal is compacted, moulding; The maintenance demoulding.Pile tube can be divided into again prestressed high-strength concrete pile (code name PHC), prestressed concrete pipe pile (code name PC) and thin tubular piles produced by prestressed concrete (code name PTC) by concrete grade and wall thickness.

The utility model with the ground heat exchanger of earth-source hot-pump system bury underground with underground engineering in pile tube 1 combine; both can save the cost that boring is buried underground; reduce cost; can also solve earth-source hot-pump system and take the large problem of the underground space; and can effectively protect ground heat exchanger 2; improve its durability and reliability, can also take full advantage of the good heat conductivity of concrete and thermal capacitance simultaneously, improve heat-transfer effect.So, with the ground heat exchanger 2 of earth-source hot-pump system bury underground with underground engineering in pile tube 1 combine, will become the new direction that earth-source hot-pump system is further applied.

As shown in Figure 1, described ground buried pipe of ground source heat pump system comprises ground heat exchanger 2 and pile tube 1, and described ground heat exchanger 2 is embedded in the ring wall of described pile tube 1.Described ground heat exchanger 2 is arranged along the ring wall hoop of described pile tube 1.On the steel reinforcement cage of described ground heat exchanger 2 colligations in described pile tube 1.The described ground heat exchanger 2 interior heat transfer mediums that arrange are connected on the described earth source heat pump 3 after the two ends grouping parallel connection of described ground heat exchanger 2.

As shown in figures 1 and 3, described pile tube 1 arranges a plurality of, each described pile tube 1 is interior to arrange one group of described ground heat exchanger 2, and the two ends of every group of described ground heat exchanger 2 is together in parallel respectively by connecting house steward 22, connects house steward 22 and is connected on the described earth source heat pump 3.

The utility model designs mainly for burial place and the mode of ground heat exchanger in the earth-source hot-pump system 2, and such as Fig. 1, Fig. 2 and shown in Figure 3, the production and construction step is as follows:

1. pile tube is carried out prefabricated processing, at first make steel reinforcement cage, ground heat exchanger 2 colligations of earth-source hot-pump system are inboard at steel reinforcement cage, the outer 1m in stake top must be exposed in two terminations on ground heat exchanger 2 tops in the single stake, the terminal linkage section 21 of two straight tubes of U-shaped pipe has certain interval from the bottom of pile tube 1,0.5～2m (as depicted in figs. 1 and 2) for example, the terminal linkage section 21 of two straight tubes of U-shaped pipe is arranged (shown in the dotted line among Fig. 3) along the steel reinforcement cage hoop;

2. will be the steel reinforcement cage of the good ground heat exchanger 2 of colligation pack in the punching block, casting concrete 11 in the punching block together is cast in ground heat exchanger 2 and steel reinforcement cage in the pile tube 1, finishes the pile body blank;

3. the above-mentioned punching block that the pile body blank is housed is around the rotation of stake axle, and concrete centrifugal is compacted, maintenance after the moulding, the demoulding;

4. adopt static pile press or impact pile driving machine will prefabricated pile tube 1 to be pressed into or to squeeze in the soil layer to designed elevation, the position of stake and quantity are definite according to designing requirement.

At the ground heat exchanger 2 interior heat transfer mediums that arrange, heat transfer medium circulates in ground heat exchanger 2 cyclic systems, and with pile tube 1 in concrete and on every side soil layer carry out heat exchange.1m outside 1 top of pile tube is exposed in two terminations on ground heat exchanger 2 tops, and grouping is parallel-connected to and connects house steward 22, links to each other with earth source heat pump 3 again.

General underground engineering need arrange a plurality of pile tubes 1, one group of ground heat exchanger 2 is set in every pile, 1m outside 1 top of pile tube is exposed in two terminations on every group of ground heat exchanger 2 tops, and is parallel-connected to connection house steward 22 composition loops by grouping, is connected on the earth source heat pump 3.The mode of being connected in parallel of described ground heat exchanger 2 refer to every group of ground heat exchanger 2 all can be not by other group ground heat exchangers 2 directly be connected house steward's 22 connections, link to each other again in parallel similar with during circuit is connected with earth source heat pump 3.

Operation principle of the present utility model is: the rock-soil layer of underground certain depth has long-term substantially invariable ground temperature, and the underground engineering overwhelming majority is arranged in such soil layer, and this provides advantage for the earth-source hot-pump system that utilizes the ground temperature energy.In pile tube 1, bury ground heat exchanger 2 underground and form loop, heat transfer medium in ground heat exchanger 2 cyclic systems the concrete in circulation time and the pile tube 1 and on every side soil layer carry out heat exchange, absorb (or release) heat, according to the conservation of energy, this part energy can be used for indoor the heating (or refrigeration), and then the energy consumption when reducing the air-conditioning system operation.

The construction of earth-source hot-pump system and the production and construction of underground engineering pile tube are combined, have following advantage:

Aspect the layout of space, because ground heat exchanger 2 is embedded in the underground engineering structure, can save the traditionally occupation of land of buried tube heat exchanger 2 and the operating expenses such as boring that carry out of burying underground that aim at ground heat exchanger 2;

Aspect quality control on construction, because ground heat exchanger 2 is that colligation is on the main muscle of steel reinforcement cage, and transfer to designed elevation thereupon, the construction quality of its pipe laying can access good assurance, can prevent well the skew of ground heat exchanger 2 in transferring process or the damage of pipeline in the conventional borehole embedding manner, ground heat exchanger 2 is under the protection of concrete 11, and its durability and reliability will improve greatly;

Aspect heat transfer property, because concrete has good capacity of heat transmission and higher thermal capacitance, ground heat exchanger 2 is embedded in the concrete 11 of pile tube, can improve exchange capability of heat and the heat-transfer effect of ground heat exchanger 2;

Aspect economy, because this technology has been saved the occupation of land of ground heat exchanger 2, the extra expenses such as drilling construction, can reduce significantly the initial investment of earth-source hot-pump system.

Pile tube is divided into steel-pipe pile, prefabricated reinforced concrete pile tube and steel pipe concrete pipe pile.Process and the pile foundation form as a kind of ground, pile tube just produces from eighties of last century and has obtained till now very large development, in various building foundations, be widely used, and bringing into play huge effect, at present towards the future development of the traditional solid pile of comprehensive replacement.

The technical program closely combines heat exchange component with tube pile structure, both can guarantee stability, the durability of underground heat exchange system; Other power-saving technologies are cheap relatively for cost; Also have versatility, and the occupying volume external space not; And have recyclability and reliable and stable, the characteristics such as cleaning is lasting, economy and environment remarkable benefit by the energy that its obtains, therefore, heat exchange component there are huge development potentiality and wide application prospect with the power-saving technology that tube pile structure combines in China.

Claims (8)

1. the W type ground buried pipe of ground source heat pump system of a pile tube ring wall built-in type is characterized in that comprising ground heat exchanger, earth source heat pump and pile tube; Described ground heat exchanger has one or more, and the quantity of pile tube is corresponding with ground heat exchanger quantity; Each ground heat exchanger is embedded in the ring wall of a pile tube; The medium inlet end of ground heat exchanger is connected the media outlet end connection corresponding to the medium inlet end with earth source heat pump with the media outlet end;

Described ground heat exchanger is the W type, and it comprises many U-shaped pipes that are arranged in order around the pile tube hoop; For two adjacent U-shaped pipes, the media outlet end of last U-shaped pipe connects the medium inlet end of a rear U-shaped pipe; The medium inlet end of first U-shaped pipe is as the medium inlet end of this ground heat exchanger, and the media outlet end of the U-shaped pipe of last root is as the media outlet end of this ground heat exchanger.

2. the W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type according to claim 1 is characterized in that described pile tube is steel-pipe pile, prefabricated reinforced concrete pile tube or steel pipe concrete pipe pile.

3. the W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type according to claim 1 is characterized in that the medium inlet end of described ground heat exchanger and media outlet end expose outside the pile tube top.

4. according to claim 1, the W type ground buried pipe of ground source heat pump system of 2 or 3 described pile tube ring wall built-in types, it is characterized in that W type underground pipe is composed in series by many U-shaped pipes, two straight tubes of the U-shaped pipe of each root all are embedded in the pile tube ring wall, and the terminal linkage section of two straight tubes is arranged along the ring wall hoop of pile tube;

The linkage section of adjacent two U-shaped pipes is arranged along the ring wall hoop of pile tube.

5. the W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type according to claim 4 is characterized in that described pile tube is steel-pipe pile, and two straight-tube portions of the U-shaped pipe of described each root are welded on the inwall of ring wall of steel-pipe pile.

6. the W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type according to claim 4 is characterized in that described pile tube is the prefabricated reinforced concrete pile tube, and two straight-tube portion colligations of the U-shaped pipe of described each root are on the steel reinforcement cage of prefabricated reinforced concrete pile tube.

7. the W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type according to claim 4, it is characterized in that described pile tube is steel pipe concrete pipe pile, two straight-tube portions of the U-shaped pipe of described each root are welded on the steel pipe walls of steel pipe concrete pipe pile, and are wrapped up by concrete.

8. the W type ground buried pipe of ground source heat pump system of pile tube ring wall built-in type according to claim 1 is characterized in that described ground heat exchanger has a plurality of, and the quantity of pile tube is corresponding with ground heat exchanger quantity; The media outlet end of each ground heat exchanger and medium inlet end be respectively after the parallel connection, again with the medium inlet end connection corresponding to the media outlet end of earth source heat pump.

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