KR100873566B1 - Geothermal exchanger installing by penetrating rig and its construction method - Google Patents

Abstract

Heat exchanger using pipe inserting method and the installation method thereof are provided to be easily set up at the unsuitable sand layer or the clay layer to make the bore hole and to save the installation cost according to boring and grouting. A heat exchanger using pipe inserting method comprises a heat exchanger(30) in which the heat transfer fluid is included in order to collect the internal heat of the earth, a geothermal exchanger which is laid underground, a heat pump which is connected to the laid geothermal exchanger and lets the heat transfer fluid having the geothermal energy collected teacher move to the necessary place in order to perform cooling-and-heating.

Description

Heat exchanger installation by penetrating {geothermal exchanger installing by penetrating rig and its construction method}

The present invention relates to a heat exchanger and installation method for installing by penetration in geothermal heating and cooling system using geothermal energy. More specifically, the geothermal air-conditioning system cools the room through the cool fluid passing through the ground in the summer with the heat of the room, and in the winter, the ground heat is sent to the ground to obtain heat from the relatively warm fluid. It is a system that enables cooling and heating of buildings using geothermal energy at the same time. It consists of a heat exchanger installed in the ground and a heat pump and indoor piping connected to the heat exchanger to move the geothermal energy recovered from the heat exchanger to a necessary place. The heat exchanger installed at the center is the core element of the geothermal heating and cooling system, which takes the largest share in performance and cost.

Various materials and construction methods are under study as a key element of geothermal air conditioning system, which has the greatest influence on the performance and construction cost of geothermal air conditioning system.

In general, however, the installation of a heat exchanger in a geothermal heating and cooling system is performed by installing a bore hole at a predetermined depth and interval, installing a heat exchanger in the bore hole, and grouting the bore hole with bentonite or cement, which is an impermeable material.

However, such a conventional geothermal heat exchanger has a problem in that the construction cost of the bore-hole in the ground and the grouting of the constructed bore-hole again increase the cost of construction and increase the park cost. In addition, it is difficult to install a conventional bore hole and insert a heat exchanger in a sand layer or a soft clay layer which is difficult to make a bore hole.

The present invention has been invented to solve this problem, more specifically, the borehole and grouting the heat exchanger is attached to the anchor by penetration load, vibration, impact using the penetration rod to install the heat exchanger in the ground in the penetration Provides a heat exchanger and installation method for installing by penetration, characterized in that the installation in the underground without penetration.

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According to the present invention, unlike the method of boring a bore hole in the ground and inserting a heat exchanger into the perforated bore hole and grouting the bore hole for installation of a conventional heat exchanger, it does not penetrate the bore hole. By installing the heat exchanger attached to the anchor by penetration load, vibration, or impact in the ground by using a machine, it is possible to reduce the cost of installing the heat exchanger according to the drilling and grout of the bore hole, and the sand layer or the soft which makes the bore hole difficult Heat exchangers can also be easily installed in clay layers.

In order to achieve the above object, the present invention is made of a heat exchanger containing a heat transfer fluid therein to recover the geothermal heat, geothermal heat exchanger embedded in the ground, geothermal energy connected to the geothermal heat exchanger embedded in the geothermal energy collector A heat exchange apparatus comprising a heat pump to move a heat transfer fluid having a heat transfer to a required place to perform cooling and heating by heat exchange, wherein the heat exchanger is installed in the ground to provide a heat exchange value installed by penetration.
In this case, it is preferable that an anchor is attached to the heat exchanger to protect the heat exchanger when the heat exchanger is inserted into the ground through the penetration rod while the heat exchanger remains in the ground during the extraction of the penetration rod.
In addition, attaching an anchor to the heat exchanger; Placing an anchor attached to the heat exchanger at the bottom of a penetration rod and intruding into the ground by a penetration rod; It provides a heat exchange apparatus installation method for installing by penetration, including the step of drawing the penetration rod to install the heat exchanger and the anchor in the ground.

1 is a cross-sectional view of a heat exchanger installed by penetration according to an embodiment of the present invention, and FIG. 2 is a partial detailed view of FIG. 1.

As shown in FIG. 1, the anchor 40 is attached to the heat exchanger 30 and the load 40, the vibration and the impact of the anchor 40 attached to the heat exchanger using the penetration rod 20 of the intruder 10. It is desirable to install the heat exchanger of a predetermined number in a manner without penetration by injecting the heat exchanger 30 into the ground, drawing the pipe penetration rod 20, and cutting the heat exchanger on the upper side. .
At this time, the anchor 40 is an anchor attached to the heat exchanger 10 to prevent breakage of the heat exchanger 10 during penetration when the heat exchanger 10 is installed in the ground by the penetration rod 20. 40 is to be formed of a rigid material without deformation from the outside and the anchor 40 attached to the heat exchanger for penetration so that the heat exchanger 30 remains in the ground when the penetration rod 20 is drawn out It is preferable to form so as to protrude larger than the outside of the rod 20. The anchor 40 is preferably located at the bottom of the penetration rod 20.
In addition, as shown in FIG. 2, the heat exchanger 30 is preferably formed in a U shape in the ground to circulate heat transfer fluid therein for heat exchange, and an anchor is provided below the U-shaped heat exchanger 30. (40) attached, the length of the enough length to penetrate the heat exchanger 30 in the ground with the penetration rod 20 of the injector 10 using the anchor 40, and to connect the heat exchanger with the heat pump The work of cutting the upper part repeatedly is to install as many heat exchangers as necessary into the ground.

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At this time, the heat exchanger before the penetration into the ground is formed in the form of a roll to enable the continuity of construction when intruding into the rod for penetration, and because it is installed in the ground, it is not corroded or easily damaged, and using a material such as polyethylene having high thermal conductivity desirable. In addition, although the heat exchanger 30 is located outside the penetration rod 20 in the embodiment of FIG. 2, the heat exchanger 30 is inserted into the penetration rod 20 and penetrated into the ground according to the shape of the penetration tube. You can also install.

3 is a perspective view showing the anchor formed on the bottom of the heat exchanger.

As shown in Figure 3, the anchor is preferably formed in a form that can be attached to the bottom of the U-shape to form a space therein the heat exchanger. The heat exchanger is positioned in the inner space of the anchor, and the anchor is attached to the heat exchanger using the anchor cover 51. At this time, the anchor cover may be fixed by a fixing bolt 52 or by welding.
In addition, the anchor protects the heat exchanger 30 when injecting the anchor 40 attached to the lower end of the geothermal heat exchanger into the ground by applying a penetration load, a vibration and an impact, etc. Intruding into the ground together. In addition, in order to make the heat exchanger remain in the ground when drawing the penetration rod 20 after the heat exchanger 30 is inserted into the ground, the anchor attached to the heat exchanger may be made larger than the outer diameter of the penetration rod. desirable. In addition, the anchor 40 can be used in a variety of forms and materials if the purpose is to penetrate into the ground without a bore hole heat exchanger.
As described above, the present invention provides a heat exchanger and a installation method for installing by infiltration, wherein the heat exchanger is installed in the ground. By attaching an anchor to the heat exchanger and installing it as a penetration using a rod for penetration, no additional cost due to bore hole generation or grouting is added, and the heat exchanger can be installed without a bore hole in the soft layer or the clay layer. By boring the bore-hole in the ground according to the prior art and grouting the constructed bore-hole again, the cost of construction is additionally generated, and the rise of the city park price and the sand layer or soft which makes it difficult to make the bore-hole. It is difficult to install heat exchangers in clay layers. Compared with the conventional technology, the present invention attaches an anchor to the heat exchanger and installs it by penetration using a penetration rod, so that the cost of boring hole drilling or grouting does not add additionally, and heat exchange without boring hole drilling even in a soft layer or a clay layer. Can be installed.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to make a statement, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a cross-sectional view of the heat exchanger installation by penetration according to an embodiment of the present invention.

2 is a partial detail view of FIG. 1.

3 is a perspective view showing the anchor formed on the bottom of the heat exchanger.

* Description of identification numbers for the main parts of the drawings *

10: intruder 20: rod for penetration

30: heat exchanger 40: anchor

51: anchor cover 52: fixing bolt

Claims (3)

It consists of a heat exchanger containing a heat transfer fluid therein to recover the geothermal heat, and is connected to the geothermal heat exchanger buried in the ground, and the heat transfer fluid having a geothermal energy recovered from the geothermal heat exchanger connected to the buried geothermal heat exchanger to the required place In the heat exchanger comprising a heat pump to perform cooling and heating by heat exchange, A heat exchanger installed by penetration, characterized in that to install the heat exchanger in the ground. The method of claim 1, When the heat exchanger is inserted into the ground as a penetration rod, the heat exchanger is installed in the penetration, characterized in that the anchor is attached to the heat exchanger so that the heat exchanger is protected in the ground when the penetration rod is drawn in the ground when the penetration rod is drawn. . Attaching an anchor to the heat exchanger; Placing an anchor attached to the heat exchanger at the bottom of a penetration rod and intruding into the ground by a penetration rod; And a heat exchanger installation method for installing by intruding, including drawing the penetration rod and installing a heat exchanger and an anchor in the ground.

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