KR101096610B1 - Side wall for heat storaging tank - Google Patents

Abstract

The present invention relates to a side wall for the heat storage tank, a plurality of fixing pins 112 are arranged and welded to the outer periphery of the inner wall 111 constituting the heat storage tank, and through the end of the fixing pin 112 to the outside of the inner wall A plurality of first heat insulating members 120 forming a heat insulating layer from the first, a plurality of second heat insulating materials 140 inserted into an end of the fixing pin 112 penetrating the first heat insulating material, and forming a second heat insulating layer; In the side wall 110 of the heat storage tank 100 composed of the finishing outer material 160 is attached to the outer periphery of the second heat insulating material,
The first strip 130 for wrapping and fixing the outer circumference of the first insulation material 120 and the second strip 150 for wrapping and fixing the outer circumference of the second insulation material 140 are installed, and the second insulation material is installed. 140 is installed to be inserted in the range that the end of the fixing pin 112 does not protrude, while the fixing pin 112 is made of a pointed end shape, the fixing pin penetrating the first heat insulating material 120 (112) is characterized in that the fixing ring 132 for tightly supporting the first heat insulating material 120 is temporarily fitted before the installation of the second heat insulating material 140, the side wall of the heat storage tank according to the present invention, from the inner wall Through a plurality of fixing pins, the first insulation is penetrated and the second insulation is inserted into the outside to form a double insulation layer, and at the same time, the insulation is bound as the first and second strips, and the side wall is finally constructed by attaching the finishing exterior material. Construction is very easy and Partial maintenance is possible at the time, and in particular, the second heat insulating material is intersected with respect to the first heat insulating material, and then binding is performed, thereby improving the durability of the side wall.

Description

 Side wall for heat storage tank {Side wall for heat storaging tank}

The present invention relates to a heat storage tank, and more particularly, reinforces the foundation of a side wall for constructing a large heat storage tank structure installed in a plant facility to enhance durability, and to make the construction of a heat insulating material more easily, as well as to increase the heat insulation effect. To side wall for heat storage tank

In general, the heat storage tank stores the cold and hot heat produced from the air conditioning and heating device, and serves to supply the stored cold and hot heat to the cooling and heating place.

The cold and hot heat storage tank is used as needed, but in recent years, because the economical cooling, heating is possible using the late night electricity and the advantage that can continuously supply the cold and hot heat from the air-conditioning device to the air-conditioning place without interruption It is used as a component of the air conditioning unit.

Since the cold and hot heat storage tank accommodates a circulating medium for storing the cold and hot heat produced from the air conditioning and heating unit and supplying the stored cold and hot heat to the cooling and heating place, and also has a heat exchange unit connected to the air conditioning system. The heat circulating medium is configured to accumulate cold / hot heat by heat exchange with a circulating medium having cold / hot heat from the air-conditioning unit that circulates the heat exchange part through the heat exchange part. By circulating and releasing the accumulated heat and cold heat, air-conditioning is performed for the air-conditioning place.

The heat storage tank as described above manufactures an inner tank (hereinafter referred to as 'inner wall') and an outer tank (hereinafter referred to as 'outer wall') constructed as a steel plate or concrete using a steel plate, and foams between the inner tank and the outer tank. It is a structure filled with the heat insulating material formed from polyethylene or crosslinked polyethylene.

Since the conventional heat storage tank is made of a steel structure, it is difficult to enlarge due to weight problems, and when a large capacity is required, a plurality of small heat storage tanks are manufactured and used.

When the heat storage tank made of heavy steel is enlarged, its own weight becomes so large that the support structure for supporting it also becomes large, making installation difficult.

That is, when the heat storage tank is installed vertically in order to reduce the installation space of the heat storage tank, since the weight is concentrated in a narrow range, the thickness of the supporting structure becomes very thick.

Therefore, when there is a demand for a large capacity, one large heat storage tank cannot be installed, and after installing a plurality of small heat storage tanks, they are connected to meet the required capacity.

In addition, the conventional heat storage tank is mostly underground construction due to its own weight problems, etc. Due to this, various problems have occurred.

That is, when the heat storage tank formed of the steel structure is installed on the ground due to a large load, the size of the support structure for supporting it increases, and requires a large installation space.

As the most important part of the heat storage tank construction, the durability of the structure is required and the insulation effect and external corrosion should be considered.

In order to satisfy the above points, the conventional heat storage tank sidewall structure has a formwork on the outside where the insulation is constructed after the insulation construction is first performed on the outside of the inner wall, and the exterior wall is formed as a concrete construction on the outside through the formwork. To build.

The polyurethane foam of the insulation is foamed to be constructed to a predetermined thickness outside the inner wall, which has a closed end that becomes very long construction period, after which the outer wall against the inner wall is only finished between the construction of the outer wall construction of concrete. Depends on the insulating material being filled and the fixing pins constructed from the inner wall.

For this reason, there is a problem that the durability of the heat storage tank is remarkably inferior, especially in building a large heat storage tank.

That is, since the inner space with the heat insulating material may be generated during the construction of the outer wall of the concrete for the pre-installed heat insulating material, there was a disadvantage in that the durability partially falls.

Partial problem as described above had a problem of significantly lowering the thermal insulation effect.

In addition, even if a problem occurs in the side wall structure, there is a disadvantage in that it takes a considerable time and effort with the problem of identifying the problem and a huge repair cost for the corresponding part.

The present invention has been invented in view of the conventional problems as described above, reinforcing the foundation of the side wall to build a large heat storage tank structure to be installed in the plant facilities to strengthen the durability, and to make the construction of the insulation more easily Of course, the purpose is to provide a side wall of the heat storage tank and a construction method thereof that can enhance the thermal insulation effect.

According to the present invention for achieving the above object, a plurality of fixing pins arranged and welded to the outer periphery of the inner wall constituting the heat storage tank, and a plurality of heat insulating layers formed primarily from the outside of the inner wall through the end of the fixing pin Of the first heat insulating material, a plurality of second heat insulating materials inserted into an end of the fixing pin penetrating the first heat insulating material to form a second heat insulating layer, and a finishing exterior material attached to an outer circumference of the second heat insulating material. To
The first strip for wrapping and fixing the outer circumference of the first insulation, and the second strip for wrapping and fixing the outer circumference of the second insulation is installed, the second insulation is inserted in the range that the end of the fixing pin does not protrude On the other hand, the fixing pin is made of a pointed end shape, the fixing pin penetrating the first insulating material is characterized in that the fixing ring for tightly supporting the first insulating material is temporarily fitted before the installation of the second insulating material. do.

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The side wall of the heat storage tank according to the present invention binds the heat insulating materials as the first and second strips while forming a double heat insulating layer by inserting the second heat insulating material through the first heat insulating material and through the fixing pins provided from the inner wall and the second heat insulating material to the outside thereof. Finally, by constructing the side walls by attaching the finishing exterior material, construction is very simple and partial maintenance is possible. In particular, the second insulation material is crossed with respect to the first insulation material, and then binding is performed to enhance durability of the side wall. It can be effective.

1 is a front view schematically showing the heat storage tank of the present invention,
2 to 4 is a partial perspective view sequentially showing the construction state of the side wall of the heat storage tank according to the present invention,
Figure 5 is a perspective view showing an example of a fixed state of the first insulating material carried out in Figure 3,
6 is a transverse cross-sectional view of the heat storage tank according to the present invention cut in the transverse side,
Figure 7 is a block diagram sequentially showing the construction of the heat storage tank side wall according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 1 to 7.

According to the present invention, a plurality of fixing pins 112 are arranged and welded to the outer periphery of the inner wall 111 constituting the heat storage tank, and a heat insulating layer is formed primarily from the outside of the inner wall through the ends of the fixing pins 112. A plurality of first heat insulating material 120 and a plurality of second heat insulating material 140 to plug into the end of the fixing pin 112 penetrating the first heat insulating material to form a secondary heat insulating layer, and the outer periphery of the second heat insulating material In the side wall 110 of the heat storage tank 100 consisting of a finishing exterior material 160 which is attached to the installation,
The first strip 130 for wrapping and fixing the outer circumference of the first insulation material 120 and the second strip 150 for wrapping and fixing the outer circumference of the second insulation material 140 are installed, and the second insulation material is installed. 140 is installed to be inserted in the range that the end of the fixing pin 112 does not protrude, while the fixing pin 112 is made of a pointed end shape, the fixing pin penetrating the first heat insulating material 120 A fixing ring 132 for tightly supporting the first insulating material 120 is fitted to the 112.

The first heat insulating material 120 and the second heat insulating material 140 are made of a polyurethane material having heat resistance, and are manufactured and provided to a thickness that is deformable by external pressure.

In addition, the first and second strips 130 and 150 are made of a steel material resistant to corrosion.

The second heat insulating material 140 is installed to intersect with the first heat insulating material 120 penetrating from the fixing pin 112 and installed in close contact with the inner wall 111.

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On the other hand, in a state in which the first insulating material penetrates through the fixing pin and closely adheres to the inner wall, the first insulating material is inserted into the fixing ring 112 without the first strip, as shown in FIG. 5, as shown in FIG. 5. The first heat insulating material may be temporarily fixed to the structure that closely supports the 120.

For reference, the diameter of the fixing ring 132 is formed to be smaller than the diameter of the fixing pin to be forcibly fitted to the fixing pin diameter so that the separation of the first insulation is not to be installed so as not to be detached, the fixing ring 132 Is made of a material having heat resistance and elasticity.

Referring to the operation of the heat storage tank side wall construction of such a structure in detail as follows.

The inner wall 111 constructed from the place where the heat storage tank 100 is erected is welded and fixed by arranging a plurality of fixing pins 112 with sharp ends at a predetermined interval on the circumference (step S11).

Penetrating through the first heat insulating material 120 from the fixing pins 112 welded and arranged as described above, where the arrangement is based on the two fixing pins 112 along the length of the first heat insulating material 120 as shown in the drawing Or, each one of the first insulating material penetrates through the fixing pins so as to be in close contact with the circumference (step S12).

The first heat insulating material 120 attached as described above primarily builds a heat insulation layer on the outer circumference of the inner wall 111.

The first heat insulating material 120 is attached to the upper side from the lower portion of the inner wall 111 as described above, and then the first strip 130 is attached to the outer circumference of the first heat insulating material 120 attached to the circumference of the inner wall 111. By binding around, the first heat insulating material 120 to be mixed and fixed in a cylindrical shape to the outer periphery of the inner wall 111 (step S13).

As described above, the fixing pin 112 penetrates the first heat insulating material 120, and then plugs the second heat insulating material 140 into close contact with each other in a circumferential shape to construct a second double insulation layer together with the first heat insulating material 120 (step). (S14)). The second insulation is attached from the fixing pin 112 so as to intersect the first insulation in a longitudinal direction of the first insulation 120 attached in multiple stages based on the first insulation arranged in the circumferential direction of the inner wall 111. Attach.

For reference, the first insulation member 120 and the second insulation member 140, which are attached to the first insulation member 120 and the second insulation member 140, may be adjusted in at least two or more intervals installed through the fixing pin 112 according to the size of the heat storage tank 100. According to the arrangement of the fins 112, the first insulation material 120 and the second insulation material 140 may form a heat insulation layer to be in a staggered form such as brick masonry.

The pointed end of the fixing pin 112 is inserted into a state that does not completely penetrate the second insulating material 140 to be temporarily fixed. This is to prevent heat from radiating outward from the fixing pin 112 extending from the inner wall 111.

The second heat insulating material 140 worked as described above binds another second strip 150 to the outside of the second heat insulating material to bind firmly (step S15).

As described above, by attaching and fixing the finishing exterior material 160 to the outside of the second heat insulating material 140 in a state where the work of the second heat insulating material 140 and the second strip 150 is completed, the inner wall of the heat storage tank 100 can be constructed. It becomes possible (step S16).

Therefore, the installation of the insulation is simple and quick compared to the existing work, as well as the maintenance is very easy to follow the replacement of the damaged part in the future.

100: heat storage tank 110: side wall
111: inner wall 112: fixing pin
120: first insulating material 130: first strip
132: fixing ring 140: the second insulating material
150: second strip 160: finishing exterior material

Claims (6)

A plurality of fixing pins 112 are arranged on the outer periphery of the inner wall 111 constituting the heat storage tank and are attached to the welding, and a plurality of agents penetrating the end of the fixing pin 112 to form a heat insulation layer primarily from the outside of the inner wall. It is attached to the first heat insulating material 120, the plurality of second heat insulating material 140 to be plugged into the end of the fixing pin 112 penetrating the first heat insulating material to form a second heat insulating layer, and the outer periphery of the second heat insulating material In the side wall 110 of the heat storage tank 100 composed of the finishing exterior material 160,
The first strip 130 for wrapping and fixing the outer circumference of the first insulation material 120 and the second strip 150 for wrapping and fixing the outer circumference of the second insulation material 140 are installed, and the second insulation material is installed. 140 is installed to be inserted in the range that the end of the fixing pin 112 does not protrude, while the fixing pin 112 is made of a pointed end shape, the fixing pin penetrating the first heat insulating material 120 The side wall for heat storage tank (112), characterized in that the fixing ring 132 for tightly supporting the first heat insulating material 120 is temporarily fitted before the installation of the second heat insulating material (140). delete delete delete delete delete

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