KR101097797B1 - Roof for heat storaging tank - Google Patents

Abstract

The present invention relates to a heat storage tank loop, the heat storage tank loop 100,
The upper part of the inner panel 101 of the inner wall 101 forming the inner wall is attached to the lower part at the same height at equal points circumferentially and radially spaced from the center to fill the insulation P The first support 110 and a plurality of first support to secure the space between the first support 110 and the same support line is installed in the same line between the first support 110 arranged in the circumferential direction arranged in the same line The second support 120 and the arc-shaped third support 130, and the upper surface of the second support 120 and the third support 130 in the radially placed on the second support 120 and the third Insulating plate material 140 to block the heat transmitted to the support 130 to assist the insulation, and the front and rear end portions are arranged in contact with the top of the heat insulating plate 140 in the radiation direction continuously to form an outer wall and at the same time, both ends There is a support piece 151 for continuous installation in the circumferential direction An outer panel 150 formed therein, a connecting rod 160 for receiving the support pieces 151 of the outer panel 150 neighboring in the circumferential direction and continuously supporting the outer support panel 151 in a radial direction, and the upper end of the connecting rod 160. 1 is fastened to a plurality of equidistant intervals in the support 110 is configured to include a fastening rod (B) for supporting the insulating plate 140, including the outer panel 150 and a nut (N) for fastening and supporting the end of the fastening rod. It is characterized in that, by connecting the outer panel, which is the uppermost layer of the roof, as a structure supporting each other as a connecting rod rather than the conventional welding method, it is easy to maintain the outer panel, and the outer panel contracts and expands due to an external temperature difference. By maintaining the appearance as it is to increase the insulation effect and at the same time prevent the deformation of the loop as a whole, the inner panel and the insulation panel by arranging the insulation plate made of ceramic material at the bottom of the exterior panel There is an effect that can help to insulate the thermal insulation effect of the insulation filled between the hot plate material.

Description

Heat storage tank loop {Roof for heat storaging tank}

The present invention relates to a heat storage tank, and more particularly, to a heat storage tank loop that can improve the heat insulation effect while preventing the deformation of the loop caused by the seasonal temperature difference by improving the loop of the large 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 cooling, heating heat from the air conditioning unit to the cooling and heating place without interruption It is used as a component of the air conditioning unit.

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 device, and supplies the stored cold and hot heat to the cooling and heating place, and also connects the heat exchange unit connected to the air conditioning and heating device. Since it is internally installed, the circulating medium is configured to accumulate cold and hot heat by heat exchange with a circulating medium having cold and hot heat from the cooling and heating device circulating the heat exchange part through the heat exchange part. The regenerated circulating medium circulates through the air-conditioning place and emits the accumulated cold and hot heat to perform air-conditioning for the air-conditioning place.

The heat storage tank as described above is constructed in a large cylindrical shape, which manufactures an inner tank (hereinafter referred to as an 'inner wall') and an outer tank (hereinafter referred to as an 'outer wall') that is constructed as a steel plate or concrete using each iron plate. And, between the inner tank and the outer tank has a heat insulating structure for inserting or foaming the insulation formed of foamed polyethylene or crosslinked polyethylene.

On the other hand, in the conventional large heat storage tank as described above, the inner panel 3, which is an inner wall of the shell 1a and the loop 1b, made of steel is filled with polyurethane 5, which is a heat insulator, and the outer wall of the polyurethane 5 is filled. Covering the outer member 7 forming.

However, in the conventional heat storage tank as described above, when the hot water is filled, the temperature transferred to the upper end of the loop and the shell by thermal stratification becomes very high, and when the temperature is higher than the modification temperature of the polyurethane, the polyurethane is deformed to insulate the effect. There was a disadvantage of deterioration.

In addition, the roof that forms the ceiling of the heat storage tank is constructed with a heat insulating material filled between the inner wall and the outer wall of the metal material. In the summer and winter, due to the characteristics of the metal body, shrinkage or expansion occurs due to the external temperature difference. There is a case that the welded portion of the outer wall is damaged, there was a problem that the thermal insulation effect due to the damage of the outer wall is significantly reduced.

In particular, since the heat storage tank concentrates the high temperature heat to the roof side of the ceiling, damage to the heat insulating material and the outer wall as described above causes a lot of heat loss, so that the heat insulation effect gradually decreases, thereby maintaining the loop side of the heat storage tank. Repair following a repair problem is more difficult than ever.

The present invention has been made to solve the conventional problems as described above, to improve the loop of the large heat storage tank to prevent deformation of the loop caused by the seasonal temperature difference and to increase the insulation effect at the same time. have.

According to the present invention for achieving the above object, in the heat storage tank loop,

A plurality of first supports having a lower portion attached to the same height at each point that is equally spaced radially from the center and equally spaced radially from the center to form an inner wall to secure a space for filling the insulation; The second support and the arc-shaped third support and the second support and the linear support is installed in the same line between the first support and the upper side of the first support arranged in the circumferential direction, and the second support and the first 3, a heat insulating plate member is arranged radially on the upper surface of the support and assists heat insulation by blocking the heat transferred to the second support and the third support, and the front and rear ends of the heat insulating plate are arranged in continuous contact with each other in the radiation direction. At the same time as the outer wall, the outer panel formed at right angles to the support piece for continuous installation in the circumferential direction and the outer neighboring in the circumferential direction A connecting rod for receiving the support piece of the panel and continuously supporting it radially, and a plurality of equally spaced intervals are installed on the first support from an upper portion of the connecting rod and end portions of the fastening rod and the end of the fastening rod for supporting the insulation plate including the exterior panel. It characterized in that it comprises a nut for fastening and supporting.

Shaft bath loop according to the present invention is connected to the structure of the outermost layer of the uppermost layer as a connecting rod rather than the conventional welding method to facilitate the maintenance of the outer panel, as well as the outer panel shrinks, expands due to the external temperature difference By maintaining the appearance as it is to increase the insulation effect and at the same time prevent the deformation of the loop as a whole, and the insulation panel filled with the inner panel and the insulation plate by arranging the insulation plate made of ceramic material at the bottom of the exterior panel There is an effect that can adjust the thermal insulation effect of the agent.

1 is a cross-sectional view schematically showing a heat storage tank of the prior art,
Figure 2 is a side cross-sectional view showing a loop of the heat storage tank of the present invention,
Figure 3 is a perspective view for explaining the upper surface of the loop for the first support, the second support, the third support is installed at each point radially equally spaced and circumferentially spaced in accordance with the present invention,
4 is an enlarged partial perspective view of portion “A” of FIG. 3;
5 is a cross-sectional view showing the cut loop according to the invention,
6 and 7 is an enlarged cross-sectional view of the main portion showing the contracted expansion state of the exterior panel constituting the loop of the present invention.

Hereinafter, the configuration of the present invention in detail with reference to the drawings as follows.

The heat storage tank loop 100 according to the present invention,

A plurality of first supports for securing a space for filling the insulation P at each point circumferentially equally spaced radially from the center on the upper portion of the inner panel 101 of the roof 100 forming the inner wall. The lower portion 110 is attached to the same height.

In addition, the radially equidistant spaces between the first supports 110 and the upper sides of the first supports 110 arranged in the circumferential direction are provided with a second linear support 120 in a straight line, which leads to a radiographic image. The third support 130 of the shape is connected to be in the circumferential direction, that is, concentric circles of the first support 110, these are all connected to the same height in the same line.

Insulation plate material for assisting heat insulation by blocking heat transferred from the inner panel 101 to the second support 120 and the third support 130 on the upper surface of the second support 120 and the third support 130 ( 140 is placed radially.

The uppermost part constituting the loop 100 is arranged in contact with the front and rear end portions continuously in the radiation direction on the upper portion of the heat insulating plate 140 to form an outer wall, and at the same time both ends support for continuous installation in the circumferential direction The outer panel 150 formed at right angles is installed.

As described above, each support piece 151 of the exterior panel 150 is supported by a connecting rod 160 continuous in the radial direction with respect to the exterior panel 150 installed in the circumferential direction and radially installed.

As a fastening rod (B) and a nut (N) for supporting the insulation plate 140 including the exterior panel 150 through the coupling hole provided from the upper portion of the connecting table 160 and the coupling hole provided in the first support 110. By fastening to configure the loop (100).

The first support 110, the second support 120, the third support 130 and the fastening bar (B) and the nut (N) is preferably made of sus (SUS) material resistant to corrosion.

The connecting rod 160 is a channel in which the front and rear sides and the lower portion of the longitudinal direction are opened, and the open inner space of the connecting rod flows left and right when the corresponding support pieces 151 of each exterior panel 150 are contracted and expanded by a temperature difference. It is possible to install.

That is, both sides of the connecting rod 160 is installed so that the support pieces are not separated from each other by hanging the corresponding support pieces 151, and a new installation method that deviates from the welding method of the exterior panel, which is the outer wall body, in the loop configuration of the existing heat storage tank. to be.

The insulation plate 140 is made of a ceramic-based insulation material containing a ceramic or ceramic.

 For reference, the insulation (P) may be any one of mineral wool, glass wool, selak wool, pearlite, silicate, or foam glass board.

The edge side of the loop made as described above is constructed using a finishing material made of a separate sus material separately from the side wall of the heat storage tank as extracted in FIG.

In the figure, reference numeral 1 denotes a heat storage tank.

Referring to the operation of the heat storage tank of the present invention configured as described above are as follows.

In the heat storage of the cold and warm heat by heat exchange with the circulation medium having the cold and warm heat from the air conditioner in the heat storage tank 1, between the inner panel 101 of the roof 100 and the heat insulating plate 140. Thermal insulation is made by the filled heat insulating material (P), the heat insulating plate 140 is located on the second support 120 and the third support 130, the second support 120 and the third material is sus material As the effect of blocking the heat transferred to the three support 130, finally the heat from the exterior panel 150 side by effectively blocking the heat storage effect.

The second support 120 and the third support 130 supporting the heat insulating plate 140 are connected to the first support 110 while being lifted from the inner panel 101, and the heat insulating plate 140 is made of the first support 110. Positioned above the second support 120 and the third support 130, it is possible to substantially minimize the heat emission transmitted from the inner panel (101).

The exterior panel 150 disposed in the shape of a female and the upper part of the heat insulating plate 140 is installed to be supported as a fastening of the fastening rod B and the nut B through the connecting rod 160 having a male shape. And a coupled state as shown in FIG. 7.

FIG. 6 illustrates a state in which the exterior panel 150 is in contact with a fastening rod B fastened by maximally expanding from the connecting rod 160 when the exterior panel 150 is hot due to an external temperature difference, and FIG. 7 is a low temperature. As an example of the contracted state, the flow of the support piece supported by the connecting rod 160 has fluidity due to the temperature difference, so that the damage can be reduced as much as possible compared to the conventional exterior panel welding method to increase the thermal insulation effect on the heat storage. do.

In addition, when the connecting rod 160 is removed by disassembling the fastening rod B and the nut N during partial repair of the heat insulating plate 140 and the heat insulating material P including the exterior panel 150, each corresponding portion is removed. Replaceable has an economic advantage in terms of maintenance.

100: loop 101: inner panel
110: first support 120: second support
130: third support 140: heat insulating plate
150: exterior panel 160: connecting table
B: Fastening bar N: Nut
P: insulation

Claims (3)

In the heat storage tank loop 100,
The upper part of the inner panel 101 of the inner wall 101 forming the inner wall is attached to the lower part at the same height at equal points circumferentially and radially spaced from the center to fill the insulation P A plurality of first support 110 to secure the,
Equally spaced radially between the second support 120 and the arc-shaped third support 120 is installed in the same line between the first support 110 and the upper side of the first support 110 arranged in the circumferential direction Support 130,
Insulating plate 140 to assist the thermal insulation by blocking the heat transferred to the second support 120 and the third support 130 by being placed radially on the upper surface of the second support 120 and the third support 130. )Wow,
The front and rear ends of the heat insulating plate 140 are arranged in contact with the front and rear ends in a continuous direction to form an outer wall, and at the same time, the outer panel 150 having the support pieces 151 for continuous installation in the circumferential direction at right angles. and,
A connecting rod 160 which receives the support pieces 151 of the outer panel 150 adjacent to each other in the circumferential direction and continuously supports them radially;
A plurality of equally spaced intervals are installed on the first support 110 from an upper portion of the connecting table 160 to support the fastening rod B supporting the heat insulating plate 140 including the exterior panel 150 and the ends of the fastening rod. A heat storage tank loop comprising a nut (N) to be configured. According to claim 1, wherein the connecting rod 160 is a channel in which the front and rear and the lower portion of the longitudinal direction is open, the open inner space of the connecting rod is the corresponding support pieces 151 of each outer panel 150 due to the temperature difference The heat storage tank loop is installed so as to be movable left and right during contraction and expansion. The heat storage tank loop of claim 1, wherein the heat insulating plate (140) is made of a ceramic-based heat insulating material including ceramics or ceramics.

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