KR20210074794A - Heat and ice storage tank - Google Patents

Abstract

The present invention provides a thermal ice storage tank, which comprises an ice storage tank floor made of concrete with a square or rectangular shape, and in which one or more external wall panels of a certain height are connected and installed at the edge of the ice storage tank floor to surround the edge of the ice storage tank floor to form a fluid storage space, and a corner panel is installed at the rectangular corner where the horizontal and vertical external wall panels are connected. Accordingly, it not only has the effect of being able to assemble and install without additional structural reinforcement, but also has excellent durability, so it can withstand water pressure even when storing a large amount of fluid, and since there is an air layer in the urethane foam and the layer where the urethane foam is installed, there is a warming effect that can maintain a constant temperature without installing a separate heating and cooling device.

Description

Ice storage tank {Heat and ice storage tank}

The present invention relates to an ice heat storage tank capable of storing a large amount of fluid, wherein one or more C-shaped outer wall panels and L-shaped corner panels are connected to form a fluid storage space, and the outer wall panel has a warming effect and durability. It relates to an ice heat storage tank that is improved and can withstand a large amount of fluid pressure as well as keep warm without installing a separate device.

The ice heat storage method is one of the methods of generating cold water. A cold water pipe is passed through an ice storage tank in which ice or cold fluid is stored, and cold water is generated through heat exchange between the cold heat transfer material accommodated in the ice storage tank and room temperature water passing through the cold water pipe.

The ice heat storage tank is installed inside a building and can be used as a facility system or a cold water system to supply cold air and water at a necessary time while maintaining a cooling medium at a low temperature for a certain period of time to cool the inside of the building.

In a typical ice storage tank, a space for accommodating the ice storage liquid is provided therein, and a cold water pipe passes through the ice storage tank to exchange heat between the cold heat transfer material accommodated in the ice storage tank and room temperature water passing through the cold water pipe. In addition, to maintain temperature, an inner cover made of FRP (Fiberglass Reinforced plastics) is constructed, a unit panel molded by foaming insulation material is assembled on this inner cover, and reinforcing bars are installed at regular intervals on the bottom surface of the inner cover for stored cooling. To improve the durability to withstand the water pressure of the fluid.

However, in the conventional ice heat storage tank, cracks occur at the junction of the FRP inner and outer covers due to the temperature deviation of the contents, resulting in leakage, and the thermal efficiency of insulation is reduced due to the occurrence of gaps in the insulation attached to the unit panel. In addition, there is a problem that productivity is lowered due to complicated workmanship.

Accordingly, Korean Patent No. 10-0630361 and Korean Patent Publication No. 2002-0028956 disclose a method for manufacturing an ice heat storage tank that can solve the above problems, but the present invention can withstand water pressure even when storing a large amount of cooling water. There is a difference because it is not disclosed with respect to the durable reinforcement structure.

Domestic Registered Patent No. 10-0630361 discloses a heat pump means comprising an evaporator, a compressor, a condenser and an expansion valve and the circulating medium repeatedly liquefies and vaporizes; a fan coil unit means connected to the heat pump means and configured to form a plurality of pipelines through which a fluid having cold and warmth flows to discharge the temperature of the fluid flowing through the pipelines into the atmosphere; first and second-way switching valves for switching the directions of the individualized indirect ice-making type ice heat storage tank and the circulation medium between the heat pump means and the fan coil unit; Geothermal loop means for discharging heat generated in the condenser of the heat pump means to the ground or transferring heat transferred from the ground to the evaporator of the heat pump means; a transfer pipe means connecting the heat pump means and the geothermal loop means; Disclosed is a simultaneous heating and cooling system using a mixture of geothermal and ice storage tanks including a cold water circulation pump means, a hot water circulation pump means and a geothermal circulation pump means installed in a predetermined part of the transfer pipe means to forcibly transfer a circulation medium. Korean Patent Publication No. 10-2013-0035888 discloses that the cooling water generation efficiency is excellent and the size of the ice storage tank can be dramatically reduced, and the disclosed ice storage tank includes a tank body for accommodating an ice storage liquid cooled by an ice heat storage method; a cold water generator that heat-exchanges the introduced water with the cooled ice-condensate to make it cold water; and a circulation unit for extracting the ice storage solution accommodated in the tank body and circulating it inside the tank body; and a water cooler having the same. Domestic Laid-Open Patent No. 10-2011-0079947 discloses a tank body that accommodates ice water inside but is sealed with the outside, through which an evaporator for cooling the ice water and a cold water pipe that exchanges heat with the cooled ice water pass through; an ice-cold water supply line connected to the tank body to supply ice-cold water to the inside of the tank body; and an ice cream water discharge line for discharging the remaining ice cream water to the outside when the inside of the tank body is completely filled with ice water. In addition, the water purifier includes a water supply line through which purified water can be moved; and an ice heat storage tank including an ice heat storage tank provided for heat-exchanging purified water provided from the water supply line with ice storage water to discharge cold water, and a water purifier having the same. In Korean Patent Publication No. 2002-0028956, the inner case made of stainless steel and the outer case made of zinc plating are completely separated and fixed to form a receiving space, and then a gap is not generated by foaming a liquid insulating material in the receiving space. Disclosed is a method for manufacturing an ice heat storage tank capable of maximizing the thermal insulation effect and increasing thermal efficiency, suppressing the occurrence of dew condensation by separating the inner and outer covers, and simplifying the work process to improve productivity.

In the conventional ice heat storage tank, cracks occur at the junction of the FRP inner and outer covers due to the temperature deviation of the contents, and the thermal efficiency of insulation decreases due to leakage or gaps in the insulation attached to the unit panel. In order to solve this deterioration problem, one or more of the outer wall panel of the U-shaped cross-section structure of the present invention and the corner panel of the L-shaped cross-section structure are connected to form a fluid storage space, and the outer wall panel has improved thermal insulation effect and durability, so that a large amount of An object of the present invention is to provide an ice heat storage tank that can withstand fluid pressure as well as keep warm without installing a separate device.

In order to achieve the above object, an ice storage tank according to an embodiment of the present invention includes: a concrete square or rectangular ice storage tank bottom; One or more external wall panels of a certain height are connected and installed at the bottom edge of the ice storage tank to surround the bottom edge of the ice storage tank to form a fluid storage space; A corner panel may be installed at a corner of a rectangle to which the outer wall panels in the horizontal direction and the vertical direction are connected.

The outer wall panel may be formed of a horizontal slate frame of a steel plate having a predetermined area and an angle of 90° between both ends of the horizontal slate frame, and the vertical slate frames are connected to each other to form a U-shaped flat cross-sectional structure.

The horizontal slate frame of the outer wall panel may include a horizontal slate inner wall portion installed to face the fluid storage space and one side, and a horizontal slate outer wall portion installed in the storage space and the other side of the horizontal slate inner wall. .

The horizontal slate inner wall portion forms a slate plate structure by laminating a fiber-reinforced plastic material 3 to 7 times or more on an inner side in contact with the fluid storage space, and the outer surface of the fiber-reinforced plastic slate plate has a predetermined thickness. At least one rectangular parallelepiped urethane foam is installed to be spaced apart from each other in the horizontal and vertical directions, and the surface on which the urethane foam is installed may be coated with fiber-reinforced plastic.

In addition, a slate plate structure is formed by laminating a fiber-reinforced plastic material at least five times in the same size as the horizontal slate inner wall part, and the outer side of the fiber-reinforced plastic slate plate has a rectangular parallelepiped of a certain thickness The shape of the urethane foam is installed at least one spaced apart up and down, and the surface on which the urethane foam is installed may be coated with fiber-reinforced plastic.

In the corner panel, the center of a slate plate having a certain area is bent by 90 degrees, and a vertical slate frame is connected to one end of a horizontal slate frame of the same area to form a flat cross-sectional structure of an L, and the corner panel is made of fiber Horizontal and vertical slate plates laminated 5 or more times with reinforced plastic material, urethane foam of a certain thickness is installed on the side of the recessed part of the L-shaped structure, and the surface on which the urethane foam is installed may be coated with fiber-reinforced plastic .

The present invention can be applied to conventional purifying filtration tanks and large fish tanks, and in the case of the tank as described above, a buried structure is adopted. In this case, even if the height of the outer panel is 2 m or more, assembly installation is possible without additional structural reinforcement. It has excellent durability, so it can withstand water pressure even when storing a large amount of fluid, and since there is an air layer in the urethane foam and the layer where the urethane foam is installed, a thermal insulation effect that can maintain a constant temperature without installing a separate heating and cooling device there is

1 shows a perspective view of an ice heat storage tank of the present invention.
Figure 2 shows a perspective view of the exterior wall panel of the present invention.
3 shows a structural diagram of a horizontal slate frame according to the present invention.
4 shows a structural diagram of a transverse slate inner wall portion of the present invention.
5 is a cut-away plan side view of a transverse slate inner wall portion of the present invention.
6 shows a structural diagram of a transverse slate outer wall portion of the present invention.
7 is a cut-away plan side view of the transverse slate outer wall portion of the present invention.
8 shows a longitudinal slate frame cutaway plan view of the present invention.
9 shows a cut-away plan side view of the edge panel of the present invention.

Hereinafter, it will be described in detail with reference to the drawings related to the ice storage tank of the present invention. 1 shows a perspective view of an ice heat storage tank of the present invention. The ice storage tank of the present invention includes: an ice storage tank floor 100 of a square or rectangular shape made of concrete; A plurality of external wall panels 300 of a certain height are connected and installed in the horizontal and vertical directions at the edge of the bottom of the ice tank to surround the bottom of the ice tank to form a fluid storage space, and the horizontal and vertical external wall panels intersect A corner panel 200 may be installed at the corner of the square.

The ice storage tank floor 100 of the present invention is to form a watertight structure by pouring concrete in a square or rectangular structure of a certain thickness formed of a concrete material on the ground where the ice heat storage tank is to be installed, and performing waterproofing and anticorrosive work.

It is preferable that the height of the ground where the outer wall panel is installed at the edge of the bottom of the ice tank where the concrete is poured is lower than the bottom of the concrete ice tank. The bottom of the ice storage tank is formed higher than the lower part where the outer wall panel touches the ground, so that the stored water stored inside the ice storage tank receives the atmospheric pressure and the water pressure according to the height of the stored water, and pushes up the lower part of the outer wall panel to prevent the lower part of the outer wall panel from being damaged. it is for

In addition, in order to prevent the lower side of the outer wall panel from being damaged by water pressure depending on the water pressure, the concrete pouring of the part where the outer wall panel is installed can be configured in a form having a hole of a certain depth lower than the side of the bottom of the ice building tank. . In such an installation structure, the existing concrete floor can be used as it is for the purpose of a swimming pool storage tank or a fish farm storage tank with a low height, and when there is no concrete floor, the water tank can be manufactured by pouring concrete only on the bottom of the tank. It has the effect of reducing cost and time compared to installation.

The watertight structure according to the present invention is to prevent water from entering or leaking from the outside or inside the structure when water is in direct contact with the structure for a water tank, and a film (membrane layer) is attached to the surface of the poured concrete structure. Or it refers to what is formed by coating.

Waterproofing and anticorrosion according to the present invention refers to providing a waterproofing effect of concrete with relatively poor waterproofing function by treating the surface of the concrete structure with a waterproofing coating agent, and the coating agent includes asphalt, coal tar pitch, urethane, epoxy, etc. Preferably, polyurea having excellent tensile strength and elongation, excellent chemical resistance, excellent durability, and fast curing speed, which can shorten the construction period, can be used. The polyurea has excellent interlayer adhesion, tearing, tensile strength and durability for waterproofing, and has very strong chemical resistance, so there is almost no corrosion and damage. In addition, the coating film treatment of the waterproof polyurea is cured in a short time, so it is easy to manufacture and takes a little time.

Figure 2 shows a perspective view of the exterior wall panel of the present invention. The exterior wall panel 300 of the present invention is provided with a horizontal slate frame 310 made of a steel plate having a predetermined area, an angle between both ends of the horizontal slate frame and 90 degrees, and a vertical slate frame 320 is connected and installed. Accordingly, the outer wall panel has a C-shaped flat cross-sectional structure, and the side of the C-shaped recessed structure is installed toward the outside of the storage space of the ice and storage tank, and the other structure is installed toward the storage space of the ice and storage tank.

One or more single exterior wall panels are installed adjacent to each other, and the installation is installed so as to be in contact with the side of the vertical slate frame of the neighboring exterior wall panels and fixed with a fixing device (not shown) so that a plurality of exterior wall panels can be connected and fixed horizontally. have.

As an embodiment of the fixing device according to the present invention, it is formed with bolts and nuts, and a fixing device receiving hole (not shown) is formed on the side of the vertical frame of the outer wall panel in contact with each other so that the fixing device can be penetrated and fixed, but it is not limited thereto. .

3 shows a structural diagram of a horizontal slate frame according to the present invention. The horizontal slate frame of the present invention includes a horizontal slate inner wall part 311 installed so as to face the ice water tank storage space and one side, and a horizontal slate outer wall part installed on the opposite side to the storage space of the horizontal slate inner wall part ( 312).

4 is a structural diagram of the transverse slate inner wall portion of the present invention, and FIG. 5 is a cutaway plan view of the transverse slate inner wall portion. The horizontal slate inner wall part 311 is formed by stacking slate plates made of FRP (10) material in a predetermined area on the inside in contact with the fluid storage space of the ice-shaking tank, and on the outer surface of the FRP, a rectangular parallelepiped shape of a certain thickness One or more urethane foams 30 are installed to be spaced apart from each other in the horizontal and vertical directions, and a coating layer coated with FRP may be formed on the surface on which the urethane foam is installed.

Accordingly, the horizontal slate inner wall portion is formed in three layers, and at least one spaced space is formed in the middle layer by installation on urethane foam, and in the spaced space, one or more supporting members 20 may be installed in the vertical direction with the floor part. have.

FRP referred to above is a fiber-reinforced plastic (FRP) material, which can be manufactured by pultrusion molding, and is a conventional fiber-reinforced resin or reinforced plastic, preferably an unsaturated polyester in glass fiber as a reinforcing material. It may be formed of a composite material laminated and cured while impregnating with a thermosetting resin such as resin or phenolic resin.

Fiber-reinforced plastics have good workability, are light and tough, have excellent mechanical strength and heat resistance, and have high load strength, so they are light in weight compared to strength. In addition, since it is manufactured by pultrusion molding, the manufacturing process of the frame is simple and simplified, thereby reducing production costs.

Glass fiber as a reinforcing material for forming the fiber-reinforced plastic of the present invention includes chopped strand mat, roving cloth, yarn cross (Yarn Colth), and surface mat, and an appropriate one of them is selected. It can be used or manufactured by combining different types of things.

The thermosetting resin is selected from the group consisting of unsaturated polyester, vinyl ester, epoxy, phenol, and urethane. The unsaturated polyester resin (UPR) is an infusible, infusible thermosetting plastic, which has excellent properties compared to the price, and despite its lightness, mechanical properties (strength), electrical insulation, corrosion resistance (chemical resistance) , heat resistance, acid resistance, and water resistance are excellent, and the application of the reinforcement material has various characteristics. As the thermoplastic resin, saturated polyester resin, polystyrene, polyethylene and copolymer, polymethacrylic acid and copolymer, polyvinyl acetate and copolymer, vinyl chloride, polycaprolactone, cellulose acetate butyrate, modified polyurethane, etc. can be used. can

Urethane foam according to the present invention may be a conventional polyurethane foam (polyurethane foam). Urethane provides a comfortable working environment because there is no problem such as dust generation during manufacturing, and a typical structure constructed of urethane panel has effects such as soundproofing, waterproofing, and moistureproofing in addition to excellent thermal insulation performance. In addition, the urethane foam of the present invention is located in the middle layer on a plane, and there is an air layer in the spaced space of one or more urethane foams, so that the fluid stored in the ice storage tank storage space can maintain a constant temperature. The warming effect is not only included in the urethane foam material itself, but also serves to strengthen durability to withstand water pressure.

In addition, one or more supporting members of a steel plate structure made of stainless steel may be installed in the separation space in a direction perpendicular to the floor. The support member helps to strengthen the durability of the outer wall panel, so that it can withstand the stored fluid pressure even when a large-scale ice storage tank is installed. The large-scale ice storage tank may include one formed to a height of 2 to 3 m.

6 is a structural diagram of the transverse slate outer wall part of the present invention, and FIG. 7 is a cutaway plan view of the transverse slate external wall part. The horizontal slate outer wall portion 312 of the present invention is formed by stacking slate plates made of FRP (10) material in the same size as the horizontal slate inner wall portion 5 times or more, and the side facing the FRP outward portion has a rectangular parallelepiped shape of a certain thickness of urethane foam 30 is installed to be spaced apart one or more up and down, and a coating layer on which FRP is coated is formed on the surface on which the urethane foam is installed.

Accordingly, the horizontal slate outer wall portion may be formed in three layers in the same manner as the vertical slate inner wall portion, and one or more spaced spaces may be formed in the upper and lower directions by installing the urethane foam in the middle layer.

The urethane foam installed on the horizontal slate outer wall has a structure in which the height decreases as it descends in a rectangular parallelepiped shape having a predetermined thickness and a predetermined height. This is to prevent the lower side of the outer wall panel from being damaged and unable to withstand the water pressure because the lower water pressure of the fluid stored in the ice storage tank is stronger than the upper water pressure.

8 shows a longitudinal slate frame cutaway plan view of the present invention. The vertical slate frame of the present invention is installed at both ends of the horizontal slate frame, so that the outer wall panel forms a U-shaped structure with a flat cross-section, and the recessed portion of the U-shaped structure faces the outside of the ice water tank.

The vertical slate frame is formed by stacking slate plates made of FRP material five or more times in the same way as the horizontal slate frame, and urethane foam of a certain thickness is installed on the side facing the recess of the slate plate made of FRP material, and the urethane foam is The installed surface may be formed by forming a coating layer coated with FRP.

Accordingly, the exterior wall panel of the present invention has the durability to sufficiently withstand the water pressure of the large ice and water tank storage space along with the improvement of the insulation function, while preventing damage due to the weak durability of the lower side of the exterior wall panel, as well as a large amount of Even in the installation of a structure that can store fluid, there is an advantage in that it can reduce the work of burying or installing a support structure or a reinforcement structure. It is possible to install a separate footrest on the upper part of the outer wall panel of the present invention and to provide a space in which the user can move easily by performing a sealing operation.

9 shows a cut-away plan side view of the edge panel of the present invention. In the corner panel, a vertical slate frame is connected to one end of a horizontal slate frame of the same area by bending the center of a slate plate having a certain area by 90 degrees to form a flat cross-sectional structure of an L.

The corner panel is formed by stacking horizontal and vertical slate plates made of FRP material five or more times, urethane foam of a certain thickness is installed on the side of the recessed part of the L-shaped structure, and FRP is coated on the surface on which the urethane foam is installed.

The corner panel is installed so that the convergence of the corner panel is inserted into the bent portion formed by connecting the vertical slate frame of the exterior wall panel installed in the horizontal direction and the vertical slate frame of the exterior wall panel installed in the vertical direction. can be supported by

The ice heat storage tank of the present invention can be applied to a conventional purifying filtration tank and a large fish tank, and in the case of the tank as described above, a buried structure is adopted. In this case, even if the height of the outer panel is 2m or more, assembly and installation without additional structural reinforcement is possible. It is not only effective, but also has excellent durability, so it can withstand water pressure even when storing a large amount of fluid, and since there is an air layer in the urethane foam and the layer where the urethane foam is installed, it is possible to maintain a constant temperature without installing a separate heating and cooling device. It has a warming effect.

It provides convenience and benefits to workers in related industries by reducing the cost and installation work time required for the installation of the ice storage tank, and the installation of the ice storage tank is easier than the conventional method, and there is a possibility of the related industry development. .

100: ice tank bottom 200: corner panel
300: exterior wall panel 310: horizontal slate frame
311: transverse slate inner wall part 312: transverse slate outer wall part
320: vertical slate frame 10: FRP
20: support member 30: urethane foam

Claims (3)

Concrete square or rectangular ice-construction floor; One or more external wall panels of a certain height are connected to the edge of the bottom of the ice tank to surround the edge of the bottom of the ice tank to form a fluid storage space; A corner panel is installed at the rectangular corner where the horizontal and vertical outer wall panels are connected,
The outer wall panel forms a 90 degree angle between a horizontal slate frame of a steel plate having a certain area and both ends of the horizontal slate frame, and the vertical slate frames are connected to each other to form a U-shaped flat cross-sectional structure. The horizontal slate frame of claim 1, wherein the horizontal slate frame of the outer wall panel has a horizontal slate inner wall portion installed to face the fluid storage space on one side, and a horizontal slate inner wall portion installed on the storage space and the other side of the horizontal slate inner wall. Ice heat storage tank, characterized in that it consists of an outer wall part The fiber-reinforced plastic slate plate according to claim 2, wherein the horizontal slate inner wall portion, the horizontal slate outer wall portion, and the vertical slate frame are laminated 3 to 7 times to form a slate plate structure by laminating a fiber-reinforced plastic material. An ice heat storage tank, characterized in that at least one cuboid-shaped urethane foam of a certain thickness is installed on the outer surface of the

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