KR200466424Y1 - A water tank - Google Patents

Abstract

Disclosed is a structure of a water tank provided with an antifreeze layer inside a cylindrical body forming a lateral circumference of a water holding space and an upper wall provided to cover an upper portion of the water holding space.
This water tank can prevent the external bet from being transferred into the water tank through the action of the antifreeze layer, thereby effectively preventing the water tank from freezing without using a separate heating facility such as a boiler. .

Description

Water Tank {A WATER TANK}

The present invention relates to a water tank, and more particularly, to a water tank provided to effectively perform a freezing prevention function without using a separate heating facility.

The water tank, which is arranged to draw out the water contained in the inside to the outside when necessary, is installed and used in various places as a water supply equipment for various purposes.

Many of these water tanks are manufactured using fiber glass reinforced plastic (FRP), which has low cost and high strength. Here, FRP is a fiber-reinforced plastic and refers to a plastic in which a reinforcing material such as fiber is mixed with a polyester resin to improve mechanical strength and heat resistance.

And such a water tank may be installed indoors, but it is often installed outdoors depending on the purpose or capacity of the installation.

On the other hand, in the case of the water tank installed outdoors, there is a high risk of freezing problems in an environment where the temperature is low, such as winter, at this time, the water contained in the water tank is frozen in a state impossible to flow, it is difficult to withdraw to the outside of the water tank.

Therefore, in recent years, in the field related to water tanks, efforts have been made to solve the freezing problem by installing additional heating facilities such as boilers in water tanks.

However, in the case of the water tank in which the additional heating facilities are added as described above, there is a problem that the burden of installing the water tank is increased due to the excessive increase in the cost of manufacturing the water tank due to the cost of additional heating facilities.

The present invention is to solve this problem, it is an object of the present invention to provide a water tank provided to effectively perform the freeze protection function even without using a separate heating facility.

To this end, the water tank according to the present invention is provided to form a water receiving space therein through the FRP (Fiber Reinforced Plastics), the cylinder opened up and down to surround the water receiving space side, the upper portion of the water receiving space And an upper wall provided to cover the lower wall, and a lower wall provided to cover the bottom of the water receiving space, wherein at least the cylinder and the upper wall are provided with an antifreeze layer filled with an antifreeze.

Inside the cylinder and the upper wall is characterized in that a heat insulating layer filled with a heat insulating material is further provided.

An air layer is further provided inside the cylinder and the upper wall.

Inside the cylinder and the upper wall is characterized in that the heat insulating layer filled with a heat insulating material, and an air layer is further provided.

The antifreeze layer, the heat insulation layer and the air layer are provided to be partitioned with each other, wherein the antifreeze layer, the heat insulation layer and the air layer are the antifreeze layer closest to the water receiving space, the air layer is located farthest from the water receiving space, and the heat insulating layer It is characterized in that it is arranged to be located between the antifreeze layer and the air layer.

The cylinder is divided into an inner cylinder provided with the FRP, an outer cylinder provided with the FRP to surround the inner cylinder, and a partition provided with FRP to partition between the inner cylinder and the outer cylinder between the inner cylinder and the outer cylinder so that the antifreeze layer, the insulating layer, and the air layer are formed. And a cylinder, wherein the compartment includes a first compartment cylinder provided inside the cylinder so as to be spaced apart from the inner cylinder by a predetermined interval so as to form the antifreeze layer between the inner cylinder and the air cylinder between the outer cylinder. And a second compartment provided inside the outer cylinder so as to be spaced apart from the outer cylinder by a predetermined interval, wherein the heat insulation layer is provided between the first compartment and the second compartment, and the upper wall is provided with the bottom of the FRP. Between the inner plate and the outer plate of the inner plate, the outer plate provided with the FRP on the inner plate, the antifreeze layer, the heat insulating layer and the air layer is formed A partition plate provided with an FRP to partition between the inner plate and the outer plate, wherein the partition plate is provided on the inner plate so as to be spaced apart from the inner plate by a predetermined distance so as to form the antifreeze layer between the inner plate and the inner plate. And a second partition plate provided below the outer plate to be spaced apart from the outer plate so as to form the air layer between the plate and the outer plate, wherein the heat insulation layer is disposed between the first partition plate and the second partition plate. Characterized in that provided through.

A plurality of first spacers are provided between the inner cylinder and the first compartment for securing space of the inner cylinder antifreeze layer, and a plurality of spaces for securing the space of the cylinder inner air layer are provided between the outer cylinder and the second compartment. Two second spacer members are provided, and a plurality of third spacer members are provided between the inner plate and the first compartment plate to secure a space of the antifreeze layer inside the upper wall, and between the outer plate and the second compartment plate. A plurality of fourth spacers for securing a space of the air layer inside the upper wall is provided.

The first spacer member is formed integrally with the inner cylinder, the second spacer member comprises a molded integrally with the outer cylinder, and the third spacer member is formed integrally with the inner plate The fourth spacer may be formed integrally with the outer plate.

As described above, the water tank according to the present invention is provided with an antifreeze layer filled with an antifreeze in the cylinder and the upper wall provided to cover the upper portion of the water receiving space to form the lateral circumference of the water receiving space.

Therefore, when using the water tank according to the present invention, it is possible to block the external bet to be transferred into the water tank through the action of the antifreeze layer to freeze the water tank even without using a separate heating facility such as a boiler Can be effectively prevented.

1 is a perspective view showing the structure of a water tank according to an embodiment of the present invention.
2 is a cross-sectional view showing the structure of a water tank according to an embodiment of the present invention.
FIG. 3 is an enlarged view of “A” of FIG. 2.
4 is an enlarged view of “B” of FIG. 2.

Next will be described in detail with reference to the accompanying drawings the structure of a water tank according to an embodiment of the present invention.

1 to 2, the water tank 1 according to the present embodiment is provided to form a water receiving space 1a therein through FRP (Fiber Reinforced Plastics), and a water receiving space 1a. A cylindrical body 10 opened up and down to surround the side circumference, an upper wall 20 provided to cover the upper portion of the water receiving space 1a, and a lower wall provided to cover the bottom of the water receiving space 1a. 30 is provided.

One side of the upper wall 20 is provided with a supply port 40 for supplying water into the water receiving space 1a, and the supply port 40 has a stopper 50 for opening and closing the supply port 40. Is installed. The stopper 50 may be coupled to the supply port 40 detachably through a conventional screw method. Unlike the present embodiment, the supply port 40 and the stopper 50 for opening and closing the supply port 40 may be provided through an upper side of the cylinder 10.

And one side of the tubular body 10 is formed to penetrate the bottom of the tubular body 10, the drawer tube 60 for drawing out the water contained in the water receiving space (1a) to the outside of the water tank (1), if necessary The pipe 60 is provided with an on-off valve 61 to control the flow of water through the outlet pipe (60). When the pump and the like are connected to the outlet pipe 60, the arrangement position of the outlet pipe 60 may be free. Unlike the present embodiment, the outlet pipe 60 is not the bottom of the cylinder 10, but is not the bottom of the cylinder 10. B may be installed to penetrate the upper wall 20 or the lower wall (30).

On the other hand, the water tank 1 according to the present embodiment is an antifreeze (a) inside the cylinder 10, the upper wall 20 and the lower wall 30 so that the freezing problem does not occur even in a state where the temperature is low ) Is filled with antifreeze layers (10a, 20a, 30a).

Antifreeze (a) is mainly composed of ethylene glycol, which prevents freezing, and can be used as a conventional antifreeze mixed with cooling water in automobiles, etc. Adoption is possible, too.

In addition, in order to more reliably prevent the freezing action of the water tank 1, the heat insulating layers 10b and 20b in which the heat insulating material b is filled in the cylinder 10, the upper wall 20 and the lower wall 30, 30b) and air layers 10c, 20c, and 30c for exerting the air insulation effect are further formed. As the heat insulator (b), a normal heat insulator made of urethane may be used.

The antifreeze layer (10a, 20a, 30a), the heat insulating layer (10b, 20b, 30b) and the air layer (10c, 20c, 30c) is provided to be partitioned with each other, the air layer (10c, 20c, 30c) to exhibit a dual air insulation effect ) Is disposed so as to be located farthest from the water receiving space (1a) to primarily block the cold air outside the water tank (1) to be transferred to the water receiving space (1a).

The heat insulating layers 10b, 20b, and 30b are air layers 10c, 20c, and 30c and the antifreeze layers 10a, 20a, and 30a to insulate between the air layers 10c, 20c, and 30c and the antifreeze layers 10a, 20a, and 30a. The antifreeze layer (10a, 20a, 30a) is disposed closest to the water holding space (1a) to finally block the cold air outside the water tank (1) to the water holding space (1a) Done.

The heat insulation structure of the water tank 1 will be described more clearly together with the detailed structure of the water tank 1 as follows.

3 and 4, first, the cylinder 10 is formed of an inner cylinder 11 provided through FRP to form an inner surface of the water receiving space 1a, and an FRP to form an outer surface of the water tank 1. The outer cylinder 12 provided so as to surround the inner cylinder 11 and the partition cylinder 13a, 13b provided so as to partition between the inner cylinder 11 and an outer cylinder are provided. The inner cylinder 11 and the outer cylinder 12 forming the inner and outer skeletons of the cylinder 10 are preferably thicker than the partition cylinders 13a and 13b to ensure rigidity of the cylinder 10. In the inner cylinder 11, the outer cylinder 12, and the partition cylinders 13a and 13b, a through hole 62 for penetrating the outlet tube 60 is formed at a portion corresponding to the outlet tube 60.

In the present embodiment, the cylinder 10 has a rectangular shape having a height lower than the width thereof, and is provided in a cylindrical shape that is open in the vertical direction. The inner cylinder 11 and the outer cylinder 12 and the partition cylinder 13a constituting such a cylinder are provided. 13b) also forms a rectangular cylinder shape that is opened up and down to correspond to the shape on the cylinder (10).

The compartments 13a and 13b are provided in the inner compartment 11 so as to be spaced apart from the inner cylinder 11 by a predetermined distance to form the antifreeze layer 10a between the inner cylinder 11. ) And a second compartment (13b) provided inside the outer cylinder (12) to be spaced apart from the outer cylinder (12) by a predetermined interval to form an air layer (10c) between the outer cylinder (12). The heat insulating layer 10b is provided between the first compartment 13a and the second compartment 13b.

And when the cylinder 10 is formed with the inner cylinder 11 and the outer cylinder 12 and the partition cylinders 13a and 13b, firstly, the first and second compartment cylinders between the inner cylinder 11 and the outer cylinder 12 ( The lower surface of the open bottom between the inner cylinder 11 and the outer cylinder 12 is blocked by the lower blocking member 14 in a state in which 13a and 13b are sequentially positioned, and the cylinder is formed between the first and second compartment cylinders 13a and 13b. Open the upper surface between the inner cylinder 11 and the outer cylinder 12 in the state in which the antifreeze is filled between the inner cylinder 11 and the first compartment 13a after inserting the heat insulating material (b) manufactured in the form. The upper blocking member 15 is blocked to completely seal the inside of the cylinder 10.

In this case, a plurality of first spacers are disposed between the inner cylinder 11 and the first compartment 13a to sufficiently secure the antifreeze layer 10a for the antifreeze filling between the inner cylinder 11 and the first compartment 13a. 71 is provided, and a plurality of second spacers 72 are provided between the second compartment 13b and the outer cylinder 12 so as to secure the space of the air layer 10c.

The first and second spacers 71 and 72 may be fixed in an adhesive manner between the inner cylinder 11 and the first compartment 13a and between the second compartment 13b and the outer cylinder 12 in a separately provided state. Alternatively, the first and second spacers 71 and 72 may protrude from the inner cylinder 11 and the outer cylinder 12 surface during the molding of the inner cylinder 11 or the outer cylinder 12, and thus, the inner cylinder 11 and the outer cylinder. It may be molded integrally with (12). In the case where the first and second spacers 71 and 72 are formed to protrude integrally with the inner cylinder 11 and the outer cylinder 12, a work of separately fixing the first and second spacers 71 and 72 is required. It becomes impossible to perform the assembly process of the cylinder 10 more easily.

In the present embodiment, the first spacer member 71 is integrally molded with the inner cylinder, and the second spacer member 72 is fixed between the second compartment cylinder 13b and the outer cylinder 12 in a separately manufactured state. However, some of the plurality of first spacing members 71 are integrally formed with the inner cylinder 11, and the other part is fixed to the fixed between the inner cylinder 11 and the first compartment (13a) and Likewise, the spacers 71 and 72 may be provided in various ways to perform a space separation action.

In addition, the lower blocking member 14 and the upper blocking member 15 are overlayed to fix the joint member 80 made of FRP material to the connection portion between the inner cylinder 11 and the outer cylinder 12 by heat or the like. Through the technique can be fixed to the bottom and top respectively between the inner cylinder 11 and the outer cylinder 12.

In addition, the upper wall 20 is made of FRP to correspond to the cross-sectional shape of the outer cylinder 12, the inner plate 21 and outer plate 22 forming the bottom and the top of the upper wall 20, respectively, and the antifreeze layer 20a and Including partition plates 23a and 23b made of FRP material provided to partition the inner plate 21 and the outer plate 22 between the inner plate 21 and the outer plate 22 so that the heat insulating layer 20b and the air layer 20c are formed. It is composed. In the inner plate 21 and the outer plate 22 and the partitioning plates 23a and 23b, portions corresponding to the supply holes 40 are opened to protrude upward for the formation of the supply holes 40. The antifreeze layer 20a, the heat insulating layer 20b, and the air layer 20c are formed to extend in the inside of the portion.

The partition plates 23a and 23b are formed on the inner plate 21 so as to be spaced apart from the inner plate 21 by a predetermined distance to form the antifreeze layer 20a between the inner plate 21 and the first partition plate 23a. And a second partition plate 23b provided below the outer plate 22 so as to be spaced apart from the outer plate 22 so as to form an air layer 20c between the outer plate 22 and the outer plate 22. The insulating layer 20b is provided between the first partition plate 23a and the second partition plate 23b.

When the upper wall 20 is formed with the inner plate 21 and the outer plate 22 and the partition plates 23a and 23b, firstly, the first and second partition plates are disposed between the inner plate 21 and the outer plate 22. Position 23a and 23b in order and between the inner plate 21 and the outer plate 22 except one side in a state where the plate-shaped heat insulating material b is positioned between the first and second partition plates 23a and 23b. The side circumference of the side is blocked through the side blocking member 24, and in this state after filling the antifreeze (a) in the space between the inner plate 21 and the first partition plate 23a, the inner plate 21 and the outer plate 22 By blocking the open one side of the circumference between the side blocking member 14 by continuously, thereby completely sealing the inside of the upper wall (20). In this case, the side blocking member 24 is an inner plate 21 through an overlay technique of padding the joint member 80 made of FRP material to the inner plate 21 and the outer plate 22 and fixing it with heat. And a side circumference between the outer plate 22.

In addition, in the upper wall 20, a plurality of third spacers 73 are disposed between the inner plate 21 and the first partition plate 23a so that the antifreeze layer 20a space for filling the antifreeze (a) is sufficiently secured. ) And a plurality of fourth spacers 74 are provided between the second partition plate 23b and the outer plate 22 so that the air layer 20c is sufficiently secured.

The third and fourth spacers 73 and 74 may also be fixed in an adhesive manner between the inner plate 21 and the first partition plate 23a and between the second partition plate 23b and the outer plate 22 in a separate state. In some embodiments, the inner plate 21 and the outer plate 22 may be integrally formed with the inner plate 22 and the outer plate 22 so as to protrude from the inner plate 21 and the outer plate 22 in the forming process.

In addition, inside the stopper 50 provided to open and close the supply port 40, a heat insulation structure having the same configuration as that of the upper wall 20 is provided for insulation of the supply port 40.

In addition, the lower wall 30 is provided to form a symmetrical structure up and down with the upper wall 20, except for the supply port 40 side. That is, the lower wall 30 is formed of an FRP to correspond to the cross-sectional shape of the outer cylinder 12 to form an inner plate 31 and an outer plate 32 to form an upper portion and a lower portion of the lower wall 30, and the antifreeze layer 30a and Including partition plates 33a and 33b made of FRP material provided to partition the inner plate 31 and the outer plate 32 between the inner plate 31 and the outer plate 32 so that the heat insulating layer 30b and the air layer 30c are formed. It is composed.

The partition plates 33a and 33b are provided in the lower part of the inner plate 31 so as to be spaced apart from the inner plate 31 by a predetermined interval to form the antifreeze layer 30a between the inner plate 31. And a second partition plate 33b provided on the outer plate 32 so as to be spaced apart from the outer plate 32 so as to form an air layer 30c between the outer plate 32 and the outer plate 32. The heat insulating layer 30b is provided between the first partition plate 33a and the second partition plate 33b.

 When the lower wall 30 is formed with the inner plate 31 and the outer plate 32 and the partition plates 33a and 33b, firstly, the first and second partition plates between the inner plate 31 and the outer plate 32 are formed. 33a and 33b are sequentially positioned, and the plate-shaped heat insulating material b is positioned between the first and second partition plates 33a and 33b, and the inner plate 31 and the outer plate 32 except for one side are disposed. The side circumference is blocked by the side blocking member 34, and in this state, the antifreeze a is filled in the space between the inner plate 31 and the first partition plate 33a, and then between the inner plate 31 and the outer plate 32. The remaining one side of the side circumference is evenly sealed by the side blocking member 34 to completely seal the inside of the lower wall 30. At this time, the side blocking member 34 is also attached to the inner plate 31 and the outer plate 32 and the connecting member 80 of the FRP material by the overlay (overlay) technique for fixing the heat with the inner plate 31 and It can be fixed around the side between the outer plate (32).

In addition, a plurality of fifth spacers 75 are provided between the inner plate 31 and the first partition plate 33a to sufficiently secure the antifreeze layer 30a for antifreeze filling in the lower wall 30. In addition, a plurality of sixth spacers 76 are provided between the second partition plate 33b and the outer plate 32 so that the space of the air layer 30c is sufficiently secured.

The fifth and sixth spacers 75 and 76 may also be fixed in an adhesive manner between the inner plate 31 and the first partition plate 33a and between the second partition plate 33b and the outer plate 32 in a separate state. The inner plate 31 and the outer plate 32 may be integrally formed with the inner plate 31 and the outer plate 32 so as to protrude from the surfaces of the inner plate 31 and the outer plate 32.

As described above, the cylindrical body 10, the upper wall 20, and the lower wall 30 which are individually assembled are finally joined to each other to form the water tank 1. At this time, the connection portion between the cylinder 10 and the upper wall 20 and the connection portion between the cylinder 10 and the lower wall 30 are fixed by heat or the like in a state in which the bonding member 80 made of FRP is padded. Through the overlay technique that can be tightly bound to each other in a sealed state.

On the other hand, the water tank (1) can also be used for water supply of simple toilets installed in parks, etc. In this case, the water tank (1) may be used in the form of a roof covering the upper part of the main body of the simple dining room, When the water tank itself is installed to perform a roof role covering the upper part of a specific space, it is possible to block external cold air to be delivered to the water receiving space 1a through a specific space located below the water tank such as a simple toilet body. In this case, even in this case, the heat insulation structure inside the lower wall 30 in the water tank 1 may be omitted. That is, the insulating structure of the lower wall 30 can be omitted as necessary in the nature of the installation structure.

1: water tank 10: cylinder
20: upper wall 30: lower wall
10a, 20a, 30a: antifreeze layer 10b, 20b, 30b: heat insulation layer
10c, 20c, 30c: air layer

Claims (8)

A water receiving space is formed to be formed inside through FRP (Fiber Reinforced Plastics), and the tubular body is opened up and down to cover the circumference of the water receiving space, and an upper wall provided to cover the upper portion of the water receiving space, In a water tank having a lower wall provided to cover the bottom of the water receiving space,
At least inside the cylinder and the upper wall is provided with an antifreeze layer filled with an antifreeze, a heat insulating layer filled with a heat insulating material, and an air layer,
The antifreeze layer, the insulating layer and the air layer are provided to be partitioned with each other,
The antifreeze layer, the heat insulating layer and the air layer are arranged such that the antifreeze layer is closest to the water receiving space, the air layer is located farthest from the water receiving space, and the heat insulating layer is disposed between the antifreeze layer and the air layer. Water tank. delete delete delete delete The method of claim 1,
The cylinder is divided into an inner cylinder provided with the FRP, an outer cylinder provided with the FRP to surround the inner cylinder, and a partition provided with FRP to partition between the inner cylinder and the outer cylinder between the inner cylinder and the outer cylinder so that the antifreeze layer, the insulating layer, and the air layer are formed. Including a tub,
The compartment cylinder includes a first compartment passage provided inside the inner cylinder so as to be spaced apart from the inner cylinder by a predetermined distance to form the antifreeze layer between the inner cylinder, and the outer cylinder to form the air layer between the outer cylinder. A second compartment is provided inside the outer cylinder to be spaced apart a predetermined interval, wherein the heat insulating layer is provided between the first compartment and the second compartment,
The upper wall is divided into the inner plate and the outer plate between the inner plate and the outer plate so that the inner plate of the bottom provided with the FRP, the outer plate provided with the FRP on the inner plate, the antifreeze layer, the heat insulating layer and the air layer are formed. Including a partition plate provided,
The partition plate may include a first partition plate provided on an upper portion of the inner plate to be spaced apart from the inner plate so as to form the antifreeze layer between the inner plate and the outer plate so as to form the air layer therebetween. And a second partition plate provided below the outer plate to be spaced a predetermined distance apart from each other, wherein the heat insulation layer is provided between the first partition plate and the second partition plate. The method according to claim 6,
A plurality of first spacers are provided between the inner cylinder and the first compartment for securing space of the inner cylinder antifreeze layer, and a plurality of spaces for securing the space of the cylinder inner air layer are provided between the outer cylinder and the second compartment. Two second spacer members are provided, and a plurality of third spacer members are provided between the inner plate and the first compartment plate to secure a space of the antifreeze layer inside the upper wall, and between the outer plate and the second compartment plate. A water tank, characterized in that a plurality of fourth spacer for providing a space of the air layer inside the upper wall. 8. The method of claim 7,
The first spacer member is formed integrally with the inner cylinder, the second spacer member comprises a molded integrally with the outer cylinder, and the third spacer member is formed integrally with the inner plate And the fourth spacer member is formed integrally with the outer plate.

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