KR101778957B1 - Water tank with improved storage and anti-vibration performance - Google Patents

Abstract

The water tank having with improved storage stability and seismic resistance comprises: a bottom plate; a side wall member coupled to the bottom plate to form an interior of the water tank; and a roof member covering an upper portion of the side wall member. A central pillar is disposed vertically at an inner center of the water tank and is provided with a water discharge hole through which water is supplied from the outside through an inner passage and water supplied through an inner passage is discharged from an upper portion. A center is coupled to an upper portion of the central pillar and is coupled to the central pillar from below the water discharge hole. In addition, the water tank has a conical shape that is inclined to the edge, has a water guide top plate member having an outer rim connected to the side wall member provided on the lower side of the roof member. In addition, the water guide top plate member is formed with a plurality of water drop holes in the circumferential direction so that water discharged through a water discharge hole formed in the center column flows through the water guide top plate member and is stored into the water tank through the water drop hole.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water tank having improved storage stability and anti-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to small, medium and large water tanks for storing domestic water, industrial water, and water, and more particularly, to a water tank having improved storability and vibration resistance.

Generally, small, medium, and large water tanks for storing water or industrial water have diameters of about 5 to 30 meters depending on the capacity, and thick steel plates and synthetic resin materials such as FRP are used as the materials. However, in the case of steel sheet, rust is generated and contaminates water quality, and FRP has a drawback that it is weak against external impact.

Therefore, in recent years, water tanks of various capacities have been produced using stainless steel materials resistant to corrosion.

1 and 2 show a conventional cylindrical water tank manufactured using a stainless steel material. The conventional water tank has a bottom plate 1 and a cylindrical side plate 2 vertically coupled to the bottom plate 1 and a side plate 2, And an upper plate 3 coupled to the upper end. A ventilation hole 4 is formed at the center of the upper plate 3 and an entrance 5 is provided at one side.

Further, the side plate 2 is formed by laminating a plurality of band-shaped side panel panels, and the connecting portions of the side panel panels are welded to each other. By manufacturing the side plate 2 by laminating the strip-shaped side panel panels together, it is possible to manufacture the water tank of each capacity more easily.

2, a water supply pipe 7 vertically formed at a predetermined height is installed in the bottom plate 1 to supply water into the water tank, and at one side of the bottom plate 1, A water discharge pipe (not shown) is installed, and a ladder 6 is provided outside the side plate.

However, such conventional water tanks are advantageous in that they are made of stainless steel and are resistant to rust and corrosion. However, when the temperature rises in the middle of the day in summer, the internal temperature of the water tank also rises. The increase in the amount of chlorine contained in the water increases the amount of the chlorine contained in the water, which sometimes causes microorganisms to be generated in the stored water. In addition, when water is supplied into the water tank, water is supplied through the water supply pipe 7 disposed vertically inside the water tank. By dropping water only in a certain portion of the bottom plate 1 through the upper end of the water supply pipe 7, There is a problem that cracks may be generated or deformed in the bottom plate 1 where water drops during use.

Recently, earthquakes have occurred in some parts of Korea and it has been confirmed that Korea can no longer be a safety zone for earthquakes. However, when an earthquake occurs in an area where such a water tank is installed, the water stored in the water tank may be slammed (sloshing) and the top plate may be damaged by the impact of the water tank top plate. As a result, There is a problem that can lead to damage to the car.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a water tank having improved storability and improved seismic resistance.

A water tank having improved storage stability and seismic resistance according to the present invention comprises a bottom plate, a side wall member coupled to the bottom plate to form the interior of the water tank, and a roof member covering the top of the side wall member, A center column disposed vertically in the center of the interior of the tank and provided with a water discharge hole through which water supplied from the outside through the inner passage and water supplied through the inner passage is formed, A water guide top plate member coupled to the central column at a lower side of the water discharge hole and formed in a conical shape inclined to an edge and having an outer rim connected to the side wall member is provided at a lower side of the roof member, The upper plate member is formed with a plurality of water drop holes in the circumferential direction and discharged through a water discharge hole formed in the central column Is characterized in that water is stored in the water tank through the water drop hole after flowing through the water guide top plate member.

In addition, a vent hole is formed in a circumferential direction on the upper side of the water discharge hole in the central pillar, and a vent is provided in an upper end of a central pillar to which the roof member is coupled so that the inside of the water tank is ventilated by communicating with the vent hole.

The water discharging holes are formed in a plurality of circumferential directions on the outer circumferential surface of the central pillar. The water discharging holes of the water guiding upper plate member include a first outlet hole near the center of the water guide top plate member, And a second outlet hole formed at a position farther from the first outlet hole than the first outlet hole.

In addition, the water guide top plate member is composed of a plurality of fan-shaped upper plate pieces coupled to each other in the circumferential direction, and a part of the upper plate pieces is spaced apart from each other to form a fan-shaped opening.

Further, the upper surface of the water guide top plate member may further include an induction protrusion member protruding from the water guide top plate member and guiding the flow of water discharged from the water discharge hole, wherein the induction protrusion member is formed in an arc shape, And is coupled to the upper surface of the guide top plate member.

The guide protrusion member may include a first guide protrusion member formed at a position near the center of the water guide top plate member and a second guide member formed at a position distant from the first guide protrusion member at the center of the water guide plate member. Wherein water flowing along the first guided projecting member is formed inside the second guided projecting member while moving to the edge of the guided guide plate member after the second guided projecting member has trailed And is stored under the water tank through the first drop hole and the edge side second drop hole.

The first guide protrusion member and the second guide protrusion member are formed of a plurality of spaced apart from each other at a predetermined distance from the center of the water guide top plate member, And between the second guide projection member and the edge of the water guide top plate member.

According to the present invention, there is provided a water tank in which storability is improved and seismic resistance is improved.

1 is a perspective view showing a conventional large-sized water tank,
Fig. 2 is a longitudinal sectional view of Fig. 1,
3 is a sectional view of a water tank according to the present invention,
Fig. 4 is a detailed view of the upper part of the central column in Fig. 3,
Fig. 5 is a detailed view of the side wall engagement portion A of the water guide top plate member in Fig. 3,
6 is a partially cutaway perspective view of a water tank according to the present invention,
7 is a plan view of the water guide top plate member in the water tank according to the present invention,
Fig. 8 is a detailed view of the top plate piece in Fig. 7,
9 is a view showing another embodiment of the water guide top plate member in the water tank according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a water tank having an improved storability and an earthquake resistance according to the present invention will be described in detail with reference to preferred embodiments.

FIG. 3 is a sectional view of the water tank according to the present invention, FIG. 4 is a detail view of the upper part of the central column in FIG. 3, FIG. 5 is a detailed view of the side wall- 7 is a plan view of a water guide top plate member in a water tank according to the present invention, FIG. 8 is a detailed view of a top plate piece in FIG. 7, FIG. 9 is a cross- Fig. 5 is a view showing another embodiment of the water guide top plate member in the water tank according to the first embodiment.

As shown in the drawings, a water tank having improved storability and vibration resistance according to a preferred embodiment of the present invention includes a bottom plate 10, a side wall member (not shown) coupled to the bottom plate 10 to form the interior of the water tank And a roof member (30) covering an upper portion of the side wall member (20). The water tank is vertically disposed at an inner center of the water tank, and water is supplied from the outside through an inner passage, A central column 50 having a plurality of water discharge holes 52 through which water to be supplied is discharged is formed in the circumferential direction and a center is connected to an upper portion of the central column 50, And a water guide top plate member 60 which is joined to the central pillar 50 at the bottom and which is conical in shape inclined to the edge and whose outer rim is coupled to the side wall member 20 is provided on the lower side of the roof member 30 And the water guide top plate The member (60) is formed with a plurality of water drop holes (62, 63) in the circumferential direction.

In the present invention, the cylindrical side wall member 20 coupled to the bottom plate 10 is formed by forming an outer circumferential surface of a water tank and forming a storage space for water therein, by stacking a plurality of side panel panels. Each side panel panel is formed by joining stainless steel and a heat insulating material in the form of a circular strip, and each side panel panel is welded.

The side wall panels 20 are formed by laminating such strip-shaped side panel panels. By forming the side walls of the water tank by stacking the plurality of side panel panels together, it is possible to easily manufacture a water tank of a large diameter do.

The bottom plate 10 of the water tank is formed of a circular stainless steel and is provided on a concrete pad and is provided with a discharge pipe through which water is discharged though not shown on one side.

The roof member 30 is connected to the upper end of the side wall member 20 and covers an upper portion of the side wall member 20 and has a conical shape inclined downwardly from the center outwardly so that the outer rim of the roof member 30 extends in the circumferential direction The upper end of the uppermost side panel panel, and the center pillar 50 is coupled to the center of the roof member 30. As shown in FIG. The roof member 30 is made of polyethylene. Although not shown in the drawing, the roof member 30 is formed with a plurality of long rectangular spaces having a rectangular cross-section in the material for a thermal effect.

The center pillar 50 is vertically disposed at the center of the bottom plate 10 and is joined with the center of the roof member 30 and the water guide top plate member 60 so that an internal passage is formed inside the center pillar 50 . The inner passage of the center pillar 50 serves as a supply passage for water, and water is supplied from the outside through the inner passage to the inside of the water tank. 4, the water supplied through the inner passage of the column 50 is discharged to the inside of the water column through the upper side of the central column 50 to which the water guide top plate member 60 is coupled, A hole 52 is formed in the circumferential direction. Accordingly, in the present invention, the center pillar 50 supports the water guide top plate member 60 and the roof member 30, and supplies water to the inside of the water tank from the outside. In addition, a nozzle for supplying water to the lower part of the water guide top plate member 60 may be additionally provided in the central pillar 50.

A plurality of ventilating holes 51 are formed in the circumferential direction on the upper outer circumferential surface of the water discharging hole 52 and the ventilating holes 51 are communicated with the ventilating port 40 which is coupled to the upper end of the central pillar 50, Is ventilated.

The water guide top plate member 60 is made of stainless steel and is coupled to the lower portion of the roof member 30 so that the center of the water guide top plate member 60 is located at the center post 50 immediately below the water discharge hole 52, And the rim thereof is joined to the uppermost side panel panel to which the roof member 30 is joined in the side wall member 20. [ The water guide top plate member 60 has a generally conical shape inclined downwardly from the center to the edge of the central column 50 as a whole and is connected to the center column 50 through the water discharge hole 52 of the center column 50 Is caused to flow along the upper surface of the water guide top plate member 60. The water guide top plate member 60 is formed with a plurality of water drop holes 62 and 63 in the circumferential direction so that water flowing down the upper surface of the water guide top plate member 60 can be dropped downward. The water drop holes 62 and 63 are formed by a first water drop hole 62 formed at a position close to the center of the water guide upper plate member 60 as shown in FIG. 7 and a second water drop hole 62 formed at the center of the water guide upper plate member 60 And a second water drop hole (63) formed at a position farther than the first water drop hole (62). 7, the first water drop hole 62 is formed at about a half of the distance from the center to the side wall member 20, and the second water drop hole 63 is formed at a distance from the first water drop hole 62 And is formed close to the side wall member 20 away from the center.

As shown in the figure, the upper plate pieces 61 of the fan shape are coupled to each other in the circumferential direction, and the centers of the upper plate pieces 61 are connected to the center column 50 . The outer edge of the arcuate shape in each fan-shaped upper plate piece 61 is connected to the side wall member 20 by a "?" Shaped bracket 21. A plurality of '?' Shaped brackets 21 are coupled along the circumferential direction to the inner circumferential surface of the side wall member 20 and have an inner wall engaging portion 21a coupled to the inner circumferential surface of the side wall member 20 as shown in FIG. 5 Shaped bracket 21 composed of an inner extension portion 21b bent inwardly from the inner wall coupling portion 21a and is fixed to the side wall member 20 with an outer edge of the upper plate piece 61 being engaged . In addition, the '└' shaped bracket 21 plays a role of enhancing the vibration resistance along with the water guide top plate member 60. When the earthquake occurs, water rising on the inner wall of the side wall member 20 due to the vibration of the water, 21 along the bottom surface of the inner extended portion 21b to further improve the vibration resistance together with the water guide upper plate member 60. [

In this embodiment, the three upper plate pieces 61 are adjacently joined to each other in a set, and the sets are spaced apart from each other by a predetermined angle so that a fan-shaped opening 64 is formed between the adjacent sets.

8 is a view showing an upper plate piece 61 disposed adjacent to the opening 64. Fig. In the upper plate piece 61 shown in FIG. 8, a vertical side edge portion 66 formed perpendicularly to a side portion of a fan shape that is engaged with a side plate piece 61 is formed. The vertical edge portion 66 guides the water radially discharged through the water discharge hole 52 of the center pillar 50 to be smoothly dispersed along the upper plate piece 61. The upper plate piece 61 is formed with three vertical sides 65a at a side portion formed on the opening 64 side and water is directed toward the opening 64 through the space 65b between the vertical sides 65a .

The arrangement of the water drop holes 62 and 63 in the adjacent upper plate pieces 61 to which the respective sides are coupled to each other is such that the first water drop hole 62 close to the center pillar 50 and the second water drop hole 63 alternate . The length of the upper plate piece 61 may be equal to or slightly smaller than the distance between the center pillar 50 and the side wall member 20 so that the outer edge of the upper plate piece 61 is slightly smaller than the distance between the side wall member 20 The water moves downward through the inner wall of the side wall member 20 through a plurality of '?' Shaped brackets 21 coupled to the inner circumferential surface of the side wall member 20.

A part of the water supplied through the central column 50 flows downward from the central column 50 through the fan-shaped openings 64 between the respective troughs, and a part of the water flows along the water guide top plate member 60 And a part of another water is supplied downward through a second water drop hole 63 close to the side wall member 20 and a part of another water is supplied through the water guide upper plate member 62. [ And is fed downward through the fan-shaped opening portion 64 while flowing along the opening portion 60. As described above, in the present invention, water supplied from the outside through the central column 50 is stored in the water tank through the fan-shaped opening 64, the first water hole 62, and the second water hole 63, The water discharged from the column 50 is dispersed and evenly mixed and stored. 2, when the water is supplied to the water supply pipe inside the water tank, the water falls into the bottom plate 10 just below the upper end of the water supply pipe and the drop impact concentrates, However, in the case of the present invention, as described above, water is dispersed and stored, thereby solving the above problems.

In the case of a water tank according to the present invention storing water for drinking water or living water, chlorine is contained in the water. Since the water is uniformly dispersed and stored, the chlorine is relatively uniformly mixed in the water stored in the water tank, It is advantageous that water is not damaged even when stored for a long period of time.

The air layer 80 between the roof member 30 and the water guide top plate member 60 acts as a heat insulating member by being coupled to the water guide upper plate member 60 directly below the roof member 30, Even when the temperature rises high in the daytime, the evaporation of chlorine is suppressed and the storability improves.

On the other hand, in the case of the conventional water tank shown in FIGS. 1 and 2, when the earthquake occurs, the water stored in the water tank is churning and the roof can be separated by impacting the water tank roof, . In the present invention, the cone-shaped water guide top plate member 60 is coupled to the lower side of the roof member 30, thereby preventing the water guide top plate member 60 from damaging the roof by damaging the water firstly, And the vibration resistance can be improved.

9 is a view showing another embodiment of the water guide top plate member 60 in the present invention. 9 is configured in such a manner that the upper plate pieces 61 are joined to each other and the first water drop holes 62 are formed in a shape corresponding to the distance between the center column 50 and the side wall member 20 3, and a second water drop hole 63 is disposed adjacent to the side wall member 20. As shown in Fig. The first water drop holes 62 are formed in the adjacent three upper plate pieces 61 and the second water drop holes 63 are formed between the three upper plate pieces 61 in which the first water drop holes 62 are formed And is formed on the top plate piece 61 to be disposed.

9, the water guide top plate member 60 is further provided with the guide projecting members 71 and 72. [ The guide projecting members 71 and 72 are connected to the water guide upper plate member 60 in a circular arc so as to be protruded from the water guide plate member 60 to guide the flow of water supplied to the water guide plate member 60, And a second inductive protruding member 72 formed at a distance from the center. The first guided projecting member 71 is formed at about one-third of the distance between the side wall members 20 at the center of the guided guide top plate member 60 and a plurality of the guided projecting members 71 are spaced from each other, Are formed over the three upper plate pieces (61). A plurality of second guided projecting members 72 are spaced apart from each other at about two thirds of the distance between the side wall members 20 at the center of the water guided guide top plate member 60, Is formed across the adjacent three upper plate pieces (61) in which the first water drop hole (62) is formed, and the first water drop hole (62) is formed inside the second induction projection member (72). The first induction projecting member 71 is coupled to the pair of upper plate pieces 61 of the three upper plate pieces 61 coupled with the second induction projecting member 72 at a position near the center pillar 50, The first induction projecting member 71 is not engaged with the upper panel piece 61 at the center in the three upper plate pieces 61 to which the two induction projecting members 72 are coupled.

Therefore, water radially discharged from the center pillar 50 flows along the first induction projecting member 71 and then flows from the three upper plate pieces 61 to which the second induction projecting member 72 is coupled to the center top plate piece 61, a part of the water is supplied downward through the second water drop hole 63 and the rest of the water is split along the second induction and projection member 72 to the edge, and then the second water drop hole 63 And is fed down through. In this embodiment, water radially discharged from the center pillar 50 in this manner is discharged to the outside through the first induction projecting member 71, the first outlet hole 62, the second induction projecting member 72 and the second outlet hole 63 To be supplied below the water tank, so that it is more smoothly and evenly dispersed and supplied.

Other configurations and effects are the same as those of the previous embodiment, and a detailed description thereof will be omitted here.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but many variations and modifications may be made without departing from the scope of the present invention. There will be.

10: bottom plate 20: side wall member
30: roof member 40: ventilation hole
50: Central column 51: Vents
52: Water discharge hole 60: Water guide plate member
61: top plate piece 62: 1st falling water hole
63: second drop hole 71: first induction projecting member
72: second guided projecting member

Claims (13)

A bottom plate,
A side wall member coupled to the bottom plate to form an interior of the water tank,
And a roof member covering an upper portion of the side wall member,
A central pillar disposed vertically at an inner center of the water tank and having a water discharge hole through which water supplied from the outside through the inner passage of the column and water supplied through the inner passage is discharged,
A water guide top plate member having a central portion connected to an upper portion of the central column and connected to the central column at a lower portion of the water discharge hole and having a conical shape inclined to an edge and having an outer rim connected to the side wall member, Respectively,
Wherein the water guide top plate member is formed with a plurality of water drop holes in a circumferential direction so that water discharged through a water discharge hole formed in the center column flows through the water guide top plate member and is stored in the water tank through the water drop hole,
The water guide top plate member is composed of a plurality of fan-shaped upper plate pieces coupled to each other in the circumferential direction, and a part of the upper plate pieces is spaced apart from each other to form a fan-
A plurality of vertical sides 65a formed vertically along the sides of the upper plate piece at the side of the opening and water is moved to the opening through the space 65b between the vertical sides 65a Wherein the water tank has an improved storability and an earthquake resistance. The method according to claim 1,
Wherein a vent hole is formed in a circumferential direction on the upper side of the water discharge hole in the central pillar and an air vent is provided in an upper end of the central pillar to which the roof member is coupled so that the inside of the water tank is ventilated by communicating with the air hole. Water tank having improved storability and vibration resistance. The method according to claim 1,
Wherein a plurality of water discharge holes are formed in an outer circumferential surface of the central column in a circumferential direction. The method according to claim 1,
Wherein the water outlet hole of the water guide top plate member includes a first water drop hole near the center of the water guide top plate member and a second water drop hole formed at a position farther from the center of the water guide top plate member than the first water drop hole Wherein the water tank has an improved storability and an earthquake resistance. The method according to claim 1,
Wherein the sidewall member is coupled with a bracket formed of an inner wall engaging portion coupled to an inner circumferential surface of the side wall member and an inner extending portion bent inwardly from the inner wall engaging portion, Wherein the water tank is coupled to the "?&Quot; shaped bracket. delete delete The method according to claim 1,
Wherein the upper surface of the water guide top plate member is further provided with an inductive protrusion member protruding from the water guide top plate member and guiding the flow of water discharged from the water discharge hole. 9. The method of claim 8,
Wherein the guide protrusion member is formed in an arc shape and is coupled to an upper surface of the water guide top plate member. 9. The method of claim 8,
The guide protrusion member includes a first guide protrusion member formed at a position near the center of the water guide top plate member and a second guide protrusion member formed at a position distant from the first guide protrusion member at the center of the water guide plate member. Wherein the water tank has an improved storability and an earthquake resistance. 11. The method of claim 10,
Wherein the water outlet hole of the water guide top plate member includes a first water drop hole near the center of the water guide top plate member and a second water drop hole formed at a position farther from the center of the water guide top plate member than the first water drop hole Wherein the water tank has an improved storability and an earthquake resistance. 12. The method of claim 11,
The water flowing along the first inductive protruding member traverses the second inductive protruding member and then moves to the edge of the water guide top plate member, Wherein the water tank is stored under the water tank through the water dropping hole. 13. The method of claim 12,
Wherein the first and second inductive protruding members and the second inductive protruding member are formed of a plurality of spaced apart from each other at a predetermined distance from the center of the water guide top plate member, And the second guide protrusion member to the edge of the water guide top plate member. ≪ Desc / Clms Page number 20 >

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