KR101462071B1 - Flow guide structure for prevent explosion bladder of expand tank - Google Patents

Abstract

The present invention relates to a structure for preventing the explosion of a bladder of an expand tank which includes: a tank having a tank flange extended to outside on the lower end; a bladder formed of a rubber material, connected to a fluid inlet formed on the upper end of the tank and a fluid outlet formed on the lower end, and expanded and shrunk by pressure inside the tank; and an air inlet located on one side of the upper end of the tank and adjusting the pressure inside the tank.

Description

[0001] The present invention relates to a flow guide structure for preventing explosion bladder of an expansion tank,

The present invention relates to a shape of a flow guide mounted inside a sealed expansion tank and a coupling method with the sealed expansion tank, wherein the bladder is provided in a passage through which fluid of the bladder is transferred to the pipe, And a flow guide capable of increasing the efficiency of the expansion tank.

The expansion tank is a facility to prevent the rupture or leakage of the low pressure part of the components of the piping system by appropriately controlling the pressure in the piping during the expansion and contraction according to the temperature change of the piping water. It is an open expansion tank and a closed expansion It can be classified as a tank.

Open expansion tank is inexpensive to install, but it causes various problems such as evaporation, energy loss due to overflow, corrosion of piping due to air entrainment, etc. In general, the closed expansion tank is a completely sealed expansion tank , An air layer is formed on the upper part of the inside of the tank to absorb pressure fluctuations by its elasticity. It is a safety device used to control the pressure of piping which is bigger than open expansion tank. It is used to transfer the fluid inside the enclosed expansion tank to the piping when the pressure of piping is low. When the pressure of piping is high, To the inside of the expansion tank. The tank is divided into a water chamber and an air chamber by rubber bladder or diaphragm in the tank. The number of piping is completely shut off from air (air), and the piping is completely sealed to fundamentally block air mixing, It is possible to solve the air locking phenomenon caused by the air and the insufficient heating due to the air locking phenomenon. In addition, a closed expansion tank can be applied to all buildings requiring application of cooling and heating without any limit in the installation location, and a method of improving the durability of the tank as the application of the closed expansion tank spreads should also be sought.

Korean Unexamined Patent Publication No. 2004-0042512 relates to a sealed expansion tank which is easier to maintain by strengthening the material of the diaphragm and minimizing damage during operation. A diaphragm is provided inside the storage tank, and the diaphragm is made of natural fibers, A synthetic mesh compound or a synthetic resin compound is applied to the outside of the mesh part by a method of calender forming, coating, or dipping, And the skin of the composite material is formed of the composite material diaphragm. Accordingly, since the diaphragm having a strong material is provided, it is possible to minimize damage during operation, thereby reducing the maintenance cost and also preventing the breakage of the diaphragm by preventing the flow of foreign matter It is effective. However, the conventional composite diaphragm has a problem that it can not be applied to the closed expansion tank for the bladder of the present invention. The tank is classified into a diaphragm type and a bladder type depending on the type of the diaphragm separating the water chamber and the vacant chamber, and the prior art can not be applied to the bladder-type closed expansion tank of the present invention by diaphragm type.

Another conventional art is a method of forming a hollow in a connecting flange, which includes a circular flange plate and is formed to communicate with the bladder and the pipe through four hollows provided at the center of the flange plate. And a coupling portion extending in a direction below the flange plate and coupled with and fixed to an inner circumferential surface of the pipe. In order to prevent the bladder from being blown and the mechanical device from being damaged, And a problem that the bladder is infiltrated into the hollow of the flange plate due to the pressure when the fluid is conveyed through the pipe can not be prevented and the vapors of the bladder are transferred to the pipe, The problem of shortening the life time could not be solved.

Korean Unexamined Patent Publication No. 2012-0042512 (Enclosed expansion tank made of a composite material diaphragm, 2012.05.03)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a flow guide including a plurality of through- And it is possible to solve the problem that the flange plate flows into the hollow of the flange plate due to the external pressure and it is possible to solve the problem that the guide of the radial shape is provided and the shape of the flow guide which can prevent vortex and the method of coupling with the expansion tank.

A tank (100) having a tank flange (110) extending outwardly at the bottom; A bladder 200 of rubber material which communicates with a fluid inlet formed at an upper end of the tank 100 and a fluid outlet formed at a lower end of the tank 100 and expanded or contracted by a pressure inside the tank 100; And an air injection unit (300) located at one side of the upper end of the tank (100) and controlling the pressure inside the tank, wherein the expansion tank is connected to the tank flange (110) A flange plate 410 having a hollow portion 401 formed therein and fixed to the bladder 200 by being coupled with the inner circumferential surface of the pipe, A connecting flange 400 including a connecting portion 420 and a connecting portion 400 extending from the connecting flange 400 through a lower portion of the bladder 200 to prevent a contracted bladder from being introduced, The flow guide 500 includes a hemispherical flow regulating portion 510 in which the through hole 502 is formed and a guide portion 520 inserted into the inner peripheral surface of the coupling portion 420 of the connection flange and controlling the flow of the fluid. Features include .

Further, the flow regulating portion 510 is characterized by being fastened to the flange plate 410 by one or more screw connection.

In addition, the guide part 520 is formed to extend radially outward, and a plurality of guide parts 520 are provided in the circumferential direction in contact with the inner peripheral surface of the coupling part 420 of the coupling flange.

Also, the flow guide 500 is formed of a plastic material.

The present invention can solve the problem that the bladder flows into the flange plate hollow of the connection flange and pops up by providing the fluid adjustment portion of the flow guide fixed to the connection flange in the passage through which the stored fluid of the bladder is transferred to the pipe, So as to prevent the generation of air bubbles and increase the efficiency of the closed expansion tank. Further, since the radial guide portion located at the lower end of the fluid regulating portion is provided, it is possible to prevent vortex from occurring, thereby minimizing bladder and machine damage, prolonging the service life and preventing foreign matter from being introduced into the pipe .

Fig. 1 (a) is a cross-sectional view and a partially enlarged view of a conventional sealed type expansion tank
(b) is a perspective view of a connection flange of a conventional closed expansion tank
Fig. 2 (a) is a sectional view and a partially enlarged view of a closed expansion tank according to the present invention
3 (a) is an elevational view of the connecting flange and flow guide according to the present invention
(b) is a side view of the connecting flange and flow guide according to the invention
(c) is a rear view of the flow guide coupled with the connecting flange according to the present invention

Hereinafter, the shape of the flow guide 500 and the coupling method of the flow guide 500 according to the present invention having the above-described structure will be described in detail.

Basically, the present invention proposed in the present invention is characterized in that the flow guide 500 fixed to the connection flange 400 is fixed to a portion where the tank flange portion 110 and the connection flange 400 are joined, It is an apparatus that can solve the popping problem and can suppress the inflow of noise and foreign matter and prevent the vortex from occurring, thereby improving the durability of the expansion tank 1000.

FIG. 1 (a) is a cross-sectional view and a partially enlarged view of a conventional sealed expansion tank, and FIG. 1 (b) is a perspective view of a conventional connection flange of a sealed expansion tank. As shown, a typical expansion tank basically comprises a tank, an air inlet, a bladder, and a connection flange.

In the prior art, four (50) holes are provided in the connection flange 40 to serve as the flow guide of the present invention. However, due to the pressure inside the expansion tank and the pressure of the fluid stored inside the bladder, Due to the problem that the bladder is inflowed into the hollow 50 of the connection flange 40 and the vortex is generated in the binding portion and the pipe of the connection flange because the bladder is damaged and the device for controlling the vortex of the fluid is not provided, There is a problem that the lifetime of the device is shortened.

In order to solve this problem, in the present invention, in order to eliminate the sharp edge portion of the hollow and minimize the welded portion in the problem that the bladder 200, which has been the biggest problem in the past, Guides 500 are produced. In addition, by providing the guide portion 520 for preventing vortexing, the life of the bladder 200 can be extended and the durability of the closed expansion tank 1000 can be improved. Hereinafter, each part will be described in detail with reference to the drawings.

2 (a) is a sectional view and a partially enlarged view of a closed expansion tank 1000 according to the present invention. The flow guide 500 of the present invention is provided inside the closed expansion tank 1000, The flow guide 500 further includes the connection flange 400 that includes the fluid guide 100, the bladder 200, the fluid inlet, the fluid outlet, and the air injection unit 300, . Hereinafter, the shape of the connection flange 400 and the shape of the flow guide 500 according to the present invention will be described in detail with reference to the drawings.

The outer wall of the tank 100 is made of a rigid material, and the inside of the tank 100 includes an empty space. The tank 100 includes a support for supporting the tank 100. The tank 100 may include both circular and polygonal tanks and may be modified in any form desired by the user can do.

The bladder 200 is made of a rubber material and the bladder 200 is supported by a supporting bolt located at the upper end of the tank 100. The bladder 200 has a fluid inlet And the discharge portion of the bladder 200 communicates with the fluid discharge portion located below the tank. The bladder 200 has a role of storing fluids and a discharging portion of the bladder 200 is located below a protrusion of a toroidal flange located at a lower portion of the tank 100, And serves as a gasket to prevent gas or water from leaking from the contact surface between the two fixed parts through engagement with the flange 110 of the tank.

The fluid inflow section and the fluid discharge section are parts for taking in and discharging the fluid, and the fluid inflow part is located above the tank and the external fluid flows into the inside of the tank 100, The fluid discharge unit is located below the tank 100 and the fluid in the bladder 200 is discharged to the pipe. The fluid discharge unit is connected to the bladder 200, Respectively.

The air injection unit 300 is provided at one side of the upper end of the tank and communicates the outside with the inside of the tank 100 by an on-off valve to inject outside air into the tank 100, And serves to adjust the external pressure of the bladder 200. More specifically, when the air is injected through the air injecting unit 300, the pressure of the outside of the bladder 200 is increased and the fluid is discharged to the discharge part of the bladder 200 by the pressure. The external pressure of the bladder 200 is lowered to allow the fluid to flow through the fluid inlet of the tank 100.

The connection flange 400 has a flange plate 410 having a predetermined thickness and formed with a hollow portion 401 at a central portion thereof and a flange plate 410 extending from the flange plate 410 in a hollow downward direction, And a coupling part 420 in the form of a tube. The flange plate 410 is fixed to the lower side of the donut-shaped tank flange 110 located at the lower portion of the tank 100 by screwing. The flange plate 410 and the flange 110 of the tank, The bladder 200 is interposed between the first and second blades 200 and 200 to serve as a gasket.

The flow guide 500 is designed of a plastic material to prevent corrosion by the fluid and prevent the bladder 200 from being damaged. The flow guide 500 is fixed to the upper end of the connection flange 400 and includes a plurality of through holes 502 And a guide 520 inserted into the inner circumferential surface of the coupling part 420 of the connection flange 400 and communicated with the bladder 200 and the pipe. More specifically, the flow regulating part 510 is fastened to the connection flange 400 in such a manner as to be coupled with at least one screw connection, and the flow regulating part 510 has a size (size) such that the bladder 200 of the flow regulating part 510 can not flow It is possible to prevent the pressure inside the tank and the fluid inside the bladder 200 from flowing into the pipe due to the pressure when the fluid flows into the pipe, The life can be extended. Further, by providing the flow regulating portion 510 including the plurality of through holes 502, it is possible to prevent foreign matter from flowing into the pipe, and to reduce the bubbles of the fluid when the fluid moves, thereby increasing the efficiency. The guide part 520 is aligned in the same axial direction as the coupling part 420 of the coupling flange 400 and extends radially outwardly in a radial shape so as to be radially outwardly extended from the inner peripheral surface of the coupling part 420 of the coupling flange 400 And the guide part 520 may be formed as a flat surface and a curved surface. When the fluid is transported to the pipe, the flow of the fluid is controlled so that the vortex is not generated, Mechanical damage can be reduced.

3 (a) is an elevational view of the connection flange 400 and the flow guide 500. In addition to the hollow portion 401 into which the flow guide 500 is inserted in the connection flange 400, The flow guide 500 and the connection flange 400 are screwed to each other. (b) is a side view showing that the radial guide portion 520 of the flow guide 500 and the connection flange 400 are coupled to each other in the axial direction of the connection flange 400. the flow guide 500 is inserted into the inner circumferential surface of the connection flange 400 in a radial shape and the guide portion 500 is inserted into the guide flange 400. [ 520 are provided in a radial shape, it is possible to prevent vortices generated when the fluid is transferred to the piping.

As described above, the flow guide 500 is specifically described in the present invention. However, the present invention is not limited to the above-described embodiment, Those skilled in the art will recognize that many modifications and variations are possible in light of the above teachings.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, fall within the scope of the present invention .

1000: Enclosed expansion tank
100: tank
110: tank flange
200: bladder
300: air injection unit
400: Connecting flange
401: hollow
402: hollow
410: flange plate
420:
500: Flow guide
502: Through hole
510:
520: guide portion

Claims (4)

A tank (100) having a tank flange (110) extending outwardly at the bottom;
A bladder 200 of rubber material which communicates with a fluid inlet formed at an upper end of the tank 100 and a fluid outlet formed at a lower end of the tank 100 and expanded or contracted by a pressure inside the tank 100; And
And an air injection unit (300) located at one side of an upper end of the tank (100) to adjust a pressure inside the tank, the blast rust preventing structure of an expansion tank comprising:
The expansion tank
A flange plate 410 having a hollow shape formed with a hollow portion 401 and a hollow tube extending downwardly from the flange plate 410 to be coupled with the tank flange 110 to fix the bladder 200, A coupling flange 400 including a coupling part 420 fixedly coupled to an inner circumferential surface of the pipe;
The bladder (200) passes through the lower portion of the bladder (200) and is extended to the connection flange (400). The shrunk bladder flows into the pipe by the pressure inside the tank and the pressure when the fluid in the bladder moves to the pipe A flow consisting of a hemispherical flow regulating part 510 in which a plurality of through holes 502 are formed at the upper part and a guide part 520 inserted into the inner circumferential surface of the coupling part 420 of the connection flange and controlling the flow of the fluid, And a guide 500,
The guide portion 520
Wherein the plurality of blades are provided in a circumferential direction in contact with the inner circumferential surface of the coupling part (420) of the connection flange and extended outward in the radial direction.
The method according to claim 1,
The flow regulator (510)
Wherein the flange plate (410) is fastened to the flange plate (410) by at least one screw connection.
delete The method according to claim 1,
The flow guide (500)
The bladder explosion preventive structure of an expansion tank having a flow guiding function, which is made of a plastic material.

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