KR20110086961A - Combination structure of expansion tank and filter apparatus and the filter apparatus - Google Patents

Abstract

PURPOSE: An expansion tank and filter device coupling structure and a filter device with an elongated cleaning cycle are provided to increase the filtering capacity of a filter device by securing an enough filtering area. CONSTITUTION: An expansion tank and filter device coupling structure comprises a filter case which has an inlet port for drawing in heating water and is connected to an expansion tank and a filter element(220) which is installed inside the filter case to filter foreign material included in the heating water drawn in through the inlet port, wherein the inner diameter of the filter element is greater than that of the inlet port of the filter case.

Description

Combination structure and filter device of expansion tank and filter device {COMBINATION STRUCTURE OF EXPANSION TANK AND FILTER APPARATUS AND THE FILTER APPARATUS}

The present invention relates to a coupling structure of the expansion tank and the filter device, and more particularly, to an inner diameter of the filter part that is larger than the inner diameter of the heating water inlet flowing into the filter device. Combination structure and filter device of expansion tank and filter device to reduce the flow rate, so that some of the foreign matter contained in the heating water is settled to the bottom of the filter device without passing through the mesh of the filter part, thereby increasing the cleaning cycle of the filter device. It is about.

In general, a gas boiler is a device for supplying heated heating water or hot water after heating water by using heat exchange between combustion heat and water generated during combustion of a gas.

1 is a schematic configuration diagram of a conventional gas boiler.

In general, the heating water of the gas boiler is pressurized by the circulation pump 10 to pass through the main heat exchanger 11 so that the temperature is increased through heat exchange with the heat burned by combustion of the burner 12, and thus the heated water is heated. Is supplied to the heating source through the heating water supply pipe 15 or is heated to the hot water supply heat exchanger 14 to supply hot water by heating the direct water according to the position of the three-way valve 13.

The hot water is introduced into the hot water heat exchanger 14 through the hot water inflow pipe 18 and the hot water heated through the heat exchange is supplied for the hot water through the hot water supply pipe 19.

In addition, the heating water supplied to the heating source and performing the heating function is recovered to the expansion tank 17 through the heating water return pipe 16, and is heated again through the main heat exchanger 11 and then recycled.

Reference numerals 20 and 21 denote gas supply pipes 20 for supplying gas to the burner 12 and gas valves 21 for controlling the amount of gas supplied thereto.

Meanwhile, the heating water of the gas boiler configured as described above is returned to the inside of the boiler along with various foreign substances such as corroded pieces of the heating pipe and water moss while circulating the heating pipe, and this foreign matter blocks the piping of the boiler, causing the boiler to malfunction. Or lowering of the operating efficiency.

Therefore, the filter device 100 is installed in the heating water return pipe 16 introduced into the expansion tank 17 to filter foreign matters contained in the heating water.

Fig. 2 is a configuration diagram of the filter device shown in Fig. 1, (a) is a sectional view of the filter device, (b) is a front view of the filter member constituting the filter device, and (c) is a side view of the filter member.

The conventional filter device 100 is composed of a filter case 110 and the filter member 120 is inserted into the inside.

One side of the filter case 110 is formed with an inlet 111 through which the heating water returned through the heating water return pipe 16 is introduced, and the heating water filtered while passing through the filter member 120 at the upper end of the expansion tank 17. The outlet 112 which is supplied to is formed.

In addition, the filter inserting portion 115 to which the filter member 120 is fitted is coupled to the lower end of the filter case 110 is formed.

The filter member 120 is a filter portion 122 made of a flat mesh (mesh) structure is installed between the inlet 111 and the outlet 112 in the interior of the filter case 110 and the filter unit ( Is coupled to the lower end of the 122 to support the filter portion 122 and consists of a fastening portion 124 coupled to the filter inserting portion (115).

An o-ring seating portion 126 is formed around the side surface of the fastening portion 124, and an O-ring 125 is coupled to an inner side of the fastening portion 124, and is disposed between the outer surface of the fastening portion 124 and the inner surface of the filter inserting portion 115. Confidentiality is maintained.

The conventional filter device 100 is formed in the inner diameter of the inlet 111 and the outlet 112 of the filter case 110 is similar in size, the inner diameter of the filter case 110 is formed larger than the inner diameter of the inlet 111. But it does not make a big difference.

Therefore, there is no significant difference in the flow rate of the heating water discharged from the inlet 111 to the outlet 112 through the filter unit 122, and thus all foreign substances contained in the heating water introduced through the inlet 111 are all filtered. Since the heating water is filtered while being filtered by the mesh of the part 122, foreign substances are caught in the filter part 122 too often, which causes a short cleaning cycle of the filter device 100.

In addition, the conventional filter device 100 is configured separately from the expansion tank 17, the filter capacity is limited to the size of the filter case 110 as the filter member 120 is installed only inside the filter case 110. There is a problem.

Therefore, when the filter case 110 is made small in size, and the gap between the meshes is tightly formed to filter fine particles of foreign matters, foreign substances are blocked in the air gaps between the meshes so frequently that the cleaning and replacement cycles of the filters are increased. There is a problem in that management is shortened.

In addition, since the conventional filter device 100 is installed inside the boiler, when the filter device 100 is to be cleaned or replaced, the filter device 100 needs to be removed after disassembling the outer housing of the boiler, which is cumbersome and difficult. There is a problem that takes time.

The present invention has been made to solve the above problems, the coupling structure of the expansion tank and the filter device to reduce the blockage of the filter portion due to the foreign matter contained in the heating water to increase the cleaning cycle of the filter device and It is an object to provide a filter device.

It is still another object of the present invention to provide a coupling structure and a filter device of an expansion tank and a filter device which can sufficiently secure the filtration area of the filter device to increase the filter capacity.

In addition, an object of the present invention is to provide a coupling structure and a filter device of the expansion tank and the filter device that can easily perform maintenance and replacement of the filter device from the outside of the boiler.

The combined structure of the expansion tank and the filter device of the present invention for achieving the above object, the structure for coupling the expansion filter to the boiler filter device for filtering foreign matter contained in the heating water returned to the expansion tank of the boiler. The filter case may include: a filter case coupled to communicate with the inlet port through which the heating water flows and the expansion tank; and a filter member provided inside the filter case to filter foreign substances contained in the heating water introduced through the inlet port. And, the inner diameter of the filter member is characterized in that formed larger than the inner diameter of the inlet of the filter case.

In this case, the filter member is formed with an inlet for heating water is introduced to a position corresponding to the inlet of the filter case, the upper portion of the inlet portion is formed of a filter portion of the mesh structure for filtering foreign matter contained in the heating water introduced into the inlet The filter unit may be configured to extend from the filter case to the inside of the expansion tank.

In addition, the heating water introduced through the inlet of the filter case is introduced into the inlet of the filter member, a portion of the foreign matter contained in the heating water introduced into the inlet is precipitated to the bottom and the remaining foreign material is the filter unit After being filtered off, the filtered heating water can be configured to be supplied to the expansion tank.

In addition, the filter case has a filter inserting portion is formed at one end, the filter member is inserted into the filter case through the filter inserting portion, the lower portion of the inlet of the filter member is formed with a fastening portion coupled to the filter inserting portion It may consist of.

In addition, the filter insertion portion of the filter case may be installed to be exposed to the outside of the boiler, it may be configured to be configured to take out or insert the filter member from the outside of the boiler.

Filter device according to the present invention, the inlet for heating water is introduced into one side, the filter case is formed in the longitudinal end opening portion for discharging the heating water introduced through the inlet; and provided in the filter case is the inlet And a filter member for filtering foreign substances included in the heating water introduced through the filter member, wherein the inner diameter of the filter member is larger than the inlet diameter of the filter case.

In this case, the filter member is formed with an inlet for heating water is introduced to a position corresponding to the inlet of the filter case, the upper portion of the inlet portion is formed of a filter portion of the mesh structure for filtering foreign matter contained in the heating water introduced into the inlet The filter unit may be configured to extend so as to protrude a predetermined length to the outside of the opening.

In addition, the filter case has a filter inserting portion is formed at one end, the filter member is inserted into the filter case through the filter inserting portion, the lower portion of the inlet of the filter member is formed with a fastening portion coupled to the filter inserting portion It may consist of.

According to the present invention, the inner diameter of the filter member is formed to be much larger than the inlet diameter of the filter case so that a part of the foreign matter contained in the heating water is precipitated to the bottom of the filter member and only the remaining part of the foreign material is filtered out of the filter part. The cleaning cycle of the device is long.

In addition, the filter portion of the filter member is positioned to extend from the filter case to the inside of the expansion tank, thereby increasing the filtration area of the filter device.

In addition, even without disassembling the boiler, there is an effect that can easily perform maintenance and replacement of the filter device from the outside of the boiler.

1 is a schematic configuration diagram of a conventional gas boiler;
2 is a configuration diagram of the filter device shown in FIG. 1, (a) is a sectional view of the filter device, (b) is a front view of the filter member constituting the filter device, (c) is a side view of the filter member,
3 is a cross-sectional view showing a filter device for a boiler according to an embodiment of the present invention, in which a part of foreign matter contained in the heating water is precipitated to the floor while the heating water passes through the filter device;
4 is a front view of the filter member constituting the filter device of FIG.
5 is a cross-sectional view taken along line AA of FIG.
6 is a sectional view taken along line BB of FIG.
7 and 8 are cross-sectional views showing the filter device of Figure 3 coupled to the expansion tank.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Here, the same reference numerals will be used for the same components as the prior art.

3 is a cross-sectional view of a filter device for a boiler according to an embodiment of the present invention, the cross-sectional view showing a portion of the foreign matter contained in the heating water precipitates to the floor while the heating water passes through the filter device, Figure 4 is Front view of the filter member constituting the filter device, Figure 5 is a AA reference cross-sectional view of Figure 4, Figure 6 is a BB reference cross-sectional view of Figure 4, Figures 7 and 8 shows a state in which the filter device of Figure 3 is coupled to the expansion tank It is a cross section showing.

The filter device 200 for a boiler according to the present invention includes a filter case 210 and a filter member 220 inserted therein.

Referring to FIG. 3, an inlet 211 is formed at one side of the filter case 210 in which heating water is returned to the boiler, and a flange-shaped coupling part 212 coupled to the expansion tank 17 is formed at an upper end thereof. Formed. And the upper portion of the coupling portion 212 is coupled to the O-ring 216 for maintaining the airtight when the expansion tank 17 and the coupling.

In addition, the filter inserting portion 215 to which the filter member 220 is fitted is coupled to the lower end of the filter case 210 is formed.

4 to 6, the filter member 220 is provided with an inlet 223 having a plurality of inlets 223a formed at positions corresponding to the inlets 211 of the filter case 210. An upper portion of the inlet 223 is provided with a filter unit 221 having a mesh 221a structure for filtering foreign substances contained in the heating water.

The inner diameter d2 of the filter member 220 is formed to be much larger than the inner diameter d1 of the inlet 211 of the filter case 210.

Accordingly, the flow rate v2 of the heating water passing through the inside of the filter member 220 is drastically reduced compared to the flow rate v1 of the heating water flowing into the inlet 211, and thus, a part of the foreign matter included in the heating water. Is precipitated to the bottom of the filter member 220, only the remaining foreign matter contained in the heating water is filtered out of the filter unit 221 of the filter member 220 of the filter device 200 compared to the filter device according to the prior art The cleaning cycle will be long.

When cleaning the filter device 200 to remove the foreign matter trapped in the air gap 221b between the sediment 229 of the foreign matter precipitated on the bottom of the filter member 220 and the mesh 221a of the filter unit 221. do.

Meanwhile, the present invention is characterized in that the filter member 220 is positioned to extend from the inside of the filter case 210 to the inside of the expansion tank 17 in order to further extend the cleaning cycle of the filter device 200.

As shown in FIG. 3, in the state where the filter member 220 is coupled to the inner side of the filter case 210, the filter part 221 is disposed to the outside of the opening 214 formed at the longitudinal end of the filter case 210. It is formed to extend a predetermined length, when the filter device 200 is coupled to the expansion tank 17, the filter unit 221 is extended to the interior of the expansion tank 17 is positioned.

Accordingly, the filter unit 221 of the filter member 220 can be made long while miniaturizing the size of the filter case 210 of the filter device 200, thereby increasing the filtration area.

On the other hand, between the inlet 223 and the filter unit 221 guides the heating water introduced into the inlet 211 of the filter case 210 to the inside of the inlet 223 of the filter member 220 and the filter unit Boundary portion 222 is formed to block the heating water passing through the 221 is introduced into the inlet 223 again.

The O-ring 226 is coupled to the O-ring seating portion 226a formed along the circumference of the boundary portion 222 positioned above the inlet 223 to be in close contact with the inner surface of the filter case 210. Can be.

And a lower portion of the inlet portion 223 of the filter member 220 is provided with a fastening portion 224 to be fitted and coupled to the filter inserting portion 215, the O-ring seating portion formed along the side circumference of the fastening portion 224 O-ring 228 is coupled to 228a may be configured to be in close contact with the inner surface of the filter case 210.

5 and 6, the filter member 220 may have a cylindrical cross section, but the present invention is not limited thereto. The cross section may have a cylindrical shape as well as a cylindrical shape.

In the filter device 200 configured as described above, the heating water introduced through the inlet 211 of the filter case 210 is introduced through the inlet hole 223a formed in the inlet 223 of the filter member 220. After flowing into the inside of the 223, the heating water moved to the inside of the upper filter part 221, and the heating water moved to the inside of the filter part 221 is a gap 221b between the meshes 221a of the filter part 221. After passing through the foreign matter is filtered is discharged to the outside of the filter unit 221 is supplied to the expansion tank (17).

As described above, in the present invention, the heating water is made to pass from the inside of the filter unit 221 to the outside, and at the same time the filter unit 221 is extended from the filter case 210 to the inside of the expansion tank 17, Not only can the filtration area be increased, but even if the mesh 221a of the filter unit 221 is tightly formed, foreign matter is trapped in the air gap 221b so that the period until cleaning or replacing the filter unit 221 can be extended. do.

As a result, the conventional filter part is clogged with foreign matters, thereby preventing the smooth flow of the heating water, thereby solving the problem of lowering the heating efficiency.

Meanwhile, the present invention is characterized in that the filter inserting portion 215 of the filter case 210 is installed to be exposed to the outside of the boiler to facilitate maintenance and replacement of the filter device 200.

Accordingly, even without disassembling the boiler, it is possible to take out and separate or insert only the filter device 200 from the outside of the boiler.

Meanwhile, as shown in FIG. 7, the filter case 210 may be configured to be separated from the expansion tank 17 so that the filter case 210 and the filter member 220 may be separated from the expansion tank 17 together. As shown in FIG. 8, the expansion tank 17a and the filter case 210a may be integrally formed to separate only the filter member 220 from the expansion tank 17a.

It is apparent to those skilled in the art that the present invention is not limited to the above embodiments and can be practiced in various ways without departing from the technical spirit of the present invention. will be.

10: circulation pump 11: main heat exchanger
12: burner 13: three-way valve
14: hot water supply heat exchanger 15: heating water supply pipe
16: heating return pipe 17, 17a: expansion tank
18: direct inflow pipe 19: hot water supply pipe
20 gas supply pipe 21 gas valve
100,200: Filter device 110,210,210a: Filter case
111,211: inlet 112: outlet
115,215: filter insert 120,220: filter member
122,221: filter part 124,224: fastening part
125,216,226,228 O-ring 126,226a, 228a O-ring seat
212: coupling portion 214: opening
221a: mesh 221b: void
222: boundary 223: inlet
223a: inlet hole
229: sediment

Claims (8)

In the structure of coupling the expansion filter to the boiler filter device for filtering foreign substances contained in the heating water returned to the expansion tank of the boiler,
A filter case coupled to communicate with the inlet port through which the heating water flows and the expansion tank; and
And a filter member provided inside the filter case to filter foreign substances contained in the heating water introduced through the inlet.
The inner diameter of the filter member is a coupling structure of the expansion tank and the filter device, characterized in that formed larger than the inner diameter of the inlet of the filter case. The method of claim 1,
The filter member is formed with an inlet for heating water is introduced into a position corresponding to the inlet of the filter case, a filter portion of the mesh structure for filtering foreign substances contained in the heating water introduced into the inlet is formed on the upper side of the inlet, The filter unit is a coupling structure of the expansion tank and the filter device, characterized in that extending from the filter case to the inside of the expansion tank. The method of claim 2,
The heating water introduced through the inlet of the filter case is introduced into the inlet of the filter member, and a portion of the foreign matter contained in the heating water introduced into the inlet of the filter is settled to the bottom and the other foreign matter is from the filter unit. After filtering, the combined structure of the expansion tank and the filter device, characterized in that the filtered heating water is supplied to the expansion tank. The method of claim 2,
The filter case has a filter inserting portion is formed at one end, the filter member is inserted into the filter case through the filter inserting portion, the lower portion of the inlet of the filter member is formed with a fastening portion coupled to the filter inserting portion Combined structure of the expansion tank and the filter device characterized in that. The method of claim 4, wherein
The filter insertion portion of the filter case is installed to be exposed to the outside of the boiler, the coupling structure of the expansion tank and the filter device, characterized in that the filter member is made to be taken out or inserted from the outside of the boiler. An inlet through which heating water is introduced, and formed at one side thereof, and a filter case having an opening through which the heating water introduced through the inlet is discharged;
And a filter member provided inside the filter case to filter foreign substances contained in the heating water introduced through the inlet.
The inner diameter of the filter member is a filter device, characterized in that formed larger than the inner diameter of the inlet of the filter case. The method of claim 6,
The filter member is formed with an inlet for heating water is introduced into a position corresponding to the inlet of the filter case, a filter portion of the mesh structure for filtering foreign substances contained in the heating water introduced into the inlet is formed on the upper side of the inlet, The filter unit, characterized in that the filter is extended so as to protrude a predetermined length to the outside of the opening. The method according to claim 6 or 7,
The filter case has a filter inserting portion is formed at one end, the filter member is inserted into the filter case through the filter inserting portion, the lower portion of the inlet of the filter member is formed with a fastening portion coupled to the filter inserting portion Filter device characterized in that.

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