KR100922133B1 - Anticorrosive distance ring type flange for plate type heat exchanger - Google Patents

Abstract

The present invention relates to a flange in the form of a distance ring for a heat exchanger, and more particularly, is installed at an inlet or an outlet of a plate heat exchanger and is coupled to a sensor and passes through an inside of a flange of a distance ring for a plate heat exchanger. To reduce the cost of corrosion and improve the productivity by fluid, the inside is made of metal material, and the shape is hollow cylindrical ring shape, and the metal member formed with a plurality of sensor insertion holes on the side and the rubber material resistant to corrosion or It is made of synthetic resin and consists of a sealing member that wraps around the inner circumferential surface and side of the metal member and around the sensor insertion hole.Therefore, the general metal member is not exposed to the atmosphere of the corrosion state, and the lower side of the sense insertion hole is also sealed so that no corrosion occurs. Flanges in the form of distance rings for plate heat exchangers It is about.

Plate Heat Exchanger Distance Ring Fluid Corrosion

Description

Anticorrosive distance ring type flange for plate type heat exchanger for corrosion protection of plate heat exchanger

The present invention relates to a flange in the form of a distance ring for a plate heat exchanger coupled to an inlet or an outlet of a plate heat exchanger and configured to monitor a state of a fluid by placing a pressure and temperature sensor, and more particularly, a flange made of structural carbon steel or the like. The present invention relates to a flange in the form of a distance ring for a plate heat exchanger in which an inner circumferential surface and a side surface are covered with a sealing member of natural rubber, synthetic rubber, or synthetic resin.

The plate heat exchanger is a facility that cools or heats a required fluid by allowing a high temperature fluid and a low temperature fluid to contact a pipe or a plate to transfer a high temperature fluid heat to a low temperature fluid.

The plate heat exchanger senses the temperature or pressure of the two fluids introduced or discharged, adjusts the flow rate and controls the temperature of the required fluid, so that the sensor (C: temperature sensor, D: pressure) at the inlet or outlet of the heat exchanger is Sensor).

To this end, as shown in FIG. 2, the distance ring 10 is positioned between the inlet 20 or the outlet of the plate heat exchanger and the fluid pipe 30, and the inlet (outlet) and the fluid pipe are connected to the bolt 40. Coupled with a nut 50.

The conventional distance ring has a flat cylindrical ring shape as shown in FIG. 3, and a plurality of through holes 12 are formed at the side thereof, and the sensor is inserted through the through holes 12.

Wherein the distance ring configured as described above is in contact with the fluid passing through the inside is likely to cause corrosion. In particular, when in contact with sea water, such as heat exchangers used in water tanks in ships, the corrosion is caused by the salt contained in the sea water, so durability is reduced. Therefore, the conventional distance ring is made of stainless steel or brass to prevent corrosion.

If the stainless steel is manufactured as described above, the occurrence of corrosion can be suppressed to some extent, but it cannot be completely prevented, and thus the cost of manufacturing raw materials increases because the price of stainless steel and other nonferrous materials is high.

In addition, since some leakage of seawater contact surface occurs during use, sealing occurs in the sealing surface, so it is necessary to periodically tighten it, causing inconvenience in use and overlooking it.

The present invention has been invented to solve the problem that the conventional material does not completely prevent the corrosion of the flange of the distance ring type, and the manufacturing cost is excessive, it is possible to manufacture at low cost, heterogeneous material for plate heat exchanger that can completely prevent corrosion The main object is to provide a flange in the form of a distance ring of (synthetic rubber and synthetic resin material).

The present invention is a metal member made of a metal material to achieve the above object and the inside is empty, forming a cylindrical ring shape and a plurality of sensor insertion holes formed on the side; It is made of synthetic rubber, natural rubber or synthetic resin material that has elasticity and does not cause corrosion by seawater or water, and has a cylindrical shape in the center thereof to be in close contact with the inner circumferential surface of the metal member. And inserted into the sensor insertion hole, and both edges are bent to the outside so as to be in close contact with the side of the metal member, the plate heat exchanger including a sealing member to prevent the fluid passing through the inner member from contacting the metal member. A mechanical distance ring is a technical gist.

According to a preferred embodiment the protruding portion is characterized in that the end is extended to the left and right to cover the edge of the sensor insertion hole.

According to the above configuration, the flange of the distance ring type plate heat exchanger of the present invention prevents a corrosive fluid such as seawater from directly contacting a metal member made of a metal material by a sealing member made of rubber or synthetic resin. There is an effect that can prevent the flange of the form to be corroded and improve the durability.

In addition, it is possible to manufacture the distance ring flange for plate heat exchanger by using inexpensive materials such as structural carbon steel, thereby reducing the manufacturing cost.

Hereinafter, a flange in the form of a distance ring for a plate heat exchanger of the present invention will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view of a flange in the form of a distance ring for a plate heat exchanger of the present invention, and FIG. 5 is another cross-sectional view of the flange in the form of a distance ring for a heat exchanger of FIG.

As shown, the flange 100 in the form of a distance ring for a plate heat exchanger according to an embodiment of the present invention may be largely divided into a metal part 110 and a sealing member 120.

First, the metal member 110 will be described. 6 is a cross-sectional view of the metal member 110 and FIG. 7 is another cross-sectional view of the metal member 110 of FIG. The metal member 110 is made of a material such as structural carbon steel and has a cylindrical shape as shown in FIGS. 6 and 7, and a plurality of sensor insertion holes 112 penetrated from the outer circumferential surface to the inner circumferential surface are formed.

The sensor insertion hole 112 forms a stage, and the outer side of the metal member 110 is formed wide and the inner side is formed narrow. In addition, a bolt coupling hole 114 may be formed around the outer circumferential surface sensor insertion hole 112 of the metal member 110 to insert a bolt to couple the sensor.

Next, the sealing member 120 will be described. FIG. 8 is a sectional view of the sealing member and FIG. 9 is another sectional view of the sealing member of FIG. The sealing member 120 is made of natural rubber, synthetic rubber or synthetic resin that is not corroded by seawater, etc., and has a cylindrical shape as shown in FIGS. 8 and 9 to form the metal member as shown in FIG. It is in close contact with the inner circumferential surface of 110). At this time, both edges of the sealing member 120 is bent in an annular shape to the outside is configured to be in close contact with both sides of the metal member (110).

A plurality of protrusions 122 corresponding to the sensor insertion holes 112 are formed on the outer circumferential surface of the sealing member 120. The protrusion 122 is inserted into the sensor insertion hole 112 to be in close contact with the inner circumferential surface of the sensor insertion hole 112, the center is penetrated, and the edge is bent to form an annular shape as shown in FIG. It is in close contact with the end of the sensor insertion hole (112). The end bent as described above is to prevent the fluid from leaking to the outside by inserting the sensor so that the sensor (130 130 of Figure 11) by pressing the end of the protrusion 122 is sealed.

Hereinafter, with reference to the accompanying drawings will be described the operation and effect of the flange of the distance ring shape for plate heat exchanger of the present invention.

First, the carbon steel is cut and manufactured to form the metal member 110. The synthetic rubber is injected to produce the sealing member 120, and the protrusion 122 of the sealing member 120 is a sensor insertion hole of the metal member 110. After adjusting to be inserted into 112, the sealing member 120 is coupled to the inside of the metal member 110.

The flange 100 in the form of a distance ring for the plate heat exchanger manufactured as described above is inserted between the inlet 20 of the heat exchanger and the fluid pipe 30 through which the fluid is introduced, as shown in FIG. 10, and the inlet 20. And fluid piping 30 is coupled by bolts and nuts.

Then, the pressure sensor and the temperature sensor are inserted into the sensor insertion hole 112 so that the ends of the sensors 300 are positioned inside the instrument type flange 100 for the plate heat exchanger and fixed with bolts.

Here, instead of directly inserting the sensor into the sensor insertion hole 112, as shown in FIG. 11, the coupling hole 130 formed in the sensor insertion hole is first inserted and the sensor 300 is inserted into the coupling hole 130. After joining is fastened with a bolt 330 is configured in such a way that the end of the coupler is sealed by pressing the end of the sealing member.

Then, when the heat exchanger is operated, the seawater passes from the fluid pipe to the inlet side, and the pressure sensor and the temperature sensor detect the temperature and pressure of the incoming seawater and transfer the same to the control means (not shown) for controlling the heat exchanger.

In this case, since the contact between the seawater and the flange is blocked by the sealing member, the flange made of carbon steel can be prevented from being corroded by the seawater.

1: Front view of a heat exchanger with a plurality of sensors

2 is a partial cross-sectional view of a state in which a flange in the form of a distance ring for preventing corrosion of a conventional plate heat exchanger is mounted on a heat exchanger.

3 is a cross-sectional view of a flange in the form of a distance ring for preventing corrosion of a conventional plate heat exchanger.

4 is a cross-sectional view of a flange in the form of a distance ring for preventing corrosion of the plate heat exchanger of the present invention.

Figure 5 is another cross-sectional view of the flange in the form of a distance ring for corrosion protection of the plate heat exchanger of Figure 4

6 is a cross-sectional view of a metal member in the flange of the corrosion prevention distance ring of the plate heat exchanger of the present invention

7 is another cross-sectional view of the metal member of FIG.

8 is a cross-sectional view of the sealing member in the flange of the corrosion prevention distance ring of the plate heat exchanger of the present invention

9 is another cross-sectional view of the sealing member of FIG.

10 is a cross-sectional view of the heat exchanger is equipped with a flange in the form of a distance ring for preventing corrosion of the plate heat exchanger of the present invention.

11 is an assembly diagram showing a state in which the sensor is mounted on the flange of the corrosion prevention distance ring of the plate heat exchanger of the present invention.

<Description of Symbols Used in Main Parts of Drawing>

100: flange in the form of distance ring for plate heat exchanger

110: metal member

112: sensor insertion hole

114: bolt coupling hole

120: sealing member

122: protrusion

130: coupling sphere

Claims (2)

A metal member made of metal, having an empty inside, forming a cylindrical shape, and having a plurality of sensor insertion holes formed at a side thereof; It is made of synthetic rubber, natural rubber or synthetic resin material that is elastic and does not cause corrosion by seawater or water, and has a cylindrical shape to be in close contact with the inner circumferential surface of the metal member and to have a protrusion corresponding to the sensor insertion hole on the outside thereof. The sealing member is inserted into the sensor insertion hole, both edges are bent to the outside to be in close contact with the side of the metal member so that the fluid passing through the inside does not touch the metal member; plate heat exchanger comprising a Flange in the form of a distance ring to prevent corrosion of the machine. The method of claim 1, The protruding portion is bent in an annular shape bent to cover the edge of the sensor insertion hole, the flange of the corrosion prevention distance of the plate heat exchanger.

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