KR100962279B1 - Thermal expansion free ceramic connectors - Google Patents

Abstract

PURPOSE: A thermal expansion absorption type ceramic connector is provided to prevent a ceramic pipe from being separated from a system by absorbing the thermal expansion of the ceramic pipe. CONSTITUTION: A thermal expansion absorption type ceramic pipe connector comprises a body(100) and a sealing member(200). A hollow part is formed inside the body. An insertion groove(211) is formed on both sides of the body. The sealing member is inserted into the insertion groove to prevent fluid leakage in a ceramic pipe(10). The sealing member includes packing and a compression plate. The packing surrounds the outer side of the ceramic pipe. The compression plate compresses the packing inserted into the insertion groove.

Description

Thermal expansion free ceramic connectors

The present invention relates to a thermal expansion absorption type ceramic pipe connection part, and more particularly, to connect constituent ceramic pipes constituting the plant applied to a strong acid plant or a strong acid reactor, and having excellent corrosion resistance against strong acids even under high temperature and high pressure environments. The present invention relates to a thermal expansion absorption type ceramic pipe connecting part which is configured to have a structure and absorbs thermal expansion of a constituent ceramic pipe generated by a temperature difference to prevent system deviation and / or blocking of a flow path of the constituent ceramic pipe.

Generally, strong acid is an acid that generates a large amount of hydrogen ions due to dissociation of 1 in an aqueous solution combined with water, and examples thereof include hydrochloric acid, nitric acid, and strong acid.

Such strong acids are very corrosive and are usually liquefied into a strong acid solution in combination with water, and are widely used in various fields such as metal thin film, copper sulfate production, or nuclear hydrogen production.

As such, a strong acid plant or a strong acid reactor using a strong acid is usually composed of a plurality of ceramic pipe-shaped components such as a heater for heating a strong acid or a cooler for cooling a high temperature strong acid. It is connected through connecting parts to form a flow path for the strong acid to move along the system.

As described above, the ceramic pipe connecting part connecting each of the constituent ceramic pipes is usually made of a material having excellent corrosion resistance against the strong acid so as not to be corroded by the strong acid moving along the system, and various shapes such as a circular column shape or an elbow shape. Formed to connect the devices.

As described above, in the ceramic pipe connecting part applied to the strong acid experiment loop to connect the constituent ceramic pipes of the system, the conventional ceramic pipe connecting part includes a metal bellows provided between the devices with a corrugated pipe.

The metal bellows is formed of a corrugated pipe coated or lined with a material such as Teflon or glass to be connected between the respective ceramic pipes, and the corrugated pipe is expanded when the respective ceramic pipes are expanded by high temperature. As a result, the components can be relaxed or shrunk to absorb the thermal expansion of the constituent ceramic pipes so that the constituent ceramic pipes do not leave the system.

However, the conventional ceramic pipe connecting part is made of a material such as Teflon or glass, where Teflon or glass has heat resistance / corrosion resistance up to 230 ° C. and 330 ° C. for strong acids, respectively. When the strong acid is heated to a high temperature above the boiling temperature (330 ° C. in the case of sulfuric acid), the ceramic pipe connecting parts are damaged and cannot withstand the corrosion of the strong acid at high temperature and high pressure.

As a result, the respective ceramic pipes of the system connected through the ceramic pipe connection parts as described above are separated from each other, and thus, a strong acid gas moving along the system is released to the outside of the system.

In addition, the conventional ceramic pipe connecting parts are formed to form a corrugated pipe that relaxes and contracts according to temperature conditions to absorb the thermal expansion of the constituent ceramic pipe due to high temperature to maintain the connection of each constituent ceramic pipe, but the constituent ceramic pipes for a long time When accommodating the strong acid of the thermal expansion length of the constituent ceramic pipe exceeds the thermal expansion receiving range of the corrugated pipe, the corrugated pipe can no longer absorb the thermal expansion.

Thus, the component ceramic pipes are cracked inside due to the high temperature, thereby damaging the entire system composed of the component ceramic pipes.

As a result, the conventional ceramic pipe connecting parts cannot sufficiently withstand corrosion against strong acid at high temperature and high pressure, and also do not continuously absorb thermal expansion of the constituent ceramic pipe due to high temperature, thereby treating strong acid at high temperature and high pressure. There is a problem that its use is not suitable for a strong acid plant or a strong acid reactor.

The present invention is to solve the above problems according to the prior art. That is, an object of the present invention, in the ceramic pipe connecting parts for connecting the constituent ceramic pipes constituting the strong acid plant or the strong acid reactor, the ceramic pipe connecting parts made of a material having excellent corrosion resistance against strong acid at high temperature and high pressure, It is to make strong acid move along the system even under high pressure condition.

In addition, the ceramic pipe connecting part is configured to absorb thermal expansion of the constituent ceramic pipe generated due to the temperature difference, thereby preventing the breakage of the system and blocking the flow path of the constituent ceramic pipe.

The present invention as a technical concept for achieving the above object, in the ceramic pipe connection component for connecting the constituent ceramic pipes constituting the system applied to a strong acid plant or a strong acid reactor, the hollow portion for forming a flow path therein is formed, Both ends of the body comprises a body formed with insertion grooves are connected to the ceramic pipe is connected to the insertion groove, and the sealing member is inserted into the insertion groove to prevent the leakage of fluid flowing through the ceramic pipe, the sealing member is a ring A plurality of packings inserted into the insertion grooves in a shape and surrounding the outer periphery of the constituent ceramic pipe, and a compression plate for compressing and sealing the packings inserted into the insertion grooves by being formed in a plate shape protruding from the center. .

According to the present invention, the thermal expansion absorption type connecting part is made of a material having excellent corrosion resistance against strong acids of high temperature and high pressure, thereby connecting the ceramic pipes to each component, thereby enabling the strong acid of high temperature and high pressure to move along the system.

In addition, when the constituent ceramic pipe constituting the system is thermally expanded due to temperature change, it is configured to accommodate thermal expansion of the constituent ceramic pipe and limit it to a certain range, thereby preventing the deviating of the constituent ceramic pipe and / or blocking the flow path. There is.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a thermal expansion absorption type ceramic pipe connection component according to a first embodiment of the present invention.

As shown in FIG. 1, the thermal expansion absorption type ceramic pipe connection component according to the first exemplary embodiment of the present invention includes a hollow body 100 having a flow path formed therein, and configured at both ends of the body 100. Insertion grooves 211 are formed to connect the ceramic pipes 10 to each other. The sealing grooves 200 for preventing leakage of fluid flowing along the constituent ceramic pipes 10 are formed in the insertion grooves 211. It is provided.

As shown, the constituent ceramic pipe 10 is inserted into and connected to the ceramic pipe connecting parts, respectively, through the insertion grooves 211 provided at both ends of the body 100 of the ceramic pipe connecting part, wherein the insertion grooves 211 The inner diameter of) is to be slightly larger than the outer diameter of the constituent ceramic pipe 10 to be connected.

Through such a configuration, the strong acid solution flowing from the constituent ceramic pipe 10 connected to one side of the body 100 of the ceramic pipe connection part is connected to the lower side of the body 100 through the hollow part inside the body 100. In this case, the body 100 is preferably composed of hexalloy (Hexalloy: SiC) having excellent corrosion resistance so as not to corrode against strong acids of high temperature and high pressure passing through the inside.

The insertion grooves 211 formed at both sides of the body 100 are provided with sealing members 200, respectively, and the sealing member 200 includes a packing 210 and a packing 210 for preventing leakage of fluid. It is configured to include a compression plate 220 pressed against 211.

The packing 210 constituting the sealing member 200 is inserted into a gap formed between the insertion groove 211 and the circumference of the constituent ceramic pipe 10 inserted into the body 100, thereby sealing the space, thereby flowing the ceramic pipe. It serves to prevent the leakage of the fluid, it is configured by being compressed by the compression plate 220 formed in a plate-shaped protruding center.

The compression plate 220 is coupled to the body 100 through a fixing bolt 230 serves to compress the packing 210.

Packing 210 requires sufficient heat resistance and corrosion resistance to high temperature, high pressure strong acid, graphite sealant (Graphite sealant) was used in this embodiment.

In addition, it is preferable to use a plurality of O-ring-shaped packing 210 overlapping for stable sealing at high temperature and high pressure. In the present embodiment, five graphite sealant rings are used.

Compression plate 220 is a plate-shaped protruding center, a through-hole (not shown) is formed in the center portion so that the constituent ceramic pipe 10 penetrates, and the fixing hole (not shown) to insert the fixing bolt 230 in the outer portion O) is formed.

The compression plate 220 is inserted into the gap of the through-hole while the packing 210 filled in the gap is in close contact with the protrusion to sufficiently fill the gap to prevent leakage of strong acid flowing through the ceramic pipe.

The fixing bolt 230 is coupled to the body 100 by penetrating the fixing hole of the compression plate 220, thereby allowing the compression plate 220 to be fixed to the body 100, and at the same time, the protrusion of the compression plate 220 is fixed. It allows the packing 210 to be in close contact with the insertion groove 211.

Through such a configuration, the thermal expansion absorption type ceramic pipe connection component according to the present invention has excellent heat resistance / corrosion resistance to strong acid at high temperature and high pressure, and at the same time effectively prevents leakage of strong acid flowing through the ceramic pipe. 10) The end of the structure is fixed in the form of a free end, thereby effectively absorbing the expansion or contraction of the constituent ceramic piping 10 due to the temperature difference, thereby constituting the system even in a high temperature and high pressure environment. By preventing the connection of the pipes 10 to be separated, it is possible to stably perform a reaction using a strong acid.

2 is a view illustrating a thermal expansion absorption type ceramic pipe connection part according to a second embodiment of the present invention.

As shown in FIG. 2, the thermal expansion absorption type ceramic pipe connection part according to the second embodiment of the present invention has the same basic configuration as the thermal expansion absorption type ceramic pipe connection part according to the first embodiment. There is a difference in that the departure prevention jaw 400 is formed in the inner hollow portion of 300.

In addition, in the second embodiment, the constituent ceramic pipes inserted into both ends of the body 300 are formed of the first constituent ceramic pipe 20 and the second constituent ceramic pipe 30 having different diameters. The open ends of both ends of the c) are also different in size depending on the first and second constituent ceramic pipes 20 and 30.

Departure preventing jaw 400 formed in the inner hollow portion of the body 300 is a component ceramic pipe (20, 30) generated by a temperature change when a strong acid plant or a strong acid reactor is repeatedly used in a high temperature, high pressure environment for a long time In the expansion and contraction process, the constituent ceramic pipes 20 and 30 are oriented in one direction and serve to prevent the connection of the ceramic pipes from being separated.

In other words, the first and second component ceramic pipes 20 and 30 are remarkably expanded by prolonged high temperatures, or the first and second component ceramic pipes 20 and 30 are repeatedly expanded and retracted by frequent temperature differences. When contracted, the first and second component ceramic pipes 20 and 30 expand only to one side due to a difference in frictional strength between the first and second component ceramic pipes 20 and 30 and the respective packing 210. In the case of being contracted or contracted, the component ceramic piping 20, 30 is prevented from being separated from the system by limiting the distance that the component ceramic piping 20, 30 can be moved by expansion or contraction to a certain distance or less. Play a role.

When the separation prevention jaw 400 uses the constituent ceramic pipes 20 and 30 of various sizes having different diameters, the constituent ceramic pipes 20 and 30 constituting the experimental loop, The importance is particularly emphasized to prevent the separation, even if the diameter of the two constituent ceramic pipes 20 and 30 to be connected even if the diameter is the same, there is an advantage that can provide a more stable connection structure of the entire ceramic pipe.

3 is a view showing a thermal expansion absorption type ceramic pipe connection component according to a third embodiment of the present invention.

As shown in FIG. 3, the thermal expansion absorption ceramic pipe connecting part according to the third embodiment of the present invention has the same basic configuration as the thermal expansion absorption ceramic pipe according to the second embodiment described above, except that the body 500 is provided. ) Is configured in the shape of an elbow (elbow), and thus the departure prevention jaw 600 is also different in that it is formed in the elbow shape.

In particular, when the body 500 has an elbow shape as in the third embodiment, when the constituent ceramic pipe 10 inserted into both ends of the body 500 is expanded and moved in one direction by a long time operation, the constituent ceramic pipe End of the (10) is in contact with the curved surface of the body 500, this may cause a case that the flow path of the strong acid discharged from the constituent ceramic pipe 10 is blocked.

In order to solve this problem, in the third embodiment, an elbow-shaped departure prevention jaw 600 is formed on the inner curved surface of the body 500 to limit expansion of the constituent ceramic pipe 10 into the body 500 due to the temperature difference. This ensures that strong acid channels are not blocked.

As described above, the thermal expansion absorption type connecting component according to the present invention is composed of a material having excellent corrosion resistance against strong acid at high temperature and high pressure, thereby constituting ceramics constituting the system even when receiving high temperature and high pressure strong acid in a strong acid plant or a strong acid reactor. By keeping the connections of the pipes 10, 20 and 30 stable, the strong acid can move along the system.

In addition, even when the constituent ceramic pipes 10, 20, 30 constituting the system expand or contract due to temperature change, the constituent ceramic pipes 10, 20, 30) to prevent damage.

In addition, even when the constituent ceramic pipes 10, 20, 30 move in one direction through the repeated expansion and contraction, the separation of the ceramic pipes caused by the movement of the ceramic pipes may occur. It prevents the flow of strong acid flowing through the ceramic pipe.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be clear to those who have knowledge of God.

1 is a view showing a thermal expansion absorption type ceramic pipe connection component according to a first embodiment of the present invention.

Figure 2 is a view showing a thermal expansion absorption type ceramic pipe connection component according to a second embodiment of the present invention.

3 is a view showing a thermal expansion absorption type ceramic pipe connection component according to a third embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: component ceramic piping 20: first component ceramic piping

30: second configuration ceramic piping 100, 300, 500: the body

200: sealing member 210: packing

211: insertion groove 220: compression plate

230: fixing bolt 400, 600: release prevention jaw

Claims (6)

 In the ceramic pipe connecting parts for connecting the constituent ceramic pipes that make up the system applied to the strong acid plant or strong acid reactor, A hollow portion for forming a flow path therein, and a body having insertion grooves formed at both ends thereof to connect and connect the ceramic pipes; Is inserted into the insertion groove is configured to include a sealing member for preventing the leakage of fluid flowing through the constituent ceramic pipe, The sealing member, A plurality of packings inserted into the insertion grooves in a ring shape and surrounding the outer circumference of the constituent ceramic pipe; A compression plate formed in a plate shape protruding from the center thereof to seal and seal the packing inserted into the insertion groove; Thermal expansion absorption type ceramic pipe connection component, characterized in that comprising a. The method of claim 1, In the inner hollow portion of the body, A thermal expansion absorption type ceramic pipe connection component, characterized in that the separation prevention jaw is formed at a point spaced a predetermined distance from both ends of the body. The method of claim 1, The diameter of the insertion groove formed on both ends of the body, Thermal expansion absorption type ceramic pipe connection component, characterized in that formed in the same or different sizes. The method of claim 1, The body, Thermal expansion absorption type ceramic pipe connection component, characterized in that consisting of straight or elbow (Elbow). The method according to any one of claims 1 to 4, The body is heat expansion absorption type ceramic pipe connection component, characterized in that consisting of Hexalloy (Hexalloy: SiC). The method according to any one of claims 1 to 4, The packing is a thermal expansion absorption ceramic pipe connection component, characterized in that consisting of graphite sealant (Graphite sealant).

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