KR101919545B1 - Pit apparatus - Google Patents

Abstract

A pit apparatus according to an embodiment of the present invention includes: a gas piping member for providing a flow path of a hot gas; A condensed water pipe member branched from the gas pipe member and providing a flow path of condensed water generated from the hot gas; A pit body having an inlet space for receiving the condensed water therein, the tip end of the condensed water pipe member being disposed on the inlet space; And a lower sealing unit disposed to be floating on the condensed water in the inflow space and moving upward according to an increase in the number of the condensed water to seal the front end of the condensed water pipe member.

Description

Pit apparatus

To a pit apparatus capable of effectively preventing the outflow of a hot gas when an abnormal pressure of a hot gas is generated.

In general, high-temperature gas such as by-product gas is used as a heat source for generating facilities. The moisture contained in the high temperature gas such as by-product gas is discharged through the inside of the pit apparatus in the form of condensed water, and the dry gas from which moisture is removed is used as a heat source for the power generation facilities.

Korean Patent Publication No. 10-2003-0097541 (published on December 31, 2003)

SUMMARY OF THE INVENTION An object of the present invention is to provide a pit apparatus capable of effectively preventing the outflow of a hot gas when an abnormal pressure of a hot gas is generated.

Other objects of the present invention will become more apparent from the following detailed description and drawings.

A pit apparatus according to an embodiment of the present invention includes: a gas piping member for providing a flow path of a hot gas; A condensed water pipe member branched from the gas pipe member and providing a flow path of condensed water generated from the hot gas; A pit body having an inlet space for receiving the condensed water therein, the tip end of the condensed water pipe member being disposed on the inlet space; And a lower sealing unit disposed to be floating on the condensed water in the inflow space and moving upward according to an increase in the number of the condensed water to seal the front end of the condensed water pipe member.

The pit arrangement further includes an upper sealing unit disposed at a distal end of the condensate piping member and having an upper sealing space open at the bottom and in communication with the condensate conduit member, And may be disposed at a lower portion of the upper sealing unit.

The lower sealing unit may be switched between a standby position spaced apart from the upper sealing unit and a closed position sealing the open lower portion of the upper sealing space depending on the amount of condensed water in the inflow space.

The upper sealing unit includes an upper sealing frame fixedly disposed at a front end of the condensate pipe and having an upper sealing space opened at a lower portion thereof; And an upper packing member disposed to surround the lower end of the upper sealing frame.

Wherein the lower sealing unit comprises: an insertion member provided in a shape corresponding to the shape of the upper sealing space; A lower packing member disposed to surround the lower end of the insertion member and corresponding to the upper packing member; And a floating assisting member disposed at a lower portion of the insertion member and capable of floating on the condensed water, wherein when the lower sealing unit is switched to the closed position, the upper packing member and the lower packing member are in close contact with each other Thereby sealing the upper sealing space.

The upper end of the insertion member may be formed so that the center side thereof protrudes toward the upper side as compared with the outer side.

The lower sealing unit may further include a buffer member disposed between the insertion member and the floating assisting member to provide a buffering force.

Wherein the cushioning member is a flexible hose member having a hollow cushioning space therein and standing upright between the insertion member and the floating assisting member, and one end and the other end of the cushioning space are connected by the insertion member and the floating assisting member It can be sealed.

The lower sealing unit may include a lifting auxiliary member that assists the upward movement of the lower sealing unit toward the upper sealing space.

Wherein the pit apparatus comprises: a quantity sensor unit capable of measuring a quantity of the condensed water accommodated in the inflow space and transmitting a quantity signal; A supply pipe member extending from the make-up water storage tank storing the make-up water to the pit body to supply the makeup water to the inflow space; A supply valve member disposed on the supply piping member and capable of adjusting the supply amount of the makeup water; And a control unit capable of controlling the opening degree of the supply valve member according to the quantity signal.

The pit apparatus further includes a pressure sensor unit capable of measuring a pressure inside the gas pipe to transmit a pressure signal, and the control unit can control the opening degree of the supply valve member according to the pressure signal.

The pit apparatus according to the embodiment of the present invention can seal the leading end of the condensed water pipe member according to the change in the quantity of the condensed water when an abnormal pressure is generated and effectively prevent the outflow of the hot gas and the condensed water.

1 is a view schematically showing an example of a pit apparatus.
2 is a view schematically showing a pit apparatus according to an embodiment of the present invention.
3 schematically shows an example of the upper sealing unit and the lower sealing unit.
4 is a schematic view showing an example of the upper sealing unit and the lower sealing unit.
5 is a schematic view showing a cross section of the upper sealing unit and the lower sealing unit.
6 is a schematic view showing the upward movement of the lower sealing unit.
7 is a view schematically showing lifting and lowering assistance members for assisting lifting and lowering of the lower sealing unit.

The present invention relates to a pit apparatus, and embodiments of the present invention will be described below with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the figures may be exaggerated to emphasize a clearer description. In addition, the connection referred to below should be construed to include not only the case where two components are directly connected but also the case where they are indirectly connected through another medium.

1 is a view schematically showing an example of a pit apparatus.

(Hereinafter referred to as "hot gas") is essentially generated in a combustion facility or a heating apparatus in a factory, and the hot gas can be reused as a heat source for energy reuse and prevention of environmental pollution. In a steel mill producing steel products, hot gas may be generated during the reduction process of steel stones, and these hot gases can be used as heat sources for power generation facilities and the like. Hereinafter, the present invention will be described based on the high temperature gas generated during the reduction process of the iron ore. However, the scope of the present invention is not necessarily limited thereto, and should be interpreted to include high temperature gas that can be generated in all industrial facilities.

As shown in Fig. 1, the pit apparatus 1 includes a gas piping 10 that provides a path of movement of high-temperature hot gas. A gas booster 14 is disposed on the gas piping 10 to regulate the pressure of the hot gas moving through the gas piping 10 and the gas valve 12 disposed on the gas piping 10 is connected to the gas piping 10 The flow rate of the hot gas moving through the first and second flow passages 10, 10 can be adjusted. The hot gas may include moisture such as water vapor. As the hot gas is cooled in the gas pipe 10, water vapor contained in the hot gas may be condensed in the form of condensed water (W). The condensate (W) may be pure water (H ₂ O), but it may include foreign matter or by-products contained in the hot gas.

The condensate piping 20 is branched from the gas piping 10 and extends at the front end of the condensate piping 20 in the inflow space 32 inside the pit body 30. The condensed water W formed in the gas piping 10 can be moved through the condensed water pipe 20 and received in the inflow space 32. 1 shows two condensed water pipes 20 branched from the gas piping 10 on the front and rear sides of the gas valve 12 on the basis of the gas valve 12, , The branch position of the condensate pipe 20 and the number of pipes can be variously applied depending on the environment of the facility. The discharge pipe 42 extends from one side of the pit body 30 and is connected to the discharge tank 40 so that the condensed water W accommodated in the inflow space 32 flows through the discharge pipe 42 to the discharge tank 40 Can be discharged.

The pressure of the hot gas flowing in the gas piping 10 may suddenly increase according to circumstances in the facility environment. When the gas pressure in the gas piping 10 is rapidly increased, the discharge amount of the condensed water W rapidly increases. The amount of the condensed water W flowing into the pit body 30 increases sharply and the condensed water W flowing into the pit body 30 more than an acceptable amount flows into the pit body 30, The condensed water W may be discharged to the outside or may be blown out. In addition, when the gas pressure in the gas piping 10 is rapidly increased, not only the condensed water W but also the hot gas can be introduced into the pit body 30 through the condensed water discharge pipe 20, There is a possibility that gas may leak out of the facility. Accordingly, an object of the present invention is to provide an apparatus capable of effectively preventing the outflow of the hot gas and the condensed water W when sudden pressure change of the hot gas occurs.

2 is a view schematically showing a pit apparatus according to an embodiment of the present invention.

2, the pit apparatus 5 according to one embodiment of the present invention includes a gas piping member 100 for providing a path for moving hot gas, a pit member 300 branched from the gas piping member 100, And a discharge pipe member 420 disposed to extend from the one side of the pit body 300 toward the discharge tank 400. The discharge pipe member 420 includes a discharge pipe member 420 and a discharge pipe member 420 extending from the discharge pipe 400 to the discharge pipe 400. [ These are the configurations corresponding to the pit apparatus 1 described above, and a detailed description thereof is superseded by the foregoing description. A gas booster 140 capable of regulating the pressure of the hot gas may be disposed on the gas piping member 100 and the gas valve member 120 may be disposed on the gas piping member 100 so as to regulate the flow rate of the hot gas flowing through the gas piping member 100, And can be disposed on the piping member 100. 2 shows the condensed water pipe members 200a and 200b branched from the front and the rear of the gas pipe member 100. The branched positions and the number of the condensed water pipe members 200a and 200b may vary depending on the environment .

The pit apparatus 5 according to one embodiment of the present invention has a lower sealing unit 500 arranged to float on the condensate W in the inflow space 320. The lower sealing unit 500 is arranged to float on the condensate W so that the lower sealing unit 500 can move upward and downward according to the change in the number of condensed water W in the inflow space 320. That is, the lower sealing unit 500 moves upward according to the increase in the number of condensed water W in the inflow space 320, and the upwardly moved lower sealing unit 500 seals the front end of the condensed water pipes 200a and 200b The introduction of the condensed water W and the hot gas into the inflow space 320 can be effectively prevented.

Specifically, the upper sealing unit 600 is fixedly disposed on the front end of the condensate pipes 200a and 200b disposed in the inflow space 320, and the lower sealing unit 500 is mounted on the lower portion of the upper sealing unit 600 It can be arranged to be movable. The lower sealing unit 500 moves upward as the flow rate of the condensed water W in the inflow space 320 increases and the lower sealing unit 500 is brought into close contact with the upper sealing unit 600, 200b can be sealed. The detailed configuration and operation of the upper sealing unit 500 and the upper sealing unit 600 will be described in detail below.

3 and 4 are schematic views of an upper sealing unit and a lower sealing unit, FIG. 5 is a schematic view of a cross section of an upper sealing unit and a lower sealing unit, and FIG. 6 is a schematic Fig.

3 to 6, the upper sealing unit 600 includes an upper sealing frame 610 fixedly disposed at the front end of the condensed water pipe members 200a and 200b. An upper sealing space 612 having an open bottom is formed in the upper sealing frame 610 and an upper sealing space 612 can communicate with the condensate water pipes 200a and 200b. The condensed water W moved along the condensed water pipe members 200a and 200b may be introduced into the inflow space 320 through the upper sealing space 612. [ The upper sealing frame 610 may further include an upper packing member 620 arranged to surround the lower end of the upper sealing frame 610. The upper packing member 620 may be made of an elastic material such as rubber or silicone, but the material of the upper packing member 620 is not limited thereto.

The lower sealing unit 500 includes an insertion member 510 having a shape corresponding to the upper sealing space 612 with the lower part thereof opened. The open lower portion of the upper sealing space 612 can be closed by inserting the insertion member 510 having the shape corresponding to the shape of the upper sealing space 612 into the upper sealing space 612. [ The insertion member 510 may be formed to protrude upward toward the center as compared with the outer side, and when the lower sealing unit 500 is moved up, the insertion member 510 is positioned at a predetermined position inside the upper sealing space 612 Can assist in insertion. 3, the insertion member 510 may be formed in a conical shape as shown in FIG. 3 and may be provided in a hemispherical shape as shown in FIG. 4. However, the shape of the insertion member 510 is not limited to the shapes shown in FIGS. 3 and 4 Is not limited to the shape shown in Fig.

The lower sealing unit 500 may further include a floating auxiliary member 540 to which the insertion member 510 is fixedly disposed at an upper portion and the insertion member 510 is coupled with the floating auxiliary member 540 on the condensate W It can float. The stiffening assistant member 540 may have a wider cross section than the insertion member 510 for stable stowing of the insertion member 510. [ As shown in FIG. 5, the floating auxiliary member 540 may be provided with a floating space 542 having an open bottom. That is, since the condensed water W seals the opened lower portion of the floating space 542, the air inside the floating space 542 is blocked from the outside to perform the same function as the air bladder, It is possible to effectively prevent sinking into the inside of the condensate water W.

The lower sealing unit 500 may further include a buffer member 530 disposed between the insertion member 510 and the view oil auxiliary member 540. The buffering member 530 can prevent the lower sealing unit 500 from pressing the upper sealing unit 600 with excessive pressure when the upper sealing unit 600 and the lower sealing unit 500 are in close contact with each other. That is, when the amount of the condensed water W in the inflow space 320 increases sharply, when the lower sealing unit 500 moves up sharply, the upper sealing unit 600 and the lower sealing unit 500 are damaged by the collision Can be effectively prevented.

3 to 6, the cushioning member 530 may be a hollow flexible hose member having a cushioning space 532 formed therein, but the cushioning member 530 is not limited to the flexible hose member And may include any means capable of providing a buffering force. The buffering space 532 may be provided as a space enclosed by the insertion member 510 and the floating assisting member 540. The auxiliary space 512 and the cushioning space 532 may be formed in the inserting member 510 so that the auxiliary space 512 and the cushioning space 532 can form a closed space by the floating auxiliary member 520 have. When the upper sealing unit 600 is moved at a constant pressure when the lower sealing unit 500 is lifted up and the buffering space 532 itself or the buffer space 532 and the auxiliary space 512 are sealed from the outside, Can be assisted.

The lower sealing unit 500 may further include a lower packing member 520 disposed at a lower end of the insertion member 510. The lower packing member 520 may be disposed to surround the lower end of the insertion member 510 and may have a shape corresponding to that of the upper packing member 620. The upper packing member 520 may be made of an elastic material, have. The lower packing member 520 and the upper packing member 620 come in close contact with each other to block the upper sealing space 612 from the outside when the lower sealing unit 500 moves up and is brought into close contact with the upper sealing unit 600. [ W and hot gas into the inflow space 320 through the upper sealing space 612. In addition,

6A is a view schematically showing a case where the lower sealing unit 500 is positioned at a standby position A spaced apart from the upper sealing unit 600 and FIG. 500 are lifted up and are positioned at a close contact position B where they are in close contact with the upper sealing unit 600.

6 (a), in a normal operating state in which the gas pressure inside the gas piping member 100 is kept constant, the lower sealing unit 500 is separated from the upper sealing unit 500 to the lower side As shown in Fig. The flow rate of the condensed water W flowing into the inflow space 320 rapidly increases and the flow rate of the condensed water W increases as the flow rate of the condensed water W increases. (500) is moved upward toward the upper sealing unit (600). 6 (b), the lower sealing unit 500 is finally moved to the closed position B in close contact with the upper sealing unit 600, and the lower sealing unit 500 500 is disposed inside the upper sealing space 612 of the upper sealing unit 600 and the lower packing member 520 of the lower sealing unit 500 and the upper part of the upper sealing unit 600 The open bottom of the upper sealing space 612 is tightly sealed by the packing member 620 being in close contact with each other. As the lower sealing unit 500 is switched to the closed position B, the leading ends of the condensate pipes 200a and 200b are tightly closed and the hot gas and the hot gas are introduced into the inflow space 320 through the condensate pipes 200a and 200b. It is possible to effectively prevent the inflow of the condensed water W and effectively prevent the hot gas and the condensed water W from flowing out of the facility.

2, the pit apparatus 5 according to an embodiment of the present invention includes a replenishment water storage tank 700 and a replenishment water storage tank 700, And a supply pipe member 710 capable of supplying water. The quantity sensor unit 800 may be disposed in the pit body 300 to measure the quantity of condensed water W in the inflow space 320 and to transmit the quantity signal and the control unit 900 may supply The supply amount of the make-up water can be adjusted by controlling the opening degree of the supply pipe valve 720 disposed on the pipe member 720.

It is required that the quantity of the condensed water W received in the inflow space 320 is a certain amount or more in order to immediately close the front end of the condensed water pipes 200a and 200b by moving up the lower sealing unit 500. That is, the condensed water W having a predetermined level or higher must be received in the inflow space 320, so that the tip of the condensed water pipes 200a and 200b can be sealed immediately when sudden pressure changes occur in the gas piping member 100. Therefore, in order to effectively prevent the outflow of the condensed water W and the hot gas, it is required that the level of the condensed water W accommodated in the inflow space 320 is equal to or more than a certain level, The amount of the fluid accommodated in the inflow space 320 can be maintained at a predetermined amount or more by controlling the supply pipe valve 720 to be opened when the quantity of the condensed water W accommodated in the inflow space 320 is determined to be equal to or less than a predetermined amount.

In addition, the pit apparatus 5 according to an embodiment of the present invention may further include pressure sensor units 130a and 130b capable of measuring a gas pressure inside the gas piping member 100 to transmit a pressure signal, The unit 900 can control the opening of the supply pipe valve 720 in accordance with the pressure signal. The control unit 900 opens the supply pipe valve 720 to open the lower sealing unit 500 (see FIG. 5) Can be prevented from being excessively introduced into the pit body 300 by controlling the end portions of the condensed water pipes 200a and 200b to be closed.

The pit apparatus 5 according to one embodiment of the present invention further includes a discharge piping member 420 extending from the pit body 300 and capable of discharging the condensed water W accommodated in the inflow space 320 to the discharge tank 400 . The height h ₁ of the discharge port 422 communicating the discharge pipe member 420 and the inflow space 320 can be formed at a position higher than the height h ₂ of the open lower portion of the upper sealing space 612 , Thereby effectively sealing the ends of the condensate pipes 200a and 200b. Although not shown in the drawing, the pit body 300 may further include condensed water W accommodated in the inflow space 320 and separate pipes capable of discharging the inflow to the outside, so that the inside of the inflow space 320 The amount of condensate (W) can be adjusted.

7 is a view schematically showing lifting and lowering assistance members for assisting lifting and lowering of the lower sealing unit.

7 (a) and 7 (b), the pit apparatus 5 according to an embodiment of the present invention assists the upward movement of the lower sealing unit 500 toward the upper sealing unit 600 And a lifting assist member for lifting and lowering the lifting assist member.

As shown in FIG. 7A, a sliding bar 548 may be disposed on one side of the lower sealing unit 500, which is disposed in parallel with the up and down direction of the lower sealing unit 500. The suspension assisting member 520 may be provided at one end thereof with a guide portion 544 having a sliding hole 546 formed therethrough and the sliding bar 548 may be disposed to pass through the sliding hole 546. [ The sliding bar 548 guides the up and down movement of the lower sealing unit 500 and effectively prevents the upward movement of the lower sealing unit 500 from deviating from the close position B in which the lower sealing unit 500 is in close contact with the upper sealing unit 600 . In addition, a limiter ring 548 'may be disposed at the upper end of the sliding bar 548, and the upward movement distance of the lower sealing unit 500 may be limited by the limiter ring 548'.

7 (b), a fixing portion 545 may be formed on one side of the floating assisting member 540, and a guide roller 547 may be rotatably mounted on the tip of the fixing portion 545 . The guide roller 547 may be disposed so that the outer circumferential surface of the guide roller 547 closely contacts the inner wall or the guide rail of the pit body 300 so that the lower sealing unit 500 rotates on the inner side of the pit body 300 Or can move up and down along the guide rails. The guide rollers 547 may be provided in plurality and may be spaced apart from each other at predetermined intervals along the circumferential direction of the lower sealing unit 500. The lower sealing unit 500 is prevented from being tilted to one side within the pit body 300 by the guide roller 527 when the lower sealing unit 500 is lifted up, Can be effectively prevented from being detached from the close position (B) corresponding to the unit (600).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, Therefore, the technical idea and scope of the claims set forth below are not limited to the embodiments.

5: Pit device 100: Gas piping member 120: Gas valve member
130a, b: pressure sensor unit 140: gas booster 200a, b: condensed water pipe member
300: pit body 320: inflow space 400: discharge tank
420: exhaust pipe member 422: exhaust port 500: lower sealing unit
510: insertion member 520: lower packing member 530: buffer member
540: Floating assistant member 600: Upper sealing unit 610: Upper sealing frame
612: Upper sealing space 620: Upper packing member 700: Replenishment water storage tank
710: Supply piping member 720: Supply valve member 800: Quantity sensor unit
900: control unit

Claims (11)

A gas piping member provided with a pressure sensor unit for providing a flow path of hot gas and measuring a pressure inside and transmitting a pressure signal;
A condensed water pipe member branched from the gas pipe member and providing a flow path of condensed water generated from the hot gas;
A pit body having an inlet space for receiving the condensed water therein, the tip end of the condensed water pipe member being disposed on the inlet space;
An upper sealing unit coupled to a front end portion of the condensed water pipe member, and an upper sealing unit disposed in the pit body so as to float on the condensed water in the inflow space, And a lower sealing unit adapted to be hermetically sealed. The method according to claim 1,
The upper sealing unit is formed with an upper sealing space which is opened at the lower portion and communicated with the condensate water pipe member,
Wherein the lower sealing unit is provided in a shape corresponding to an opened lower portion of the upper sealing space and is disposed at a lower portion of the upper sealing unit. delete 3. The method of claim 2,
The upper sealing unit includes an upper sealing frame fixed to the front end of the condensed water pipe member and having an upper sealing space opened at a lower portion thereof; And
And an upper packing member arranged to surround the lower end portion of the upper sealing frame. 5. The method of claim 4,
The lower sealing unit includes:
An insertion member provided in a shape corresponding to the shape of the upper sealing space;
A lower packing member disposed to surround the lower end of the insertion member and corresponding to the upper packing member; And
And a floating auxiliary member disposed at a lower portion of the insertion member and capable of floating on the condensed water,
And the upper packing member and the lower packing member are brought into close contact with each other to seal the upper sealing space when the lower sealing unit is switched to the closed position. 6. The method of claim 5,
Wherein an upper end portion of the insertion member is formed so that a central portion side thereof protrudes upwardly as compared with an outer side. 6. The method of claim 5,
Wherein the lower sealing unit further comprises a buffer member disposed between the insertion member and the straddle-assisting member to provide a buffering force. 8. The method of claim 7,
Wherein the cushioning member is a flexible hose member having a hollow cushion space therein and standing upright between the insertion member and the floating assisting member,
And one end and the other end of the buffer space are sealed by the insertion member and the floating auxiliary member. 6. The method of claim 5,
Wherein the lower sealing unit includes a lifting auxiliary member that assists the upward movement of the lower sealing unit toward the upper sealing space. The method according to claim 1,
The pit device includes:
A quantity sensor unit capable of measuring a quantity of the condensed water accommodated in the inflow space and transmitting a quantity signal;
A supply pipe member extending from the make-up water storage tank storing the make-up water to the pit body to supply the makeup water to the inflow space;
A supply valve member disposed on the supply piping member and capable of adjusting the supply amount of the makeup water; And
And the opening degree of the supply valve member can be controlled in accordance with the quantity signal and the pressure signal. delete

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