KR200295899Y1 - Line blind flange - Google Patents

Abstract

The present invention relates to a mechanical blind flange, which is connected to a pipe through which a fluid flows in a petroleum, chemical plant or chemical transport equipment, is coupled with a connector of a pipe for maintenance work and loading of chemicals. The present invention relates to a mechanical blind flange for safely blocking a pipeline in which a toxic and flammable fluid flows, to prevent environmental pollution due to leakage, human accidents, explosions, and incorporation into other fluids.

The present invention is to remove all the bolts of the connecting flange in order to block the conventional pipeline, insert a blind plate into the pipe with a wedge or crane, and then insert the blind plate, and then connect the bolt again, without turning the handle to turn the pipeline The present invention relates to a mechanical blind flange that effectively seals a fluid, powder, cement or dust waste gas containing a solid residue while providing a function of opening and closing mechanically.

It also relates to mechanical blind flanges that can use metallic gaskets to seal high temperature, high pressure, special chemical pipelines.

Description

Mechanical Man Flange {LINE BLIND FLANGE}

1 and 2 are for the description of the conventional mechanical blind flange, it should be noted that the components having a function similar to the present invention are marked with "x" in front of the notation in the notation.

In the conventional mechanical blind flange, the shape of the support plates (x25, x26) in FIG. 1 is triangular or circular, and three collars (x31) are assembled between the support plates (x25, x26) so that one of the collars (x31) has a central axis. The blank plate (x47) is rotated to open or close the pipeline. This may be impossible to install due to the position of the handle (x58) and the radius of rotation of the blind (x47) in the structure of the pipeline when a plurality of pipes are installed side by side.

In the present invention, as a mechanical blind flange having a structure of rectangular support plates 25 and 26 and a blind plate 47 moving in a straight line in the direction of the handle, the restriction on installation due to other adjacent pipes is eliminated.

In addition, the conventional mechanical flange is a structure for pushing the sheet (x42) in Figure 1 pushes each other by turning one of the cam (x41a, x41b) facing each other. This only creates a space between the two cams (x41a and x41b) when the handle (x58) is rotated to replace the plate (x47), but the seat (x42) does not come down and the gasket (x63a) when the plate (x47) is turned. ) Is concerned that the damage.

In the present invention, the multi-threaded screw 41b and the multi-threaded screw 41a are threaded to each other in FIG. 3, which is connected to the seat 42 and the seat holder 45 to forcibly pull out the seat 42 to form a blind plate ( 47) space was created to move.

In addition, a method for sealing with a conventional gasket is a structure in which the trim x61 of the sheet x42 and the trim x62 of the support plate x25 are flat in FIG. 2, and a rubber gasket (between the sheet x42 and the blind plate x47). After inserting the x63), the actuator (x51) is operated in FIG. 1 to seal the outside, which may cause leakage during the sealing of the fluid containing powder, debris, etc., and also the metallic gasket for sealing the high temperature and high pressure fluid. It was difficult to apply because the actuator should be designed to have a significant compressive force when using.

In the present invention, the trims 61 and 62 are processed in a single or multiple lines of mountain shapes in FIG. 4 to improve the sealing efficiency of powder and debris, and also operate the actuator 51 of FIG. 3 with a relatively small force. The use of metallic gaskets was made possible by having a compressive force.

The purpose of the present invention is that the conventional mechanical flange is composed of a triangular or circular support plate, which is connected by three collars. It is to provide a mechanical blind flange that moves in a straight line and opens and closes the pipeline to remove the installation restrictions caused by adjacent pipes.

An object of the present invention is to move the blinds 47 and x47 in Figs. 2 and 4 to replace the pipelines in the open or closed state, so that there is no space for moving the trims 61 and x61 and the gaskets 63a and 63b. to provide a mechanical blind flange that can form a space forcibly to prevent damage

In addition, an object of the present invention is to prevent the leakage caused by foreign matter between the crimping part when sealing the fluid containing powder or residue by pressing the gasket of the mountain-shaped trim of one or several lines, and also to the trim of the flat structure Compared to this, even when the actuators (51, x51) are operated with a relatively small force, high contact force is maintained, and a metallic gasket requiring high compressive force can be used. Thus, a mechanical blind flange capable of sealing high temperature and high pressure fluids can be used. To provide.

1 is an exploded perspective view showing the shape of a mechanical blind flange of a conventional design

2 is a cross-sectional view taken along the line A'-A 'of the prior art of FIG.

Figure 3 is an exploded perspective view showing a shape according to an embodiment of the present invention

4 is a cross-sectional view taken along the line A-A of FIG.

5 is a cross-sectional view taken along the line B-B of FIG.

6 is a cross-sectional view taken along the line C-C of FIG.

※ Explanation of code for main part of drawing

33: rail bushing 34: leaf spring 41a: multi-threaded thread

41b: Multiple female thread 42: Seat 45: Seat holder

46: protrusion 47: blind 51: actuator

61, 62: Trim 63a, 63b, 63c: Gasket x41a, x41b: Cam

Detailed description of the preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if shown on different drawings.

In addition, in describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

First of all, the operation principle of the present invention belongs to the mechanical blind flange, the ring 53, which is fixed by the pin 54 to the actuator 51 while turning the handle 58 of FIG. Pushing the projection 46 is inserted into the projection 46 is fixed to the multi-threaded screw 41b to turn the multi-threaded screw 41b, this multi-threaded screw 41b is pushed up along the thread. At this time, the seat 42 located on the multi-threaded screw 41b is pushed up, and the trim 61 of the seat 42 pushes the gasket 63a of the blind plate 47 in one direction and simultaneously the gaskets 63a and 63b of FIG. 4. , 63c) is compressed and sealed to the outside of the pipeline.

In addition, when the pipeline is replaced with an open or closed state again, by turning the handle 58 of FIG. 3 in the opposite direction, the thread of the multi-threaded screw 41a fixed to the support plate B 26 is removed. Along the way, the multi-threaded screw 41b is connected to the seat 42 by both seat holders 45, forcibly pulling down the seat 42 between the blinds 47 and the trims 61 and 62. Space is formed.

In addition, the leaf springs 34 on the four rail bushings 33 are pushed down the rail bushings 33 as the seat 42 descends, and the blinds 47 sandwiched between the rail bushings 33 are pushed out. , Helps to form a space between the blind 47 and the trim (61).

At this time, move the blind plate 47 to the position where the stop plate 48a touches the support plate 25 in a straight line along the rail bushing 33 and replace the pipeline with an open or closed state, and then turn the handle again to seal the pipeline with the outside. Let's do it.

The mechanical blind flange to be proposed in the present invention will be described with reference to FIGS. 3, 4, 5, and 6.

In Fig. 4, a multi-threaded screw 41a is fixed to the outer surface of the pipe 27 of the body B 2, and the multi-threaded screw 41a is screwed together, and the seat 42 is placed on the multi-threaded screw 41b. The gasket 63c is inserted between the multi-threaded screw 41b and the seat 42. The multi-threaded screw 41b and the seat 42 are connected to the seat holder 45 in Figs. When it rotates is characterized in that the sheet connected to it moves along.

3 and 6, the projection 46 is fixed toward the outer diameter of the multi-threaded screw 41b so that the projection 46 is located between the rings 53 fixed to the actuator 51 so that the actuator moves forward and backward. It is a structure in which multiple female screws connected to protrusions rotate.

In addition, in FIG. 4, the trim 61 of the seat 42 and the trim 62 of the support plate A 25 are processed in a single or multiple rows of mountain shapes to compress the gasket.

In addition, the blind plate 47 is inserted between the rectangular support plate A 25 and the seat 42 in FIGS. 3 and 5, and the plate 47 smoothly moves in a straight line along the four rail bushings 33. The stop plates 48a and 48b are fixed to both ends of 47, and the handles are connected to one side of the stop plate 48a.

In addition, the body A (1) and the body B (2) in Figures 3 and 6 are connected to each other by four collars (31, 32a, 32b) and nuts (35), and through the collar (32a) the actuator ( 51 is a mechanical blind flange characterized by a moving structure.

As described above, the present invention reliably separates the upper inside and the lower inside of the pipeline, and at the same time, removes the limitation of the installation in the conventional mechanical blind flange, so that it can be installed without the influence of the adjacent pipe and also accompanies the residue. It has excellent sealing effect even in one fluid and powder.

In addition, the present invention increases the crimping force of the gasket by processing the trim in the shape of a mountain, so that it is possible to close the high-temperature, residue-mixed fluid, which remains a problem in petrochemical and oil refineries, in a short time, thereby improving the process. The operator can prevent the risk of manual closing and opening of the pipeline and save the cost, and also prevent the environmental pollution and the accident caused by the leakage of the pipeline.

In addition, the present invention is to prevent the damage of the gasket and trim by forcibly forming a space when replacing the blind plate, it is possible to reduce the maintenance cost by preventing leakage due to its damage and reuse of the gasket.

Claims (3)

In a mechanical blind flange coupled to the pipe connection in the petroleum, chemical plant or chemical transportation equipment to open or block the flow of fluid; Mechanical blind flange, characterized in that the multi-threaded screw (41a) is fixed to the outer surface of the pipe (27) of the body B (2), the multi-threaded screw (41a) is coupled to the thread. The method of claim 1; The trim 61 of the seat 42 and the trim 62 of the support plate A 25 are mechanically blind flanges characterized by a structure that is processed in a single or multiple rows of mountain shapes. The method of claim 1; The blind plate 47 is sandwiched between the rectangular support plate A 25 and the seat 42, which is characterized by a linear blind plate 47 moving along four rail bushings 33.