KR100345793B1 - Slide valve for transfering powder and pellet - Google Patents

Abstract

The present invention is configured to select the conveying direction while sliding the two pipes formed in the same way as the conveying direction of the powder supplied through the inlet, to facilitate the conveyance of the powder and improve the sealability of the powder transfer slide valve The purpose is to provide.

The present invention for achieving the above object, in the powder transfer valve used to transfer and supply the powder or pellets of synthetic resin used in chemicals, one side is connected to the inlet flange 31 in which powder is introduced The other side of the body 20 is connected to the outlet flange (34, 35) is discharged, and the one of the outlet flange (34, 35) is placed inside the body 20 and sliding left and right It includes a sliding block 40 formed with pipes 41 and 42 which can be connected to the inlet flange 31 and without any outward, and the cylinder 55 for moving the sliding block 40 to the left and right. . In addition, gaskets (32, 36, 38) for preventing the external leakage of the powder is inserted into the connection portion of the body 20 to which the inlet flange 31 and the outlet flanges (34, 35) are respectively connected.

Description

Slide valve for transfering powder and pellet}

The present invention relates to a powder transfer valve, and more particularly, to a powder transfer slide valve selected while sliding the conveying direction of the powder supplied through the inlet.

That is, the slide valve for conveying the powder of the present invention is used to convey and feed the powder or pellet of the synthetic resin used in the chemical product.

In the prior art powder transfer valve, as shown in FIG. 1, the powder supplied through the inlet 11 may be discharged through the first outlet 13 or the second outlet 14 by the operation of the rotary valve 12. It is configured to be.

However, the powder transfer valve of the prior art is not formed so that the supply line passing through the inlet 11 and the first and second outlets 13 and 14 can be smoothly conveyed powder, The problem arises of successive stacking at points. When the powder is continuously laminated at one point in this way, it does not supply the desired amount of powder through such a powder transfer valve, thereby causing a problem in that it does not produce a desired product.

In addition, the powder transfer valve of the prior art is fitted to the rotary valve 12 in which the powder to be supplied selects the conveying direction, so that the rotary valve 12 cannot accurately select the conveying direction of the powder. If the rotary valve 12 does not select the correct conveying direction of the powder, the first and second outlets 13 and 14 may not be completely sealed at any one of the first and second outlets 13 and 14. ), Each powder is discharged, which causes the problem of not producing the desired product.

Therefore, conventionally, a large-capacity powder transfer valve has been manufactured and used so as to increase the volume to smoothly transport the powder and to be completely sealed. However, such a large-capacity powder transfer valve also has a problem that it is impossible to produce a desired product because the powder is sandwiched between the valves during operation of the rotary valve and the powder is not completely sealed on either side of the outlet.

Accordingly, the present invention has been made in order to solve the problems of the prior art as described above, by configuring the two pipes formed in the same way as the conveying direction by sliding the powder supplied through the inlet to select the conveying direction, It is an object of the present invention to provide a slide valve for powder transfer, in which the conveyance is smooth and the sealing property is improved.

1 is a view for explaining the internal shape of the powder transfer valve according to the prior art,

Figure 2 is an exploded perspective view for explaining the components of the powder transfer slide valve according to the first embodiment of the present invention,

3 is a perspective view of the components of the powder transfer slide valve shown in FIG.

4 is a cross-sectional view taken along the line A-A to explain the operating relationship of the powder transfer slide valve shown in FIG.

Figure 5 is a perspective view showing the shape of the circular gasket of the slide valve for conveying powder shown in Figure 2,

6 is a cross-sectional view taken along the line B-B of the circular gasket shown in FIG. 5,

7 is a view for explaining the sealing state of the inlet port of the powder transfer slide valve shown in FIG.

8 is a view for explaining the sealing state of the outlet of the powder transfer slide valve shown in FIG.

9 is a cross-sectional view for explaining the operation relationship of the slide valve for powder transfer according to the second embodiment of the present invention,

10 is a view for explaining the sealing state of the outlet of the powder transfer slide valve shown in FIG.

♠ Explanation of symbols on the main parts of the drawing ♠

20: body 21: guide groove

22: entrance hole 23, 24: discharge hole

31: inlet flange 32: round gasket

33, 38: square gasket 34, 35: outlet flange

36, 37: oval gasket 39: insertion groove

40: sliding block 41, 42: pipe

43: guide protrusion 44: fastening portion

51, 52: finishing plate 53: cover

54: groove 55: cylinder

The present invention for achieving the object as described above, in the powder transfer valve used for transporting and supplying powder or pellets of synthetic resin used in chemicals, one side is connected to the inlet flange to the powder inlet The body is connected to the outlet flanges are discharged to the body and the connection pipes that can be connected to the inlet flanges without any distortion by selecting any one of the outlet flanges while sliding left and right in the interior of the body It includes a sliding block and a cylinder for transferring the sliding block to the left and right.

In addition, according to the present invention, a gasket for preventing the external leakage of the powder is inserted into the connection portion of the body to which the inlet flange and the outlet flange, respectively.

In addition, according to the present invention, a tapered surface tapered from the inner side to the outer side is formed in the inner lower circumference of the gasket, and a plurality of air discharge slots are formed in the inner side of the gasket to the body of the gasket. Smooth insertion.

Further, according to the present invention, a guide groove for smoothly holding and moving the sliding block is formed in the lower center of the body, and a guide protrusion for sliding along the guide groove is formed in the lower portion of the sliding block.

In the following, with reference to the accompanying drawings, preferred embodiments of the slide valve for powder transport according to the present invention will be described in detail.

First Embodiment

2 is an exploded perspective view for explaining the components of the powder transfer slide valve according to the first embodiment of the present invention, Figure 3 is a perspective view combining the components of the powder transfer slide valve shown in FIG. And, Figure 4 is a cross-sectional view taken along the line AA to explain the operating relationship of the powder transfer slide valve shown in Figure 3, Figure 5 shows the shape of a circular gasket of the powder transfer slide valve shown in FIG. 6 is a cross-sectional view taken along the line BB of the circular gasket shown in FIG. 5. And, Figure 7 is a view for explaining the sealing state of the inlet of the powder transfer slide valve shown in Figure 2, Figure 8 is a view for explaining the sealing state of the outlet of the slide valve for powder transfer shown in FIG.

As shown in Figures 2 and 3, the powder transfer slide valve of the present invention includes a body 20 which is open at both sides and the top. A guide groove 21 is formed in the lower center of the body 20. In addition, an inlet hole 22 connected to the inlet flange 31 serving as an inlet is formed at one surface of the body 20. At this time, the inlet hole 22 is formed in the body 20 to have a straight cylindrical feed line, the inlet flange 31 connected to the inlet hole 22 is also formed to have a straight cylindrical feed line. That is, as shown in Figure 7, the cross section of the inlet hole 22 is formed in a circular shape.

And, as shown in Figure 7, the periphery of the inlet hole 22 is processed to be fitted with a circular gasket 32 that serves as a sealing. In addition, insertion grooves (not shown) may be formed at both sides of the inlet hole 22 to allow the rectangular gasket 33 to serve as another sealing role.

As shown in FIG. 2, the first and second outlet holes 23 to which the first and second outlet flanges 34 and 35, which serve as outlets, are connected to the other side of the body 20, respectively. , 24) are formed respectively. In this case, the first and second discharge holes 23 and 24 are formed at predetermined intervals, and are respectively formed in the body 20 to have a cylindrical transfer line having a predetermined curvature. The first and second outlet flanges 34 and 35 connected to the holes 23 and 24 are also formed to have a cylindrical transfer line having a predetermined curvature. That is, as shown in Figure 8, the cross-section of the first and second discharge holes (23, 24) is formed in an elliptical shape.

The first and second elliptic gaskets 36 and 37 serving as seals are machined around the first and second discharge holes 23 and 24, respectively. In addition, insertion grooves 39 into which the rectangular gaskets 38, which serve as another sealing role, may be inserted into the outer sides of the first and second discharge holes 23 and 24, respectively.

5 and 6, the tapered surface T tapered from the inside to the outside at a predetermined inclination angle is formed around the inner lower circumference of the circular gasket 32 and the first and second elliptic gaskets 36 and 37 described above. ) Is formed, and a plurality of air discharge slots S are formed on the inner side along the longitudinal direction thereof. The tapered surface T and the air discharge slot S are formed on the inner surface of the gaskets 32, 36, and 37 so that the air remaining therein when the gaskets 32, 36, and 37 are inserted into the outside. By discharging, the gasket 32, 36, 37 can be inserted smoothly.

In addition, valleys and mountains having a predetermined depth are formed on the upper surfaces of the circular gasket 32 and the first and second elliptic gaskets 36 and 37 to improve the sealing property. In addition, valleys and mountains having a predetermined depth are formed on the front surfaces of the rectangular gaskets 33 and 38 so as to improve the sealing property.

As shown in FIG. 2, the sliding block 40 is disposed inside the body 20 to be coupled as described above. The sliding block 40 is formed by combining the square plate, and the first and second pipes 41 and 42 having a predetermined curvature are coupled to the outside through the outside. At this time, the first and second pipes 41 and 42 have a curvature such that the powder supplied through the inlet flange 31 can be smoothly supplied to the first and second outlet flanges 34 and 35.

As shown in FIG. 4, one side of the first and second pipes 41 and 42, that is, the one in close contact with the inlet hole 22 may be completely coincident with the circular inlet hole 22. It is coupled to the sliding block 40 to have a circular cross-section so that the other side, that is, the one in close contact with the first and second discharge holes (23, 24) is oval first, second discharge holes (23, 24) It is coupled to the sliding block 40 to have an elliptical cross-section to be completely matched with).

In addition, a guide protrusion 43 sliding along the guide groove 21 of the body 20 is formed below the sliding block 40. And, the upper portion of the sliding block 40, the fastening portion 44 is fastened to the cylinder is formed.

The closing plates 51 and 52 are coupled to both sides of the body 20 by bolts, and the cover 53 is coupled to the top by bolts. At this time, the cover 53 is formed with a groove 54 so that the fastening portion 44 of the sliding block 40 can protrude to the outside.

In addition, the cover 53 is coupled to the fastening portion 44 of the sliding block 40 and the cylinder 55 for sliding the sliding block 40 is coupled.

In the following, it will be described in detail the operating relationship of the powder transfer slide valve of the present invention configured as described above.

As shown in Fig. 2 to 4, the powder is transferred to the second outlet flange 35 through the inlet flange 31, the second pipe 42. At this time, the powder is completely sealed by the circular gasket 32, the rectangular gaskets 33 and 38 and the second elliptic gasket 37. When the powder is transported in this way and the feed direction is to be changed, the sliding block 40 is slid by operating the cylinder 55. Then, the second pipe 42 which is connected through the inlet flange 31 and the second outlet flange 35 can no longer form a through line, and the first pipe 41 is the inlet flange 31 and the first pipe. The outlet flange 34 is connected through. The powder is then completely sealed by the circular gasket 32, the rectangular gaskets 33 and 38 and the first elliptic gasket 36.

By repeatedly performing the above process, the conveying direction of the powder is determined by selecting the conveying direction of the powder.

Second Embodiment

The slide valve for conveyance according to the second embodiment of the present invention is the same as the first embodiment except that the shape of the pipe disposed inside the sliding block is different from that of the outlet flange connected to the pipe. Therefore, the same or similar reference numerals will be given to the same or similar reference numerals, and description thereof will be omitted here.

9 is a cross-sectional view for explaining the operation relationship of the powder transfer slide valve according to the second embodiment of the present invention, Figure 10 is a view for explaining the sealing state of the outlet of the powder transfer slide valve shown in FIG. Drawing.

As shown in FIG. 9, one side of the body 20a includes first and second discharge holes 23a and 24a to which first and second outlet flanges 34a and 35a which serve as outlets, respectively, are connected. Each is formed. In this case, the first and second discharge holes 23a and 24a are formed at predetermined intervals, and the second discharge hole 24a is formed in the body 20a to have a straight cylindrical transfer line. The second outlet flange 35a connected to the discharge hole 24a is also formed to have a straight cylindrical transfer line. That is, the cross section of the 2nd discharge hole 24a is formed circular. Further, the first discharge hole 23a is formed in the body 20a to have a cylindrical transfer line having a predetermined curvature, and the first outlet flange 34a connected to the first discharge hole 23a also has a predetermined curvature. It is formed to have a cylindrical transfer line having. That is, the cross section of the first discharge hole 23a is formed in an elliptical shape. In addition, an elliptical gasket 36a and a circular gasket 37a serving as a sealing role are formed around the first and second discharge holes 23a and 24a, respectively.

9, a straight second pipe 42a and a first pipe 41a having a predetermined curvature are coupled to the inside of the sliding block 40a. At this time, the first pipe 41a has a curvature in which powder supplied through the inlet flange 31 can be smoothly supplied to the first outlet flange 34a.

9 and 10, one surface of the first and second pipes 41a and 42a, that is, the surface closely contacting the second discharge hole 24a may have a circular second discharge hole 24a. The sliding block 40a has a circular cross section so as to be perfectly matched with), and the side in close contact with the first discharge hole 23a has an elliptical cross section so as to be perfectly aligned with the first discharge hole 23a of the elliptical shape. Are each bound to

As described in detail above, the powder transfer slide valve of the present invention has the advantage of smoothly conveying powder by forming a smooth conveying line by selecting a conveying direction while sliding two tubes formed in the same manner as the conveying direction of the powder supplied through the inlet. There is this.

In addition, the slide valve for powder transfer of the present invention has a good sealing property inside by a gasket used in different forms for each part, it is possible to discharge the correct amount of powder through a desired outlet.

In the above description, the technical idea of the slide valve for conveyance of the present invention has been described with the accompanying drawings, but this is by way of example to illustrate the best embodiment of the present invention and not to limit the present invention.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (4)

In the powder transfer valve used to transfer and supply powder or pellets of synthetic resin used in chemicals, The inlet flange is connected to one side of the inlet flange and the other side is connected to the outlet flange is discharged, and is placed inside the body and sliding to the left and right to select any one of the outlet flanges And a sliding block formed with connecting pipe paths which can be connected to the inlet flange without any distortion, and a cylinder for transferring the sliding block from side to side. The sliding valve of claim 1, wherein a gasket for preventing external leakage of powder is inserted into a connection portion of the body to which the inlet flange and the outlet flange are respectively connected. According to claim 2, wherein the inner lower periphery of the gasket is formed with a tapered surface tapered from the inside to the outside, a plurality of air discharge slots are formed in the inner side in the longitudinal direction, so that the gasket to the body Sliding valve for powder transfer, characterized in that the insertion smoothly. According to any one of claims 1 to 3, the lower center of the body is formed with a guide groove for smoothly holding and moving the sliding block, the lower portion of the sliding block sliding along the guide groove A sliding valve for powder transport, characterized in that the guide protrusion is formed.