KR102098368B1 - Polyurethane vibratory screen - Google Patents

Abstract

A molded polyurethane vibrating screen comprising a body, the body comprising opposite side edge portions (14, 16), top edge portion (18) and bottom edge portion (20), top and bottom surfaces, between the side edge portions The first members 101 extending and the second members 102 extending between the lower edge portion and the upper edge portion, extending in a direction substantially intersecting between the side edge portions, Third members 203 having a plurality of first members therebetween, extending in a direction that intersects substantially parallel between the lower edge portion and the upper edge portion, and having a plurality of second members between them A molded polyurethane vibrating screen comprising reinforcing members 50 integrally molded with the fourth members 204, the first members 10 or the second members 102.

Description

Polyurethane vibratory screen

Cross reference to related applications

This application claims priority to U.S. Patent Application No. 13 / 838,968 filed on March 15, 2013, and the U.S. Patent Application No. 12 / 763,046 filed on April 19, 2010 It is a partial continuing application, and the above U.S. patent application is hereby incorporated by reference in its entirety.

The present invention relates to an improved molded polyurethane screen.

Molded polyurethane screens with reinforcements therein are known in the art.

However, in the past, the dividing strip between the holes was relatively large, so that the ratio of the hole area of the screen to the surface area of the screen was undesirably low, and thus the screen was relatively inefficient. This was done.

The present invention is an improvement over U.S. Patent Registrations 4,819,809 and 4,857,176, both of which are incorporated herein by reference in their entirety. The present invention provides an improved screen with a relatively high proportion of open screening area and high efficiency.

According to one exemplary embodiment of the present invention, the vibrating screen includes a flexible molded polyurethane body, the flexible molded polyurethane body having substantially parallel side edge portions located at opposite ends of the body, the side edge First and second members forming a lower edge portion substantially perpendicular to the portions, an upper edge portion substantially perpendicular to the side edge portions and facing the lower edge portion, an upper surface, a lower surface, and screening holes. , And third and fourth members.

The first members extend between the side edge portions. The second members extend between the lower edge portion and the upper edge portion. The third members and the fourth members may have a thicker thickness than the first members and the second members. The third members extend in a direction that intersects substantially parallel between the side edge portions and have a plurality of first members therebetween. The fourth members extend in a direction that intersects substantially parallel between the lower edge portion and the upper edge portion, and have a plurality of second members therebetween. Reinforcing members are integrally molded with the third members and the fourth members.

Exemplary embodiments of the present invention are described in more detail below with reference to the accompanying drawings.

1A is a partial plan view of a vibrating screen according to an exemplary embodiment of the present invention;
FIG. 1B is an upper isometric view of the screen shown in FIG. 1A;
1C is a bottom isometric view of the screen shown in FIG. 1A;
2 is a partial cross-sectional view taken substantially along the line 2--2 in FIG. 1A;
3 is a partial cross-sectional view taken substantially along the 3--3 line in FIG. 1A, and the circled portion is an enlarged partial cross-sectional view of a portion of the screen shown in FIG. 3;
Fig. 4 is a plan view of a portion of the screen shown in Fig. 1A, and a circled portion is an enlarged plan view of a portion of the screen shown in Fig. 4;
FIG. 5 is a partial cross-sectional view substantially taken along the 5--5 line in FIG. 1A, and the circled portion is an enlarged partial cross-sectional view of a portion of the screen shown in FIG. 5;
FIG. 6 shows only an enlarged partial cross-sectional view similar to the view taken along the 5--5 line in FIG. 1A, but only a cross-sectional configuration of a deformed shape of the first members with reinforcement members;
FIG. 7 is a view similar to FIG. 6 but showing first members without a reinforcing member;
8 is a partial cross-sectional view showing how the improved screen of FIG. 1A is mounted on a vibrating screening machine;
9 is an enlarged isometric view of a portion of a vibrating screen according to one exemplary embodiment of the present invention having reinforcement members integral with the first members and the second members forming screen apertures;
10A is a top isometric view of a vibrating screen according to an exemplary embodiment of the present invention;
10B is a bottom isometric view of the screen shown in FIG. 10A;
11A is a top isometric view of a drawing of a vibrating screen according to an exemplary embodiment of the present invention;
11B is a bottom isometric view of the screen shown in FIG. 11A;
12 is a top isometric view of a vibrating screen with one portion of the screen showing the reinforcing bars according to one exemplary embodiment of the present invention removed, and the circled portion is an enlarged top isometric of a portion of the screen shown in FIG. Projection;
13 is an isometric view of a portion of a vibrating screening machine equipped with a vibrating screen according to one embodiment of the present invention;
14 is an isometric view of a portion of a vibrating screening machine equipped with a vibrating screen according to one embodiment of the present invention.

Similar reference signs indicate similar parts in several figures.

According to one exemplary embodiment of the present invention, the vibrating screen 10 includes a body 12 of molded polyurethane with side perforations 14 and 16 that are not perforated. The side edges 14 and 16 are U-shaped upward and each may include a cast-in structural member such as an angle 15 as shown in FIG. 2. Further, the side edges 14, 16 may be formed without cast-in structural members and / or may include other structural members. The side edges 14, 16 can be formed in a U-shape or any other suitable shape for attachment to a vibrating screening machine. In one exemplary embodiment, the side edge portions 14, 16 may include a molded member, for example a metal member bent into a desired shape, for example a U-shape. The molded member can be attached to the polyurethane body by heating, pressing, mechanical molding, chemical molding and / or any suitable method / arrangement. 11A to 11B, the angle 15 may form an upward U-shape. The angle 15 may extend by the entire length of the side edge portions 14 and 16. The side edges 14, 16 can be configured to mount the vibrating screen 10 in a vibrating screening machine, as is well known. Further, the body 12 includes a lower edge portion 18 and an upper edge portion 20, which together with the side edge portions 14, 16 define the outer edge of the screen 10. In certain implementations, the angle 15 may be included within the upper edge portion 20 and the lower edge portion 18. See, for example, FIGS. 10A-10B. In these implementations, the angle 15 can be extended by the entire length of the upper edge portion 20 and the lower edge portion 18. In an exemplary embodiment, the upper edge portion 20 and the lower edge portion 18 can be configured to mount on a vibrating screen 1010 designed to mount the screen from front to rear. See, for example, FIG. 13. Body 12 further includes first members 101 and second members 102 that include upper surface 22 and lower surface 24 and form screen apertures 26. The body 12 may include third members 203, fourth members 204, fifth members 305 and sixth members 306. The body 12 may include various configurations of the third members 203, the fourth members 204, the fifth members 305, and / or the sixth members 306. The third members 203, the fourth members 204, the fifth members 305 and / or the sixth members 306 may or may not include reinforcement members 50. Can, and is generally configured to provide support to the screen apertures 26 formed by the first members 101 and the second members 102. Body 12 has first members 101 and second members without third members 203, fourth members 204, fifth members 305 and / or sixth members 306 Fields 102 may be included. The first members 101 and / or second members 102 may be configured to include reinforcing members 50. In certain implementations, reinforcing rods 1050 are parallel to the corners of the screen with the vibrating machine attachment arrangements (eg, corners with U-shaped structural members discussed herein). It may be included in members extending in the direction. See, for example, FIG. 12. Reinforcing rods 1050 are deformed and / or hourglasses of the side edge portions, for example, the side edge portions 14, 16 shown in FIGS. 10A, 10B, 11A, 11B, and 12. It provides stability to the screen 10 by preventing it from being hourglassed. Reinforcing rods are substantially rigid, provided for structural support, and vibrating because the force applied to the corners connecting the vibrating screening machine tension members will generally limit significant movement or bending of the screen assembly. It does not extend in a direction perpendicular to the corners of the screen with a mechanical attachment arrangement.

In one exemplary embodiment, the reinforcing rods 1050 may be integrated with the fourth members 204 and / or the sixth members 306 (including being integrated by forming into one piece). Reinforcing rods 1050 can be made of plastic, metal, polymer or any other suitable material having the necessary structural properties.

The first members 101 and the second members 102 form a first integrally molded grid structure 100 that defines screen holes 26. The third members 203 and the fourth members 204 may form a second integrally formed grid structure 200. The reinforcing rods 1050 may be integrally molded in the fourth members 204. The fifth members and the sixth members may form a third integrally formed grid structure 300. The reinforcing rods 1050 may be integrally molded in the sixth members 306. 1A, 2, 3, 4 and 6, the grid structures 200, 300 are bi-directional forming support grids within the members. A) integrally formed reinforcement members. Due to the properties of the reinforcing members 50 and their placement into a bi-directional grid structure, further discussed herein, the members in which the reinforcing members 50 are embedded have a relatively small size and increased opening. Provide a screening area. The grid structures provide screen strength, support for the holes 26 during vibratory loading and significantly increase the open screening area. Although the second grid structures and the third grid structures are discussed herein, fewer grid structures or additional grid structures may be provided.

The first members 101 may extend in a direction intersecting between the side edge portions substantially parallel to each other. The second members 102 may be substantially parallel to each other and extend in a direction intersecting between the lower edge portion 18 and the upper edge portion 20. The second members 102 may be thicker than the first members to provide additional structural support to the screen holes 26.

The first members 101 and / or the second members 102 may include reinforcing members 50, which may or may not be supported by additional support members or support grid structures. have. See, for example, FIGS. 6 and 9. As shown in FIG. 9, the body 12 has first members 101 and second members 102 having integrally formed bidirectional reinforcing members 50. These configurations require screens with large screen holes, which can be beneficial for screening applications.

In certain implementations, the reinforcing rods 1050 can be integrated into at least one of the fourth members 204 and the sixth members 306 respectively and can be provided from the edge 14 to the edge 16. have. See, for example, FIG. 12. Reinforcing rods 1050 provide stability or prevent hourglass deformation or other deformation of the screen that occurs along the edges 14, 14 and 16 of the screen without U-shaped channels. do. These implementations include first members 101, second members 102, third members 203, fourth members 204, fifth members 305, and / or sixth members Reinforcing members 50 may be included in 306. Reinforcing members 50 include first members 101, second members 102, third members 203, fourth members 204, fifth members 305, and / or agents The six members 306 may be included in all or some of them. Reinforcing members 50 provide screen properties as discussed herein.

As shown in Fig. 4, the screen holes 26 are extended, the screen holes 26 have a length dimension larger than the width dimensions, and the length dimension is an end of the side surfaces running along the side surfaces. And between the sides, the length dimensions of the screen holes 26 extend in a direction intersecting the corners 14,16. The screen holes 26 may have a width (ie, between inner surfaces of adjacent first members 101) of about 0.044 mm to about 4 mm, and a length (ie, adjacent second members 102). (Between the inner surfaces) of about 0.088mm to 60mm. The screen holes 26 can have various shapes, including a square shape in general. The overall dimensions of the screen 10 may be about 1.2 meters by 1.6 meters or any other desired size. All dimensions presented herein are presented by way of example, and not limitation.

The screen holes 26 may be split downward between the upper surface 22 and the lower surface 24 and the first members 101 may have a substantially inverted trapezoidal shape. See, for example, FIGS. 6 and 7. This general shape of the first members 101 prevents blinding of the screen 10. As shown in FIG. 6, the first members 101 include reinforcing members 50. As shown in FIG. 7, the first members 101 do not include reinforcement members 50.

Screens with various screen hole sizes and support configurations described herein have a relatively large open screening area. For example, the open screening area can range from about 40 percent to about 46 percent. As discussed further herein, the relatively large open screening area places bi-directional reinforcing members 50 within a crossing member (eg, 203, 204) as described in various implementations herein. Can be obtained by The reinforcing members significantly reduce the size of both of the bi-directional support crossing members and allow thinner screen members 101 and 102 to form the screen holes 26. The grid work of support members and reinforcing members provides a structurally robust screen that retains the required screen openings during the vibrating operation.

The third members 203 and the fourth members 204 may have a thicker thickness than the first members 101 and the second members 102, below the lower surface 24 of the body 12 It may have a portion 210 extending downward. The thicker thickness and the downwardly extending portion may provide additional structural support to the first members 101 and the second members 102. As shown in FIG. 1C, the portion 210 is substantially triangular in cross section and may have an apex protruding from the lower surface 24 of the body 12. The third members 203 may extend in a direction that intersects substantially parallel between the side edge portions 14 and 16, and may have a plurality of first members 101 therebetween. The fourth members 204 may extend in a direction that intersects substantially parallel between the lower edge portion 18 and the upper edge portion 20, and the plurality of second members 102 are disposed between them. Can have The fourth members 204 may have reinforcing rods 1050 integrally molded therein. The reinforcing members 50 may be formed integrally with the third members 203 and the fourth members 204. See, for example, FIGS. 3 and 5. The third members 203 and the fourth members 204 include reinforcing members 50, so that a screen hole formed by the first members 101 and the second members 102 during the vibration screening operation It can be configured to have the minimum thickness while providing the structural support needed to hold the field 26. The bi-directional support system provided by the reinforced third members 203 and fourth members 204 greatly reduces the thickness of the support members and provides increased open screening area and overall screen efficiency. Including the reinforcing members 1050 into the fourth members 204 can add stability to the screen 10, and an hourglass deformation, ie, side edge, that provides the screen with a general hourglass type shape. It is possible to prevent deformation of the bulges 14 and 16 in the inner direction.

The fifth members 305 and the sixth members 306 may be included in the body 12. The fifth members and the sixth members may have a thicker thickness than the third members and the fourth members, and may have a portion 310 extending downward from the lower surface of the body. The thick thickness and the portion extending downward may provide additional structural support to the first members 101 and the second members 102. The sixth members 306 may include a portion 320 extending upward from the upper surface of the body. The portion 320 may be substantially triangular in cross section, and may have an apex protruding from the upper surface 22 of the body 12. The sixth members 306 are shown in FIG. 2 and have a portion 320 extending upward from the upper surface of the body 12 and acting as a flow guide. The sixth members 306 may have reinforcing rods 1050 integrally molded therein. The fifth members 305 may extend in a direction that intersects substantially parallel between the side edge portions 14 and 16, and may have a plurality of third members 203 therebetween. The sixth members 306 may extend in a direction that intersects substantially parallel between the lower edge portion 18 and the upper edge portion 20, and the plurality of fourth members 204 may be provided between them. Can have The reinforcing members 50 may be integrally formed with the fifth members 305 and the sixth members 306. The fifth members 305 and the sixth members 306 may be provided to provide additional support to the screen holes 26, and by including the reinforcement members 50, the screen holes during the vibration screening operation It can be configured to have the minimum thickness while providing the structural support needed to hold the field 26. The bi-directional support system provided by the reinforced fifth members 305 and sixth members 306 greatly reduces the thickness of the supporting members and provides increased open screening area and overall screen efficiency. Including the reinforcing members 1050 in the sixth members 306 adds stability to the screen 10 and prevents hourglass deformation.

1B shows the first members 101 and the second members 102 forming the screen holes 26 and the members 203 and 204 forming the support grid structure for the holes 26. Having an exemplary embodiment of the present invention. As shown in FIG. 1B, the screen 10 does not include the fifth members 305 and the sixth members 306. 12 shows another exemplary embodiment of the present invention with reinforcement rods 1050 integrally molded therein. 12, the reinforcing rods 1050 are integrally molded in the fourth members 204. Further, the reinforcing rods 1050 may be integrally molded into the sixth members 306 or other members disposed on the members 204 and 306.

In use, the vibrating screen 10 is mounted in a well-known manner to the vibrating screening machine 30 (FIG. 8). More specifically, it is mounted on a screen deck bed 31 mounted on a frame (not shown) of the machine. The screen deck bed 31 comprises spaced apart and substantially parallel frame members 32 protected from each other by transverse frame members (not shown) spaced apart and substantially parallel to each other. It extends in an intersecting direction between the transverse frame members is a plurality of substantially parallel stringers 33 mounted with channel rubbers 34. Mounted on the parallel frame members 32 are channel shaped draw bars 35 with lower portions 36 housed in the side edges 14, 16. The draw bolts 37 separate the draw bars 35 from each other, thereby tightening the vibrating screen 10 with the required force. Screen deck beds of the type described above are well known in the art. The screen 10 may be mounted on another vibrating screening machine, and the side edge portions 14 and 16 may be configured in different forms to accommodate various vibrating screening machines.

The embodiment shown in FIG. 13 is mounted from front to rear on the vibrating screen machine 1010. In this embodiment, the angle 15 is included in the upper edge portion 20 and the lower edge portion 18 and is located under the upper surface 22. This embodiment has a tension applied from the bottom of the screen rather than above the screen, and the tensile force is applied from front to rear.

14 shows an embodiment with an angle 15 included in the side edge portions 18, 20. In addition, this embodiment has a tension applied from above and from side to side of the screen.

Reinforcing members 50 as described herein can be aramid fibers (or individual filaments thereof), naturally occurring fibers, or other materials having relatively large tensile strengths with relatively small cross-sectional areas. Aramid fibers, when used as reinforcing fibers 50, may be aramid fibers commercially available under the trademark KEVLAR from DuPont and further identified by the name KEVLAR 29. Further, the reinforcing members 50 may be at least one of aramid fibers commercially available under the trademarks TWARON, SULFRON, TEIJINCONEX and TECHNORA of Teijin. In addition, the aramid fibers can be twisted (twisted) multi-strand or woven (woven) multi-strand, acting as a property of the wick that absorbs the polyurethane molded around them and thereby thereby It provides a very good bond with. The braided multi-strand fiber or woven multi-strand fiber may be from about 55 denier to about 2840 denier, preferably about 1500 denier. The flexibility of the aramid fibers provides a flexible reinforcing system to the molded polyurethane, the molded polyurethane being originally subjected to the necessary bending and flexing occurring during handling and installation into the vibrating frame member 32. It can return to the molding shape. In addition, the flexible aramid fibers allow the flexible polyurethane screen to be stretched and tensioned in an arcuate state without damage, as shown in FIGS. 8, 13, and 14. The reinforcing members 50 can be tensioned before the polyurethane is molded around them. Reinforcing members 50 of various configurations include first members 101, second members 102, third members 203, fourth members 204, fifth members 305, and It may be provided on any one of the sixth member (306). Each member may include 0, 1 or more reinforcing members 50, and the reinforcing members 50 may be of various sizes and various materials. Reinforcing members 50 may be located in the lower half of the member so that they are not exposed as early as the upper surface of the screen wears.

During operation, the first members 101 will vibrate to enhance the screening action. In this regard, it should be noted that since the first members 101 are flexible and relatively thin, they will provide desirable vibration of relatively high amplitude. The reason why the first members 101 that produce the screen holes described herein can be made relatively thin is, as described herein, bidirectional with a relatively small cross-sectional area and a relatively large tensile strength. It is because of the supporting frame of the supporting members and the reinforcing members. Making the support members and the first members 101 relatively thin results in a screen with a larger percentage of the hole area, which in turn increases the capacity of the screen.

According to an exemplary embodiment of the present invention, the vibrating screen 10 includes a flexible molded polyurethane body 12, and the flexible molded polyurethane body 12 is located at opposite ends of the body 12 Substantially parallel side edge portions 14, 16, a lower edge portion 18 substantially perpendicular to the side edge portions 14, 16, substantially perpendicular to the side edge portions 14, 16, and the lower portion First members 101 and second members 102 forming upper edge portion 20, upper surface 22, lower surface 24, and screening holes 26 opposite edge portion 18 ), The first members 101 extend between the side edge portions 14, 16, and the second members 102 include the lower edge portion 18 and the upper edge portion ( 20). In addition, the body may include third members 203 and fourth members 204. The third members 203 and the fourth members 204 may have a thicker thickness than the first members 101 and the second members 102. The third members 203 extend in a direction that intersects substantially parallel between the side edge portions 14 and 16, and have a plurality of first members 101 therebetween. The fourth members 204 extend in a direction that intersects substantially parallel between the lower edge portion 18 and the upper edge portion 20, and a plurality of second members 102 are provided between them. Have Reinforcing members 50 may be formed integrally with the third members 203 and / or the fourth members 204. The reinforcing rods 1050 may be formed integrally with the fourth members 204. In addition, the body includes fifth members 305 and sixth members 306. The fifth members 305 extend in a direction that intersects substantially parallel between the side edge portions 14 and 16. The sixth members 306 extend in a direction that intersects substantially parallel between the lower edge portion 18 and the upper edge portion 20. The fifth members and the sixth genital members have thicker thicknesses than the third members and the fourth members, and include reinforcement members 50 integrally formed with them. Reinforcing rods 1050 may be formed integrally with the sixth members 306. The vibrating screen according to this configuration can have a mesh size with an open screening area greater than 40 percent and a range from about 0.375 mesh to about 400 mesh. By way of example, the tested screens with the configuration described above include a 43 mesh size screen, a 140 mesh size screen and a 210 mesh size screen. Each of these screens had an open screening area of about 40 percent to about 46 percent. For such a fine mesh size, such a large screening area includes the third members 203, the fourth members 204, the fifth members 305, and the sixth members 306 and these. This is achieved through a relatively strong and thin grid skeleton produced by integrally molded reinforcement members. In the exemplary embodiments and embodiments described above, the size of each grid unit formed by the intersection of the third members 203 and the fourth members 204 is about 1 inch by 1 inch. Generally, the grid unit is larger for a screen with large screen holes, and smaller for a screen with small screen holes. This principle can generally be applicable in the case of each exemplary embodiment discussed herein. Further, the grid unit may have a generally rectangular shape or any other suitable shape suitable for supporting the screen hole.

According to an exemplary embodiment of the present invention, a method of manufacturing a vibrating screen comprises generating a mold configured to manufacture the vibrating screen, the vibrating screen having a flexible molded polyurethane body; Installing reinforcement members in the mold, wherein the reinforcement members are configured to be integrally formed with the body; Installing reinforcement rods in the mold, wherein the reinforcement rods are configured to be integrally formed with the body, and filling the mold with polyurethane; And forming the vibrating screen, wherein the vibrating screen is substantially parallel to side edges positioned at opposite ends of the body, a bottom edge portion substantially perpendicular to the side edge portions, and substantially to the side edge portions. With first and second members, third and fourth members forming an upper edge, an upper surface, a lower surface, and screening holes that are perpendicular to the lower edge, and the first member They extend between the side edge portions, the second members extend between the lower edge portion and the top edge portion, and the reinforcing rods are integrally molded with the fourth members, and the third The members extend in a direction that intersects substantially parallel between the side edge portions and have a plurality of first members between them, and the fourth members are substantially parallel between the lower edge portion and the upper edge portion. And extending in an intersecting direction and having a plurality of second members therebetween, wherein the reinforcing members are integrally molded with at least one of the first members and the second members.

Although preferred embodiments of the invention have been disclosed, it will be appreciated that the invention is not so limited and may be otherwise embodied within the scope of the following claims.

Claims (23)

As a vibrating screen,
The vibrating screen includes a flexible molded polyurethane body, the flexible molded polyurethane body having substantially parallel side edge portions located at opposite ends of the body, and lower edges disposed in a direction intersecting between the side edge portions. A portion, an upper edge portion disposed between the side edge portions and facing substantially parallel to the lower end portion, the upper surface, the lower surface, the first integrally formed grid structure, the second integrally formed grid structure, and the third integrally formed grid structure And screen holes, wherein the first integrally molded grid structure comprises first and second members forming screening holes, the first members being in a direction that intersects substantially parallel between the side edge portions. Elongated and the second members extend in a direction that intersects substantially parallel between the lower edge portion and the upper edge portion, and the second integrally formed grid structure includes third and fourth members , The third members extend in a direction that intersects substantially parallel between the side edge portions, and have a plurality of first members therebetween, and the fourth members are between the lower edge portion and the upper edge portion. It extends in a direction that intersects substantially parallel and has a plurality of second members between them, the first reinforcing members are integrally molded with the first members and the second members, and the third integral molding The grid structure includes fifth members and sixth members, the fifth members extending in a direction that intersects substantially parallel between the side edge portions, and having a plurality of third members between them, the first The six members extend in a direction that intersects substantially parallel between the lower edge portion and the upper edge portion, and have a plurality of fourth members between them, and reinforcing rods are the fourth members and the sixth members. And integrally molded with at least one of the A vibrating screen that provides stability and also prevents hourglassing of the vibrating screen. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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