KR20060018464A - Cutter blade for crusher and shear - Google Patents

Abstract

Disclosed are a cutter blade used to crush or cut steel structures such as steel concrete structures, steel frames, rebars, grabbing iron, and crushers for cutting steel structures having the same. The cutter blade for cutting steel structures has a regular polygonal plate-like structure having a predetermined thickness, and at least one through hole for fastening is formed symmetrically with respect to the center of the regular polygonal plane. In addition, the crusher for cutting the steel structure is pivotally coupled to the pivot central axis, the first and second crushing arm facing each other; First and second cutter bodies mounted on opposite front ends of the first and second crushing arms, respectively, in the cutting surface direction of the first and second crushing arms; A plurality of cutter blades mounted at ends of the first and second cutter bodies, respectively; And driving means for driving the crushing arm, the cutter blade being mounted at rear ends of the first and second crushing arms, wherein the cutter blade has a regular polygonal plate structure having a predetermined thickness and at the center of the regular polygonal face. At least one fastening through-hole is formed symmetrically with respect.

Steel Structures, Cutter Blades, Cutting, Crushers

Description

Cutter blades for crushers and cutters for cutting steel structures {Cutter blade for crusher and shear}             

1 is a front view of a crusher for cutting a conventional steel structure used in the crushing method.

Figure 2 is a vertical cross-sectional view taken along the line A-A showing the positional relationship of the cutter blade in the crusher for cutting the steel structure shown in FIG.

3 is a perspective view of a conventional cutter blade.

4A is a perspective view of a cutter blade according to an embodiment of the present invention.

4B is a vertical sectional view of the cutter blade according to the embodiment of the present invention.

Figure 5 is a partial perspective view showing a state in which the cutter blade is mounted to the cutter body according to an embodiment of the present invention.

6a to 6d is a front view of a steel structure cutting crusher showing a state in which the cutter blade is mounted on the cutter body of various forms according to an embodiment of the present invention.

7A is a perspective view of a cutter blade according to another embodiment of the present invention.

FIG. 7B is a partial perspective view showing a state in which the cutter blade shown in FIG. 7A is mounted to the cutter body. FIG.

8 is a front view of a cutter blade according to another embodiment of the present invention.

9 is a front view of a crusher for cutting steel structures according to another embodiment of the present invention.

The present invention relates to a cutter blade for use in a crusher and a cutting machine for cutting steel structures, and more particularly, a cutter blade used to break or cut steel structures such as steel concrete structures, steel frames, rebars, grab iron, and the like. It relates to a crusher for cutting an iron structure.

In general, as a method of dismantling steel structures such as steel concrete structures, steel frames, rebars, etc., blasting methods and crushing methods for cutting structures using a crusher are commonly used. Recently, a diamond-embedded wire is wound around a cutting object. A diamond wire saw method for cutting an object by rotating the wire at high speed, and a water jet method for destroying a structure by spraying high pressure water have been developed and used. The double crushing method is convenient for equipment and is relatively suitable for construction in the city due to the relatively low generation of pollution such as noise and vibration when dismantling the structure. Since no car work is required, it is most widely used.

1 is a front view of a steel structure cutting crusher used in such a crushing method, Figure 2 is a vertical cross-sectional view taken along the line A-A showing the positional relationship of the cutter in the steel structure cutting crusher shown in FIG. As shown in Figures 1 and 2, a conventional steel structure cutting crusher is pivotally coupled to a pivot central axis 10, and the first and second crushing arms 30, 50 facing each other ). First and second cutter bodies 32 and 52 (cutter bodies) are respectively mounted on the front ends of the first and second crushing arms 30 and 50 so as to extend in the cutting plane direction, respectively. At the ends of the two cutter bodies 32 and 52, first and second cutters 34 and 54 are mounted, respectively. Further, for example, the end portions of the hydraulic cylinder body 20 and the hydraulic cylinder piston rod 22 are fixed to the rear ends of the first and second crushing arms 30 and 50 as driving means of the crusher, respectively. Here, the hydraulic cylinder body 20 coupled to the rear end of the first crushing arm 30 is rotatably coupled around the hydraulic cylinder fixed shaft 24, and coupled to the rear end of the second crushing arm 50. The hydraulic cylinder piston rod 22 is rotatably coupled to the piston fixed shaft 26. In such a crusher, when the hydraulic cylinder piston rod 22 extends or contracts from the hydraulic cylinder main body 20, the cutting surfaces of the crushing arms 30 and 50 with the cutters 34 and 54 are opened and closed, The cutters 34 and 54 of the 30 and 50 mesh with each other, and the objects located therebetween are cut.

As shown in FIG. 1, the first and second cutter bodies 32 and 52 are generally formed as one body, but the first and second cutters 34 and 54 are each a plurality of cutter blades. (34a, 34b, 34c, 54a, 54b, 54c: cutter blades). FIG. 3 is a perspective view of such a cutter blade 34a. As shown in FIG. 3, the conventional cutter blade 34a has a plate-shaped rectangular parallelepiped shape having a predetermined thickness, and the cutter blade 34a is disposed at the center thereof. One or more through holes 69 are formed for mounting to the cutter body 32 such that the cutter bodies 32 and 52 and the cutter blade 34a are screwed through the through holes 69, for example, by screws. Combined. As shown in Figures 2 and 3, in the crushing process of the crusher, one edge 62a of the cutter blade 34a is engaged with the edge of the other cutter blade, and thus the reinforcing bars to be crushed are sandwiched between the engaging edges. The edges 62a engaged with each other wear or break according to the use of the crusher. When one edge 62a of the cutter blade 34a is worn in this manner, the cutter body 32 and the cutter blade 34a are disassembled, and the cutter blade 34a is rotated 180 degrees or B in FIG. When rotated 180 degrees to engage the cutter body (32, 52) again, three non-wearing edges (62b, 62c, 62d) of the cutter blade (34a) can be used for crushing the reinforcing bar. However, such a conventional cutter blade 34a can use only some edges of the cutter blade 34a for crushing, and deform the shapes of the crushed edges 62a, 62b, 62c, 62d of the cutter blade 34a as necessary. Since it is difficult to make, and has a long plate-shaped rectangular parallelepiped shape, there is a disadvantage that structural damage is easy when crushing the high-strength reinforcing bar.

Accordingly, it is an object of the present invention to provide a cutter blade that can utilize more corners for squeezing of the rebar. Another object of the present invention is to provide a cutter blade which is easy to deform the shape of the crushed corners as necessary. Still another object of the present invention is to provide a cutter blade which can be easily applied to a cutter body having various structures, and a crusher for cutting a steel structure having the same. Another object of the present invention is to provide a cutter blade and a crusher for cutting a steel structure having the same, which are not only structurally difficult to break, but also replaceable at a low cost even when broken.

In order to achieve the above object, the present invention has a regular polygonal plate-like structure having a predetermined thickness, and provides a cutter blade for cutting crusher for steel structure in which one or more fastening through-holes are formed symmetrically with respect to the center of the regular polygonal surface. do. The invention also includes a first and second crush arm which is pivotally coupled to a pivot central axis and opposed to each other; First and second cutter bodies mounted on opposite front ends of the first and second crushing arms, respectively, in the cutting surface direction of the first and second crushing arms; A plurality of cutter blades mounted at ends of the first and second cutter bodies, respectively; And a driving means mounted to the rear ends of the first and second crushing arms, the driving means for driving the crushing arms, wherein the cutter blade has a regular polygonal plate structure having a predetermined thickness. The present invention provides a crusher for cutting a steel structure in which at least one fastening through-hole is formed symmetrically with respect to the center of the regular polygonal surface.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the cutter blade and the steel structure cutting crusher having the same according to an embodiment of the present invention.

Cutter blade for cutting steel structures according to the present invention has a regular polygonal plate-like structure having a predetermined thickness, one or more fastening through-holes are formed symmetrically with respect to the center of the regular polygonal surface. The regular polygonal plate-like structure of the cutter blade may have a variety of structures, such as square, regular triangle, regular pentagon, regular hexagon, hereinafter, with a focus on the case of the regular polygon structure square and equilateral triangle, for the crusher for cutting steel structures according to the present invention The cutter blade will be described in detail.

Figure 4a is a perspective view of a cutter blade according to an embodiment of the present invention, Figure 4b is a vertical cross-sectional view of the cutter blade. As shown in Figure 4a, the cutter blade 100 according to an embodiment of the present invention has a square plate-like structure having a predetermined thickness. Each side of the side surface 108 of the cutter blade 100, that is, the length of the corners 104a, 104b, 104c, 104d is 10 to 200 mm, preferably 20 to 150 mm, and has a length that is substantially the same as the horizontal and vertical sides. Have If the length of the corners 104a, 104b, 104c, 104d is less than 10 mm, there is a disadvantage in that the number of cutter blades 100 to be mounted on one crusher is too large. If 100) is broken, the replacement cost is unnecessarily increased. The thickness (t) of the cutter blade 100 is formed to a thickness such that the cutter blade 100 is not easily bent or broken when the steel is crushed, preferably when the edge 104a of one side is broken. In addition, adjacent edges 106a of the other side are formed to a thickness that does not break, specifically, within 1.2 times, preferably 0.2 to 1.0 times, more preferably the length of the corners 104a, 104b, 104c, 104d. Preferably it has a thickness of 10 to 100m. Here, when the thickness t of the cutter blade 100 is too thin, the cutter blade 100 may be damaged when the rebar is crushed, and when the thickness t is too thick, it may be economically disadvantageous without any special benefit. It is only. At least one fastening through hole 102 is formed at the side surface 108 of the cutter blade 100 according to an embodiment of the present invention. For example, as shown in FIG. A thread is formed in the 102 so that the through hole 102 itself may be screwed to the fastening screw member, and as shown in FIG. 4B, fastening nuts or both ends of the through hole 102. A cylindrical fastening member accommodating groove 103 for accommodating the bolt head may be formed. As shown in C of FIG. 4B, the fastening member accommodating groove 103 may accommodate the dish head bolt. It may be formed in a conical shape. In addition, when one fastening through-hole 102 is formed, the through-hole 102 is formed at the center of the cutter blade side 108, and at least two fastenings are formed on the side 108 of the cutter blade 100. When the through holes 102a, 102b, 102c and 102d (see FIG. 4a) are formed, they are rotated in the direction of the side of the cutter blade 100 so that the cutter blade side 108 can be rejoined. It is formed symmetrically about the center of). The cutter blade 100 may be made of various metals having a hardness enough to cut the reinforcing bar, and specifically, may be made of a material having a hardness of HRC 40 or more, preferably 80 to 90. . As such metals, sintered alloys such as alloy steel for cold molds and alloy steels for hot molds can be used. Specifically, these materials, including Japanese Industrial Standard JIS symbol SKD 61, SKD 11, SKT, SKS metal or HARDOX PLATE 400-600 Metals or the like can be used.

5 is a partial perspective view illustrating a state in which the cutter blade 100 is mounted to the cutter body 32. As shown in FIG. 5, the cutter body 32 has a plurality of fixing holes 202 corresponding to the through holes 102 of the cutter blade 100 at predetermined intervals along the length direction of the cutter body 32. A step 204 may be formed at a side of the cutter body 32 to which the cutter blade 100 may be mounted. The cutter blade 100 is sequentially placed on the step 204 of the cutter body 32, and fastening member 210, for example, a bolt, passing through the through hole 102 and the fixing hole 202. And by a nut. When the cutter blade 100 is fixed to the cutter body 32 as described above, the outermost corner 104a of the cutter blade 100 is used for crushing or cutting steel, etc., and the corner 104a is broken. In this case, the cutter blade 100 is separated from the cutter body 32, and the cutter blade 100 is rotated 90 degrees in the A direction and / or 180 degrees in the B direction of FIG. 4A, and then coupled to the cutter body 32 again. By doing so, eight edges 104a, 104b, 104c, 104d, 106a, 106b, 106c, and 106d of the cutter blade 100 can be used as reinforcing bars. In addition, when the thickness t of the cutter blade 100 is the same as the length of the corner 104a, the through holes 102 are formed in two adjacent side surfaces of the cutter blade 100, and the cutter blade 100 ) By rotating 90 degrees vertically, all 12 corners can be used as reinforcing bars. Therefore, compared with the conventional cutter blade using only four corners for rebar crushing, the cutter blade 100 of the present invention can improve the edge utilization of the edge more than two times.

6A to 6D are front views of a crusher for cutting steel structures showing a state in which a cutter blade according to an embodiment of the present invention is mounted on various types of cutter bodies. Unlike the conventional cutter blade, the cutter blade 100 according to the present invention has a regular polygonal shape, and as shown in FIGS. 6A to 6D, the cutter blade 100 may be easily mounted to the cutter bodies 32 and 52 having various shapes. Can be. Specifically, as shown in FIG. 6A, when the cutter bodies 32 and 52 on which the cutter blades 100 are mounted form an arc, the cutter bodies 32 and 52 form a straight line as shown in FIG. 6B. In the case where the cutter bodies 32 and 52 are curved as shown in FIG. 6C, the cutter blade 100 may be more easily mounted and used. In addition, as illustrated in FIG. 6D, the cutter blade 100 having an equilateral triangle may be mounted on the arc-shaped cutter bodies 32 and 52. The other components of the crusher used in the present invention have the same function as described for the crusher of the prior art. That is, the crusher according to the present invention is pivotally coupled to the pivot central axis 10 and includes first and second crushing arms 30 and 50 facing each other, and the first and second crushing arms The first and second cutter bodies 32 and 52 are mounted to the front ends of the 30 and 50 facing each other, respectively, extending in the cutting plane direction, and at the ends of the first and second cutter bodies 32 and 52, respectively. Each of the plurality of cutter blades 100 is sequentially mounted. Further, at the rear ends of the first and second crushing arms 30 and 50, a driving means 20 for driving the crushing arms 30 and 50, for example, a hydraulic cylinder, is mounted.

Figure 7a is a perspective view of a cutter blade according to another embodiment of the present invention, Figure 7b is a partial perspective view showing a state in which the cutter blade is mounted to the cutter body. The cutter blade 300 shown in FIGS. 7A and 7B is substantially the same as the cutter blade 100 shown in FIG. 4A except that the shape of the side surface 308 has an equilateral triangle shape. Accordingly, the length, thickness t and material of each side of the cutter blade 300, that is, the edges 304a, 304b and 304c, and the function of the through hole 302 formed in the cutter blade 300 are illustrated in FIG. 4A. Same as the cutter blade 100 having the square side shown in FIG. In addition, as shown in FIG. 7B, the cutter body 32 for mounting the cutter blade 300 has a sawtooth step 310 formed so as to easily accommodate the cutter blade 300 having an equilateral triangle in the shape of the side surface. It is preferable that it is done. When the cutter blade 300 having an equilateral triangle shape is fixed to the cutter body 32 as described above, the outermost edge 304a of the cutter blade 300 is used for squeezing the rebar, and the edge 304a. Is broken, the cutter blade 300 is removed from the cutter body 32, and the cutter blade 300 is rotated 120 degrees in the A direction or 180 degrees in the B direction of FIG. By joining, six edges 304a, 304b, 304c, 306a, 306b, and 306c of the cutter blade 100 can be used as reinforcing bars.

8 is a front view of a cutter blade according to another embodiment of the present invention, wherein the cutter blade 400 shown in FIG. 8 has an arc shape in which four corners 404a, 404b, 404c, and 404d of the square side surface 408 are concave. It is substantially the same as the cutter blade 100 shown in FIG. 4A except for having a. As illustrated in FIG. 8, when the crushed corners 404a, 404b, 404c, and 404d are formed in a concave arc shape, there is an advantage that the sliding or moving of the crushed steel can be effectively prevented. The radius of curvature of the circular arcs formed at the four corners 404a, 404b, 404c, and 404d of the cutter blade 400 may be appropriately selected depending on the type of steel to be crushed, but preferably 10 to 200 mm.

In the above description, the side shape of the cutter blade according to the present invention has been described as a case of square and an equilateral triangle. Similarly, when the side shape of the cutter blade is a regular pentagon, the cutter blade is rotated by 72 degrees in the lateral direction and crushed. The edges can be replaced, and when the side shape of the cutter blade is a regular hexagon, the cutter blade can be rotated by 60 degrees to replace the crushed corners. In this manner, the cutter blade according to the present invention may have various regular polygonal side shapes, and the deformation of the edge shape as shown in FIG. 8 may be applied to the edges of other regular polygonal side surfaces. The crusher for cutting steel structures according to the present invention can be used for cutting and crushing steel, "L", "c", "H", "I" -shaped steel, iron plate, etc. It is especially suitable for working environments where the weak rebar is mixed and the crushed edges of the cutter blade are susceptible to damage.

In the present specification, the present invention has been described based on the accompanying drawings, but various modifications are possible within the scope of the present invention described in the following claims. For example, other driving means such as a motor may be used instead of the hydraulic cylinder as the driving means of the crushing arms 30, 50, or as shown in FIG. 9, the two hydraulic cylinders 20a and 20b may be used as the crushing arm ( 30 and 50 may be driven respectively, and it is obvious that the connecting means of each member such as bolts and nuts may be replaced with other conventional connecting means such as rivets.

As described above, the cutter blade for cutting steel structures according to the present invention can use more edges for the crushing of the reinforcing bar, it is easy to deform the shape of the crushed corner as necessary, the cutter blade is broken If replacement is easy. In addition, the crusher for cutting steel structures according to the present invention can easily modify the shape of the cutter body.

Claims (7)

A cutter blade for cutting a steel structure having a regular polygonal plate-like structure having a predetermined thickness, wherein at least one through hole for fastening is formed symmetrically about a center of the regular polygonal plane. The cutter blade of claim 1, wherein the regular polygonal plate structure is selected from square, equilateral triangle, regular pentagon, and regular hexagonal plate structures. According to claim 1, wherein the square plate-like structure is a square plate-like structure, the length of each corner of the square side is 10 to 200mm, the thickness of the cutter blade for cutting the steel structure is 0.2 to 1.0 times the length of the corner. Cutter blades for crushers. The cutter blade of claim 3, wherein the length of each corner of the square side is equal to the thickness of the cutter blade, and through holes are formed in two adjacent sides of the cutter blade. . The cutter blade according to claim 1, wherein each corner of the regular polygonal side of the regular polygonal plate structure has a concave arc shape. First and second crushing arms pivotally coupled to the pivot central axis and opposed to each other; First and second cutter bodies mounted on opposite front ends of the first and second crushing arms, respectively, in the cutting surface direction of the first and second crushing arms; A plurality of cutter blades mounted at ends of the first and second cutter bodies, respectively; And It is mounted to the rear end of the first and second crushing arm, the crusher for cutting steel structure comprising a driving means for driving the crushing arm, The cutter blade has a regular polygonal plate-like structure having a predetermined thickness, one or more fastening through-holes are formed symmetrically with respect to the center of the regular polygonal surface for cutting the steel structure. 7. The crusher of claim 6, wherein the first and second cutter bodies have an arc, straight or curved shape.

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