KR200356061Y1 - Crusher for cutting steel-structure capable of preventing cutter-twisting - Google Patents

Abstract

Disclosed is a crusher for cutting a steel structure having a crushing arm that breaks or cuts a steel structure such as a steel concrete structure or a steel frame. The crusher for cutting steel structures is pivotally coupled to a pivot central axis, and includes first and second crushing arms facing each other; First and second cutters mounted at front ends of the first and second crushing arms, respectively, for cutting an object; Drive means mounted to rear ends of said first and second crushing arms; And spaced apart from the pivot central axis by a predetermined distance, coupled to the first crushing arm, and fitted into an arc-shaped groove formed in the second crushing arm, as the first and second crushing arms pivotally rotate. It comprises a cutter fixed shaft moving along the arc-shaped groove.

Description

Crusher for cutting steel-structure capable of preventing cutter-twisting}

The present invention relates to a crusher for cutting steel structures, and more particularly, to a crusher for cutting steel structures having a crushing arm for crushing or cutting steel structures such as steel concrete structures, steel frames.

In general, as a method of dismantling steel structures such as steel concrete structures, steel frames, etc., a blasting method, a crushing method for cutting a structure using a crusher, etc. is commonly used. A diamond wire saw method for cutting an object by rotating the wire at high speed with a driving device, and a water jet method for destroying a structure by spraying high pressure water has been developed and used. The double crushing method is suitable for construction in the city due to the relatively low generation of pollution such as noise and vibration when dismantling the structure, and also eliminates the secondary work for cutting the rebar by simultaneously cutting the internal reinforcing bars when the concrete structure is broken. Most commonly used.

The crusher used in such a crushing method has a pair of opposing crushing arms which are pivotally coupled to one central axis, and the rear end of the pair of crushing arms is equipped with both ends of the hydraulic cylinder, As the piston of the cylinder reciprocates, the front end of the crush arm equipped with the cutter is opened and closed, so that an object located between the cutters of the crush arm is cut. In such a normal crusher, when the cutting object is sandwiched between the cutters of the pair of crushing arms and the cutter of the crushing arm is brought into close contact, the cutting object is obliquely sandwiched between the cutters of the crushing arm, thereby cutting the crushing arm. There is a problem of separating the cutter in the vertical direction with respect to the direction. In this way, when the pair of crushing arms are vertically spaced in the cutting direction, and the twisting of the cutter occurs, the cutting of the object cannot be performed smoothly, and the twisting arm is bent to remove the twisting of the cutter, or the entire crushing arm is removed. There is a problem that needs to be replaced.

Accordingly, an object of the present invention is to provide a crusher for cutting a steel structure having a cutter torsion preventing device, which can prevent the crushing arm from being vertically spaced with respect to the cutting plane or the cutting direction during the cutting of the object.

Another object of the present invention is to provide a crusher for cutting steel structures with a cutter torsion preventing device that can improve the cutting efficiency of the object.

Still another object of the present invention is to provide a crusher for cutting steel structures which can prevent foreign substances from being caught between the cutters.

1 is a front view of a crusher for cutting steel structure having a cutter torsion preventing apparatus according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line AA ′ of FIG. 1.

Figure 3 is a front view of the second crushing arm used in the crusher for cutting steel structures according to an embodiment of the present invention.

Figure 4 is a vertical cross-sectional view showing the positional relationship of the first and second cutter in the crusher for cutting steel structure according to another embodiment of the present invention.

In order to achieve the above object, the present invention is pivotally coupled to the pivot central axis, the first and second crushing arm facing each other; First and second cutters mounted at front ends of the first and second crushing arms, respectively, for cutting an object; Drive means mounted to rear ends of said first and second crushing arms; And spaced apart from the pivot central axis by a predetermined distance, coupled to the first crushing arm, and fitted into an arc-shaped groove formed in the second crushing arm, as the first and second crushing arms pivotally rotate. In addition, the present invention provides a steel structure cutting press having a cutter torsion preventing device including a cutter fixed shaft moving along the arc-shaped groove.

The present invention also has a cutting surface of the first cutter mounted on the first crushing arm and the cutting surface of the second cutter mounted on the second crushing arm, with respect to the cutting surface S of the object, located opposite to each other. 2 The cutting surface of the cutter is on the same plane as the cutting surface (S) of the object, the upper portion of the cutting surface of the first cutter is closer to the cutting surface of the object than the lower surface of the cutting surface of the first cutter, cutter twist prevention Provided is a crusher for cutting steel structures having a device.

Hereinafter, with reference to the accompanying drawings will be described in detail a crusher for cutting steel structure according to a preferred embodiment of the present invention.

1 is a front view of a crusher for cutting a steel structure having a cutter torsion preventing apparatus according to an embodiment of the present invention. As shown in FIG. 1, the crusher for cutting a steel structure according to an embodiment of the present invention is pivotally coupled to the pivot central axis 10, and opposes the first and second crushing arms 30, respectively. 50). First and second cutters 32 and 52 for cutting an object are mounted at front ends of the first and second crushing arms 30 and 50, respectively, and the first and second crushing arms 30 and 50 are mounted. The end of the hydraulic cylinder main body 70 and the hydraulic cylinder piston rod 72 is fixed to the rear end of) as a drive means of a crusher, for example. Here, the hydraulic cylinder body 70 coupled to the rear end of the first crushing arm 30 is rotatably coupled around the hydraulic cylinder fixed shaft 74, and coupled to the rear end of the second crushing arm 50. The hydraulic cylinder piston rod 72 is rotatably coupled to the piston fixed shaft 76.

2 is a cross-sectional view taken along line AA ′ of FIG. 1, and FIG. 3 is a front view of the second crushing arm 50. As shown in FIG. 2, the first and second crushing arms 30 and 50 are each formed of two steel plates facing each other in parallel to each other, and two parallel constituting the second crushing arms 50. The steel sheet is to be sandwiched between two parallel steel plates constituting the first crushing arm (30). In addition, the two parallel steel plates constituting the first crushing arm 30 are each equipped with a pair of first bushings 34 into which the pivot center axis 10 is fitted, and the first bushing 43. ) And a pair of second bushings 36, into which the cutter fixing shaft 90 is fitted, spaced apart from each other by a predetermined distance.

As shown in FIGS. 2 and 3, two parallel steel plates constituting the second crushing arm 50 are equipped with a pivot shaft pipe 54 into which the pivot center shaft 10 is fitted. The pair of steel plates constituting the two crushing arms 50 and the pivot shaft pipe 54 are fixedly connected by the welding portion 56. In addition, two parallel steel plates constituting the second crushing arm 50 are formed with arc-shaped grooves 58 into which the cutter fixing shaft 90 is fitted, and a high diameter around the outer circumference of the arc-shaped grooves 58. A protective layer 60 is formed. As clearly shown in FIG. 3, the arc-shaped groove 58 is such that the center C of the arc constituting the arc-shaped groove 58 is the same as the center C of the pivot central axis 10. An angle H formed between the arc-shaped groove 58 and the center C of the arc is formed to be equal to or greater than the angle at which the second crushing arm 50 rotates about the pivot center axis 10. have. The high hardness protective layer 60 is to prevent the second crushing arm 50 from being worn by friction due to the rotational movement of the first and second crushing arms 30 and 50, and has an HRC hardness. It may be made of a material having a hardness of 50 or more, for example, HARDOX PLATE 500. In Fig. 2, reference numerals 39 and 38 denote connection means for fixing the pivot central axis 10 to the first crushing arm 30, for example, bolts and the bolt support plate, and reference numeral 40 denotes a cutter fixing. A connecting means, for example a bolt or a nut, for securing the shaft 90 to the first crushing arm 30 is shown.

Therefore, the pivot center shaft 10 is fitted to the pair of first bushings 34 formed on the first crushing arm 30 and the pivot shaft pipe 54 formed on the second crushing arm 50, The first and second crushing arms 30 and 50 are pivotally rotated. The cutter fixing shaft 90 is fitted into a pair of second bushings 36 formed in the first crushing arm 30 and arc-shaped grooves 58 formed in the second crushing arm 50, and the first And as the second crushing arms 30 and 50 pivotally rotate, they move along the arcuate groove 58. In the crusher according to the present invention, the first and second crushing arm (30, 50) is coupled in two places by the pivot center axis 10 and the cutter fixed shaft 90, the second pressure It is possible to prevent the second crushing arm 50 from moving in the direction of rotation of the chain arm 50, that is, perpendicular to the cutting direction of the object, and thus, the front end of the first and second crushing arms 30 and 50. It is possible to effectively prevent the twisting or unevenness of the first and second cutters 32 and 52 formed in the grooves.

Referring to Figure 1 again, the operation of the crusher for cutting steel structure according to an embodiment of the present invention will be described. First, as shown in FIG. 1, in a state where the first and second crushing arms 30 and 50 are spaced apart from each other, the hydraulic cylinder body 70 is operated to extend the hydraulic cylinder piston rod 72. In other words, the hydraulic cylinder piston rod 72 pushes the rear end of the second crushing arm 50 to rotate the second crushing arm 50 about the pivot central axis 10. By the rotation of the second crushing arm 50, the first and second cutters 32 and 52 formed at the front end of the first and second crushing arms 30 and 50 are adjacent to each other. The object sandwiched between the first and second cutters 32 and 52 is cut. At this time, the hydraulic cylinder body 70 coupled to the rear end of the first crushing arm 30 rotates around the hydraulic cylinder fixed shaft 74, the hydraulic cylinder coupled to the rear end of the second crushing arm 50. The end of the piston rod 72 rotates about the piston fixed shaft 76. In addition, the cutter fixing shaft 90 fixed to the first crushing arm 30 moves along the arc-shaped groove 58 formed in the second crushing arm 50, and the first crushing arm 30 and the first The interval between the two crushing arms 50 is maintained to prevent twisting or opening of the first and second cutters 32 and 52.

4 is a view for explaining a steel structure cutting crusher according to another embodiment of the present invention, the position of the cutter (32, 52) in the state in which the first crushing arm 30 and the second crushing arm 50 is engaged It is a vertical section showing the relationship. As shown in Figure 4 and 1, the crusher for cutting steel structure according to the present invention is pivotally coupled to one pivot center axis 10 and the pivot center axis 10, the first facing each other First and second crushing arms 30 and 50, and first and second crushing arms 30 and 50 are provided at the front end of the first and second cutters 32 and 52 for cutting the object, respectively. It is installed. Here, the cutting surface 32 ′ of the first cutter 32 mounted on the first crushing arm 30 and the second cutter (50) mounted on the second crushing arm 50 based on the cutting surface S of the object. The cutting surface 52 'of 52 is positioned opposite to each other, the cutting surface 52' of the second cutter 52 is coplanar with the cutting surface S of the object, and the first cutter 32 The upper part of the cut surface 32 'of the upper surface is closer to the cut surface S of the object than the lower part of the cut surface 32' of the first cutter 32. Therefore, the cutting surface 32 ′ of the first cutter 32 has a structure inclined at a predetermined angle a with respect to the cutting surface S of the object, and thus the cutting surface 32 of the first cutter 32 is thus inclined. ') Is inclined at a predetermined angle (a) with respect to the cut surface S of the object, so that the first and second cutters 32 and 52 are engaged between the first and second cutters 32 and 52 when the first and second cutters 32 and 52 are engaged. Foreign matter is caught and the cutters 32 and 52 can be prevented from twisting. The angle a at which the cutting surface 32 ′ of the first cutter 32 is inclined is 2 to 30 degrees, preferably 5 to 15 degrees. If the angle is too small, foreign matter may be caught in the cutters 32 and 52. Can not be effectively prevented, and if the angle is too wide, it is difficult to apply sufficient cutting force when cutting the object, or the cutter 32 tends to be broken.

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, the crushing arms 30 and 50 may be constituted by a single steel plate or a plurality of steel plates instead of two parallel steel plates, and other motors, such as a motor instead of a hydraulic cylinder, as a driving means of the crushing arms 30 and 50. It is apparent that the driving means may be used, or the connecting means of each member such as bolts and nuts may be replaced by other conventional connecting means such as rivets.

As described above, the crusher for cutting steel structures according to the present invention not only prevents the crushing arm from being vertically spaced apart from the cutting direction in the cutting process of the object, and also prevents foreign matter from being caught between the cutters. There is an effect that can improve the cutting efficiency of the object.

Claims (6)

First and second crushing arms pivotally coupled to the pivot central axis and opposed to each other; First and second cutters mounted at front ends of the first and second crushing arms, respectively, for cutting an object; Drive means mounted to rear ends of said first and second crushing arms; And Spaced apart from the pivot center axis by a predetermined distance, coupled to the first crushing arm, and fitted into an arc-shaped groove formed in the second crushing arm, such that the first and second crushing arms are pivotally rotated. Crusher for cutting steel structure having a cutter torsion prevention device including a cutter fixed shaft moving along the arc-shaped groove. The crusher for cutting a steel structure according to claim 1, wherein a protective layer is formed around an outer circumference of the arc-shaped groove formed in the second crushing arm. The crusher for cutting a steel structure according to claim 1, wherein a center of the arc constituting the arc-shaped groove is equal to a center of the pivot center axis. According to claim 1, wherein the angle (H) formed between the arc-shaped groove and the center of the arc is formed to be equal to or greater than the angle that the second crushing arm rotates about the pivot center axis. For crusher. First and second crushing arms pivotally coupled to the pivot central axis and opposed to each other; First and second cutters mounted at front ends of the first and second crushing arms, respectively, for cutting an object; And driving means mounted to rear ends of the first and second crushing arms. Based on the cutting surface S of the object, the cutting surface of the first cutter mounted on the first crushing arm and the cutting surface of the second cutter mounted on the second crushing arm are located opposite to each other, and the cutting surface of the second cutter Is on the same plane as the cutting surface S of the object, and the upper portion of the cutting surface of the first cutter is closer to the cutting surface of the object than the lower portion of the cutting surface of the first cutter. Crusher for cutting steel structures. The crusher for cutting steel structures according to claim 5, wherein the inclination angle of the cutting surface of the first cutter is 2 to 30 degrees.