KR101613369B1 - Apparatus for cutting curved surface of stone - Google Patents

Abstract

An objective of the present invention is to provide an apparatus to cut a curved surface of a stone which prevents a wearing off of one side. According to the present invention, the apparatus to cut the curved surface of the stone comprises: a moving unit (100) on which the stone moves along a guide rail (110) installed in a floor; a support unit (200) including a vertical frame (210) vertically installed in both sides of the guide rail (110); and a cutting unit (300) to move vertically along the vertical frame (210) of the support unit (200), and cut a curved surface on the stone (B) moved by the moving unit (100). The cutting unit (300) comprises: a driving wheel (310) installed in the vertical frame (210) on one side to be moved vertically; a driven wheel (320) installed in the vertical frame (210) on an other side to be moved vertically with the driving wheel (310); a cutting wire (301) wound on the driving wheel (310) and the driven wheel (320) to cut the stone (B); a driving wheel drive means (330) to supply power to the driving wheel (310); a lifting means (340) to vertically move the driving wheel (310) and the driven wheel (320) together; and a cutting wire rotating means (400) installed in the vertical frame on one side and the other side to vertically be moved, installed in a circulation path of the cutting wire (301) between the driving wheel (310) and the driven wheel (320), and shaft-rotates the cutting wire (301) to change a surface coming in contact with the stone (B) when cutting the stone (B).

Description

[0001] Apparatus for cutting curved surface of stone [0002]

The present invention relates to a stone curving device for cutting a stone curved surface in a continuous automated operation.

Since the stone produced in the mine is collected in various sizes, it can not be used as building material or civil engineering material as it is collected. Therefore, it is cut into a proper size and processed into a form such as panel, boundary stone, block, do.

Generally, circular saws are widely used for cutting or cutting, and since the surface of a stone cut with a circular saw is not smooth and constant, it is necessary to polish and process the exposed surface . In addition, it is not easy to produce a plate or a curved surface in stone cutting, and in particular, a curved stone has to be manually manufactured by a skilled worker using a large cutting machine, a hand grinder, or a hand cutter . As a result, the skill and condition of the worker are very important, which results in a high defect rate and a large manufacturing cost, resulting in a problem of deteriorating productivity.

As described above, since most of the stone structures are hand-operated, the above-described problems occur, and therefore apparatuses for automatically cutting stone are being developed. For example, in the conventional round-type boundary stone manufacturing apparatus 1 shown in FIG. 1, A pair of supports 30 vertically erected on both sides of the guide rail 10; a guide rail 10 installed on the floor; a carriage 20 reciprocating a predetermined section along the guide rail 10; And a stone cutter 40 installed vertically through the struts 30 and vertically cutting the stone B placed on the truck 20 through a cutting wire 41. [

A horizontal member 50 is fixed to the support 30 at both ends of the support 30 and a pair of support brackets 40a are supported on the support 30 to be movable up and down. Respectively. A stone cutter 40 is installed through the support brackets 40a and the support bracket 40a is vertically moved through a vertical or spiral bar 52 driven by an elevation drive motor 51 installed on the horizontal member 50. [ .

A control device (not shown) for controlling the forward or backward movement of the carriage 20 on which the stone B to be processed is placed according to the operation of the stone cutter 40 is further provided.

The stone cutter 40 is composed of a drive wheel 42 and a driven wheel 43 provided on each support bracket 40a and a cutting wire 41 wound on the drive wheel 42 and the driven wheel 43 . Cutting wire grooves 42a and 43a are formed in the driving wheel 42 and the driven wheel 43 to prevent the cutting wire 41 from coming off.

The conventional round-type boundary stone producing apparatus 1 having such a construction produces the round-shaped boundary stone A in the following order.

First, when the stone B is placed on the upper surface of the carriage 20, the carriage 20 is moved along the guide rail 10 to the vertical direction of the stone cutter 40. At the same time, the elevating means is operated to lower the stone cutter 40 at a proper speed, and the driving wheel 42 of the stone cutter 40 rotates and the cutting wire 41 starts rotating at a high speed.

As the stone cutter 40 continues to descend, the stone B starts to be cut vertically, at which time the control device moves the carriage 20 forward at a proper speed. That is, the control device causes the cutting wire 41 to start cutting of the stone B and gradually advances the carriage 20. When the cutting wire 41 reaches the middle portion of the stone B, the control device gradually moves the carriage 20 backward.

1, the rounded boundary stones A having the maximum curvature at the center are completed. The overall curvature of the rounded boundary stones A is determined according to the forward / backward velocity of the bogie 20, It is different. Thereafter, the completed round type boundary slab A may be re-cut to an appropriate thickness to meet the site or standard to be constructed.

On the other hand, the following prior art documents disclose that such a round-type boundary stone producing apparatus 1 is provided with a plurality of driven wheels to obtain a plurality of round-shaped stone cut surfaces, and the tension of the cutting wire can be adjusted have.

The conventional round type boundary stone manufacturing apparatus 1 configured and operated as described above has the following problems. Fig. 2 is an enlarged side view when cutting the stone B with the cutting wire 41 rotating.

Referring to Fig. 2, as described above, the cutting wire 41 starts orbiting at a high speed by the rotation of the driving wheel 42, and the stone cutter 40 continues to descend as indicated by the arrow C, B starts to be cut vertically. At this time, the bogie 20 is moved forward (in the direction of the arrow D) or backward at a proper speed, thereby processing the stone with a desired curved surface.

Here, the cutting wire 41 is intensively worn on a part of the surface contacting the stone B, that is, the lower surface 41a and the right surface 41b in the drawing. As the uneven wear is generated in the cutting wire 41, the cutting wire 41 needs to be frequently replaced. Therefore, the cost is increased, and the accuracy of cutting is lowered during the cutting of the stone during abrasion, . In order to solve the above problem, the position of the cutting wire 41 can be changed. However, in this case, there are many troubles such as disassembling the cutting wire 41 from the driving wheel 42, Resulting in a problem of deteriorating productivity.

Korean Patent Laid-Open No. 10-2008-0088080 (published on October 22, 2008)

It is an object of the present invention to provide a stone curved surface cutting apparatus capable of preventing uneven wear by rotating a cutting wire in an axial direction during processing of a stone.

In order to accomplish the above object, a stone curving apparatus according to the present invention includes a moving unit 100 for moving a stone along a guide rail 110 installed on a floor, and a moving unit 100 vertically installed on both sides of the guide rail 110 A supporting unit 200 including a vertical frame 210 and a cutting unit 220 for cutting a stone B moving along the vertical frame 210 of the supporting unit 200 and moving by the moving unit 100, Unit 300 as shown in FIG.

The cutting unit 300 includes a driving wheel 310 mounted on a vertical frame 210 on one side and a driven wheel 310 mounted on the vertical frame 210 on the other side so as to be able to move up and down together with the driving wheel 310. [ A cutting wire 301 wound around the driving wheel 310 and the driven wheel 320 to cut the stone B and driving wheel driving means 330 for providing power to the driving wheel 310, A lifting means 340 for lifting and lowering the driving wheel 310 and the driven wheel 320 together and an elevating means 340 for lifting and lowering the driving wheel 310 and the driven wheel 320, A cutting wire 301 is provided on a circulation path of the cutting wire 301 between the cutting wire 301 and the cutting wire 301 so as to rotate the cutting wire 301 to change the contact surface with the stone B when cutting the stone B, Rotating means (400).

The cutting wire rotating means 400 includes a stationary bracket 410 supported by a support bracket 215 connected to the vertical frames 210 on both sides of the stationary bracket 410, A support plate 430 installed to protrude from the rotation plate 420 and a support plate 430 fixed to the support plate 430 and having a through hole 412 through which the cutting wire 301 passes, The first and second guide members 440 and 450 are disposed facing each other with the cutting wire 301 interposed therebetween so as to be in contact with the cutting wire 301. The first and second guide members 440 and 450 rotate the rotary plate 420, And a drive motor 460 for rotating the guide members 440 and 450. The cutting wire 301 is rotated by the rotation of the first and second guide members 440 and 450 according to the rotation of the rotation plate 420.

The first guide member 440 and the second guide member 450 have a circular plate shape having a predetermined thickness and are formed with receiving grooves 440a and 450a on the outer circumferential surface thereof for receiving the cutting wire 301, The first guide member 440 and the second guide member 450 are disposed such that distances from the respective middle points of the first guide member 440 and the second guide member 450 are different from each other.

The cutting wire 301 rotates in a clockwise or counterclockwise direction in synchronization with the advancing or retreating direction of the stone B along with the movement of the mobile unit 100.

According to the present invention, by applying the cutting wire rotating means which is installed in contact with the cutting wire on the cutting wire circulating path between the driving wheel and the driven wheel to rotate the cutting wire, the contact surface contacting the stone at the time of cutting the stone is not one surface So that it is possible to prevent uneven wear and cutting of the cutting wire and to improve the quality of the stone processing, resulting in cost reduction and improved productivity.

1 is a perspective view of a stone curved surface cutting apparatus according to the prior art,
Fig. 2 is a side sectional view of the cutting wire when the stone is cut, Fig.
3 is a perspective view of a stone curved surface cutting apparatus according to a preferred embodiment of the present invention,
Fig. 4 is a front view of Fig. 3,
Fig. 5 is an enlarged perspective view of the cutting wire rotating means of Fig. 2,
Fig. 6 is a side view of Fig. 5. Fig.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

3 and 4, a stone curving apparatus for cutting stone according to an embodiment of the present invention includes a moving unit 100 for moving a stone, a cutting unit 300 for cutting a stone moved by the moving unit 100, And a support unit 200 for supporting the cutting unit 300.

The moving unit 100 includes a guide rail 110, a moving plate 120 moving along the guide rail 110, a mounting plate 130 installed on the moving plate 120, And a transfer drive unit (not shown) for moving the transfer plate 130 in an appropriate manner.

According to the embodiment of the present invention, the guide rail 110 is installed on the support plate 115 installed on the floor. However, the present invention is not limited thereto and the guide rail 110 may be directly fixed to the floor. Meanwhile, since a variety of known techniques can be applied to the structure in which the moving plate 120 moves without being detached from the guide rail 110, a detailed description thereof will be omitted. In addition, according to the embodiment of the present invention, two plates such as a moving plate moving along the guide rail 110 and a mounting plate on which a stone is seated on the moving plate may be combined, but the present invention is not limited thereto, It is applied in the form of a single plate in which the plate and the mount plate are combined and the stone can be seated thereon.

The support unit 200 has a configuration including a pair of support plates 230 fixed to the ground and a pair of vertical frames 210 vertically coupled to the support plates 230.

According to the embodiment of the present invention, the vertical frame 210 has a cylindrical shape due to its cross section, but the present invention is not limited to this, and the vertical frame 210 may have the shape of a square pillar having a rectangular cross section. The vertical frame 210 supports the cutting unit 300 and guides the cutting unit 300 to be moved up and down. Here, the cutting unit 300 is coupled to the vertical frame 210 by the support bracket 215. A horizontal frame 380 is installed on one side of the vertical frame 210 so that vibration or the like is suppressed when the cutting unit 300 moves up and down through the support bracket 215.

The cutting unit 300 includes a driving wheel 310 mounted on a vertical frame 210 on one side and a driven wheel 320 mounted on the vertical frame 210 on the other side so as to be able to move up and down together with the driving wheel 310. [ A cutting wire 301 which is wound on the drive wheel 310 and the driven wheel 320 and circulates orbits at a rapid pace by the rotation of the drive wheel 310 to cut the stone B, A lifting means 340 for lifting and lowering the driving wheel 310 and the driven wheel 320 together with the driving wheel 310 and a cutting wire rotating means 400 for rotating the cutting wire axially, And a water supply means 500 for supplying water to the cut portion when the stone is cut by the wire.

The elevating means 340 is connected to the support bracket 215 to allow the support bracket 215 to move up and down along the vertical frame 210. According to the embodiment of the present invention, a pneumatic or hydraulic cylinder is applied. However, the present invention is not limited to this, and an elevating means such as rotation of gears by rotation of a motor and helical rotation through gear engagement of the gears disclosed in the above-mentioned prior art documents can be applied.

The driving wheel 310 is installed to be supported by the supporting bracket 215 and receives driving force from the driving wheel driving means 330 installed at one side of the supporting bracket 215 and rotates. A driven wheel 320 is installed on a vertical frame on the opposite side of the vertical frame provided with the driving wheel 310. The driven wheel 320 receives power from the driving wheel 310 and the cutting wire 301 wound around the driven wheel 320 and rotates along the driving wheel 310. A protective cover 350 is installed in front of the driving wheel 310 and the driven wheel 320.

The cutting wire rotating means 400 is installed to be supported by the supporting bracket 215 like the driving wheel 310 and the driven wheel 320 and is installed to be vertically movable on one side and the other side of the vertical frame 210, Is installed on the circulating orbit path of the cutting wire 301 between the driving wheel 310 and the driven wheel 320. The cutting wire rotating means 400 causes the cutting wire 301 to rotate the cutting wire 301 in the orbital circulation in order to cut the stone material so as to change the contact surface with the stone B to prevent uneven wear It plays a role.

5 and 6, the cutting wire rotating means 400 includes a stationary bracket 410 fixed to the support bracket 215 of each of the vertical frames 210 on both sides of the stationary bracket 410, A support plate 430 mounted on the support plate 430 so as to protrude from the rotation plate 420 and supported by the support plate 430 so as to be rotatable about the axis of rotation and having a through hole 412 through which the cutting wire 301 passes; First and second guide members 440 and 450 installed to face the cut wire 301 with the cutting wire 301 interposed therebetween so as to be axially rotatable on the rotary plate 420, And a driving motor 460 that rotates the driving motor 460.

The first guide member 440 and the second guide member 450 have a circular plate shape having a predetermined thickness and the receiving grooves 440a and 450a are formed on the outer circumferential surface to receive the cutting wire 301, respectively. Since the surfaces of the receiving grooves 440a and 450a are in contact with the cutting wire 301, they may be formed of a soft material. The first and second guide members 450 are rotated about the axis by the frictional force by the high-speed orbit circulation rotation of the cutting wire 301.

The first guide member 440 and the second guide member 450 are disposed to be offset from each other with the cutting wire 301 interposed therebetween. That is, the first guide member 440 and the second guide member 450 are arranged so that the distances from the respective middle points of the first guide member 440 and the second guide member 450 are different from each other, whereby the first guide member 440 and the second guide member 450 The guide member 450 firmly holds the cutting wire 301 so that the rotational force can be transmitted well.

The drive motor 460 is rotatable in one direction or in both directions. That is, the first and second guide members 440 and 450 can rotate in only one direction but rotate in both the clockwise direction and the counterclockwise direction. Accordingly, the cutting wire 301 is also rotated clockwise or counterclockwise . It is preferable that the first and second guide members 440 and 450 rotate clockwise or counterclockwise in conjunction with the advance or retreat direction of the stone B, The first and second guide members 440 and 450 rotate in the first clockwise or counterclockwise direction in conjunction with the advance or retreat direction of the stone B so that the cutting wire 301 is also rotated clockwise or counterclockwise The contact surface contacting with the stone B is dispersed on a plurality of surfaces rather than on one surface by rotating clockwise so that it is possible to prevent uneven wear which is a problem of the prior art.

3 and 4, the rotating means forward and backward lever 480 serves to move the cutting wire rotating means 400 forward and backward. Although not shown, the lever 480 and the cutting wire rotating means 400 are connected to each other by a plurality of gear trains and a connecting member so that the cutting wire rotating means 400 is rotated in the forward / It is advanced and backward in the linear direction.

If the width (width) of the stone B is small and the cutting wire 301 is relatively long, the cutting wire may be slackened during the machining operation, resulting in a reduction in precision of the machining operation. In this case, when the rotary lever 480 is rotated in one direction (for example, clockwise), the cutting wire rotating means 400 advances in the direction of approaching each other to hold the cutting wire 301 in a linear direction . On the contrary, when the width of the stone B is large, the lever 480 is rotated in the other direction (for example, counterclockwise). The operator adjusts the length by manipulating the lever 480 before and after the machining operation.

1 and 2, the water supply means 500 is installed to be supported by the support bracket 215 and is disposed at a predetermined distance above the cutting wire 301, B) during the cutting. The cutting of the cutting wire 301 is facilitated by the water supply means 500. A pump (not shown) for supplying water to the water supply means 500 may be installed inside the horizontal frame 380.

The operation of the stone curved surface cutting apparatus of the present invention constructed as above will be described as follows.

First, when the stone B is placed on the upper surface of the mount plate 130, the moving plate 120 on which the mount plate 130 is mounted moves along the guide rail 110, The driving wheel 310 of the cutting unit 300 can be moved downward by a proper lowering of the support bracket 215 which is installed on the support bracket 215 so that the support bracket 215 can be moved up and down, The cutting wire 301 starts orbiting circulation rotation at a high speed.

As the cutting unit 300 continues to descend, the stone B starts to be cut vertically. At this time, the transfer drive unit (not shown) of the transfer plate 130 moves the transfer plate 120 in the advancing direction at an appropriate speed. That is, when the cutting wire 301 starts to cut the stone B, the feed driving unit gradually advances the moving plate 120 and the mount plate 130 on which the stone B is mounted to perform the curved surface processing.

The cutting wire rotating means 400 also starts to operate while the stone B is being cut, that is, while the cutting wire 301 is operating and cutting the stone B. That is, the cutting wire rotating means 400 causes the cutting wire 301 to rotate the cutting wire 301 in the orbital circulation rotation to cut the stone, thereby changing the contact surface with the stone B. The axis rotation of the cutting wire 301 according to the rotation of the cutting wire rotating means 400 is interlocked with the direction of the bogie 130. That is, when the stone is advanced as shown in FIG. 6, Clockwise direction (arrow E direction)). When the cutting wire 301 reaches the middle portion of the stone B according to a preset position or program, the stone is gradually moved backward. At this time, the cutting wire 301 is rotated according to the rotation of the cutting wire rotating means 400, (For example, the counterclockwise direction (the direction of the arrow F)).

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

100. Mobile unit 110. Guide rail
120. Moving plate 130. Mount plate
200. Supporting unit 210. Vertical frame
230. Support plate 215. Support bracket
300. Cutting unit 301. Cutting wire
310. Driving wheel 320. Driven wheel
330. Driving wheel driving means 340. Lift means
400. Cutting wire rotating means 410. Fixing bracket
420. Rotating plate 430. Support plate
440. First guide member 450. Second guide member
460. Driving motor 500. Water supply means

Claims (5)

A support unit 200 including a moving unit 100 for moving a stone along a guide rail 110 installed on the floor and a vertical frame 210 vertically installed on both sides of the guide rail 110, And a cutting unit 300 for curving the stone B moving along the vertical frame 210 of the supporting unit 200 and moving by the moving unit 100, A driving wheel 310 installed vertically on one side of the vertical frame 210 and a driven wheel 320 installed on the other side of the vertical frame 210 so as to be able to move up and down together with the driving wheel 310, A cutting wire 301 wound around the driven wheel 310 and the driven wheel 320 to cut the stone B, driving wheel driving means 330 for providing power to the driving wheel 310, And a lifting means 340 for lifting and lowering the lifting means 340 together with the driven wheel 320, And is provided so as to be in contact with the cutting wire 301 on the circulation path of the cutting wire 301 between the driving wheel 310 and the driven wheel 320. In order to rotate the cutting wire 301, (B) cutting wire rotating means (400) for changing the contact surface with the stone (B) at the time of cutting,
The cutting wire rotating means (400)
A fixing bracket 410 supported by a support bracket 215 connected to the vertical frames 210 on both sides,
A rotating plate 420 supported by the stationary bracket 410 and rotatably mounted thereon and having a through hole 412 through which the cutting wire 301 passes,
A support plate 430 protruding from the rotation plate 420,
First and second guide members 440 and 450 installed to be rotatable on the support plate 430 and facing each other with the cutting wire 301 interposed therebetween so as to be in contact with the cutting wire 301,
And a driving motor 460 that rotates the rotation plate 420 to rotate the first and second guide members 440 and 450,
And the cutting wire (301) is rotated by the rotation of the first and second guide members (440, 450) according to the rotation of the rotation plate (420).
delete The method according to claim 1,
Each of the first guide member 440 and the second guide member 450 has a circular plate shape having a predetermined thickness and is formed with receiving grooves 440a and 450a on the outer circumferential surface thereof for receiving the cutting wire 301,
Wherein the first guide member (440) and the second guide member (450) are arranged such that distances from the respective middle points of the first guide member (440) and the second guide member (450) are different from each other.
The method according to claim 1,
Wherein the cutting wire (301) rotates in a clockwise or counterclockwise direction in association with a forward or backward direction of the stone (B) according to the movement of the mobile unit (100).
The method of claim 1,
A water supply means 500 installed to be supported by the support bracket 215 and installed at a predetermined distance above the cutting wire 301 and provided with a cutting wire 301 for supplying water during the cutting operation of the stone B, Further comprising: a cutting device for cutting the stone curved surface.

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