WO2017204495A1 - Saw curve shaping device and stone processed thereby - Google Patents

Abstract

The present invention relates to a saw curve shaping device and a stone processed thereby, the saw curve shaping device being configured to shape a saw curve groove on the surface of stones (granite, marble, limestone, and the like) and synthetic stones (artificial stone, engineered stone, and the like). The saw curve shaping device according to the present invention is characterized in that a swing block (10) is mounted on a support bracket (51) of a frame (50); one end of a swing arm (20) is connected to the swing block (10); a height adjusting device (30) is mounted on the other end of the swing arm (20); a cutting head (40) is mounted on the height adjusting device (30); the swing arm (20) accordingly makes an angular movement in the leftward/rightward direction about the swing block (10); an arc-type saw curve groove (61) is formed on the surface of a stone (60) by the cutting head (40) mounted on the front end of the swing arm (20) through the height adjusting device (30); and the height at which the cutting head (40) is arranged is adjusted by the height adjusting device (30), thereby adjusting the depth (t1) of the saw curve groove (61) formed on the surface of the stone (60) by the saw (41) of the cutting head (40).

Description

Saw curve forming apparatus and stone processed by it

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a saw curve forming apparatus for forming saw curve grooves on the surfaces of stones (granite, marble, limestone, etc.) and similar stones (artificial stone, engineer stone, etc.), and more specifically, stone processed by the same. The swing arm is angular movement around the swing block, and an arc-shaped saw curve groove is formed on the surface of the stone by the cutting head mounted on the tip of the swing arm through the height adjusting device. A saw curve forming apparatus capable of forming saw curve grooves on the surface of the stone by adjusting the height of the cutting head to adjust the depth of the saw curve grooves formed on the surface of the stone by the saw of the cutting head and thereby It relates to processed stone.

In general, the surface processing of stone (granite, marble, limestone, etc.) and similar stone (artificial stone, engineer stone, etc.) is typical for indoor floor stone polishing, civil stone such as boundary stone and outdoor In the case of floor stone, burner processing, sandblasting, bushhammering or surface non-working are typical.

Republic of Korea Patent No. 10-1553034 (registered on September 8, 2015) is introduced "Turn stone processing equipment".

The tugstone processing apparatus includes a gemstone feeder for supplying gemstones; A stone stone for dividing the raw stone supplied from the raw stone feeder; The surface of the primary processing stone stoned by the stone crusher in a concave-convex shape and at the same time includes a trimming and cutting machine for cutting to a certain size, the twisting and cutting machine, the drive source, rotated by receiving power from the drive source The rotating shaft, which is arranged along the axial direction to the rotation axis at a predetermined interval from each other, the twisting cutter for twisting processing by forming a groove on the surface of the primary processed stone, the rotary shaft is installed together with the twisting cutter Includes a cutting cutter to cut primary processed stone.

However, the tufting stone processing apparatus does not form a curved curved saw groove on the surface of the gemstone, the straight groove has a disadvantage that can not obtain a friction force corresponding to various directions.

[Preceding technical literature]

[Patent Documents]

Republic of Korea Patent No. 10-0780296 (November 22, 2007, registered) Name of the invention: stone processing method and apparatus

Republic of Korea Patent No. 10-1262235 (May 2, 2013, registered) Name of the invention: Cutting processing device and method of non-slip road boundary stone using natural stone

Republic of Korea Patent No. 10-0309112 (September 4, 2001, registered) Name of the invention: Unevenness treatment method for the surface of stone

Republic of Korea Patent No. 10-0300562 (registered June 18, 2001) Name of the invention: slab processing apparatus

Korea Utility Model Registration No. 20-0339051 (January 7, 2004, registration) Name of the design: Dorak lock surface processing machine

Accordingly, an object of the present invention is to swing the swing arm angular movement around the swing block, an arc-shaped saw curve groove is formed on the surface of the stone by the cutting head mounted on the tip of the swing arm through the height adjustment device The height of the cutting head is adjusted by the height adjusting device so that the depth of the sawtooth groove formed on the surface of the stone by the saw of the cutting head is adjusted so that the saw curve of the sawtooth groove can be formed on the surface of the stone. It is to provide a molding apparatus and a stone processed thereby.

Top curve forming apparatus according to the present invention for achieving the above object is a swing block is mounted to the support bracket of the frame, one end of the swing arm is connected to the swing block, the other end of the swing arm is mounted height adjustment device The cutting head is mounted on the height adjusting device so that the swing arm angularly moves from side to side around the swing block. The height is adjusted to the stone surface by the cutting head mounted on the tip of the swing arm. Saw curve groove is formed, the height of the cutting head is adjusted by the height adjustment device, characterized in that the depth of the saw curve groove formed on the surface of the stone by the saw of the cutting head is adjusted.

Saw curve forming apparatus according to the invention is a swing block is mounted to the support bracket of the frame, the swing arm is composed of a first arm, a second arm fitted to the first arm, the length of the swing arm is variable, The saw blade groove is formed on the surface of the stone by the cutting head in a state in which the arc radius of the cutting head connected to the two arms is adjusted.

In addition, the saw curve forming apparatus according to the present invention, the swing block is mounted on the support bracket of the frame in the state that the swing arm length is determined, the stone is moved by the conveyor, so that a plurality of the surface of the stone by the cutting head The saw curve groove is characterized in that formed at a predetermined interval.

The frame may be any one of a transverse frame orthogonal to the conveying direction of the conveyor, a pillar frame erected close to the left end frame arranged in parallel with the conveyor, or a pillar frame erected close to the right end frame.

Alternatively, in the saw curve forming apparatus according to the present invention, in the case of a heavy stone that cannot be conveyed to a conveyor, a working bridge means in which a stone is placed between two rails arranged in parallel is arranged, and traveling bridge means moving along the rail. It is mounted on the frame of, the traveling bridge means is moved along the rail, characterized in that a plurality of saw curve grooves are formed at predetermined intervals on the surface of the stone placed on the work table by the cutting head.

Saw curve forming apparatus according to the present invention is mounted on the transverse frame across the conveyor at the top of the conveyor, the connecting rod is erected on the upper surface of the swing arm, the top shaft projection of the connecting rod of the bracket mounted on the left and right drive beams Fitted into the manhole, the left and right drive beams are arranged on top of the swing arm, the ends of the left and right drive beams are connected to a slider which slides along the rails, the rails are mounted to the transverse frame of the support member, and the operating rods on the slider wheels It is characterized in that the end of the operating rod is operated by a cam driven by a motor.

The swing arm is characterized in that it can manually angular movement about the swing block.

In addition, an example of a swing drive of the saw curve forming apparatus according to the present invention is a reduction gear is mounted on the upper horizontal portion of the support bracket, the upper axon of the swing block projecting the power of the motor over the upper horizontal portion of the support bracket through the reducer. The swing block can rotate relative to the support bracket so that the swing arm angularly moves around the swing block.

Another example of the swing drive of the saw curve forming apparatus according to the present invention is the motor is mounted on the side of the arm in an upright state, the drive gear is mounted on the drive shaft of the motor, the arc of the arc of the tip of the upper horizontal portion of the support bracket The driven gear is mounted so as not to interfere with the swing block, the drive gear is meshed with the driven gear, and the drive gear is moved along the driven gear by the motor, so that the motor coupled with the drive gear and the swing arm coupled with the motor are swing blocks. It is characterized in that the angular movement around.

Another example of the swing drive of the saw curve forming apparatus according to the present invention is the motor is mounted on the side of the arm in an inverted state, the drive gear is mounted on the drive shaft of the motor, the lower end connected to the left end frame and the right end frame A circular-shaped driven gear is mounted on the upper surface of the transverse frame, the drive gear is meshed with the driven gear, and the drive gear is moved along the driven gear by the motor, so that the motor combined with the drive gear and the swing arm combined with the motor It is characterized in that the angular movement around the swing block.

Another example of the swing drive of the saw curve forming apparatus according to the present invention is a cylinder is mounted by a pin to an end frame (either the left end frame or the right end frame) arranged in parallel with the conveyor, the connecting rod end of the cylinder The pin is connected to the side of the swing arm so that the cylinder is disposed obliquely diagonally between the end frame and the swing arm.

Another example of the swing drive of the saw curve forming apparatus according to the present invention is mounted on the transverse frame across the conveyor at the top of the conveyor, the connecting rod is erected on the upper surface of the swing arm, the top spinneret of the connecting rod is left and right It fits into the long hole of the bracket mounted on the drive beam, the left and right drive beams are arranged on the upper part of the swing arm, the ends of the left and right drive beams are connected to the sliders which slide along the rails, and the rails and the lying down cylinders traverse the supporting member. Each mounted to the frame, characterized in that the connecting rod end of the cylinder is connected to the side connection of the slider.

The stone according to the invention is characterized in that the saw curve groove is machined on the surface by the saw curve forming apparatus according to the invention described above.

The saw curved groove is characterized in that the center curved saw curved groove is formed by the angular rotation of the swing arm in the state in which the center of the swing arm and the stone center placed in the conveying direction of the conveyor coincide.

In another alternative, the sawtooth groove is equipped with a saw curve forming apparatus mounted on a pillar frame which is placed close to the left end frame of the conveyor, or a saw curve growth value which is mounted on a pillar frame which stands near the right end frame of the conveyor. In this case, it is characterized in that the mail-center top curved groove eccentric from the left end to the right direction or the left eccentric top curved groove eccentrically from the right end.

The saw curved groove is formed by overlapping the center curved saw curved groove, the post core saw curved groove and the left eccentric saw curved groove in a variety of forms, characterized in that it is processed into a variety of patterns.

Thereby, the saw curve shaping | molding apparatus which concerns on this invention, and the stone processed by this have the effect which can process the saw curve groove processed by the primary process, the various saw curve groove superimposed, etc. on the surface of a stone.

1 is a perspective view showing a saw curve forming apparatus according to the present invention

Figure 2 is a plan view showing a saw curve forming apparatus according to the present invention

Figure 3 is a side view showing a saw curve forming apparatus according to the present invention

4 is a side view schematically showing an example of a structure in which a swing block is mounted on a support bracket;

5 is a side view schematically showing another example of a structure in which a swing block is mounted on a support bracket;

6 is a side view schematically showing another example of a structure in which a swing block is mounted on a support bracket;

Figure 7 is a side view schematically showing a swing arm adjustable length

8A, 8B and 8C are cross-sectional views taken along line A-A of the swing arm shown in FIG.

9 is a sectional view showing an example of the height adjustment device;

10 is a plan view schematically showing a saw curve forming apparatus according to the present invention having a variable swing arm.

11 and 12 are top plan views schematically illustrating an example in which a saw curve forming apparatus according to the present invention is mounted on a transverse frame, and a plurality of saw curve grooves are formed on a surface of a stone conveyed by a conveyor.

13 is a plan view showing a stone with a center curved top curved groove formed on the surface

14 is a plan view schematically illustrating an example in which a saw curve forming apparatus according to the present invention is mounted on a pillar frame disposed close to an end frame, and a plurality of saw curve grooves are formed on a surface of a stone conveyed by a conveyor.

15 and 16 are plan views showing an example in which a plurality of saw curve grooves are formed on the surface of the stone by the saw curve forming apparatus according to the present invention shown in FIG.

17 to 19 are plan views showing saw curve grooves superimposed on the surface of the stone, respectively.

20 and 21 are a plan view and a side view showing a saw curve forming apparatus according to the present invention for processing the saw curve groove on the surface of the stone seated on the table while moving along the rail

22 is a side view showing a first embodiment in which the swing arm of the saw curve forming apparatus according to the present invention is angularly moved by the power;

23 and 24 are a side view and a plan view of a second embodiment in which the swing arm of the saw curve forming apparatus according to the present invention is angularly driven by power;

25 and 26 are a side view and a plan view showing a third embodiment in which the swing arm of the saw curve forming apparatus according to the present invention is angularly driven by power;

27 is a plan view showing an embodiment in which the swing arm of the saw curve forming apparatus according to the present invention is angular movement by the cylinder

28 and 29 are a plan view and a side view showing another embodiment in which the swing arm of the saw curve forming apparatus according to the present invention is angular movement

30 and 31 are a plan view and a side view showing another embodiment in which the swing arm of the saw curve forming apparatus according to the present invention is angular movement

32 and 33 illustrate a state in which the swing arm of the saw curve forming apparatus according to the present invention is angularly moved, and the saw curve forming apparatus according to the present invention is mounted on a pillar frame erected close to the left end frame. A floor plan

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

1 to 3, in the saw curve forming apparatus 1 according to the present invention, the swing block 10 is mounted on the support bracket 51 of the frame 50, and the swing arm 10 is attached to the swing block 10. One end of 20 is connected, and the height adjusting device 30 is mounted on the other end of the swing arm 20, and the cutting head 40 is mounted on the height adjusting device 30, thereby making the swing block 10 the center. The swing arm 20 is angularly moved from side to side as shown by the arrow 3 of FIGS. 1 and 2, and is provided to the cutting head 40 mounted at the tip of the swing arm 20 through the height adjusting device 30. A circular curved top curved groove 61 is formed on the surface of the stone 60, and the height of the cutting head 40 is adjusted by the height adjusting device 30 to adjust the height of the cutting head 40. The depth t1 of the top curved groove 61 formed on the surface of the stone 60 is adjusted by 41.

Referring to FIG. 4, the swing block 10 has a coupling bracket 21a of the swing arm 20 coupled to an outer circumferential surface of the block body 11a formed in a cylindrical shape, and an upper spinneret on the top of the block body 11a. 12a is formed, and the lower projections 13a are formed at the lower end of the block body 11a, and the support bracket 51 having the upper projections 12a and the lower projections 13a formed in a "c" shape. The bearings 14a and 15a fitted into the mounting holes 512 and 514 of the upper horizontal portion 511 and the lower horizontal portion 513 of the upper horizontal protrusion 511 and the lower horizontal protrusion 13a, respectively. Disposed in the holes 512 and 514.

As a result, the block body 11a coupled to the connecting bracket 21a of the swing arm 20 has an upper spinneret 12a and a lower spinneret 13a when the swing arm 20 rotates. The bearings 14a and 15a mounted to the mounting holes 512 and 514 of the horizontal portion 511 and the lower horizontal portion 513 are rotated relatively smoothly with respect to the support bracket 51.

Referring to FIG. 5, in another alternative, the swing block 10 may include a first upper shaft protrusion 13b formed on an upper portion of the block body 11b formed in a cylindrical shape by a first stepped portion 130b. The second upper projections 14b formed above the first upper projections 13b are separated from the first upper projections 13b by the second stepped portions 140b. The second lower protrusion 16b formed below the block body 11b is distinguished from the block body 11b by the third stepped part 160b, and is formed below the third lower protrusion 16b. The fourth lower shaft projection part 17b is distinguished from the third lower projection part 16b by the fourth stepped part 170b, so that the block body 11b is disposed inside the supporting rotary cylinder coupled to one end of the swing arm. The first upper projections 13b are fitted into the upper holes 221 of the connecting rotary cylinder 22, and the connecting rotary cylinders 22 are attached to the first upper projections 13b. The bearing 15b fitted to the first upper shaft protrusion 13b is supported by the first stepped portion 130b so that the relative rotation can be performed, and the second upper shaft protrusion 14b is supported by the upper horizontal portion of the support bracket 51. The upper horizontal portion 512 is supported by the second stepped portion 140b, and the third lower shaft projection portion 16b is inserted into the mounting hole 152 formed in the 511, and the lower hole of the connecting rotary cylinder 22 is provided. The bearing 18b fitted to the 222 and fitted to the third lower shaft projection 16b so that the connecting rotary cylinder 22 can rotate relative to the third lower projection 16b is provided with a third step portion ( 160b), the fourth lower shaft projection 17b is fitted into the mounting hole 514 formed in the lower horizontal portion 513 of the support bracket 51, so that the lower horizontal portion 513 is the fourth stepped portion 170b. Supported by).

Thereby, when the swing arm 20 is angularly rotated, the connecting rotary cylinder 22 of the swing arm 20 is attached to the bearings 15b and 18b with respect to the swing block 10 mounted on the support bracket 51. This makes it possible to rotate relatively smoothly.

Referring to FIG. 6, in another alternative, the swing block 10 is formed with a stepped upper projection 12c on an upper portion of the block body 11c formed in a cylindrical shape, and swings on an outer circumferential surface of the block body 11c. The connecting bracket 21c of the arm 20 is coupled, and the upper shaft protrusion part 12c is supported by the support bracket so as to be rotatably mounted to the support bracket 51 'of the frame 50 formed in the "a" shape. The lower end of the vertical portion 517 'of the support bracket 51' is rotatably fitted in the mounting hole 516 'formed in the horizontal portion 515' of the 51 '. It is supported by a backing roller 518 'mounted on the inner side.

In addition, although not shown in the drawings, the present invention may be swing arm relative to the support bracket, the swing body of the swing block is connected to the frame, it can be rotated relative to the swing block fixed to the support bracket.

Furthermore, it will be appreciated by those skilled in the art that the present invention can change the configuration and coupling structure of the support bracket and swing block in various forms, and such modifications also belong to the claims of the present invention. You can see that.

The swing arm 20 may have a simple rectangular pillar shape.

Referring to FIG. 7, in another alternative, the second arm 23 is fitted to the first arm 22 so that the swing arm 20 is adjustable in length, and the first arm is fastened by the fastening means 24. The second arm 23 whose length drawn out at 22 is adjusted is fixed to the first arm 22.

8A, 8B, and 8C, the first arm 22 is a square pipe or a round pipe, and the second arm 23 is fitted to the first arm 22 so as to slide therein. It can be either an I-beam or a round pipe.

The fastening means 24 is already well known in various kinds, and a detailed description thereof will be omitted.

Referring to Figure 9, the height adjustment device 30 is the elevating guide member 31 is coupled to the tip of the swing arm 20, the elevating member 33 is coupled to the elevating guide member, the elevating The member 33 is raised and lowered along the elevating guide member 31, the spiral shaft 34 of the elevating member 33 is fastened to the nut 32 of the elevating guide member 31, and the nut 32 The spiral shaft 34 is moved up and down relative to the nut 32 by the rotation of the spiral shaft 34 coupled to the spiral shaft 34, so that the elevating member 33 coupled with the spiral shaft 34 moves up and down. And, the gear box 35 is disposed on the upper end of the elevating member 33, the power of the motor 36 is transmitted to the spiral shaft 34 through the gear box 35.

As described above, the height of the elevating member 33 is adjusted to adjust the height of the cutting head 40 coupled to the elevating member 33.

Alternatively, the height adjusting device 30 may be applied to the Republic of Korea Patent No. 10-0983863 (name of the invention: the saw blade vertical adjustment device of the stone cutter).

The cutting head 40 is already known in the Republic of Korea Patent No. 10-0983863 (name of the invention: the saw blade vertical adjustment device of the stone cutting machine) and the like, detailed description thereof will be omitted. However, a plurality of saws 41 are mounted to the cutting head 40, and the width of the saw curve groove 61 (see FIG. 2) is adjusted according to the thickness of the saws 41.

Referring to FIG. 10, the saw curve forming apparatus 1 according to the present invention also has a swing block 10 mounted on the support bracket 51 of the frame 50, and the swing arm 20 is formed of a first arm ( 22, and a second arm 23 fitted to the first arm 22, the length of the swing arm 20 is variable, the circular arc radius of the cutting head 40 connected to the second arm 23 In this adjusted state, the saw head groove 61 is formed in the surface of the stone 60 by the cutting head 40.

Referring to FIG. 11, in the saw curve forming apparatus 1 according to the present invention, the swing block 10 is mounted on the support bracket 51 of the frame 50 in a state in which the length of the swing arm 20 is determined. As the stone 60 is moved by the conveyor 70, a plurality of saw curved grooves 61 are formed on the surface of the stone 60 by the cutting head 40 at regular intervals.

The conveyor 70 is either a belt type or a roller type.

As a result, FIG. 11 shows that the conveyor 70 moves by one pitch (P: the gap between the saw curve groove 61 and the saw curve groove 61) in the direction of the arrow 71. A plurality of sawtooth grooves 61 on the surface may be formed at one pitch or at various pitch intervals.

At this time, the frame 50 is a transverse frame orthogonal to the conveying direction of the conveyor 70, as shown in Figure 12, a plurality of the frame 50 is mounted side by side, arranged side by side on the conveyor 70 A saw curve groove 61 can be formed in the plurality of stones 60.

 Thereby, as shown in FIG. 11, the swing arm 20 in the state in which the center O1 of the swing arm 20 placed in the conveyance direction of the conveyor 70 and the center O2 of the stone 60 matched. By the angular rotation of Fig. 13, a center curved saw curved groove 61 is formed on the surface of the stone 60.

Referring to FIG. 14, in another alternative, the frame 50 is erected close to the pillar frame or the right end frame 54 which is erected close to the left end frame 53 arranged in parallel with the conveyor 70. One of the pillar frames.

Thereby, as shown in FIG. 14, when the saw curve forming apparatus 1 according to the present invention is mounted on a pillar frame which is erected close to the left end frame 53, as shown in FIG. The top curved groove 61 in which the top curved groove 61 formed on the surface of the 60 is eccentric in the right direction at the left end 62 of the stone 60 is formed.

And, as shown in Fig. 14, when the saw curve forming apparatus 1 according to the present invention is mounted on a pillar frame which is erected close to the right end frame 54, as shown in Fig. 16, the stone 60 The top curved groove 61 is formed on the surface of the left eccentric saw curved groove eccentrically formed in the left direction from the right end 63 of the stone (60).

Furthermore, as shown in FIGS. 17 to 19, the stone 60 has a center curved top curved groove, a mail core saw curved groove, and a left eccentric top curved groove formed on the surface so as to overlap in various forms. A pattern can be formed.

The overlap pattern of the sawtooth grooves illustrated in FIGS. 17 to 19 illustrates some representative ones among various types of overlap patterns, and the overlap pattern of the sawtooth grooves is not limited thereto and is formed in various more various forms. Can be.

Referring to FIGS. 20 and 21, in another alternative, when the saw curve forming apparatus 1 according to the present invention is a heavy stone that cannot be transferred to a conveyor, or the surface of the stone must be processed without transferring the stone, A work table 83 on which stone is placed is arranged between two rails 81 and 82 arranged in parallel, and on the frame 841 or 842 of the traveling bridge means 84 moving along the rails 81 and 82. Mounted, and the traveling bridge means 84 moves along the rails 81 and 82, so that a plurality of saw-curved grooves (not shown) on the surface of the stone (not shown) placed on the work table 83 by the cutting head 40. Not shown) are formed at predetermined intervals.

The traveling bridge means 84 is a wheel 843 is moved along the rails 81 and 82 by a driving means (not shown), which is already known, and a detailed description thereof will be omitted.

In addition, in the saw curve forming apparatus 1 according to the present invention, the swing arm 20 can be angularly moved about the swing block 10 manually.

Referring to FIG. 22, in the first embodiment of the power drive, the saw curve forming apparatus 1 according to the present invention is equipped with a reduction gear 90a on the upper horizontal portion 511 of the support bracket 51, and the motor ( The power of 91a is transmitted to the upper axle 12 of the swing block 10 protruding over the upper horizontal portion 511 of the support bracket 51 through the reducer 90a, so that the swing block 10 is supported by the support bracket. It can rotate relative to 51, such that the swing arm 20 is angularly moved about the swing block 10, as shown in FIG.

23 and 24, in the second embodiment of the power drive, the saw curve forming apparatus 1 according to the present invention is mounted with the motor 91b upright on the side of the arm 20, and the motor ( A drive gear 93b is mounted on the drive shaft 92b of 91b, and a circular arc-shaped driven gear 94b is attached to the tip arc portion 511b of the upper horizontal portion 511 of the support bracket 51 by the swing block 10. ), The drive gear 93b is meshed with the driven gear 94b, and the drive gear 93b is moved along the driven gear 94b by the motor 91b, thereby driving the drive gear 93b. The motor 91b coupled with the swing arm 20 coupled with the motor 91b is angularly moved around the swing block 10.

25 and 26, in the third embodiment of the power drive, the saw curve forming apparatus 1 according to the present invention is mounted with the motor 91c in an inverted state on the side of the arm 20, and the motor ( A drive gear 93c is mounted on the drive shaft 92c of the 91c, and an arc-shaped driven gear is formed on the upper surface of the lower transverse frame 55 connected at both ends to the left end frame 53 and the right end frame 54. 94c is mounted, the drive gear 93c is meshed with the driven gear 94c, and the drive gear 93c is moved along the driven gear 94c by the motor 91c, thereby engaging with the drive gear 93c. The motor 91c and the swing arm 20 coupled with the motor 91c are angularly moved around the swing block 10.

Here, the drive gear 93c may be replaced with a sprocket, and the driven gear 94c having an arc shape may be replaced with a chain.

Referring to FIG. 27, in another alternative, the saw curve forming apparatus 1 according to the present invention is either an end frame (either the left end frame 53 or the right end frame 54) arranged in parallel with the conveyor 60. ), The cylinder 100a is mounted by the pin 102a, and the tip of the connecting rod 101a of the cylinder 100a is connected to the side of the swing arm 20 by the pin, whereby the cylinder 100a It is arranged diagonally diagonally between the swing arms 20.

As a result, when the connecting rod 101a is pulled out of the cylinder 100a and the connecting rod 101a pushes the swing arm 20, the cutting head 40 curves in the direction of the arrow 105 and the surface of the stone is moved. When the sawtooth groove is processed, and the connecting rod 101a is drawn into the cylinder 100a and the connecting rod 101a pulls the swing arm 20, the cutting head 40 moves in the opposite direction to the arrow 105. As the curve is moved, the saw curve groove is processed on the surface of the stone.

28 and 29, in another alternative, the saw curve forming apparatus 1 according to the invention is mounted on a transverse frame 50 across the conveyor 70 at the top of the conveyor 70, with a swing arm. The connecting rod 105b is erected on the upper surface of the 20, and the top axillary 106b of the connecting rod 105b is fitted into the long hole 592 of the bracket 59 mounted on the left and right driving beams 58. The left and right drive beams 58 are disposed on the upper portion of the swing arm 20, and the ends of the left and right drive beams 58 are connected to the slider 102b which slides along the rails 104b and are laid down with the rails 104b. The cylinder 100b is mounted on the transverse frame 57 of the supporting member 56, and the tip of the connecting rod 101b of the cylinder 100b is connected to the side connecting portion 103b of the slider 102.

Thus, as shown in FIG. 28, when the connecting rod 102b pushes the slider 102b in the direction of the arrow 107b of FIG. 28 while the connecting rod 101b is pulled out of the cylinder 100b, the slider 102b ) And the left and right drive beams 58 are moved in the direction of the arrow 107b. At this time, the top axle 106b of the connecting rod 109b is inserted into the long hole 592 of the bracket 59 mounted on the left and right driving beams 58, so that the swing arm 20 connected to the connecting rod 109b is connected. By angular rotation about the swing block 10, saw curved grooves are formed on the surface of the stone by the cutting head 40, which is circularly moved by the swing arm 20.

Then, when the connecting rod 101b is pulled in the cylinder 100b and the connecting rod 102b pulls the slider 102b in the opposite direction to the arrow 107b of FIG. 28, the left and right driving beams 58 connected to the slider 102b are 58. ) Is moved in the opposite direction to the arrow 107b. At this time, the top axle 106b of the connecting rod 105b is inserted into the long hole 592 of the bracket 59 mounted on the left and right driving beams 58, so that the swing arm 20 connected to the connecting rod 105b is connected. By angular rotation about the swing block 10, saw curved grooves are formed on the surface of the stone by the cutting head 40, which is circularly moved by the swing arm 20.

30 and 31, as yet another alternative, the saw curve forming apparatus 1 according to the invention is mounted on a transverse frame 50 across the conveyor 70 at the top of the conveyor 70 and swinged. The connecting rod 105c is erected on the upper surface of the arm 20, and the upper axillary 106c of the connecting rod 105c is fitted into the long hole 592 of the bracket 59 mounted on the left and right drive beams 58. The left and right drive beams 58 are disposed on the upper portion of the swing arm 20, and the ends of the left and right drive beams 58 are connected to the slider 103b which slides along the rails 104c, and the rails 104c are A cam (shown) mounted on the transverse frame 57 of the supporting member 56, the actuating rod 107c is fitted to the wheel 102c of the slider 103b, and the end of the actuating rod 107c is driven by a motor. Not used).

As a result, when the operating rod 107c is moved in the direction of the arrow 108c by a cam (not shown), the slider 103c moves in the direction of the arrow 108c along the rail 104c by the operating rod 107c. Is moved to. At this time, the top axle 106c of the connecting rod 105c is inserted into the long hole 592 of the bracket 59 mounted on the left and right driving beams 58, so that the swing arm 20 connected to the connecting rod 105c is By angular rotation about the swing block 10, saw curved grooves are formed on the surface of the stone by the cutting head 40, which is circularly moved by the swing arm 20. In addition, a saw curve groove is formed on the surface of the stone by the cutting head 40 which performs arc motion even when the operating rod 107c is moved in the opposite direction to the arrow 108c by a cam (not shown).

FIG. 32 is the same as FIG. 28 except that the saw curve forming apparatus 1 according to the present invention is mounted on a pillar frame erected close to the left end frame 53.

FIG. 33 is the same as FIG. 30 except that the saw curve forming apparatus 1 according to the present invention is mounted on a pillar frame erected close to the left end frame 53.

[Description of the code]

10: swing block 20: swing arm

30: height adjustment device 40: cutting head

50: frame 60: stone

70: conveyor

Claims (17)

1. The swing block 10 is mounted to the support bracket 51 of the frame 50, one end of the swing arm 20 is connected to the swing block 10, and the height adjusting device 30 is connected to the other end of the swing arm 20. ) And the cutting head 40 is mounted on the height adjusting device 30 so that the swing arm 20 angularly moves from side to side around the swing block 10, thereby increasing the height adjusting device 30. Through the cutting head 40 mounted on the tip of the swing arm 20 is formed a circular curved top curved groove 61 on the surface of the stone 60, the cutting head (30) by the height adjusting device (30) The placement height of 40 is adjusted so that the top curve of the saw blade groove 61 formed on the surface of the stone 60 by the saw 41 of the cutting head 40 is adjusted to the depth t1 Forming device.
2. The method of claim 1,

   The swing block 10 is mounted to the support bracket 51 of the frame 50, and the swing arm 20 is fitted with the first arm 22 and the second arm 23 fitted to the first arm 22. And the swing arm 20 is variable in length so that the arc radius of the cutting head 40 connected to the second arm 23 is adjusted to the surface of the stone 60 by the cutting head 40. Saw curve forming device, characterized in that the saw curve groove 61 is formed.
3. The method according to claim 1 or 2,

   In a state where the length of the swing arm 20 is determined, the swing block 10 is mounted on the support bracket 51 of the frame 50, and the stone 60 is moved by the conveyor 70, thereby cutting the head 40. Saw curve forming apparatus, characterized in that a plurality of saw curve groove 61 is formed on the surface of the stone 60 by a predetermined interval.
4. The method of claim 3, wherein

   The frame 50 is close to the cross frame orthogonal to the conveying direction of the conveyor 70, the pillar frame or the right end frame 54 which is erected close to the left end frame 53 arranged in parallel with the conveyor 70. Saw curve forming apparatus, characterized in that any one of the column frame to be built.
5. The method of claim 1,

   A work table 83 on which stone is placed is arranged between two rails 81 and 82 arranged in parallel, and on the frame 841 or 842 of the traveling bridge means 84 moving along the rails 81 and 82. Mounted so that the traveling bridge means 84 moves along the rails 81 and 82, whereby a plurality of saw curve grooves are formed on the surface of the stone placed on the work table 83 by the cutting head 40 at predetermined intervals. Saw curve forming apparatus, characterized in that.
6. The method of claim 1,

   The swing arm (20) is a saw curve forming apparatus, characterized in that the angular movement around the swing block (10) manually.
7. The method of claim 1,

   The reducer 90a is mounted on the upper horizontal portion 511 of the support bracket 51, and the power of the motor 91a is projected to the upper horizontal portion 511 of the support bracket 51 through the reducer 90a. By being transferred to the upper axon 12 of the block 10, the swing block 10 can rotate relative to the support bracket 51, such that the swing arm 20 is angled about the swing block 10. Saw curve forming apparatus characterized in that the exercise.
8. The method of claim 1,

   The motor 91b is mounted on the side of the arm 20 in an upright state, the drive gear 93b is mounted on the drive shaft 92b of the motor 91b, and the upper horizontal portion 511 of the support bracket 51 is mounted. An arc-shaped driven gear 94b is mounted on the tip arc portion 511b so as not to interfere with the swing block 10, and the drive gear 93b is meshed with the driven gear 94b to be driven by the motor 91b. As the gear 93b is moved along the driven gear 94b, the motor 91b coupled with the drive gear 93b and the swing arm 20 coupled with the motor 91b are centered on the swing block 10. Saw curve forming apparatus characterized in that the angular motion.
9. The method of claim 1,

   The motor 91c is mounted on the side of the arm 20 in an inverted state, and the drive gear 93c is mounted on the drive shaft 92c of the motor 91c, and the left end frame 53 and the right end frame 54 are mounted. An arcuate driven gear 94c is mounted on the upper surface of the lower transverse frame 55 connected at both ends thereof, and the drive gear 93c is meshed with the driven gear 94c, thereby driving the drive gear (by the motor 91c). As the 93c is moved along the driven gear 94c, the motor 91c coupled with the drive gear 93c and the swing arm 20 coupled with the motor 91c perform angular motion about the swing block 10. Saw curve forming apparatus, characterized in that made.
10. The method of claim 9,

    The drive gear (93c) is a sprocket, the circular arc shaped driven gear (94c) is a top curve forming apparatus, characterized in that the chain.
11. The method of claim 3, wherein

    A cylinder 100a is mounted by a pin 102a to an end frame (either the left end frame 53 or the right end frame 54) arranged in parallel with the conveyor 60, and the cylinder 100a is connected. Saw curve forming apparatus, characterized in that the cylinder (100a) is disposed obliquely diagonally between the end frame and the swing arm (20) by the end of the rod (101a) by a pin connected to the side of the swing arm (20).
12. The method of claim 3, wherein

    Mounted on the transverse frame 50 across the conveyor 70 at the top of the conveyor 70, the connecting rod 105b is erected on the upper surface of the swing arm 20, the top spinneret of the connecting rod 105b 106b is fitted into the long hole 592 of the bracket 59 mounted on the left and right drive beams 58, the left and right drive beams 58 are disposed on the upper portion of the swing arm 20, and the left and right drive beams 58 The end of is connected to the slider 102b which slides along the rail 104b, and the rail 104b and the lying down cylinder 100b are respectively mounted to the transverse frame 57 of the supporting member 56, and the cylinder 100b Saw curve forming apparatus characterized in that the front end of the connecting rod (101b) of the) is connected to the side connecting portion (103b) of the slider (102).
13. The method of claim 3, wherein

    Mounted on the transverse frame 50 across the conveyor 70 at the top of the conveyor 70, the connecting rod 105c is erected on the upper surface of the swing arm 20, the upper spinneret of the connecting rod 105c 106c is fitted into the long hole 592 of the bracket 59 mounted on the left and right drive beams 58, the left and right drive beams 58 are disposed on the swing arm 20, and the left and right drive beams 58 The end of is connected to the slider 103b which slides along the rail 104c, the rail 104c is mounted to the transverse frame 57 of the supporting member 56, and actuated to the wheel 102c of the slider 103b. Saw curve forming apparatus, characterized in that the rod (107c) is fitted, the end of the operating rod (107c) is operated by a cam driven by a motor.
14. Stone according to claim 1 to 13, characterized in that the saw curve groove 61 is machined on the surface by the saw curve forming apparatus.
15. The method of claim 14,

    The saw curved groove 61 is the angle of the swing arm 20 in a state where the center O1 of the swing arm 20 and the center O2 of the stone 60 coincide with each other in the conveying direction of the conveyor 70. Stone, characterized in that the center curve saw curved groove 61 is formed.
16. The method of claim 15,

    The saw curve groove 61 is a saw curve forming apparatus is mounted on a pillar frame which is placed close to the left end frame of the conveyor 70, or sawed on a pillar frame which is placed close to the right end frame of the conveyor 70. When the curve growth value is mounted, the stone characterized in that the left eccentric saw curve groove eccentric in the right direction at the left end (62) or the left eccentric saw curve groove eccentric in the left direction at the right end (63) is formed.
17. The method according to any one of claims 14 to 16,

    The saw curved groove 61 is a stone, characterized in that the center curved saw curved groove, post-core saw curved groove and left eccentric saw curved groove is formed to overlap in various forms, processed into a variety of patterns.

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