KR20170133242A - Apparatus for forming blade-curves on a stone and stone product thereby - Google Patents

Abstract

BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a saw-top forming apparatus for forming saw-top grooves on the surface of stone (granite, marble, limestone, etc.) and similar stones (artificial stone, engineer stone, etc.) and stone processed by the apparatus.
The top curve forming apparatus according to the present invention is characterized in that the swing block 10 is mounted on the support bracket 51 of the frame 50 and one end of the swing arm 20 is connected to the swing block 10, The height adjusting device 30 is mounted on the other end of the swing arm 10 and the cutting head 40 is mounted on the height adjusting device 30 so that the swing arm 20 is angularly moved about the swing block 10 A top curved groove 61 of an arc shape is formed on the surface of the stone 60 by the cutting head 40 mounted on the end of the swing arm 20 through the height adjusting device 30, The arrangement height of the cutting head 40 is adjusted by the apparatus 30 so that the depth t1 of the saw-tooth groove 61 formed on the surface of the stone 60 by the saw 41 of the cutting head 40 Is controlled.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a top curve forming apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a top curved forming apparatus for forming a saw curved groove on the surface of a stone (granite, marble, limestone, etc.) and a similar stone (artificial stone, engineer stone, etc.) and a stone processed by the apparatus. The swing arm is angularly moved about the swing block, and a top curved groove of an arc shape is formed on the surface of the stone by the cutting head mounted on the end of the swing arm through the height adjusting device, A top curve forming apparatus capable of forming a top curved groove on the surface of the stone by adjusting the arrangement height of the cutting head and controlling the depth of the top curved groove formed on the surface of the stone by the top of the cutting head It relates to the processed stone.

In general, the surface processing of stone (granite, marble, lime stone, etc.) and similar stone (artificial stone, engineer stone, etc.) is typical of polishing the interior floor stone, In the case of floor stone, flaming, sandblasting, bushhammering or surface machining are typical examples.

Korean Patent No. 10-1553034 (registered on September 8, 2015) introduces a "line processing machine".

The apparatus for roughing the line comprises: a raw-material feeder for supplying raw stones; A divider for dividing the raw stones supplied from the gemstone feeder; And a cutter for cutting the surface of the primary working stone seamed by the grinding machine into a concavo-convex shape and cutting the same to a predetermined size, wherein the line trimmer and the cutter comprise a drive source, A plurality of rotary shafts arranged on the rotary shaft at predetermined intervals along the axial direction to form a groove on the surface of the primary working stone, And a cutting cutter for cutting the cutting stone.

However, the line trimming apparatus can not form curved top curved grooves on the surface of the ore, and the linear grooves have a disadvantage that no frictional force corresponding to various directions can be obtained.

Korean Patent No. 10-0780296 (registered on Nov. 22, 2007) Title of invention: Stone processing method and apparatus Korean Patent No. 10-1262235 (Registered on May 2, 2013) Title of the invention: Cutting and processing apparatus for slip prevention using natural stone Korean Patent No. 10-0309112 (registered on Sep. 4, 2001) Title of the invention: Method of treating unevenness on the surface of stone Korean Patent No. 10-0300562 (registered on Jun. 18, 2001) Title of invention: Slab processing device Korea Utility Model Registration No. 20-0339051 (Registered on January 7, 2004) Name of Design: Dodlock Surface Finishing Machine

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a swing arm for a swing arm that is angularly moved about a swing block and a top curved groove of an arc shape is formed on the surface of the stone by a cutting head mounted on a tip end of the swing arm, , The height of the cutting head is adjusted by the height adjusting device so that the depth of the top curved groove formed on the surface of the stone is controlled by the top of the cutting head to thereby form a top curved groove on the surface of the stone, A molding apparatus and a stone processed by the method.

According to an aspect of the present invention, there is provided a top curve forming apparatus including a swing block mounted on a bracket of a frame, one end of a swing arm connected to the swing block, and a height adjusting device mounted on the other end of the swing arm , The swing arm is angularly moved around the swing block by the cutting head mounted on the height adjusting device, and the cutting head mounted on the end of the swing arm through the height adjusting device causes the arc- A top curved groove is formed and the height of the cutting head is adjusted by the height adjusting device so that the depth of the top curved groove formed on the surface of the stone is controlled by the top of the cutting head.

The top curve forming apparatus according to the present invention comprises a swing block mounted on a bracket of a frame, a swing arm composed of a first arm and a second arm fitted to the first arm, the length of the swing arm being variable, And a top curved 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

Further, in the saw-top forming apparatus according to the present invention, the swing block is mounted on the bracket of the frame and the stone is moved by the conveyor in a state where the length of the swing arm is determined, And top curved grooves are formed at regular intervals.

The frame is characterized by being a transverse frame orthogonal to the conveying direction of the conveyor, a column frame located close to the left end frame disposed parallel to the conveyor, or a column frame erected close to the right end frame.

Alternatively, the saw-top forming apparatus according to the present invention is characterized in that, in the case of a heavy stone which can not be conveyed by a conveyor, a work table on which the stone is placed is disposed between two rails arranged in parallel, And a plurality of saw-tooth grooves are formed at predetermined intervals on the surface of the stone placed on the work table by the cutting head by moving the running bridge means along the rails.

The top curve forming apparatus according to the present invention is mounted on a transverse frame across a conveyor at an upper portion of a conveyor, wherein a connecting rod is raised on the upper surface of the swing arm, and an upper shaft projection of the connecting rod is mounted on a bracket Wherein the left and right drive beams are disposed on the upper portion of the swing arm, the ends of the left and right drive beams are connected to a slider that slides along the rails, the rails are mounted on the transverse frame of the support member, And the end of the operating rod is actuated by the cam driven by the motor.

And the swing arm is capable of performing angular movement about the swing block manually.

An example of the swing drive of the top curve forming apparatus according to the present invention is that a speed reducer is mounted on the upper horizontal portion of the bracket and the motor is powered on the upper axial projection of the swing block, So that the swing block can relatively rotate with respect to the support bracket so that the swing arm makes angular movement around the swing block.

Another example of the swing drive of the top curve forming apparatus according to the present invention is characterized in that a motor is mounted in an upright position on the side of the arm and a drive gear is mounted on the drive shaft of the motor, The driven gear is mounted so as not to interfere with the swing block, the drive gear is engaged 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, So as to perform angular motion around the center of the body.

Another example of the swing drive of the top curvilinear molding apparatus according to the present invention is characterized in that 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, and the lower end frame and the lower end A driven gear of a circular arc shape is mounted on the upper surface of the transverse frame, the drive gear is engaged with the driven gear, and the drive gear is moved along the driven gear by the motor so that the swing arm And the swinging block is angularly moved around the swing block.

Another example of the swing drive of the top curve forming apparatus according to the present invention is characterized in that a cylinder is mounted by a pin on a terminal frame (either the left end frame or the right terminal frame) arranged in parallel with the conveyor, And is connected to the side surface of the swing arm by the pin, whereby the cylinder is arranged diagonally diagonally between the terminal frame and the swing arm.

Another example of the swing drive of a top curvilinear molding apparatus according to the present invention is mounted on a transverse frame across the conveyor at the top of the conveyor, the connecting rod is raised on the upper surface of the swing arm, The left and right drive beams are disposed on the upper portion of the swing arm, the end portions of the left and right drive beams are connected to the slider slid along the rails, and the cylinder laid down with the rails is supported by the crossing of the support member And the front end of the connecting rod of the cylinder is connected to the side connecting portion of the slider.

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

The top curved groove is characterized by a center curved top curved groove formed by each rotation of the swing arm in a state where the center of the swing arm and the center of the stone coincide with each other in the conveying direction of the conveyor.

Alternatively, the saw-top groove may be provided with a top curved forming device mounted on a column frame erected close to the left end frame of the conveyor, or mounted on a column frame erected close to the right end frame of the conveyor The left core end top curved groove eccentrically eccentric in the left direction is formed at the right end or the postal core top curve groove eccentric at the left end in the right end.

The saw-tooth groove is characterized in that the center-curve-shaped saw-tooth groove, postal core-saw-groove groove, and left-side stem-top-curve groove are superimposed in various shapes and processed into various patterns.

Thus, the top curve forming apparatus according to the present invention and the stone processed by the method have the effect of being able to process top curved grooves and various top curved grooves that have been preliminarily machined on the surface of the stone.

1 is a perspective view showing a top curve forming apparatus according to the present invention;
2 is a plan view showing a top curve forming apparatus according to the present invention.
3 is a side view showing a top 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 the structure in which the swing block is mounted on the support bracket
6 is a side view schematically showing another example of the structure in which the swing block is mounted on the support bracket
7 is a side view schematically showing a swing arm capable of adjusting the length thereof;
Figs. 8A, 8B and 8C are cross-sectional views taken along line AA of the swing arm shown in Fig. 7
9 is a sectional view showing an example of the height adjusting device
10 is a plan view schematically showing a top curve forming apparatus according to the present invention having a variable swing arm
11 and 12 are plan views schematically showing an example in which a saw-top forming apparatus according to the present invention is mounted on a transverse frame and a plurality of saw-toothed grooves are formed on the surface of the stone conveyed by the conveyor
13 is a plan view showing a stone in which a top curved groove with a central curved line is formed on a surface thereof
14 is a plan view schematically showing an example in which a top curved forming device according to the present invention is mounted on a column frame arranged close to a terminal frame and a plurality of top curved grooves are formed on the surface of the stone conveyed by the conveyor
15 and 16 are a plan view showing an example in which a plurality of top curved grooves are formed on the surface of a stone by the top curve forming apparatus according to the present invention shown in Fig.
17 to 19 are plan views each showing a top curved groove superimposed on the surface of the stone
20 and 21 are a plan view and a side view showing a saw-top forming apparatus according to the present invention for machining a saw-tooth groove on the surface of a stone placed on a table while moving along a rail
22 is a side view showing the first embodiment in which the swing arm of the top 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 showing a second embodiment in which the swing arm of the top curve forming apparatus according to the present invention is angularly moved by power;
25 and 26 are a side view and a plan view showing a third embodiment in which the swing arm of the top curve forming apparatus according to the present invention is angularly moved by the power,
27 is a plan view showing an embodiment in which the swing arm of the top curve forming apparatus according to the present invention is angularly moved by the cylinder
28 and 29 are a plan view and a side view showing another embodiment in which the swing arm of the top curve forming apparatus according to the present invention is angularly moved
30 and 31 are a plan view and a side view showing still another embodiment in which the swing arm of the top curve forming apparatus according to the present invention is angularly moved
32 and 33 show a state in which the top curve forming apparatus according to the present invention is mounted on a column frame erected close to the left end frame in the embodiment in which the swing arm of the top curve forming apparatus according to the present invention is angularly moved, One floor plan

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

1 to 3, a top curve forming apparatus 1 according to the present invention includes a swing block 10 mounted on a support bracket 51 of a frame 50, a swing arm 10 And the cutting head 40 is mounted on the height adjustment device 30 so that the swing arm 20 can be rotated about the swing block 10 The swing arm 20 is angularly moved left and right as shown by the arrow 3 in Figs. 1 and 2 so that the cutting head 40 mounted on the tip of the swing arm 20 through the height adjusting device 30 And the height of the cutting head 40 is adjusted by the height adjusting device 30 so that the top surface of the cutting head 40 41 adjust the depth t1 of the top curved groove 61 formed on the surface of the stone 60. [

4, the swing block 10 has a connecting body 21a of a swing arm 20 coupled to an outer circumferential surface of a cylindrical block body 11a, And a lower shaft protrusion 13a is formed at the lower end of the block body 11a so that the upper bracket 51 and the lower bracket 51 formed in a " 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 shaft portion 511 and the lower shaft portion 513 and fitted to the upper shaft projection 12a and the lower shaft projection 13a, Holes 512 and 514, respectively.

As a result, the block body 11a coupled to the connection bracket 21a of the swing arm 20 rotates about the swing arm 20 such that the upper axial projection 12a and the lower axial projection 13a are engaged with the upper And is relatively smoothly rotated relative to the support bracket 51 by the bearings 14a and 15a mounted on the mounting holes 512 and 514 of the horizontal portion 511 and the lower horizontal portion 513. [

5, the swing block 10 includes a first upper shaft protrusion 13b formed on a cylindrical block body 11b and a first upper shaft protrusion 13b formed on the block body 11b by a first step portion 130b. The second upper shaft protrusion 14b formed on the upper portion of the first upper shaft protrusion 13b is separated from the first upper shaft protrusion 13b by the second step portion 140b, The second lower shaft projection 16b formed at the lower portion of the block body 11b is separated from the block body 11b by the third step portion 160b and formed at the lower portion of the third lower shaft projection 16b The fourth lower shaft projection 17b is separated from the third lower shaft projection 16b by the fourth step portion 170b so that the block body 11b is disposed inside the base of the base frame coupled to one end of the swing arm The first upper shaft projecting portion 13b is fitted into the upper hole 221 of the connecting frame 22 and the connecting frame 22 is engaged with the first upper shaft projecting portion 13b The bearing 15b fitted to the first upper shaft projection 13b is supported by the first step portion 130b and the second upper shaft projection 14b is supported by the upper horizontal portion of the support bracket 51 The upper horizontal portion 512 is supported by the second step portion 140b and the third lower shaft projection portion 16b is inserted into the mounting hole 152 formed in the lower hole 511 of the connecting frame 22, The bearing 18b fitted to the third lower shaft projection 16b is engaged with the third lower shaft projection 16b so that the coupling shaft 22 can rotate relative to the third lower shaft projection 16b, And the fourth lower shaft projection 17b is fitted in the mounting hole 514 formed in the lower horizontal portion 513 of the support bracket 51 so that the lower horizontal portion 513 is supported by the fourth step portion 170b .

Thus, when the swing arm 20 rotates, the swing arm 20 of the swing arm 20 rotates relative to the swing block 10 mounted on the support bracket 51 against the bearings 15b and 18b Thereby smoothly rotating relative to each other.

6, the swing block 10 includes a block body 11c formed in a cylindrical shape and an upper axial protrusion 12c formed on the block body 11c so as to be stepped on the block body 11c. The upper shaft protrusion 12c is coupled to the bracket 21c of the arm 20 so as to be rotatably mounted on the bracket 51 'of the frame 50 formed in the " Is rotatably fitted in a mounting hole 516 'formed in the horizontal part 515' of the supporting bracket 51 'and the lower end of the outer peripheral surface of the block body 11c is engaged with the lower part of the vertical part 517' And is supported by a support roller 518 'mounted on the inner surface.

Further, although not shown in the drawings, the present invention is characterized in that a swing arm is connected to a support bracket, and a swing body of the swing block is connected to the frame so that the support bracket can be rotated relative to the fixed swing block.

It will be appreciated by those of ordinary skill in the art that the configuration and coupling structure of the backing bracket and swing block can be altered in various ways, and that such modifications are also within the scope of the present invention. .

The swing arm 20 may be in the form of a simple square pillar.

7, a second arm 23 is fitted to the first arm 22 so that the length of the swing arm 20 can be adjusted, and the second arm 23 is fitted to the first arm 22 by the tightening means 24. [ And a second arm 23 whose length is controlled to be drawn out from the first arm 22 is fixed to the first arm 22. [

8A, 8B and 8C, the first arm 22 is a square pipe or a circular pipe, and the second arm 23 is a square pipe, An I-shaped steel pipe, and a circular pipe.

Since various kinds of the tightening means 24 are well known, a detailed description thereof will be omitted.

9, the height adjusting device 30 includes a swing arm 20 having a swing arm 20 coupled to an elevating and lowering guide member 31, an elevating and lowering member 33 coupled to the elevating and lowering guide member, The member 33 is lifted and lowered along the lifting guide member 31 and the helical shaft 34 of the lifting member 33 is fastened to the nut 32 of the lifting guide member 31 so that the nut 32 The spiral shaft 34 is raised and lowered relative to the nut 32 by the rotation of the spiral shaft 34 fastened to the spiral shaft 34 so that the ascending and descending member 33 coupled with the spiral shaft 34 ascends and descends And the gear box 35 is disposed at the upper end of the ascending and descending member 33 so that 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 cutting head 40 coupled to the lifting member 33 is adjusted by raising and lowering the lifting member 33.

Alternatively, Korean Patent No. 10-0983863 (entitled " saw blade vertical adjustment device of stone cutting machine ") can be applied to the height adjustment device 30.

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

10, a top curvilinear molding apparatus 1 according to the present invention is characterized in that a swing block 10 is mounted on a support bracket 51 of a frame 50 and a swing arm 20 is mounted on a first arm And a second arm 23 fitted to the first arm 22. The length of the swing arm 20 is variable so that the arc radius of the cutting head 40 connected to the second arm 23 In this adjusted state, a saw-tooth groove 61 is formed on the surface of the stone 60 by the cutting head 40.

11, the top curve forming apparatus 1 according to the present invention is configured such that the swing block 10 is mounted on the support bracket 51 of the frame 50 while the length of the swing arm 20 is determined And the stone 60 is moved by the conveyor 70 so that a plurality of sawtooth grooves 61 are formed at regular intervals on the surface of the stone 60 by the cutting head 40.

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

11 shows that the conveyor 70 is moved by one pitch P (the gap between the top curved groove 61 and the top curved groove 61) in the direction of the arrow 71, A plurality of saw-tooth grooves 61 may be formed on the surface 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 Fig. 12, a plurality of frames 50 are mounted side by side on the frame 50, The top curved grooves 61 can be formed in the plurality of stones 60.

 11, 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, the swing arm 20 , Top curved grooves 61 having a central curved shape are formed on the surface of the stone 60, as shown in Fig.

Referring to Figure 14, in alternate embodiments, the frame 50 may be mounted to a column frame or right termination frame 54 that is erected close to the left end frame 53, which is disposed in parallel with the conveyor 70, Column frame.

14, when the saw-top shaping apparatus 1 according to the present invention is mounted on a column frame erected close to the left end frame 53, as shown in Fig. 15, The sawtooth groove 61 formed on the surface of the stone 60 is eccentrically eccentrically eccentrically formed at the left end 62 of the stone 60.

14, when the saw-top shaping apparatus 1 according to the present invention is mounted on a column frame erected close to the right end frame 54, as shown in Fig. 16, The top curve groove 61 formed on the surface of the stone 60 is formed with the left side core top curved groove eccentric to the left side at the right end 63 of the stone 60. [

Further, as shown in Figs. 17 to 19, the stone 60 is formed so that a center curved top curved groove, a postal core top curved groove and a left curved top curved groove are superimposed in various shapes on the surface, A pattern can be formed.

The overlapping patterns of the saw-tooth grooves shown in Figs. 17 to 19 exemplify some representative examples of overlapping patterns of various shapes. The overlapping pattern of the saw-tooth groove is not limited to this, .

20 and 21, as another alternative, the saw-top forming apparatus 1 according to the present invention is a heavy stone which can not be conveyed by a conveyor, or when the surface of the stone is to be processed without conveying the stone, A work table 83 on which a stone is placed is disposed between two parallel rails 81 and 82 and a frame 841 or 842 of a traveling bridge means 84 moving along the rails 81 and 82 And the traveling bridge means 84 is moved along the rails 81 and 82 so that a plurality of sawtooth grooves (not shown) are formed 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 already known in that the wheel 843 moves along the rails 81 and 82 by a driving means (not shown), and a detailed description thereof will be omitted.

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

22, a top curvilinear molding apparatus 1 according to the first embodiment of the present invention includes a speed reducer 90a mounted on an upper horizontal portion 511 of a support bracket 51, 91a are transmitted to the upper axial projection 12 of the swing block 10 protruding above the upper horizontal portion 511 of the receiving bracket 51 through the speed reducer 90a, So that the swing arm 20 is angularly moved about the swing block 10 as shown in Fig.

23 and 24, a top curvilinear molding apparatus 1 according to a second embodiment of the present invention includes a motor 91b mounted on a side surface of an arm 20, A drive gear 93b is mounted on the drive shaft 92b of the swing bracket 51 and the arc end portion 511b of the upper horizontal portion 511 of the support bracket 51 is connected to the swing block 10 And the drive gear 93b is engaged with the driven gear 94b so that the drive gear 93b is moved along the driven gear 94b by the motor 91b so that the drive gear 93b is driven, And the swing arm 20 coupled to the motor 91b perform angular movement around the swing block 10. [0051] As shown in FIG.

25 and 26, a saw-top forming apparatus 1 according to the third embodiment of the present invention includes a motor 91c mounted on a side surface of an arm 20, A drive gear 93c is mounted on the drive shaft 92c of the left and right drive frames 91a and 91b and the drive gear 93c is mounted on the drive shaft 92c of the left and right drive frames 91a and 91b, The drive gear 93c is engaged with the driven gear 94c and the drive gear 93c is moved along the driven gear 94c by the motor 91c so that the drive gear 93c is engaged with the drive gear 93c And the swing arm 20 coupled to the motor 91c and the motor 91c performs angular movement about the swing block 10. [

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

27, a top curvilinear molding apparatus 1 according to the present invention includes a longitudinal frame (either a left end frame 53 or a right end frame 54) arranged parallel to a conveyor 60 And the tip of the connecting rod 101a of the cylinder 100a is connected to the side surface of the swing arm 20 by the pin so that the cylinder 100a is connected to the end frame And are arranged diagonally diagonally between the swing arms 20.

As a result, as 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 is curved in the direction of the arrow 105, When the connecting rod 101a pulls the swing arm 20 while the connecting rod 101a is drawn into the cylinder 100a and the cutting head 40 is moved in the direction opposite to the arrow 105 And a top curved groove is formed on the surface of the stone while being curved.

28 and 29, in another alternative, a saw-top forming apparatus 1 according to the present invention is mounted on a transverse frame 50 across a conveyor 70 at the top of a conveyor 70, The connecting rod 105b is raised on the upper surface of the connecting rod 105 and the upper end shaft projection 106b of the connecting rod 105b is fitted into the elongated hole 592 of the bracket 59 mounted on the left and right driving beam 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 sliding along the rails 104b, And the leading end of the connecting rod 101b of the cylinder 100b is connected to the side connecting portion 103b of the slider 102. The connecting rod 101b of the cylinder 100b is connected to the side connecting portion 103b of the slider 102,

28, when the connecting rod 101b is pulled out from the cylinder 100b and the connecting rod 102b pushes the slider 102b in the direction of arrow 107b in Fig. 28, the slider 102b And the left and right driving beams 58 connected to the left and right driving beams 58 are moved in the direction of the arrow 107b. At this time, the upper shaft projection 106b of the connecting rod 109b is fitted in the elongated hole 592 of the bracket 59 mounted on the left and right driving beam 58, so that the swing arm 20 connected to the connecting rod 109b A top curved groove is formed on the surface of the stone by the cutting head 40 which performs the circular arc motion by the swing arm 20 by being rotated about the swing block 10.

When the connecting rod 102b pulls the slider 102b in the direction opposite to the arrow 107b in Fig. 28 while the connecting rod 101b is pulled in the cylinder 100b, the left and right driving beams 58 Is moved in the opposite direction of the arrow 107b. At this time, the upper shaft projection 106b of the connecting rod 105b is fitted in the elongated hole 592 of the bracket 59 mounted on the left and right driving beam 58, so that the swing arm 20 connected to the connecting rod 105b A top curved groove is formed on the surface of the stone by the cutting head 40 which performs the circular arc motion by the swing arm 20 by being rotated about the swing block 10.

30 and 31, in another alternative, a saw-top forming apparatus 1 according to the present invention is mounted on a transverse frame 50 across a conveyor 70 at the top of a conveyor 70, The connecting rod 105c is raised on the upper surface of the arm 20 and the upper end shaft projection 106c of the connecting rod 105c is inserted into the elongated hole 592 of the bracket 59 mounted on the left and right driving beam 58 The left and right driving beams 58 are disposed on the upper portion of the swing arm 20 and the ends of the left and right driving beams 58 are connected to the slider 103b sliding along the rails 104c, The cam 102 is mounted on the transverse frame 57 of the support member 56 and the operation rod 107c is fitted to the wheel 102c of the slider 103b and the end of the operation rod 107c is driven by the motor (Not shown).

Thereby, when the operating rod 107c is moved in the direction of the arrow 108c by the cam (not shown), the operating rod 107c causes the slider 103c to move along the rail 104c in the direction of the arrow 108c . At this time, the upper shaft projection 106c of the connecting rod 105c is fitted in the elongated hole 592 of the bracket 59 mounted on the left and right driving beam 58, so that the swing arm 20 connected to the connecting rod 105c A top curved groove is formed on the surface of the stone by the cutting head 40 which performs the circular arc motion by the swing arm 20 by being rotated about the swing block 10. In addition, when the operating rod 107c is moved in the direction opposite to the arrow 108c by the cam (not shown), a saw-tooth groove is formed on the surface of the stone by the cutting head 40 performing the circular arc motion.

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

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

10: swing block 20: swing arm
30: height adjustment device 40: cutting head
50: Frame 60: Stone
70: Conveyor

Claims (12)

The swing block 10 is mounted on the support bracket 51 of the frame 50 and one end of the swing arm 20 is connected to the swing block 10 and the height adjusting device 30 And the cutting head 40 is mounted on the height adjustment device 30 so that the swing arm 20 is angularly moved about the swing block 10 to the left and right so that the height adjustment device 30 A top curved groove 61 in the form of an arc is formed on the surface of the stone 60 by the cutting head 40 attached to the tip of the swing arm 20) 40 are adjusted so that the depth t1 of the saw-tooth groove 61 formed on the surface of the stone 60 by the saw 41 of the cutting head 40 is adjusted. Molding device.
The method according to claim 1,
The swing block 10 is mounted on the support bracket 51 of the frame 50 and the swing arm 20 is fixed to the first arm 22 and the second arm 23 fitted to the first arm 22 And the length of the swing arm 20 is changed so that the cutting head 40 is rotated by the cutting head 40 on the surface of the stone 60 in a state in which the arc radius of the cutting head 40 connected to the second arm 23 is adjusted And a top curved groove (61) is formed.
3. The method according to claim 1 or 2,
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 in a state where the length of the swing arm 20 is determined, Wherein a plurality of top curved grooves (61) are formed at regular intervals on the surface of the stone (60).
The method of claim 3,
The frame 50 includes a transverse frame that is orthogonal to the conveying direction of the conveyor 70, a column frame that is located close to the left end frame 53 that is disposed in parallel with the conveyor 70, And a column frame formed in the upper frame.
The method according to claim 1,
A work table 83 on which a stone is placed is disposed between two parallel rails 81 and 82 and a frame 841 or 842 of a traveling bridge means 84 moving along the rails 81 and 82 And a plurality of sawtooth grooves are formed at predetermined intervals on the surface of the stone placed on the work table 83 by the cutting head 40 as the traveling bridge means 84 moves along the rails 81 and 82 Wherein the top curve forming device is a top curve forming device.
The method according to claim 1,
Wherein the swing arm (20) can perform angular movement about the swing block (10) manually.
The method according to claim 1,
The speed reducer 90a is mounted on the upper horizontal portion 511 of the support bracket 51 and the power of the motor 91a is transmitted to the upper horizontal portion 511 of the support bracket 51 through the speed reducer 90a, The swing block 10 can be rotated relatively to the support bracket 51 by being transmitted to the upper axial projection 12 of the block 10 so that the swing arm 20 is rotated about the swing block 10 Wherein the top curve forming device is configured to perform a motion.
The method of claim 3,
The cylinder 100a is mounted by the pin 102a to the end frame (either the left end frame 53 or the right end frame 54) arranged in parallel with the conveyor 60, The top end of the rod 101a is connected to the side surface of the swing arm 20 by the pin so that the cylinder 100a is arranged diagonally diagonally between the end frame and the swing arm 20. [
The stone according to any one of claims 1 to 8, characterized in that a top curved groove (61) is formed on the surface by a top curved forming apparatus.
10. The method of claim 9,
The top curved groove 61 is formed in the center of the swing arm 20 in the 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, , And a top curved groove (61) having a central curved shape is formed by rotation.
10. The method of claim 9,
The top curved groove 61 is formed by a top curved forming device mounted on a column frame erected close to the left end frame of the conveyor 70 or a saw frame forming device mounted on a column frame erected close to the right end frame of the conveyor 70 When the curved growth value is mounted, a postal core top curved groove eccentric to the right side at the left end 62 or a left core top curved groove eccentric to the left direction at the right end 63 is formed.
12. The method according to any one of claims 9 to 11,
Wherein the top curved groove (61) is formed so that a center curved top curved groove, a postal core top curved groove and a left curved top curved groove are superimposed in various shapes, and are processed into various patterns.

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