KR20100119017A

KR20100119017A - Stone cutting machine

Info

Publication number: KR20100119017A
Application number: KR1020090037914A
Authority: KR
Inventors: 이인형
Original assignee: 유한회사 익스
Priority date: 2009-04-30
Filing date: 2009-04-30
Publication date: 2010-11-09

Abstract

The present invention relates to a stone cutting device that is capable of automatically cutting a plurality of sheets at a predetermined thickness at a predetermined thickness of the collected raw stone.

The present invention is a frame (10) consisting of a base 11, both front and rear vertical frame 12 and the upper frame (13); A transfer table 20 installed on the rail 11a of the base 11 so as to be movable back and forth; A stone support 30 installed on the rail 21 of the transfer table 20 to move left and right to support the stone ore 1; A lift table 40 connected to the lift frame 12 in a liftable manner; Screw rods 50 which are respectively arranged on the vertical frame 12 to elevate the lifting table 40; A plurality of cutting discs 60 rotatably installed at the lower part of the platform 40 to cut the stone gemstones 1; Wires 80 having both ends fixed before and after the transfer table 20 in a state connected to the pulley 70 and the pulley 70 disposed before and after the base 11, respectively; It comprises a first, second, third motors 90, 100, 200 for driving the screw rod 50, the cutting disc 60 and the pulley 70, respectively.

Description

Stone cutting machine

The present invention relates to a stone cutting device, and more particularly, to a stone cutting device that can automatically cut several sheets at a predetermined thickness of the collected stone raw material at a predetermined thickness.

In general, the stone is used for various purposes, such as building materials and sidewalk blocks, and in order to use the stone for the intended use, first, the collected raw stone must be cut to a desired thickness.

However, in the prior art, when cutting the collected stone raw material to a predetermined thickness, there was a problem that the cutting time is excessive because it was cut one sheet at a time using a cutting tool, in particular, labor costs are consequently high And there was an uneconomic problem that the manufacturing cost of the stone is greatly increased.

In addition, in the prior art, when cutting the stone raw material collected as described above to a predetermined thickness, since cutting one sheet at a time, there was a problem that the mass production is impossible and the productivity is greatly reduced.

An object of the present invention is to invent in order to solve the above conventional drawbacks, it is required to cut the stone by automatically cutting several sheets at a predetermined thickness of the collected stone raw material at a predetermined thickness. It is to provide a stone cutting device that can greatly reduce the time, effort and cost, and also to reduce the manufacturing cost of the stone as a whole, and greatly improve the productivity.

In order to achieve the above object, the present invention constitutes a frame with a base and both sides of the front and rear vertical frame and the upper frame, and installs the transfer table forward and backward on the base of the frame, and supports the stone gemstone on the transfer platform. Install the stone support so as to move left and right, connect the lifting platform to the vertical frame on both sides front and rear of the frame, and accumulate a screw rod for elevating the platform on the vertical frame on both sides of the frame, and lower the platform Install a plurality of cutting disks rotatably cutting the stone raw material collected to a predetermined thickness, and arrange a plurality of pulleys before and after the base of the frame, and both ends of the plurality of pulleys respectively fixed before and after the transfer table The first, second and third motors respectively connecting the wires to be connected and driving the screw rod, the cutting disc and the pulley A.

According to the stone cutting device of the present invention, because it is possible to automatically cut several sheets of stone material collected at a predetermined thickness at a predetermined thickness, in particular, the time, effort and cost required for cutting the stone can be reduced as much as possible. In addition, through this it is possible to reduce the manufacturing cost of the stone as a whole and at the same time can significantly improve the productivity.

Hereinafter, the technical configuration of the present invention according to the accompanying drawings in detail.

Stone cutting device of the present invention, as shown in Figures 1 to 12, the frame 11 consisting of the base 11, both front and rear vertical frame 12 and the upper frame 13; A transfer table 20 installed on the rail 11a of the base 11 so as to be movable back and forth; A stone support 30 installed on the rail 21 of the transfer table 20 to move left and right to support the stone ore 1; Lift table 40 is connected to the elevating frame 12, both sides of the frame 10 so as to be lifted and lowered; Screw rods 50 which are respectively arranged on both front and rear vertical frames 12 of the frame 10 to elevate the platform 40, and are rotatably installed at the lower part of the platform 40 to cut the stone gemstone 1. A plurality of cutting discs 60; a plurality of pulleys 70 and a plurality of pulleys 70 respectively disposed before and after the base 11, respectively, in which both ends are fixed before and after the feed table 20, respectively. Wire 80, the screw rod 50, the cutting disk 60 and the pulley 70 to drive the first, second and third motors 90, 100, 200, including the configuration respectively Basic features of the jacket.

Here, the frame 10 constitutes the main body of the stone cutting device according to the present invention, as shown in Figs. 1 and 2, the lower portion of the frame 10 is provided with a base 11 forming a lower frame The front and rear vertical frames 12 are respectively provided on both sides of the base 11 of the frame 10, and the upper frames 13 are provided on both front and rear vertical frames 12 of the frame 10. At this time, the frame 10 supports the transfer table 20, the lifting table 40, the screw rod 50, the pulley 70, the first and third motors 90, 200.

The base 11 of the frame 10 is supported on the floor as shown in Figs. 1 and 2, the upper portion of the base 11, a plurality of rails (11a) for guiding forward and backward movement of the feed table 20 Is provided. At this time, a plurality of pulleys 70 are rotatably installed at the front and rear of the base 11, and a third motor 200 for driving the pulley 70 is installed at the top of the base 11.

Both front and rear vertical frames 12 of the frame 10 are respectively installed at both sides of the upper part of the base 11 as shown in FIGS. 1 and 2 to support the lifting table 40 in a liftable manner. In the frame 12, screw rods 50 for elevating the platform 40 are arranged. At this time, the two sides front and rear vertical frame 12 is formed in a '' 'shape so as to accommodate the screw rod (50).

The upper frame 13 of the frame 10 is installed on both sides of the front and rear vertical frame 12, as shown in Figures 1 and 2 to support the first motor 90, of the upper frame 13 Front and rear horizontal bars 14 connected to the first motor 90 by the belt B1 are respectively arranged, and both ends of the front and rear horizontal bar 14 as shown in FIGS. 3 and 4A and 4B as shown in FIGS. 3 and 4A and 4B. ) Are connected to the bevel gears 15, respectively.

The transfer table 20 is installed so as to be movable back and forth on the rail 11a of the base 11, and the rail 21 for guiding the left and right movement of the stone support 30 is provided on the upper portion of the transfer table 20. The roller 22 which is provided along the rail 11a of the base 11 is provided in the lower part of the conveyance table 20. As shown in FIG. At this time, both ends of the wire 80 is connected before and after the transfer table 20, respectively.

The stone support 30 is installed so as to be movable left and right on the rail 21 of the transfer table 20 as shown in Figure 7 to firmly support the stone raw material (1) during cutting, such stone support Both front and rear sides of the 30 are provided with fixing clamps 31, respectively, and the lower portion of the stone gemstone 1 is provided with a fixing groove 1a fitted to the fixing clamp 31. Therefore, if the stone raw material 1 is placed so that the fixing groove 1a is fitted into the clamp 31 of the stone support 30, the flow is prevented during cutting.

1 and 2, the lifting table 40 is liftably connected to both front and rear vertical frames 12 of the frame 10 to support a plurality of cutting discs 60. The connecting portion 41 is fitted to each of the front and rear vertical frame 12 so as to be lifted and lowered, and the connecting portion 41 is a female screw 42 respectively screwed to both front and rear screw rods 50 as shown in Figs. ) Is provided.

And in accordance with the present invention in front of the platform 40 is provided with a nozzle 43 for supplying water to the cutting disc 60 so that dust does not occur when cutting as shown in Figure 1, the rear of the platform 40 2 is provided with a blocking film 44 to prevent water from splashing.

The screw rods 50 are respectively arranged on both front and rear vertical frames 12 of the frame 10 to elevate the lifting table 40. The upper portion of the screw rods 50 are bevel gears at both ends of the horizontal rods 14. Respectively connected to (15), both front and rear screw rods 50 are formed of right and left screws, respectively, and the two front and rear screw rods 40 are connected to the female screw 42 of the platform 40 by screwing.

The plurality of cutting disk 60 is rotatably installed on the lower portion of the platform 40 to cut the stone gemstone (1), a plurality of the cutting disk 60 is installed at a predetermined interval a plurality of collected The stone raw material 1 is cut several sheets at once to a predetermined thickness.

As shown in FIGS. 1 and 2, the pulleys 70 are each rotatably arranged before and after the upper portion of the base 11. Wires 80 are connected to the plurality of pulleys 70, respectively. At this time, the third motor 200 is connected to the pulley 70 disposed in front of the base 11.

Both ends of the wire 80 are fixed to the front and rear of the carriage 20 while being connected to the plurality of pulleys 70, respectively, and the plurality of wires 80 move the carriage 20 back and forth. .

The first motor 90 is installed in the upper frame 13 of the frame 10, as shown in Figs. 1 and 2 to drive the front and rear screw rods 50 on both sides, such a first motor 90 is a belt Front and rear horizontal bar 14 is connected through (B1). Accordingly, when the first motor 90 is driven, both front and rear screw rods 50 are simultaneously driven by the belt B1, the horizontal rod 14, and the bevel gear 15, and the lift table 40 is elevated. At this time, when driving the first motor 90 in the forward direction, the platform 40 is lowered, and when the first motor 90 is driven in the reverse direction, the platform 40 is reversed.

The second motor 100 is installed in the upper portion of the platform 40 as shown in Fig. 1 and 2 to drive a plurality of cutting discs 60 during cutting, such a second motor 100 is a belt (B2) Reducer 110 is connected to the provided, and the cutting disc 60 is connected to the reducer 110 of the second motor 100 by a belt (B4). Therefore, when the second motor 100 is driven when the stone raw material 1 is cut, the cutting disc 60 is simultaneously driven through the belt B2, the reducer 110, and the belt B4. At this time, the reducer 110 of the second motor 100 greatly increases the rotational force by reducing the rotational speed.

The third motor 200 is installed in the base 11 of the frame 10 to drive the pulley 70, the third motor 200 is provided with a reducer 210 connected to the belt (B3). The pulley 70 is connected to the reduction gear 210 of the third motor 200. Accordingly, when the third motor 200 is driven, the pulley 70 is simultaneously driven through the belt B3 and the reducer 210. When the pulley 70 is driven in this way, the transfer table connected to the wire 80 ( 20) moves back and forth. In this case, when the third motor 200 is driven in the forward direction, the carriage 20 moves backward, and when the third motor 200 is driven in the reverse direction, the carriage 20 moves forward. On the other hand, the reducer 210 of the third motor 200 greatly increases the rotational force by reducing the rotational speed.

Referring to the overall operating relationship of the present invention configured as described above in detail as follows.

First, before the cutting device is operated, the platform 40 is raised as shown in FIGS. 8A and 8B, and the stone support 30 is moved forward as shown in FIG. 8B. In Figure 8a, 8b as shown in the stone raw material (1) collected on the upper portion of the stone support 30, the cutting operation is started by driving the first motor 90 in the forward direction. At this time, if the stone gemstone (1) is placed so that the fixing groove (1a) is fitted in the clamping 31 of the stone support 30, the flow of the stone gemstone (1) is prevented during cutting.

When the first motor 90 is driven in the forward direction, the screw rod 50 is simultaneously driven through the belt B1, the horizontal rod 14, and the bevel gear 15, and in conjunction with this, the female screw 42 is connected to the screw rod 50. Since the platform 40 connected by) descends along the vertical frame 12, as a result, the cutting disk 60 mounted on the platform 40 as shown in Figure 9a, 9b is simultaneously lowered. At this time, when the cutting disc 60 is lowered to the position where the stone gemstone 1 can be cut, the first motor 90 is stopped, and then the second motor 100 is driven while the third motor 200 is stopped. Drive in the forward direction.

When the second motor 100 is driven, a plurality of cutting discs 60 are simultaneously driven through the belt B2, the reducer 110, and the belt B4, and when the third motor 200 is driven in the forward direction, the belt (B3), the plurality of pulleys 70 are simultaneously driven through the reducer 210, and the transfer table 20 connected to the plurality of wires 80 is moved backwards in conjunction with the stone support 30 and the stone at the same time. Since the raw stone 1 is gradually moved backward by the feeder 20 as in FIGS. 10A, 10B and 11A, 11B, the plurality of cutting discs 60 gradually moves backward. Is cut into several sheets, and as a result, the stone gemstone 1 is cut into several sheets at a predetermined thickness. At this time, water is supplied through the nozzle 43 so that dust does not occur in the stone raw material 1 and the cutting disc 60 when the raw stone 1 is cut.

As shown in FIGS. 11A and 11B, when the cutting of the stone gemstone 1 gradually moving backward is completed, the third motor 200 driving in the forward direction is stopped. In this state, the cutting operation of the stone gemstone 1 is primarily performed. After that, when the third motor 200 is driven in the reverse direction, the carriage 20 moves forward, and when the carriage 20 moves to the desired position forward, the third motor 200 stops and In the state, as shown in FIG. 12, when the stone support 30 is moved to the right, the secondary cutting operation of the stone gemstone 1 may be continuously performed. Therefore, after cutting the stone raw material 1 in the same operation as described above in the state in which the primary cut stone raw material 1 is moved to the right as shown in FIG. 12, the raw stone raw material (1) ) And then insert the new stone ore to perform the following cutting operation continuously.

On the other hand, according to the present invention, as described above, while cutting the raw stone (1) as shown in FIG. It is clear that the raw material 60 can be cut step by step while reciprocating the stone gemstone 1 back and forth several times while gradually lowering step by step without completely lowering the disc 60.

Therefore, according to the stone cutting device of the present invention, since the collected stone raw material 1 can be automatically cut to several sheets at a constant thickness at a predetermined thickness, structurally, the cutting time of the stone is greatly saved. And, as a result, there is an advantage that can significantly reduce the time, effort and cost required to cut the stone economically.

In addition, according to the stone cutting device of the present invention as described above, it is possible to automatically cut several sheets of the stone raw material 1 more conveniently and easily, so that the mass production of the stone is structurally possible, thereby further increasing productivity. There is an advantage that can be greatly improved.

1 is a perspective view showing the overall structure of the present invention.

Figure 2 is a perspective view showing the back of Figure 1;

3 is a front view of the present invention.

4A is an enlarged view of a portion “A” of FIG. 3.

4B is an enlarged view of a portion “B” of FIG. 3.

5 is a side view of the present invention.

6A is an enlarged view of a portion “C” of FIG. 3.

6B is an enlarged view of a portion “D” of FIG. 3.

Figure 7 is a perspective view of the transport stand and the stone support according to the invention.

8A to 12 are exemplary views showing an operating state of the present invention.

1: Stone Gemstone 10: Frame

11 base 11a rail

12: vertical frame 13: upper frame

20: feeder 21: rail

30: stone support 40: platform

50: screw rod 60: cutting disc

70: pulley 80: wire

90: first motor 100: second motor

200: third motor

Claims

Frame 10 consisting of the base 11, both front and rear vertical frame 12 and the upper frame 13; A transfer table 20 installed on the rail 11a of the base 11 so as to be movable back and forth; A stone support 30 installed on the rail 21 of the transfer table 20 to move left and right to support the stone ore 1; A lift table 40 connected to the lift frame 12 in a liftable manner; Screw rods 50 which are respectively arranged on the vertical frame 12 to elevate the lifting table 40; A plurality of cutting discs 60 rotatably installed at the lower part of the platform 40 to cut the stone gemstones 1; Wires 80 having both ends fixed before and after the transfer table 20 in a state connected to the pulley 70 and the pulley 70 disposed before and after the base 11, respectively; Stone cutting device comprising a first, second and third motors (90, 100, 200) for driving the screw rod (50), the cutting disc 60 and the pulley (70), respectively.

According to claim 1, wherein the front and rear of the upper frame 13, horizontal rods 14 connected to the first motor 90 by the belt B1 are respectively arranged, and both ends of the front and rear horizontal rods 14 at both ends. Sabong 50 is connected to each bevel gear (15), the stone cutting device, characterized in that the front and rear screw rods (50) formed of right and left screws, respectively.

The method according to claim 1, wherein both sides of the stone support (30) is provided with a fastener (31), respectively, and the lower portion of the stone raw material (1) has a fixing groove (1a) to be fitted to the fastener (31) is formed Stone cutting device characterized in that.

According to claim 1, The platform 40 is provided with a connecting portion 41 which is fitted to each of the elevating front and rear vertical frame 12, respectively, and the connecting portion 41 is screwed on each of the front and rear screw rods 50 Stone cutting device, characterized in that provided with a female screw 42 to be coupled.

According to claim 1, wherein the front of the platform 40 is provided with a nozzle 43 for supplying water to the cutting disc 60, the rear of the platform 40, the blocking film 44 to prevent water from splashing Stone cutting device, characterized in that provided.

According to claim 1, wherein the second and third motors (100, 200) are provided with reducers (110, 210) connected to the belt (B2) (B3), respectively, the reducer of the second motor (100) Stone cutting device 60, characterized in that the cutting disc 60 is connected to the belt (B4), the pulley 70 is connected to the reducer 210 of the third motor (200).