CN110405959B - Stone material trimming mechanism - Google Patents

Abstract

The invention provides a stone edge cutting mechanism which comprises a processing platform, a walking beam, a sliding frame, a first driving mechanism arranged between the walking beam and the sliding frame and used for driving the sliding frame to slide, baffle plates, material guide plates respectively fixedly connected with the lower end parts of the baffle plates at two sides and obliquely arranged along the width direction of a stone slab, a material receiving groove arranged below a discharge port formed at the lower end parts of the material guide plates at two sides, two cutting frames, cutting blades, a cutting motor, a lifting frame, a diamond hammering block, a second driving mechanism, a cutting motor and a lifting frame, wherein the two cutting frames are fixedly connected with the sliding frame at the upper end parts, the cutting blades are rotatably arranged at the lower end parts of the cutting frames, the cutting motor is arranged on the cutting frames and used for driving the cutting blades to rotate, the lifting frame is arranged in a sliding way along the vertical direction and the sliding frame, the diamond hammering block is fixedly arranged at the bottom parts of the lifting frame, and the second driving mechanism is arranged on the sliding frame and used for driving the lifting frame to lift up and down, the lifting frame is located between the cutting blades on the corresponding side of the baffle and the baffle, the lifting frame is located behind the cutting blade in the feeding direction, and the sliding frame is vertically and fixedly provided with a material baffle.

Description

Stone material trimming mechanism

Technical Field

The invention relates to a stone edge cutting mechanism.

Background

In recent years, the economy of China is rapidly developed, the urbanization level is continuously improved, various buildings are pulled out like spring shoots after rain, and the stone industry flourishes all over the country. But stone material manufacturing enterprise has some problems in the stone material course of working, and to when the stone material cutting, the leftover bits waste material that cuts off also follows the conveyer belt and transmits forward together, must carry out the manual work and collect the waste material, can not carry out automatic collection to the waste material, has increased manufacturing cost.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a stone edge cutting mechanism which can crush and collect waste materials of edge cutting and save labor.

In order to achieve the above object, the present invention provides an edge cutting mechanism for stone materials, which comprises a processing platform for placing stone slabs, a walking beam fixedly disposed above the processing platform, a sliding frame slidably disposed along a length direction of the walking beam, a first driving mechanism disposed between the walking beam and the sliding frame for driving the sliding frame to slide, baffles fixedly disposed at two sides of the sliding frame at upper ends thereof, material guide plates fixedly connected to lower ends of the baffles at two sides respectively and obliquely disposed along a width direction of the stone slabs, a material receiving groove disposed below a material outlet formed at lower ends of the material guide plates at two sides, two cutting frames fixedly connected to the sliding frame at upper ends thereof, cutting blades rotatably disposed at lower ends of the cutting frames, a cutting motor disposed on the cutting frames for driving the cutting blades to rotate, A lifting frame which is arranged in a sliding way along the vertical direction and the sliding frame, a diamond hammering block which is fixedly arranged at the bottom of the lifting frame, and a second driving mechanism which is arranged on the sliding frame and drives the lifting frame to lift, wherein the lifting frame is positioned between the baffle plate and the cutting blade at the corresponding side of the baffle plate, the lifting frame is positioned at the rear of the cutting blade in the feeding direction, the sliding frame is vertically and fixedly provided with a material baffle plate, the striker plate is positioned right behind the lifting frame, the lower end part of the striker plate is fixedly connected with a material sliding plate which is obliquely arranged along the length direction of the stone plate, the lower end part of the material sliding plate is positioned above the material guide plates, the material guide plates at two sides are respectively positioned below the processing platform, the width of the processing platform is smaller than that of the stone plate and smaller than the width distance between the cutting blades on the two sides.

The further improvement is that: first actuating mechanism including fixed set up in on the walking beam and along the guide post that the horizontal direction extends, rotate set up in removal lead screw on the walking beam, set up in on the carriage with guide post matched with guiding hole, set up in on the carriage with remove lead screw matched with screw hole, it is rotated by the driving of moving motor to remove the lead screw.

The further improvement is that: the cutting motor is fixedly arranged on the sliding frame and a motor shaft of the cutting motor is fixedly provided with a first belt pulley, a second belt pulley is fixedly arranged on a cutter shaft of the cutting blade, and a conveying belt is arranged between the first belt pulley and the second belt pulley.

The further improvement is that: the cross section of the material receiving groove is V-shaped.

The further improvement is that: and a negative pressure adsorption mechanism is arranged between the material receiving groove and the material guide plate.

The further improvement is that: the negative pressure adsorption mechanism comprises a hollow adsorption pipe fixedly connected between the upper end part of the material receiving groove and the lower end part of the material guide plate, a plurality of adsorption holes communicated with the cavity of the hollow adsorption pipe are formed in the inner side of the hollow adsorption pipe, and the cavity of the hollow adsorption pipe is connected with a vacuum pump through an air pipe.

The further improvement is that: the second driving mechanism comprises a guide rod vertically fixed on the sliding frame, a lifting cylinder arranged on the lifting frame and provided with a through hole matched with the guide rod, and the lifting cylinder is arranged on the sliding frame, and a piston rod of the lifting cylinder is fixedly connected with the upper end part of the sliding frame.

The invention has the advantages and beneficial effects that: in-process of cutting edge is carried out slabstone, the waste material that cuts is hit garrulous formation segment waste material by the diamond hammering piece that cuts blade rear to on the effect gliding to stock stop and finally get into and connect the silo by automatic collection under the striker stop.

Drawings

FIG. 1 is a front view of the present invention;

fig. 2 is a side view of the present invention.

Wherein: 1. a stone slab; 2. a walking beam; 3. a carriage; 4. a baffle plate; 5. a material guide plate; 6. a material receiving groove; 7. a cutting frame; 8. cutting a blade; 9. a lifting frame; 10. a diamond hammering block; 11. a striker plate; 12. a material sliding plate; 13. a hollow adsorption tube.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-2, a stone edge cutting mechanism comprises a processing platform for placing a stone slab 1, a walking beam 2 fixedly arranged above the processing platform, a sliding frame 3 slidably arranged along the length direction of the walking beam 2, a first driving mechanism arranged between the walking beam 2 and the sliding frame 3 and driving the sliding frame 3 to slide, baffles 4 fixedly arranged at two sides of the sliding frame 3, material guide plates 5 respectively fixedly connected with the lower end parts of the baffles 4 at two sides and obliquely arranged along the width direction of the stone slab 1, a material receiving groove 6 arranged below a discharge port formed at the lower end parts of the material guide plates 5 at two sides, cutting frames 7 fixedly connected with the sliding frame 3 at two ends, cutting blades 8 rotatably arranged at the lower end parts of the cutting frames 7, and a cutting motor arranged on the cutting frames 7 and driving the cutting blades 8 to rotate, The automatic stone cutting machine comprises a lifting frame 9 arranged in a sliding mode along the vertical direction and a sliding frame 3, a diamond hammering block 10 fixedly arranged at the bottom of the lifting frame 9, and a second driving mechanism arranged on the sliding frame 3 and used for driving the lifting frame 9 to lift, wherein the lifting frame 9 is arranged between a baffle 4 and a cutting blade 8 on the corresponding side of the baffle 4, the lifting frame 9 is arranged behind the cutting blade 8 in the feeding direction, a material baffle plate 11 is vertically and fixedly arranged on the sliding frame 3, the material baffle plate 11 is arranged right behind the lifting frame 9, a material sliding plate 12 which is obliquely arranged along the length direction of a stone plate 1 is fixedly connected to the lower end part of the material baffle plate 11, the lower end part of the material sliding plate 12 is arranged above the material guide plate 5, the material guide plates 5 on the two sides are respectively arranged below a processing platform, and the width of the processing platform is smaller than the width of the stone plate 1, and is smaller than the width distance between the cutting blades 8 on both sides.

In this embodiment, a preferable implementation manner is that the first driving mechanism includes a guide post fixedly disposed on the walking beam 2 and extending along a horizontal direction, a movable lead screw rotatably disposed on the walking beam 2, a guide hole disposed on the sliding frame 3 and matched with the guide post, and a threaded hole disposed on the sliding frame 3 and matched with the movable lead screw, and the movable lead screw is driven by a movable motor to rotate.

In the preferred embodiment of the present invention, the cutting motor is fixedly disposed on the sliding frame 3, a first belt pulley is fixedly disposed on a motor shaft of the cutting motor, a second belt pulley is fixedly disposed on a cutter shaft of the cutting blade 8, and a conveying belt is disposed between the first belt pulley and the second belt pulley.

In the preferred embodiment of the present invention, the cross section of the receiving groove 6 is V-shaped.

In order to guarantee the working environment of a workshop, the material receiving groove 6 and the material guide plate 5 are provided with a negative pressure adsorption mechanism, the negative pressure adsorption mechanism comprises a hollow adsorption pipe 13 fixedly connected between the upper end part of the material receiving groove 6 and the lower end part of the material guide plate 5, the inner side of the hollow adsorption pipe 13 is provided with a plurality of adsorption holes communicated with the cavity of the hollow adsorption pipe 13, the cavity of the hollow adsorption pipe 13 is connected with a vacuum pump through an air pipe, and dust generated in the machining process is removed by utilizing the negative pressure adsorption principle.

In this embodiment, a preferable implementation manner is that the second driving mechanism includes a guide rod vertically fixed on the sliding frame 3, a through hole opened on the lifting frame 9 and matched with the guide rod, and a lifting cylinder arranged on the sliding frame 3, and a piston rod of the lifting cylinder is fixedly connected with the upper end of the sliding frame 3.

The working process of the invention is as follows: the processed stone slab 1 is placed on the processing platform, the edge part of the stone slab 1 needing to be cut extends out of the processing platform, so that the edge cutting blade cannot damage the surface of the processing platform when cutting edges, then the first driving mechanism drives the sliding frame 3 to move along the walking beam 2, the cutting motor drives the cutting blade 8 to cut edges of the stone slab 1, when the end part of the cut off edge material is abutted to the material baffle plate 11, the moving frame slides downwards under the action of the lifting cylinder, so that the diamond hammering block 10 crushes the cut off edge material into a plurality of broken stone sections, the material baffle plate 11 pushes the broken stone sections to the material sliding plate 12 along with the advancing process of the sliding frame 3, the broken stone sections slide plate 12 slides downwards to the material guide plate 5 due to the inclined arrangement of the material sliding plate 12, the material guide plate 5 is also inclined and inclined along the width direction of the stone slab 1, and the broken stone waste materials on two sides are synchronously collected to the material receiving groove 6 by the material guide plates 5 on two sides, in addition, the negative pressure adsorption mechanism is arranged for removing the dust generated in the process of cutting edges and beating the waste materials, so that the working environment of a workshop is ensured.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, the invention will be further understood by those skilled in the art from the foregoing description and the following claims, and all changes and modifications that fall within the metes and bounds of the claims, or equivalences of such metes and bounds are therefore intended to be embraced by the appended claims.

Claims (3)

1. The utility model provides a stone material trimming mechanism which characterized in that: including be used for placing slabstone processing platform, fixed set up in the walking roof beam of processing platform top, along the length direction of walking roof beam slides the carriage that sets up, set up in the walking roof beam with drive between the carriage gliding actuating mechanism, upper end fixed set up in the baffle of carriage both sides, respectively with both sides the lower extreme of baffle looks fixed connection and along the stock guide that the width direction slope of slabstone set up, set up in both sides the discharge gate below that the lower tip of stock guide formed connects silo, two and upper end do not with carriage looks fixed connection's cutting frame, rotate set up in cutting under the cutting frame tip cuts the blade, set up in drive on the cutting frame cut the motor, along the vertical direction with carriage looks slip the crane that sets up, The diamond hammering block of crane bottom, set up in drive on the carriage the second actuating mechanism that the crane goes up and down, the crane is located baffle and the corresponding side of this baffle between the cutting blade, just the crane is located cut the rear of blade feed direction, the vertical fixation is provided with the striker plate on the carriage, the striker plate is located the dead aster of crane, the lower tip fixedly connected with of striker plate and along the material slide that the length direction slope of slabstone set up, the lower tip of material slide is located the top of stock guide, both sides the stock guide is located respectively processing platform's below, processing platform's width is less than the width of slabstone, and is less than both sides width distance between the cutting blade, first actuating mechanism including fixed set up in on the walking roof beam and along the guide post that the horizontal direction extends, A movable screw rod rotatably arranged on the walking beam, a guide hole arranged on the sliding frame and matched with the guide post, a threaded hole arranged on the sliding frame and matched with the movable screw rod, the movable screw rod is driven by a movable motor to rotate, the cutting motor is fixedly arranged on the sliding frame, a first belt pulley is fixedly arranged on a motor shaft of the cutting motor, a second belt pulley is fixedly arranged on the cutter shaft of the cutting blade, a conveying belt is arranged between the first belt pulley and the second belt pulley, connect the cross section of silo to become the V-arrangement, second actuating mechanism including the vertical fixation set up in guide bar on the carriage, set up in on the crane with guide bar matched with perforate, set up in lift cylinder on the carriage, the piston rod of lift cylinder with the upper end fixed connection of carriage.

2. A stone trimming mechanism as claimed in claim 1, wherein: and a negative pressure adsorption mechanism is arranged between the material receiving groove and the material guide plate.

3. A stone trimming mechanism as claimed in claim 2, wherein: the negative pressure adsorption mechanism comprises a hollow adsorption pipe fixedly connected between the upper end part of the material receiving groove and the lower end part of the material guide plate, a plurality of adsorption holes communicated with the cavity of the hollow adsorption pipe are formed in the inner side of the hollow adsorption pipe, and the cavity of the hollow adsorption pipe is connected with a vacuum pump through an air pipe.

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