CN111571819A

CN111571819A - Mine marble cutter

Info

Publication number: CN111571819A
Application number: CN202010485048.1A
Authority: CN
Inventors: 庄燕玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-01
Filing date: 2020-06-01
Publication date: 2020-08-25

Abstract

The invention discloses a mine stone cutting machine, which structurally comprises a frame, a cutting motor, a vertical sliding frame, a cutting mechanism, a workbench and a sliding machine table, wherein the cutting mechanism consists of a machine cover, a mounting plate, a polishing mechanism, a rotating shaft, a saw blade and a positioning counterweight mechanism, the cutting mechanism utilizes a water bar to block stone scraps generated during stone cutting of the saw blade and cooling water for cooling the saw blade so as to prevent a stone cutting site from being damaged by a wolf, the corners of the saw blade are polished by a V-shaped grinding block, the cutting machine has the advantages that the saw blade can be prevented from being bent to affect the cutting quality of the stone, the rubber clamping strips in the concave hanging blocks are used for bearing the insertion of fragments, the fragments are prevented from flying out of the machine cover to cause personal injury to workers, the cutting motor is used for clamping and positioning the stone through the positioning counterweight mechanism, and the stone is prevented from being deviated when being cut, so that the cutting precision of the cutting mechanism is reduced.

Description

Mine marble cutter

Technical Field

The invention relates to the field of cutting machines, in particular to a mine stone cutting machine.

Background

Mine stone is widely applied to interior decoration design, curtain wall decoration and public facility construction as a building decoration material, the mine stone has become one of important raw materials for building, decoration, road and bridge construction for a long time, mine stone cutting is the most basic and the most main processing method for stone processing, and the existing mine stone is generally cut by using cutting equipment.

The cutting equipment that has now is when cutting the stone material to marble cutter, the cooling water of the stone piece that produces and cooling saw bit is raised by high-speed pivoted saw bit, make the scene of stone material cutting a wolf of making a decoction, and perhaps saw bit.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a mine stone cutting machine structurally comprises a rack, a cutting motor, a vertical sliding frame, a cutting mechanism, a workbench and a sliding machine table, wherein the sliding machine table is arranged at the right end of the rack, the rack and the sliding machine table are welded through electric welding, the workbench is arranged on the surface of the sliding machine table, the sliding machine table and the workbench are in sliding fit, the vertical sliding frame is arranged right above the workbench, the rack is matched with the vertical sliding frame, the cutting motor is mounted at the top end of the vertical sliding frame, the cutting mechanism is arranged below the bottom end of the vertical sliding frame, and the vertical sliding frame and the cutting mechanism are in clearance fit;

cutting mechanism constitute by aircraft bonnet, mounting panel, grinding machanism, pivot, saw bit, location counter weight mechanism, aircraft bonnet top intermediate position on be equipped with the mounting panel, aircraft bonnet and mounting panel fixed connection, the aircraft bonnet inboard on be equipped with the saw bit, aircraft bonnet and saw bit adopt clearance fit through the pivot, the aircraft bonnet left and right sides on all be equipped with location counter weight mechanism, aircraft bonnet and location counter weight mechanism swing joint, the inboard top of aircraft bonnet on install grinding machanism.

As a further optimization of the technical scheme, the hood further comprises a slide rail groove, limiting blocks, an auxiliary slide shaft and a water bar, the slide rail groove is formed in the top end of the interior of the hood, the two limiting blocks are installed on the inner side of the slide rail groove, one end of the water bar is arranged on the inner side of the slide rail groove, and the slide rail groove and the water bar are in sliding fit through the auxiliary slide shaft.

As a further optimization of the technical scheme, the other end of the water bar is provided with a protective pad, and the water bar is connected with the protective pad through glue.

As a further optimization of the technical scheme, the left end and the right end of the inner side of the hood are respectively provided with a dust collecting box, the hood is movably connected with the dust collecting boxes, the top ends of the dust collecting boxes are provided with water guide strips, and the dust collecting boxes and the water guide strips are of an integrated structure.

As a further optimization of the technical scheme, the polishing mechanism comprises a concave hanging block, a polishing block and a V-shaped polishing block, wherein the polishing block is arranged on the inner side of the concave hanging block, the concave hanging block is fixedly connected with the polishing block, the V-shaped polishing block is arranged at the front end of the polishing block, and the polishing block is connected with the V-shaped polishing block.

As a further optimization of the technical scheme, a rubber clamping strip is arranged in the middle of the top end of the inner part of the concave hanging block, and the concave hanging block is connected with the rubber clamping strip through glue.

As the further optimization of this technical scheme, location counter weight mechanism constitute by slip sleeve, spacing dish, slip jib, balancing weight, clamp plate, the slip sleeve inboard on be equipped with the slip jib, slip sleeve and slip jib sliding fit, slip jib head end on be equipped with spacing dish, slip jib and spacing dish fixed connection, slip jib bottom under be equipped with the clamp plate, slip jib and clamp plate be connected, the slip jib install the balancing weight on the surface.

As a further optimization of the technical scheme, more than two pressure guide shafts are arranged below the bottom end of the inner side of the pressure plate, the pressure plate and the pressure guide shafts are in clearance fit, silica gel sleeves are arranged on the surfaces of the pressure guide shafts, and the pressure guide shafts are connected with the silica gel sleeves in a gluing mode.

As the further optimization of the technical scheme, the rubber holding strip has the same length as the hood.

As a further optimization of the technical scheme, the sliding suspender and the saw blade are parallel to each other and are positioned on the same horizontal plane.

As a further optimization of the technical scheme, the limiting disc is movably attached to the top end of the sliding sleeve.

As a further optimization of the technical scheme, the cutting motor is in transmission connection with one end of the rotating shaft.

Advantageous effects

The invention relates to a mine stone cutting machine, when stone needs to be cut, the stone is placed on a workbench, a sliding machine table is driven to move the workbench, so that the stone can be parked under a cutting mechanism, a cutting motor drives a saw blade to rotate through a rotating shaft, a rack drives the saw blade to cut the stone through a vertical sliding frame, after the stone is close to the saw blade to be cut, a machine cover utilizes a water retaining strip to block stone scraps generated when the saw blade is used for cutting the stone and cooling water for cooling the saw blade, a wolf caused by the stone cutting field is avoided, the water retaining strip can be flexibly stored in a slide rail groove through an auxiliary sliding shaft, the stone is prevented from sliding under the cutting mechanism, the bottom end of the water retaining strip can be protected by a protective pad and cannot be damaged by the stone in the moving process, the machine cover utilizes a grinding block on the inner side of a concave hanging block to grind the saw blade, when the corner, the corners of the saw blade are polished by the V-shaped grinding block, so that the stone cutting quality is prevented from being influenced by the bevel of the saw blade, when the saw blade is cut for a long time, the saw blade is broken possibly to cause fragments to splash, the hood utilizes the rubber clamping strips in the concave hanging blocks to bear the insertion of the fragments, the fragments are prevented from flying out of the hood to cause personal injury to workers, when the vertical sliding frame drives the hood to move towards the stone, the pressing plate can firstly contact with the stone, the pressing plate can clamp and position the stone through the balancing weight, the stone is prevented from deviating during cutting, thereby reducing the cutting precision of the cutting mechanism, the pressing plate also utilizes the pressure guide shaft to press the stone material, so that the pressing plate can move along with the machine cover, the cutting work of saw bit and stone material can not be influenced, and the pressure guide shaft protects the stone material surface through the silica gel cover, avoids the pressure guide shaft to slide on its surface and causes the damage.

Compared with the prior art, the invention has the beneficial effects that: cutting mechanism utilizes the breakwater to block the stone material piece that the saw bit produced when the stone material cutting and the cooling water of cooling saw bit, avoid the stone material cutting scene to be made a wolf of a slice, polish the saw bit corner through V type abrasive brick, can avoid the saw bit dog-ear to appear and influence the stone material cutting quality, utilize the rubber holding strip in the concave type hanger to bear the insertion of piece, avoid the piece flying out the aircraft bonnet to cause bodily injury to the staff, the cutting motor passes through location counter weight mechanism and carries out the clamping location to the stone material, avoid leading to the stone material to take place the skew when the cutting, thereby cutting mechanism's cutting precision has been reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a mine stone cutting machine according to the present invention.

FIG. 2 is a schematic side sectional view of the cutting mechanism of the present invention.

Fig. 3 is a schematic front sectional view of the cutting mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the counterweight positioning mechanism of the present invention.

FIG. 5 is a schematic view of the structure of the pressure plate of the present invention.

In the figure: the device comprises a rack-1, a cutting motor-2, a vertical sliding frame-3, a cutting mechanism-4, a workbench-5, a sliding machine table-6, a hood-4 a, a mounting plate-4 b, a polishing mechanism-4 c, a rotating shaft-4 d, a saw blade-4 e, a positioning counterweight mechanism-4 f, a sliding rail groove-4 a1, a limiting block-4 a2, an auxiliary sliding shaft-4 a3, a water blocking strip-4 a4, a protective pad-4 a41, a dust collecting box-g 1, a water guide strip-g 2, a concave hanging block-4 c1, a polishing block-4 c2, a V-shaped grinding block-4 c3, a rubber clamping strip-4 c11, a sliding sleeve-4 f1, a limiting disc-4 f2, a sliding suspender-4 f3, a balancing weight-4 f4, a pressing plate-4 f5, a pressure guide shaft-4 f51, a machine cover-4 f51, a, Silica gel cover-4 f 52.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

Referring to fig. 1-3, the invention provides a mine stone cutting machine, which structurally comprises a frame 1, a cutting motor 2, a vertical sliding frame 3, a cutting mechanism 4, a workbench 5 and a sliding machine table 6, wherein the right end of the frame 1 is provided with the sliding machine table 6, the frame 1 and the sliding machine table 6 are welded through electric welding, the surface of the sliding machine table 6 is provided with the workbench 5, the sliding machine table 6 is in sliding fit with the workbench 5, the vertical sliding frame 3 is arranged right above the workbench 5, the frame 1 is matched with the vertical sliding frame 3, the top end of the vertical sliding frame 3 is provided with the cutting motor 2, the bottom end of the vertical sliding frame 3 is provided with the cutting mechanism 4, and the vertical sliding frame 3 is in clearance fit with the cutting mechanism 4;

cutting mechanism 4 constitute by aircraft bonnet 4a, mounting panel 4b, grinding machanism 4c, pivot 4d, saw bit 4e, location counter weight mechanism 4f, aircraft bonnet 4a top intermediate position on be equipped with mounting panel 4b, aircraft bonnet 4a and mounting panel 4b fixed connection, aircraft bonnet 4a inboard on be equipped with saw bit 4e, aircraft bonnet 4a and saw bit 4e adopt clearance fit through pivot 4d, aircraft bonnet 4a left and right sides on all be equipped with location counter weight mechanism 4f, aircraft bonnet 4a and location counter weight mechanism 4f swing joint, the inboard top of aircraft bonnet 4a on install grinding machanism 4 c.

The hood 4a further comprises a slide rail groove 4a1, a limiting block 4a2, an auxiliary slide shaft 4a3 and a water retaining strip 4a4, the inside top end of the hood 4a is provided with the slide rail groove 4a1, the inner side of the slide rail groove 4a1 is provided with two limiting blocks 4a2, one end of the water retaining strip 4a4 is arranged on the inner side of the slide rail groove 4a1, and the slide rail groove 4a1 and the water retaining strip 4a4 are in sliding fit through the auxiliary slide shaft 4a 3.

The other end of the water retaining strip 4a4 is provided with a protective pad 4a41, and the water retaining strip 4a4 is connected with the protective pad 4a41 through glue.

The left end and the right end of the inner side of the hood 4a are respectively provided with a dust collection box g1, the hood 4a is movably connected with a dust collection box g1, the top end of the dust collection box g1 is provided with a water guide strip g2, and the dust collection box g1 and the water guide strip g2 are of an integrated structure.

The grinding mechanism 4c comprises a concave hanging block 4c1, a grinding block 4c2 and a V-shaped grinding block 4c3, the grinding block 4c2 is arranged on the inner side of the concave hanging block 4c1, the concave hanging block 4c1 is fixedly connected with the grinding block 4c2, the V-shaped grinding block 4c3 is arranged at the front end of the grinding block 4c2, and the grinding block 4c2 is connected with the V-shaped grinding block 4c 3.

The middle position of the top end in the concave hanging block 4c1 is provided with a rubber clamping strip 4c11, and the concave hanging block 4c1 is connected with the rubber clamping strip 4c11 through glue.

The principle of the embodiment: when the stone needs to be cut, the stone is placed on the working table 5, the sliding machine table 6 is driven to move the working table 5, so that the stone can be parked under the cutting mechanism 4, the cutting motor 2 drives the saw blade 4e to rotate through the rotating shaft 4d, the rack 1 drives the saw blade 4e to cut the stone through the vertical sliding frame 3, after the stone is close to the saw blade 4e to be cut, the hood 4a utilizes the water blocking strip 4a4 to block stone chips generated by the saw blade 4e during stone cutting and cooling water for cooling the saw blade 4e, the phenomenon that a wolf is formed in the stone cutting field is avoided, the water blocking strip 4a4 can be flexibly contained in the sliding rail groove 4a1 through the auxiliary sliding shaft 4a3, the influence on the sliding of the stone under the cutting mechanism 4 is avoided, the water blocking strip 4a4 utilizes the pad 4a41 to protect the bottom end of the protecting strip from being hit by the stone in the movement, the hood 4a utilizes the polishing block 4c2 on the inner side of the concave hanging block 4c1, when the dog-ear appears in saw bit 4e corner, polish saw bit 4e corner through V type abrasive brick 4c3, can avoid saw bit 4e to appear the dog-ear to influence stone material cutting quality, can probably take place the cracked piece that leads to of saw bit 4e to splash after the long-time cutting of saw bit 4e, aircraft bonnet 4a utilizes the rubber holding strip 4c11 in the concave type hanging piece 4c1 to bear the insertion of piece, avoids the piece to fly out aircraft bonnet 4a and causes bodily injury to the staff.

The method for solving the problems in the embodiment is as follows: the cutting mechanism 4 utilizes the water bar 4a4 to block stone chips generated by the saw blade 4e during stone cutting and cooling water for cooling the saw blade 4e, so that a wolf can be prevented from being made on the stone cutting site, the corners of the saw blade 4e are polished by the V-shaped grinding block 4c3, the influence of the broken corners on the stone cutting quality caused by the saw blade 4e can be avoided, the rubber clamping strips 4c11 in the concave hanging blocks 4c1 are utilized to bear the insertion of chips, and the chips are prevented from flying out of the hood 4a to cause personal injury to workers.

Example 2

Referring to fig. 1-5, the present invention provides a mine stone cutting machine, wherein the positioning counterweight mechanism 4f comprises a sliding sleeve 4f1, a limiting disc 4f2, a sliding suspension rod 4f3, a counterweight 4f4 and a pressing plate 4f5, a sliding suspension rod 4f3 is disposed on the inner side of the sliding sleeve 4f1, the sliding sleeve 4f1 is in sliding fit with the sliding suspension rod 4f3, the limiting disc 4f2 is disposed at the head end of the sliding suspension rod 4f3, the sliding suspension rod 4f3 is fixedly connected with the limiting disc 4f2, the pressing plate 4f5 is disposed at the bottom end of the sliding suspension rod 4f3, the sliding suspension rod 4f3 is connected with the pressing plate 4f5, and the counterweight 4f4 is mounted on the surface of the sliding suspension rod 4f 3.

More than two pressure guide shafts 4f51 are arranged below the bottom end of the inner side of the pressure plate 4f5, the pressure plate 4f5 and the pressure guide shafts 4f51 are in clearance fit, a silica gel sleeve 4f52 is arranged on the surface of the pressure guide shafts 4f51, and the pressure guide shafts 4f51 and the silica gel sleeve 4f52 are connected through glue.

The rubber holding strip 4c11 is the same as the length of the hood 4a, the sliding suspension rod 4f3 is parallel to the saw blade 4e, the sliding suspension rod and the saw blade are positioned on the same horizontal plane, the top ends of the limiting disc 4f2 and the sliding sleeve 4f1 are movably attached, and the cutting motor 2 is in transmission connection with one end of the rotating shaft 4 d.

The principle of the embodiment: when vertical carriage 3 drives aircraft bonnet 4a and moves toward the stone material direction, clamp plate 4f5 can contact the stone material at first, clamp plate 4f5 can carry out clamping and fixing the location to the stone material through balancing weight 4f4, avoid leading to the stone material to take place the skew when the cutting, thereby cutting mechanism 4's cutting accuracy has been reduced, clamp plate 4f5 still utilizes to lead pressure axle 4f51 to suppress the stone material, make clamp plate 4f5 can follow aircraft bonnet 4a and remove, can not influence the cutting work of saw bit 4e and stone material, lead pressure axle 4f51 to protect the stone material surface through silica gel cover 4f52, avoid leading pressure axle 4f51 to slide on its surface and cause the damage.

The method for solving the problems in the embodiment is as follows: cutting motor 2 carries out clamping location to the stone material through location counter weight mechanism 4f, avoids leading to the stone material to take place the skew when the cutting to cutting mechanism 4's cutting accuracy has been reduced.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A mine stone cutting machine structurally comprises a frame (1), a cutting motor (2), a vertical sliding frame (3), a cutting mechanism (4), a workbench (5) and a sliding machine table (6), wherein a sliding machine table (6) is arranged at the right end of the frame (1), the frame (1) and the sliding machine table (6) are welded through electric welding, the surface of the sliding machine table (6) is provided with the workbench (5), the sliding machine table (6) is in sliding fit with the workbench (5), the vertical sliding frame (3) is arranged right above the workbench (5), the frame (1) is matched with the vertical sliding frame (3), the top end of the vertical sliding frame (3) is provided with the cutting motor (2), the bottom end of the vertical sliding frame (3) is provided with the cutting mechanism (4), and the vertical sliding frame (3) is in clearance fit with the cutting mechanism (4), the method is characterized in that:

cutting mechanism (4) constitute by aircraft bonnet (4a), mounting panel (4b), grinding machanism (4c), pivot (4d), saw bit (4e), location counter weight mechanism (4f), aircraft bonnet (4a) top intermediate position on be equipped with mounting panel (4b), aircraft bonnet (4a) and mounting panel (4b) fixed connection, aircraft bonnet (4a) inboard on be equipped with saw bit (4e), aircraft bonnet (4a) and saw bit (4e) adopt clearance fit through pivot (4d), aircraft bonnet (4a) the left and right sides on all be equipped with location counter weight mechanism (4f), aircraft bonnet (4a) and location counter weight mechanism (4f) swing joint, aircraft bonnet (4a) inboard top on install grinding machanism (4 c).

2. The mine stone cutting machine of claim 1, wherein: aircraft bonnet (4a) still include slide rail groove (4a1), stopper (4a2), supplementary slide-shaft (4a3), water bar (4a4), aircraft bonnet (4a) inside top on be equipped with slide rail groove (4a1), slide rail groove (4a1) inboard on install two stopper (4a2), water bar (4a4) one end locate on slide rail groove (4a1) inboard, slide rail groove (4a1) and water bar (4a4) through supplementary slide-shaft (4a3) sliding fit.

3. The mine stone cutting machine of claim 2, wherein: the other end of the water retaining strip (4a4) is provided with a protective pad (4a41), and the water retaining strip (4a4) is connected with the protective pad (4a41) through glue.

4. The mine marble cutting machine of claim 1 or 2, wherein: the dust collecting box (g1) is arranged at the left end and the right end of the inner side of the hood (4a), the hood (4a) is movably connected with the dust collecting box (g1), the top end of the dust collecting box (g1) is provided with a water guide strip (g2), and the dust collecting box (g1) and the water guide strip (g2) are of an integrated structure.

5. The mine stone cutting machine of claim 1, wherein: grinding machanism (4c) hang piece (4c1), grinding block (4c2), V type grinding block (4c3) by the concave type and constitute, concave type hang piece (4c1) inboard on be equipped with grinding block (4c2), concave type hang piece (4c1) and grinding block (4c2) fixed connection, grinding block (4c2) front end on be equipped with V type grinding block (4c3), grinding block (4c2) and V type grinding block (4c3) be connected.

6. The mine stone cutting machine of claim 5, wherein: the middle position of the top end in the concave hanging block (4c1) is provided with a rubber clamping strip (4c11), and the concave hanging block (4c1) is connected with the rubber clamping strip (4c11) by glue.

7. The mine stone cutting machine of claim 1, wherein: location counter weight mechanism (4f) constitute by sliding sleeve (4f1), spacing dish (4f2), slip jib (4f3), balancing weight (4f4), clamp plate (4f5), sliding sleeve (4f1) inboard on be equipped with slip jib (4f3), sliding sleeve (4f1) and slip jib (4f3) sliding fit, slip jib (4f3) head end on be equipped with spacing dish (4f2), slip jib (4f3) and spacing dish (4f2) fixed connection, slip jib (4f3) bottom under be equipped with clamp plate (4f5), slip jib (4f3) and clamp plate (4f5) be connected, slip jib (4f3) install balancing weight (4f4) on the surface.

8. The mine stone cutting machine of claim 7, wherein: the pressure plate (4f5) inboard bottom have lead pressure shaft (4f51) more than two, pressure plate (4f5) and lead pressure shaft (4f51) adopt clearance fit, lead and be equipped with silica gel cover (4f52) on pressure shaft (4f51) the surface, lead pressure shaft (4f51) and silica gel cover (4f52) gluey connection.