CN109465976B

CN109465976B - Rock mining cutting device

Info

Publication number: CN109465976B
Application number: CN201811541189.XA
Authority: CN
Inventors: 刘辉
Original assignee: Wuxi Biyu Stone Co ltd
Current assignee: Wuxi Biyu Stone Co ltd
Priority date: 2018-12-17
Filing date: 2018-12-17
Publication date: 2020-06-02
Anticipated expiration: 2038-12-17
Also published as: CN109465976A

Abstract

The invention provides a rock mining cutting device, which comprises a bottom plate, an upright post and a position adjusting piece, wherein the bottom plate is provided with a bottom plate hole; the upright posts are arranged on the bottom plate and are vertical to the bottom plate; the position adjusting piece is used for driving the upright post to slide along the length direction of the bottom plate; the position adjusting piece is also used for driving the upright post to slide along the width direction of the bottom plate; a bracket is arranged on one side of the upright post, and a rope saw component is arranged on the other side of the upright post; the bracket can slide on the upright post along the vertical direction; one end of the bracket, which is far away from the upright post, is provided with a rotatable circular saw blade; the circular saw blade is used for machining a groove on a stone wall; the rope saw component comprises a sliding block, a saw rope and two guide plate frames; the two guide plate frames are respectively positioned at the upper end and the lower end of the upright post; the guide plate frame is provided with a first accommodating groove. The rock mining and cutting device provided by the invention is convenient for directly mining blocky stones from a stone mining area, and reduces the stone mining procedures.

Description

Rock mining cutting device

Technical Field

The invention relates to the field of quarrying machinery, in particular to a rock mining and cutting device.

Background

With the progress of mining technology, stone has become one of the important raw materials for building, decoration, road and bridge construction, and the stone is usually mined from natural rock and processed into block materials to be used.

The existing stone mining method is that raw stones with huge sizes are mined out from a stone mining area through modes of blasting and the like, then the raw stones are conveyed to a factory to be corrected into raw materials, and the raw materials are processed into block materials. The existing equipment is used for mining stone materials, the working procedures are multiple, the stone material mining efficiency is low easily, and the existing equipment cannot directly mine blocky materials from a stone material mining area.

Disclosure of Invention

Aiming at the defects in the prior art, the rock mining and cutting device provided by the invention is convenient for directly mining blocky stones from a stone mining area, and reduces the stone mining procedures.

The invention provides a rock mining cutting device, which comprises a bottom plate, an upright post and a position adjusting piece, wherein the bottom plate is provided with a bottom plate hole; the upright posts are arranged on the bottom plate and are vertical to the bottom plate; the position adjusting piece is used for driving the upright post to slide along the length direction of the bottom plate; the position adjusting piece is also used for driving the upright post to slide along the width direction of the bottom plate; a bracket is arranged on one side of the upright post, and a rope saw component is arranged on the other side of the upright post; the bracket can slide on the upright post along the vertical direction; one end of the bracket, which is far away from the upright post, is provided with a rotatable circular saw blade; the circular saw blade is used for machining a groove on a stone wall; the rope saw component comprises a sliding block, a saw rope and two guide plate frames; the two guide plate frames are respectively positioned at the upper end and the lower end of the upright post; the guide plate frame is provided with a first accommodating groove; rotatable pulleys are mounted at two ends of the first accommodating groove; the sliding block is slidably arranged on the upright post and is positioned between the two guide plate frames; two ends of the sawing rope respectively bypass the pulleys arranged in the two first accommodating grooves to be connected with two ends of the sliding block.

Optionally, the wire saw assembly further comprises a mandrel; a second accommodating groove is formed in one side of the upright column, which is far away from the support; the mandrel is rotatably arranged in the second accommodating groove; a third accommodating groove is formed in the mandrel; the sliding block is embedded into the third accommodating groove and can slide in the third accommodating groove along the vertical direction; the two guide plate frames are respectively arranged at the upper end and the lower end of the mandrel, and the first accommodating groove is communicated with the third accommodating groove.

Optionally, a rotatable tensioning wheel is mounted at the top of the third accommodating groove, and the tensioning wheel can slide in the third accommodating groove along the vertical direction; the guide plate frame positioned at the top of the mandrel can slide on the mandrel along the vertical direction, and the guide plate frame positioned at the bottom of the mandrel is fixedly connected with the mandrel; the saw rope is connected with the sliding block by bypassing the tension wheel.

Optionally, the position adjustment member is a guide rail; the guide rail is arranged on the bottom plate and is parallel to the length direction of the bottom plate; the guide rail can slide on the bottom plate along the width direction of the bottom plate; the upright post is vertically arranged on the guide rail and can slide along the guide rail.

Optionally, two ends of the guide rail extend upwards to form an end support frame; the end supporting frame is provided with a forward fork; the front moving fork can slide on the end supporting frame along the width direction of the bottom plate; the upper surface of antedisplacement fork and the lower surface parallel and level of the guide plate frame that is located the dabber bottom.

Optionally, the circular saw blade has a thickness greater than the sum of the thicknesses of the front fork and the guide plate frame.

Optionally, the circular saw blade comprises a saw blade body, a grinding wheel and a negative pressure pump; a plurality of slotted teeth are arranged on the peripheral surface of the saw blade body along the circumferential direction; the end surface of the saw blade body is provided with a blind hole; the grinding wheel is embedded into the blind hole to seal the blind hole; the grinding wheel is provided with a plurality of through holes communicated with the blind holes; the negative pressure pump is arranged on the bracket, and an air suction port of the negative pressure pump is communicated with the blind hole and used for sucking out dust in the blind hole; the bracket defines a central axis parallel to the width direction of the base plate; the stand is rotatable on the upright about a central axis.

According to the technical scheme, the invention has the beneficial effects that: the invention provides a rock mining cutting device, which comprises a bottom plate, an upright post and a position adjusting piece, wherein the bottom plate is provided with a bottom plate hole; the upright posts are arranged on the bottom plate and are vertical to the bottom plate; the position adjusting piece is used for driving the upright post to slide along the length direction of the bottom plate; the position adjusting piece is also used for driving the upright post to slide along the width direction of the bottom plate; a bracket is arranged on one side of the upright post, and a rope saw component is arranged on the other side of the upright post; the bracket can slide on the upright post along the vertical direction; one end of the bracket, which is far away from the upright post, is provided with a rotatable circular saw blade; the circular saw blade is used for machining a groove on a stone wall; the rope saw component comprises a sliding block, a saw rope and two guide plate frames; the two guide plate frames are respectively positioned at the upper end and the lower end of the upright post; the guide plate frame is provided with a first accommodating groove; rotatable pulleys are mounted at two ends of the first accommodating groove; the sliding block is slidably arranged on the upright post and is positioned between the two guide plate frames; two ends of the sawing rope respectively bypass the pulleys arranged in the two first accommodating grooves to be connected with two ends of the sliding block. The rock mining and cutting device provided by the invention is convenient for directly mining blocky stones from a stone mining area, and reduces the stone mining procedures.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

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

fig. 2 is a schematic structural view of the guide rail.

Reference numerals:

1-bottom plate, 2-upright post, 3-rope saw component, 4-circular saw blade, 5-guide rail, 6-stone wall, 21-bracket, 22-second containing groove, 31-slide block, 32-saw rope, 33-guide plate frame, 34-mandrel, 41-saw blade body, 42-grinding wheel, 43-negative pressure pump, 51-end supporting frame, 52-forward fork, 61-groove, 211-central axis, 331-first containing groove, 341-third containing groove, 411-slotted tooth, 412-blind hole and 421-through hole.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1-2, the rock mining and cutting device provided in this embodiment includes a base plate 1, a pillar 2, and a position adjusting member; the upright post 2 is arranged on the bottom plate 1 and is vertical to the bottom plate 1; the position adjusting piece is used for driving the upright post 2 to slide along the length direction of the bottom plate; the position adjusting piece is also used for driving the upright post to slide along the width direction of the bottom plate; one side of the upright post 2 is provided with a bracket 21, and the other side is provided with a rope saw component 3; the bracket 21 can slide on the upright post 2 along the vertical direction; one end of the bracket 21 far away from the upright post 2 is provided with a rotatable circular saw blade 4; the circular saw blade 4 is used for processing a groove 61 on the stone wall 6; the rope saw assembly 3 comprises a sliding block 31, a saw rope 32 and two guide plate frames 33; the two guide plate frames 33 are respectively positioned at the upper end and the lower end of the upright post 2; the guide plate frame 33 is provided with a first accommodating groove 331; rotatable pulleys are mounted at two ends of the first accommodating groove 331; the sliding block 31 is slidably mounted on the upright post 2, and the sliding block 31 is located between the two guide plate frames 33; two ends of the sawing rope 32 are respectively connected with two ends of the sliding block by bypassing the pulleys arranged in the two first accommodating grooves.

When the stone is mined, mountain stripping is firstly carried out on the mountain of the stone mining area, mainly to strip covering soil and a weathered layer on the stone ore body, strip interlayers, surrounding rocks and broken stones which have no mining value due to the development of joint cracks, so that the stone ore body is exposed and the preparation is made for mining work. Then, constructing a working platform: after the stone is exposed, a working platform suitable for the rock mining and cutting device provided by the embodiment to work needs to be excavated, the width and the length of the working platform are determined according to the mountain, and the working platform comprises a horizontal working platform and a vertical stone wall; and for the working surface with gentle mountain landscape, a working platform can be constructed by adopting a mode of laying a soil layer. Then the bottom plate 1 is fixed on the operation platform, the length direction of the bottom plate 1 is parallel to the stone wall, and the circular saw blade 4 faces the stone wall. In an initial state, the bracket 21 is located at the bottom of the upright post 2, the upright post 2 is driven to slide on the bottom plate 1 through the position adjusting piece, the circular saw blade 4 is enabled to abut against the stone wall of the stone mining area, the circular saw blade 4 is rotated, and a first groove is machined in the stone wall. Sliding the upright 2 to slide the circular saw blade 4 out of the groove, and then sliding the bracket 21 to the top of the upright 2; processing a second groove on the stone wall by using the same method; the two grooves are parallel to each other, and the distance between the two grooves is equal to the distance between the two guide plate frames 33. Rotatory bottom plate 1 makes rope saw subassembly 3 towards the stone wall, along bottom plate 1's width direction slip stand 2, makes saw rope 32 contradict with the stone wall, follows vertical direction reciprocating sliding block 31 this moment to along bottom plate 1's width direction to the one side slip stand 2 that is close to the stone wall, make two guide plate frame 33 inserts two ditch inslots respectively, until guide plate frame 33 inserts the ditch inslot completely, then along bottom plate 1's length direction slip stand 2, make guide plate frame 33 from the one end slip of slot to the other end, at last along bottom plate 1's width direction to the one side slip stand 2 of keeping away from the stone wall, withdraw from the slot until guide plate frame 33. In this process, the sawing cord 32 cuts the stone wall in the direction of movement of the guide plate frame 33. The block-shaped stone is directly mined from the stone wall. The rock mining cutting device that this embodiment provided is convenient for directly exploit the massive stone material out from the stone material mining area, reduces and exploits the stone material process.

As a further improvement to the above technical solution, the wire saw assembly 3 further comprises a mandrel 34; a second accommodating groove 22 is formed in one side of the upright post 2 away from the bracket 21; the mandrel 34 is rotatably arranged in the second accommodating groove 22; a third receiving groove 341 is formed on the core shaft 34; the slide block 31 is embedded in the third receiving groove 341 and can slide in the third receiving groove 341 along the vertical direction; the two guide plate frames 33 are respectively installed at the upper end and the lower end of the core shaft 34, and the first accommodating groove 331 is communicated with the third accommodating groove 341.

In the initial state, the upright post 2 is located on one side of the bottom plate 1, and the guide plate frame 33 is parallel to the width direction of the bottom plate 1. The upright post 2 firstly slides to one side close to the stone wall along the width direction of the bottom plate 1, slides along the length direction of the bottom plate 1, and finally slides to one side far away from the stone wall along the width direction of the bottom plate 1, so that rectangular stone can be conveniently mined on the stone wall. When it is desired to mine stone material that exhibits a semi-circular shape. Firstly, the upright post 2 is slid to the middle part of the bottom plate, and the mandrel 34 is rotated to enable the guide plate frame 33 to be parallel to the stone wall and abut against the stone wall. The mandrel 34 is rotated 180 deg., during which the slide 31 is simultaneously slid back and forth in the vertical direction, so that the sawing cord 32 cuts the stone wall in the direction of movement of the fence frame 33. The semi-circular stone is convenient to be mined.

As a further improvement to the above technical solution, a rotatable tensioning wheel is installed at the top of the third receiving groove 341, and the tensioning wheel can slide in the third receiving groove along the vertical direction; the guide plate frame positioned at the top of the mandrel can slide on the mandrel along the vertical direction, and the guide plate frame positioned at the bottom of the mandrel is fixedly connected with the mandrel; the saw rope is connected with the sliding block by bypassing the tension wheel.

For example, when a block is mined, the length a is wide, the height b is c, a first groove is firstly processed on the stone wall through the circular saw blade 4, the first groove is parallel to a guide plate frame positioned at the bottom of a mandrel, a second groove is processed on the stone wall through the circular saw blade 4, and the distance between the two grooves is c. The guide plate frames positioned at the tops of the mandrels are slid, so that the distance between the two guide plate frames is c, and the upright posts 2 are slid along the width direction of the bottom plate. Make the guide plate frame insert the slot along the one end of slot, and the inserted length is b, then the length direction slip stand 2 of bottom plate, make the displacement distance of stand 2 be a, shift out the slot with the guide plate frame along the width direction of bottom plate at last, saw rope 32 cuts the stone wall along the direction of movement of guide plate frame 33 at this in-process, mines out the length and is a wide stone material that is b height for c for a on the stone wall. The distance between the two guide plate frames can be conveniently adjusted, and the stones with different thicknesses can be conveniently mined.

As a further improvement to the above technical solution, the position adjusting member is a guide rail 5; the guide rail 5 is arranged on the bottom plate 1 and is parallel to the length direction of the bottom plate; the guide rail 5 can slide on the bottom plate along the width direction of the bottom plate; the upright post is vertically arranged on the guide rail and can slide along the guide rail. The upright post is convenient to drive to slide, the structure is simple, and the maintenance is convenient.

As a further improvement to the above technical solution, two ends of the guide rail 5 extend upwards to form end supporting frames 51; a front moving fork 52 is arranged on the end supporting frame 51; the front fork 52 can slide on the end supporting frame 51 along the width direction of the bottom plate 1; the upper surface of the advancing fork 52 is flush with the lower surface of the guide plate bracket 33 at the bottom of the mandrel. In an initial state, the front fork 52 slides to one side close to the guide plate frame, the groove is processed through the circular saw blade 4, after the groove is processed, the front fork 52 slides to one side close to the circular saw blade 4, after the stone is mined by the saw wire, the mandrel is rotated, the guide plate frame 33 is parallel to the stone wall, the front fork 52 slides to one side close to the guide plate frame, the front fork 52 is inserted into the bottom of the stone along the groove, then the upright post slides to one side far away from the stone wall, and the stone is taken out by the front fork 52. The stone can be taken out conveniently.

As a further improvement to the above solution, the thickness of the circular saw blade 4 is greater than the sum of the thicknesses of the front fork 52 and the guide plate frame 33. Facilitating insertion of the advancing fork 52 along the channel into the bottom of the stone.

As a further improvement to the above technical solution, the circular saw blade 4 includes a blade body 41, a grinding wheel 42 and a negative pressure pump 43; a plurality of slotted teeth 411 are arranged on the peripheral surface of the saw blade body 41 along the circumferential direction; the end surface of the saw blade body 41 is provided with a blind hole 412; the grinding wheel 42 is embedded into the blind hole 412 to seal the blind hole 412; the grinding wheel 42 is provided with a plurality of through holes 421 communicated with the blind holes; the negative pressure pump is arranged on the bracket, and an air suction port of the negative pressure pump is communicated with the blind hole and used for sucking out dust in the blind hole; the bracket 21 defines a central axis 211 parallel to the width of the base plate; the stand is rotatable on the upright about a central axis.

In an initial state, the support 21 is located at the bottom of the upright column 2, the grinding wheel 42 faces upward, the circular saw blade 4 is used for machining a first groove in the stone wall, meanwhile, the grinding wheel 42 is used for grinding the upper surface of the first groove, the negative pressure pump is started, and dust generated during grinding is sucked out by the negative pressure pump. And then, enabling the circular saw blade 4 to exit from the first groove, rotating the bracket 21 to enable the grinding wheel 42 to face downwards, sliding the bracket 21 to the top of the upright post 2, machining a second groove on the stone wall by the circular saw blade 4, and simultaneously grinding the lower surface of the second groove by the grinding wheel 42. The upper and lower surface of stone material of being convenient for polish when processing the slot, only need polish its global can the direct use after the stone material is mined out, reduce the work load of polishing.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. A rock mining cutting apparatus characterized by: comprises a bottom plate (1), a vertical column (2) and a position adjusting piece; the upright posts (2) are arranged on the bottom plate (1) and are vertical to the bottom plate (1); the position adjusting piece is used for driving the upright post (2) to slide along the length direction of the bottom plate; the position adjusting piece is also used for driving the upright post to slide along the width direction of the bottom plate; a bracket (21) is installed on one side of the upright post (2), and a rope saw component (3) is installed on the other side of the upright post; the bracket (21) can slide on the upright post (2) along the vertical direction; one end of the bracket (21) far away from the upright post (2) is provided with a rotatable circular saw blade (4); the circular saw blade (4) is used for machining a groove on a stone wall; the rope saw component (3) comprises a sliding block (31), a saw rope (32) and two guide plate frames (33); the two guide plate frames (33) are respectively positioned at the upper end and the lower end of the upright post (2); the guide plate frame (33) is provided with a first accommodating groove (331); rotatable pulleys are mounted at two ends of the first accommodating groove (331); the sliding block (31) is slidably mounted on the upright post (2), and the sliding block (31) is positioned between the two guide plate frames (33); two ends of the sawing rope (32) are respectively connected with two ends of the sliding block by bypassing the pulleys arranged in the two first accommodating grooves.

2. The rock mining cutting apparatus of claim 1, wherein: the wire saw assembly (3) further comprises a mandrel (34); a second accommodating groove (22) is formed in one side, away from the support (21), of the upright post (2); the mandrel (34) is rotatably arranged in the second accommodating groove (22); a third accommodating groove (341) is formed in the mandrel (34); the slide block (31) is embedded into the third accommodating groove (341) and can slide in the third accommodating groove (341) along the vertical direction; the two guide plate frames (33) are respectively arranged at the upper end and the lower end of the mandrel (34), and the first accommodating groove (331) is communicated with the third accommodating groove (341).

3. The rock mining cutting apparatus of claim 2, wherein: a rotatable tension wheel is mounted at the top of the third accommodating groove (341), and the tension wheel can slide in the third accommodating groove along the vertical direction; the guide plate frame positioned at the top of the mandrel can slide on the mandrel along the vertical direction, and the guide plate frame positioned at the bottom of the mandrel is fixedly connected with the mandrel; the saw rope is connected with the sliding block by bypassing the tension wheel.

4. The rock mining cutting apparatus of claim 2, wherein: the position adjusting piece is a guide rail (5); the guide rail (5) is arranged on the bottom plate (1) and is parallel to the length direction of the bottom plate; the guide rail (5) can slide on the bottom plate along the width direction of the bottom plate; the upright post is vertically arranged on the guide rail and can slide along the guide rail.

5. The rock mining cutting apparatus of claim 4, wherein: two ends of the guide rail (5) extend upwards to form an end supporting frame (51); a front moving fork (52) is arranged on the end supporting frame (51); the forward fork (52) can slide on the end supporting frame (51) along the width direction of the bottom plate (1); the upper surface of the advancing fork (52) is flush with the lower surface of the guide plate frame (33) at the bottom of the mandrel.

6. The rock mining cutting apparatus of claim 5, wherein: the thickness of the circular saw blade (4) is larger than the sum of the thicknesses of the forward fork (52) and the guide plate frame (33).

7. The rock mining cutting apparatus of claim 1, wherein: the circular saw blade (4) comprises a saw blade body (41), a grinding wheel (42) and a negative pressure pump; a plurality of slotted teeth (411) are arranged on the peripheral surface of the saw blade body (41) along the circumferential direction; a blind hole (412) is formed in the end face of the saw blade body (41); the grinding wheel (42) is embedded into the blind hole (412) to seal the blind hole (412); the grinding wheel (42) is provided with a plurality of through holes (421) communicated with the blind holes; the negative pressure pump is arranged on the bracket, and an air suction port of the negative pressure pump is communicated with the blind hole and used for sucking out dust in the blind hole; said bracket (21) defining a central axis (211) parallel to the width direction of the base plate; the stand is rotatable on the upright about a central axis.