CN115822592A - Stone sawing and mining integrated equipment and method capable of quickly splicing extension side guide support - Google Patents

Abstract

The invention discloses stone sawing and mining integrated equipment and method capable of quickly splicing extension side guide supports, belonging to the technical field of stone mining and processing machinery, and comprising a saw assembly, wherein the saw assembly is arranged on a cross beam and can transversely move along the cross beam; the bottoms of the two ends of the cross beam are connected with the longitudinal rail, and the cross beam can move longitudinally along the longitudinal rail; the side guide supports are arranged at the bottom of the longitudinal rail and comprise multiple supporting sections which are sequentially spliced, the adjacent supporting sections are detachably connected, and the longitudinal rail can move longitudinally along the side guide supports. The equipment can simultaneously carry out mine exploitation and ore cutting, and can ensure the stone cutting quality.

Description

Stone sawing and mining integrated equipment and method capable of quickly splicing extension side guide support

Technical Field

The invention belongs to the technical field of stone mining and processing machinery, and particularly relates to stone sawing and mining integrated equipment and method capable of quickly splicing extension side guide supports.

Background

The statements herein merely provide background information related to the present disclosure and may not necessarily constitute prior art.

At present, the current ore mining processing mode is that the mine is cut into the bold through the ore mining machine, and the back is transported to the burst saw and is carried out the ore burst, not only consumes a large amount of financial resources and materials, and the waste material is many in addition the yield is low.

Chinese patent application No. CN200520096047.9 discloses a move about freely and quickly quarrying machine, it can directly be in the mine cutting out panel, but it saw cuts because of quarrying machine direct action carries out the ore mining on the track, and the multi-disc cutting is the heavy load cutting, it is higher to the stability requirement of support, and whole crossbeam directly supports on long distance laying's rail in its published scheme, support the rigidity low, and it is vertical cutting, saw cut poor stability, stone material cutting quality is low, the percentage of damage is high, and the saw bit life-span is low.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide stone sawing and mining integrated equipment and method capable of quickly splicing the extension side guide support.

In order to achieve the purpose, the invention is realized by the following technical scheme:

in a first aspect, the invention provides stone sawing and mining integrated equipment capable of quickly splicing and extending a side guide support, which comprises a sawing machine assembly, wherein the sawing machine assembly is arranged on a cross beam and can transversely move along the cross beam; the bottoms of the two ends of the cross beam are connected with the longitudinal rail, and the cross beam can move longitudinally along the longitudinal rail; the side guide supports are arranged at the bottom of the longitudinal rail and comprise multiple supporting sections which are sequentially spliced, the adjacent supporting sections are detachably connected, and the longitudinal rail can move longitudinally along the side guide supports.

As a further technical scheme, the joints of the adjacent supporting sections are spliced by clamping the positioning grooves and the positioning blocks.

As a further technical scheme, the joints of the adjacent support sections are fixedly connected through connecting pieces.

As a further technical scheme, a roller I is laid on the top of the side guide support, and the longitudinal rail can move on the top of the roller I.

As a further technical scheme, a transverse driving mechanism is arranged between the longitudinal rail and the side guide support, and the longitudinal rail is driven by the transverse driving mechanism to move along the side guide support.

As a further technical scheme, an adjusting sizing block I is arranged between the side guide support and the longitudinal rail.

As a further technical scheme, the bottom of the side guide support is provided with a roller II, and the bottom of the side guide support is provided with an adjusting sizing block II for leveling.

As a further technical scheme, the side guide support is provided with a handle.

As a further technical scheme, the cross beam and the longitudinal rail are arranged vertically to each other; the side guide supports are arranged in parallel with the longitudinal rails.

In a second aspect, the invention further provides a working method of the stone sawing and mining integrated equipment, which comprises the following steps:

selecting a mining area and cutting out a ditch: selecting a mining area in a mine, and respectively cutting ditches at two sides of the mining area;

installing a side guide support: side guide supports are respectively arranged on the outer edges of the two ditches, are fixed on a mine through foundation bolts and are adjusted to be in a horizontal state through adjusting a sizing block II;

installing a saw assembly: mounting the saw assembly on a cross beam, mounting the cross beam on a side guide support through a longitudinal rail, and adjusting an adjusting sizing block I to keep the saw assembly horizontal;

ore mining and sawing: adjusting the saw assembly to enable the saw assembly to perform transverse cutting motion along the cross beam, and after the cutting is finished, longitudinally adjusting the cross beam along the longitudinal rail to continue the cutting;

continuous mining and sawing: the side guide supports are assembled in advance in front of longitudinal cutting feed, after the sawing machine assembly completes mining and sawing along the longitudinal rail, the adjusting sizing block I is lowered, and the longitudinal rail is driven to move forwards so as to realize continuous mining and sawing; and repeating the mining and sawing process.

The beneficial effects of the invention are as follows:

according to the stone sawing and mining integrated equipment, the saw assembly is arranged on the cross beam, the bottom of the cross beam can move longitudinally along the longitudinal rail, the longitudinal rail is arranged on the side guide support and does not directly act on the rail, the support rigidity is high, the sawing stability is good, the stone cutting quality is high, and the service life of a saw blade can be ensured.

According to the stone sawing and mining integrated equipment, the sawing machine assembly moves transversely along the cross beam to perform sawing, and the saw blade cuts transversely, so that compared with the traditional longitudinal cutting, the sawing stability is high; and by the removal of crossbeam along longitudinal rail's removal and longitudinal rail along the removal of side guide support, mining and ore saw cut can go on simultaneously, labour saving and time saving and the yield is high.

According to the stone sawing and mining integrated equipment, the idler wheels are laid above the side guide supports, sliding movement of the longitudinal rail relative to the side guide supports is changed into rolling movement, movement is more convenient, the adjusting sizing blocks are arranged between the side guide supports and the longitudinal rail, the adjusting sizing blocks can facilitate leveling of the longitudinal rail, and acting force of the longitudinal guide rail on the idler wheels can be borne.

According to the stone sawing and mining integrated equipment, the idler wheels are mounted below the side guide supports, the stone sawing and mining integrated equipment is convenient to move, and the adjusting sizing blocks mounted at the bottoms of the stone sawing and mining integrated equipment can be used for leveling conveniently.

According to the working method of the stone sawing and mining integrated equipment, continuous mining and sawing can be realized through the movement of the cross beam and the longitudinal rail and the splicing and extension of the side guide supports along the longitudinal cutting direction, the cutting efficiency can be ensured, the equipment is convenient to install, and the cutting precision is high.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

FIG. 1 is a schematic view of the overall structure of the stone sawing and mining integrated equipment of the present invention;

FIG. 2 is a schematic view of the side guide support and longitudinal rail configuration of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 2;

in the figure: the space or size between each other is exaggerated to show the position of each part, and the schematic diagram is only used for illustration;

the automatic sawing machine comprises a sawing machine assembly 1, a sawing machine assembly 2, a cross beam 3, a longitudinal rail 4, a side guide support 401, a positioning groove 402, a positioning block 403, a bolt hole 404, a roller I, a roller 5, a transverse driving mechanism 6, an adjusting sizing block I, an adjusting sizing block 7 and an adjusting sizing block II.

Detailed Description

It is to be understood that the following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

In a typical embodiment of the present invention, as shown in fig. 1 to 3, an integrated stone sawing and mining apparatus capable of quickly splicing extended side guide supports is provided, which includes a saw assembly 1, a cross beam 2 for mounting the saw assembly 1, and a longitudinal rail 3 connected to the cross beam 2, wherein the longitudinal rail 3 is mounted on a side guide support 4, and the side guide support 4 is of a modular and quickly spliceable structure.

The saw assembly 1 is provided with a saw blade and can be used for mining and sawing; the saw assembly can move horizontally and vertically, and the saw assembly 1 can adopt the existing saw, which is not described in detail herein.

The saw assembly 1 is mounted on the cross beam 2, and the saw assembly 1 can move transversely along the cross beam 2.

The bottoms of the two ends of the cross beam 2 are connected with the longitudinal rail 3, and the cross beam and the longitudinal rail are arranged vertically; that is, the two longitudinal rails 3 are arranged oppositely and at intervals, the top of the longitudinal rail is connected with the bottom of the cross beam, and the cross beam 2 can move longitudinally along the longitudinal rail.

The structures and connection modes of the saw assembly 1, the cross beam 2 and the longitudinal rail 3 can all adopt the prior art, and are not described herein again.

The bottom of each longitudinal rail 3 is provided with a side guide support 4, and the side guide supports 4 are arranged in parallel with the longitudinal rails 3.

The side guide support 4 comprises a plurality of support sections which are sequentially spliced, and the adjacent support sections are fixedly connected through bolts and can be detached; the multiple supporting sections can be sequentially and continuously overlapped to form a whole section, and at least comprise two supporting sections.

The splicing connection between the adjacent supporting sections, specifically, the quick splicing is realized through the clamping of the positioning groove 401 and the positioning block 402 at the joint of the adjacent supporting sections. That is, the end of one of the supporting sections is provided with a positioning groove 401, the end of the other adjacent supporting section is provided with a positioning block 402, and the adjacent supporting sections are spliced by the clamping connection of the positioning groove 401 and the positioning block 402.

Bolt holes 403 are further formed in the joints of the adjacent support sections, and bolts can be inserted into the bolt holes to fixedly connect the adjacent support sections.

A roller I404 is laid on the top of the side guide support 4, and the longitudinal rail 3 can move longitudinally on the top of the roller I404.

A transverse driving mechanism 5 is arranged between the longitudinal rail 3 and the side guide support 4, and the longitudinal rail is driven to move along the side guide support by the transverse driving mechanism; in this embodiment, the transverse driving mechanism 5 is a chain wheel and chain driving mechanism, a chain is laid on the top of the longitudinal rail along the length direction of the longitudinal rail, the chain and the chain wheel are in meshed transmission, the chain wheel is connected with a power device such as a motor, the power device is fixed at the end part of the longitudinal rail 3, and the longitudinal rail 3 can be driven to move along the side guide support 4 through the transverse driving mechanism 5.

An adjusting sizing block I6 is arranged between the side guide support 4 and the longitudinal rail 3, and when the longitudinal rail does not need to move, the adjusting sizing block I6 can support and level the longitudinal rail 3; when the longitudinal rail needs to move, the adjusting sizing block I6 is lowered, so that the longitudinal rail 3 falls onto the roller I404 and moves along the side guide support 4. The adjusting sizing block I6 can be fixed on top of the side guide support 4.

A roller II and a motor are arranged below the side guide support 4, and the roller II is driven by the motor to realize the movement of the side guide support; or a roller II is arranged below the side guide support 4, a handle is arranged on the side part of the side guide support, and the side guide support is manually moved.

An adjusting sizing block II 7 is arranged between the lower part of the side guide support 4 and the ground, and the side guide support can be leveled or supported by adjusting the sizing block II 7; when the side guide support 4 does not need to move, the side guide support 4 is leveled and supported by the adjusting sizing block II 7; when the side guide support 4 needs to move, the adjusting sizing block II 7 is adjusted to be low, so that the roller II of the side guide support 4 falls on the ground to move. The adjusting sizing block II 7 can be fixed at the bottom of the side guide support 4.

The side guide supports 4 are integrally moved by a plurality of groups of motor-driven rollers II arranged at the bottom, the side guide supports 4 are horizontally arranged by adjusting the sizing block II 7 and then fixed on the ground by foundation bolts, the adjusting sizing block II 7 can also bear the acting force of the side guide supports 4 on the rollers II, the adjacent sections of the side guide supports 4 are positioned and leveled by a positioning groove 401 and a positioning block 402 structure, and bolt holes 403 are formed in the side guide supports 4 and are fixedly connected by bolts; the sawing machine is characterized in that a longitudinal rail 3 is mounted on a side guide support 4, a transverse driving mechanism 5 is mounted between the longitudinal rail 3 and the side guide support 4, a roller I404 is laid above the side guide support 4, an adjusting sizing block I6 is mounted between the side guide support 4 and the longitudinal rail 3, when the sawing machine works, the side guide support 4 and the longitudinal rail 3 are leveled by the adjusting sizing block I6 and keep stability, and when the longitudinal rail 3 needs to be moved, the adjusting sizing block I6 is lowered to enable the longitudinal rail 3 to fall on the roller I404 above the side guide support 4 and move through the transverse driving mechanism 5; the saw assembly 1 can move up and down, left and right relative to the cross beam 2, and the cross beam 2 can move longitudinally relative to the longitudinal rail 3.

In another exemplary embodiment of the present invention, a working method of the stone sawing and mining integrated equipment capable of quickly splicing the extended side guide support as described above is provided, which specifically includes the following steps:

step one, selecting a mining area and cutting a water outlet ditch: directly selecting a mining area on a mine, and respectively cutting a ditch on two sides of the mining area; constructing saw cutting equipment on the flat ground mined in the mining area for leveling;

step two, mounting the side guide support 4: a row of side guide supports 4 are respectively arranged on the outer edges of the two ditches, the side guide supports 4 are fixed on a mine through foundation bolts and are adjusted to be in a horizontal state through adjusting a sizing block II 7;

step three, installing a saw assembly 1: installing a saw assembly 1 on a cross beam 2, installing the cross beam 2 on a side guide support 4 through a longitudinal rail 3, and adjusting an adjusting sizing block I6 to enable the saw assembly 1 to be kept horizontal;

step four, ore mining and sawing: adjusting the saw assembly 1, enabling the saw assembly 1 to perform transverse cutting motion along the cross beam 2 after adjustment, and after cutting is completed, longitudinally adjusting the cross beam 2 along the longitudinal rail 3 to continue cutting;

step five, continuous mining and sawing: the side guide supports 4 are assembled in advance in front of longitudinal cutting feed (the side guide supports behind the finished mining can be disassembled and then installed in front and spliced with the adjacent side guide supports into a whole), after the mining and sawing of the saw assembly 1 along the longitudinal rail 3 are finished, the adjusting sizing block I6 is lowered, and the longitudinal rail 3 is driven by the transverse driving mechanism 5 to move forwards so as to realize continuous mining and sawing; and repeating the process of the fourth step.

The two sections of side guide supports 4 are fixedly connected through bolts, when the side guide supports need to be moved, the rollers II can be driven by the motors to move, or the side guide supports are driven by hands of manual grips to move, so that the side guide supports are spliced with the adjacent side guide supports after being moved to a required position.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A stone sawing and mining integrated device capable of quickly splicing an extended side guide support is characterized by comprising a sawing machine assembly, wherein the sawing machine assembly is mounted on a cross beam and can transversely move along the cross beam; the bottoms of the two ends of the cross beam are connected with the longitudinal rail, and the cross beam can move longitudinally along the longitudinal rail; the side guide supports are arranged at the bottoms of the longitudinal rails and comprise multiple sections of support sections which are sequentially spliced, adjacent support sections are detachably connected, and the longitudinal rails can move longitudinally along the side guide supports.

2. The integrated stone sawing and quarrying equipment of claim 1 wherein the joints of adjacent support sections are spliced by snap-fitting of positioning slots and positioning blocks.

3. The stone sawing and mining integrated equipment according to claim 1 or 2, wherein the joints of the adjacent support sections are fixedly connected through connecting pieces.

4. The integrated stone sawing and quarrying apparatus as claimed in claim 1, wherein said side guide supports have rollers i laid on top thereof, and the longitudinal rail is movable on top of the rollers i.

5. The integrated stone sawing and quarrying apparatus of claim 1 or 4 wherein a lateral driving mechanism is provided between said longitudinal rail and said lateral guide support, said lateral driving mechanism driving said longitudinal rail to move along said lateral guide support.

6. The integrated stone sawing and mining equipment as claimed in claim 1, wherein an adjusting sizing block i is installed between the side guide supports and the longitudinal rail.

7. The integrated stone sawing and mining equipment as claimed in claim 1, wherein the bottom of the side guide support is provided with a roller II, and the bottom of the side guide support is provided with an adjusting sizing block II for leveling.

8. The integrated stone sawing and mining apparatus of claim 1 wherein the side guide supports are provided with handles on the sides.

9. The integrated stone sawing and quarrying apparatus according to claim 1, wherein said beam and said longitudinal rail are disposed perpendicular to each other; the side guide supports are arranged in parallel with the longitudinal rails.

10. The working method of the stone sawing and mining integrated equipment according to any one of claims 1 to 9, characterized by comprising the following steps:

selecting a mining area and cutting out a ditch: selecting a mining area in a mine, and respectively cutting ditches at two sides of the mining area;

installing a side guide support: side guide supports are respectively arranged on the outer edges of the two ditches, are fixed on a mine through foundation bolts and are adjusted to be in a horizontal state through adjusting a sizing block II;

installing a saw assembly: mounting the saw assembly on a cross beam, mounting the cross beam on a side guide support through a longitudinal rail, and adjusting an adjusting sizing block I to keep the saw assembly horizontal;

ore mining and sawing: adjusting the saw assembly to enable the saw assembly to perform transverse cutting motion along the cross beam, and after the cutting is finished, longitudinally adjusting the cross beam along the longitudinal rail to continue the cutting;

continuous mining and sawing: the side guide supports are assembled in advance in front of longitudinal cutting feed, after the sawing machine assembly completes mining and sawing along the longitudinal rail, the adjusting sizing block I is lowered, and the longitudinal rail is driven to move forwards so as to realize continuous mining and sawing; and repeating the mining and sawing process.

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