CN104493985A - Stone line molding machine capable of forming angle grooves - Google Patents

Stone line molding machine capable of forming angle grooves Download PDF

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Publication number
CN104493985A
CN104493985A CN201410802526.1A CN201410802526A CN104493985A CN 104493985 A CN104493985 A CN 104493985A CN 201410802526 A CN201410802526 A CN 201410802526A CN 104493985 A CN104493985 A CN 104493985A
Authority
CN
China
Prior art keywords
crane
stone material
slide
motor
longitudinal
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201410802526.1A
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Chinese (zh)
Inventor
陈锡奎
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
QUANZHOU JIANENG MACHINERY MANUFACTURING CO LTD
Original Assignee
QUANZHOU JIANENG MACHINERY MANUFACTURING CO LTD
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by QUANZHOU JIANENG MACHINERY MANUFACTURING CO LTD filed Critical QUANZHOU JIANENG MACHINERY MANUFACTURING CO LTD
Priority to CN201410802526.1A priority Critical patent/CN104493985A/en
Publication of CN104493985A publication Critical patent/CN104493985A/en
Pending legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D1/00Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
    • B28D1/02Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing
    • B28D1/04Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing with circular or cylindrical saw-blades or saw-discs
    • B28D1/046Sawing in a plane parallel to the work table

Abstract

The invention provides a stone line molding machine capable of forming angle grooves. The stone line molding machine comprises a base, two upright columns vertically arranged on the base, a cross beam transversely arranged between the two upright columns, a flat cutting device arranged on the cross beam in such a manner of moving transversely, a second slide arranged on the cross beam in such a manner of moving transversely, a second ejector arranged on the second slider in such a manner of moving up and down, a second lifting mechanism for driving the second ejector to move up and down, a rotating seat arranged on the second ejector, a rotary disc arranged on the rotating seat in such a manner of rotating around longitudinal and horizontal axes, a rotating motor with a speed reducer, and a vertical cutting device arranged on the rotary disc, wherein the rotating motor is arranged on the rotating seat and connected with the rotary disc by use of a worm gear and a worm so as to drive the rotary disc to rotate; the vertical cutting device is provided with a second main shaft arranged perpendicular to the longitudinal and horizontal axes; second and third circular saw web are arranged on the two ends of the second main shaft; the stone line molding machine is convenient to operate in the process of forming the angle grooves; the operation strength of the working personnel is reduced and the working efficiency is improved.

Description

A kind of can the stone material mo(u)lding machine of machining angle groove
Technical field
The present invention relates to a kind of stones processing appts, particularly relate to a kind of can the stone material mo(u)lding machine of machining angle groove.
Background technology
In field of stone processing, stone material mo(u)lding machine will process angle groove at stone surface and usually utilize profiling control device according to the surface information of the angle groove on stencil master, stencil master angle groove curved surface is followed the trail of by optoelectronic director head, then curved surface signal is sent to PLC, PLC controls transverse moving mechanism, lifting moving mechanism, and the perpendicular cutting apparatus of control drives perpendicular saw blade of cutting to rotate, perpendicular saw blade of cutting is made to carry out lifting and traversing according to the surface information of angle groove, cooperation longitudinal moving mechanism carries out repeatedly the blank that reciprocating feed cutting obtains angle groove on stone material, blank is formed with the surface information of perpendicular cutting apparatus according to angle groove on stone material, cuts out multiple thin slice, thin slice is knocked out and then carries out polishing and obtain angle groove, complex operation in specific process, add the manipulation strength of staff, operating efficiency is low.
Summary of the invention
The present invention be directed to the deficiencies in the prior art, what provide a kind of simple operation can the stone material mo(u)lding machine of machining angle groove.
Object of the present invention realizes by following technical solution:
Can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: comprise the base being longitudinally furnished with two guide rails, be vertically set on two columns on base, be horizontally installed on the crossbeam between two columns, the workbench on base two guide rail can be arranged on moving longitudinally, drive the longitudinal moving mechanism that workbench vertically moves, the first slide on crossbeam can be arranged on transverse shifting, drive the first transverse moving mechanism of the first slide transverse shifting, the second slide on crossbeam can be arranged on transverse shifting, drive the second transverse moving mechanism of the second slide transverse shifting, liftable is arranged on the first crane on the first slide movably, be arranged on the truncation device the first crane with the first horizontally disposed saw blade, drive the first elevating mechanism of the first crane lifting moving, liftable is arranged on the second crane on the second slide movably, drive the second elevating mechanism of the second crane lifting moving, be arranged on the revolving bed on the second crane, the rotary disk on revolving bed can be arranged on rotationally around longitudinal horizontal axis, be arranged on turning motor revolving bed being connected the band decelerator driving rotary disk to rotate by turbine and worm, be arranged on the perpendicular cutting apparatus on rotary disk, described perpendicular cutting apparatus has vertically arranged second main shaft with longitudinal horizontal axis, and the second main shaft two ends are provided with second, 3rd saw blade.
Further, also comprise profiling control device, described profiling control device comprises PLC, the stencil master clamping seat be arranged on crossbeam, the copying control bar be arranged on the second crane, described copying control bar is provided with the optoelectronic director head of traceable stencil master, PLC input is connected with optoelectronic director head, and output connects longitudinal moving mechanism, the second transverse moving mechanism, the second elevating mechanism, perpendicular cutting apparatus.
Further, described longitudinal moving mechanism is comprised and is longitudinally arranged in two road wheels of tooth row, the movably support table movement on base two guide rail of workbench, the decelerator be arranged on base, is arranged on gear that reducer output shaft is meshed with tooth row, is connected longitudinal motor that driven wheel rotates by longitudinal transmission mechanism.
Further, described first transverse moving mechanism comprise the first cross lead screw be transversely arranged on crossbeam, be arranged on the first slide coordinates with the first cross lead screw the first horizontal nut, be arranged on the first cross motor crossbeam being connected the band decelerator that driving first cross lead screw rotates.
Further, described second transverse moving mechanism comprise the second cross lead screw be transversely arranged on crossbeam, be arranged on the second slide coordinates with the second cross lead screw the second horizontal nut, be arranged on the second cross motor crossbeam being connected the band decelerator that driving second cross lead screw rotates.
Further, described first elevating mechanism comprise the first elevating screw be arranged vertically on the first crane, be arranged on the first slide coordinates with the first elevating screw the first lifting nut, be arranged on the first lifting motor the first crane being connected the band decelerator that driving first elevating screw rotates.
Further, described second elevating mechanism comprise the second elevating screw be arranged vertically on the second crane, be arranged on the second slide coordinates with the second elevating screw the second lifting nut, be arranged on the second lifting motor the second crane being connected the band decelerator that driving second elevating screw rotates.
Further, described truncation device comprise the first main shaft be vertically arranged on the first crane, the first motor of connecting driving first main axis by the first transmission mechanism and described first saw blade be arranged on the first main shaft.
Further, described perpendicular cutting apparatus is comprised and is arranged vertically on the second main shaft on rotary disk, the second motor being connected driving second main axis by the second transmission mechanism and second, third saw blade be arranged on described in the second main shaft two ends with longitudinal horizontal axis, and the second described motor is parallel to the second main shaft and is arranged on rotary disk.
Further, described longitudinal transmission mechanism comprises the active vee-pulley being arranged on longitudinal motor output shaft, the driven vee-pulley being arranged on reducer input shaft, is stretched in V-belt initiatively between vee-pulley and driven vee-pulley.
The present invention has following beneficial effect:
Rotary disk arranges perpendicular cutting apparatus, the second main axis respective angles can be driven when turning motor drives rotary disk to turn an angle, thus regulate second, third saw blade on the second main shaft relative to the horizontal axis inclination certain angle of stone material, coordinate the truncation device on the first crane, just can process required angle groove on stone material, coordinate longitudinal moving mechanism and first and second transverse moving mechanism just can carry out the cutting of angle groove to whole stone material, there is simple operation, operating efficiency is high;
Can the stone material mo(u)lding machine of machining angle groove, also comprise profiling control device, required stone material lines can be processed according to stencil master top-surface camber shape.
Accompanying drawing explanation
Fig. 1 is can the front view of stone material mo(u)lding machine of machining angle groove.
Fig. 2 is the connection diagram of revolving bed and rotary disk.
Detailed description of the invention
As depicted in figs. 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, comprises the base 1 being longitudinally furnished with two guide rails 11;
Be arranged on the workbench 2 on base 1 liang of guide rail 11 with longitudinal movement;
Drive the longitudinal moving mechanism that workbench 2 vertically moves at two guide rails 11, comprise longitudinally be arranged in two road wheels 21 of tooth row 22, movably support table 2 movement on base 1 liang of guide rail 11 of workbench 2 side, the decelerator 23 be vertically set on base 1, be arranged on decelerator 23 output shaft is meshed with tooth row 22 gear 24, to be connected longitudinal motor 25 that driven wheel 24 rotates by longitudinal transmission mechanism, described longitudinal motor 25 is transversely arranged on workbench 2;
Longitudinal transmission mechanism comprises the active vee-pulley 261 being arranged on longitudinal motor 25 output shaft, the driven vee-pulley 262 arranging decelerator 23 power shaft, is stretched in V-belt 263 initiatively between vee-pulley 261 and driven vee-pulley 262;
Be vertically set on two columns 3 on base 1;
Be horizontally installed on the crossbeam 4 between two columns 3;
First slide 5, first slide 5 that can be arranged on crossbeam 4 is formed with the first horizontal dovetail groove transverse shifting, and the first horizontal dovetail groove can be embedded on crossbeam 4 transverse shifting, crossbeam 4 is formed with the horizontal dovetail that dovetail groove horizontal with first coordinates;
Drive the first transverse moving mechanism 51 of the first slide 5 transverse shifting, comprise the first cross lead screw 511 be transversely arranged on crossbeam 4, be arranged on the first slide 5 coordinates with the first cross lead screw 511 the first horizontal nut, be arranged on the first cross motor 512 crossbeam 4 being connected the band decelerator that driving first cross lead screw 511 rotates;
Liftable is arranged on movably on the first crane 52, first crane 52 on the first slide 5 and is provided with vertically arranged two first guide rails, the first slide 5 is provided with the two guided way grooves coordinated with two first guide rails;
Drive the first elevating mechanism of the first crane 52 lifting moving, comprise the first elevating screw be arranged vertically on the first crane 52, be arranged on the first slide 5 coordinates with the first elevating screw the first lifting nut, be arranged on the first lifting motor 521 the first crane 52 being connected the band decelerator that driving first elevating screw rotates;
Be arranged on the truncation device 53 first crane 52 with the first horizontally disposed saw blade 531, comprise the first main shaft 532 be vertically arranged on the first crane 52, connected the first motor 533 that driving first main shaft 532 rotates and the first saw blade 531 be arranged on the first main shaft 532 by the first transmission mechanism 54;
First transmission mechanism 54 comprises the first drive pulley 541 be arranged on the first motor 533 output shaft, the first driven pulley 542 be arranged on the first main shaft 532, is stretched in the first belt 543 between the first drive pulley 541 and the first driven pulley 542;
Second slide 6, second slide 6 that can be arranged on crossbeam 4 is formed with the second horizontal dovetail groove transverse shifting, and the second horizontal dovetail groove can be embedded on the horizontal dovetail of crossbeam 4 transverse shifting;
Drive the second transverse moving mechanism 61 of the second slide 6 transverse shifting, comprise the second cross lead screw 611 be transversely arranged on crossbeam 4, be arranged on the second slide 6 coordinates with the second cross lead screw 611 the second horizontal nut, be arranged on the second cross motor 612 crossbeam 4 being connected the band decelerator that driving second cross lead screw 611 rotates;
Liftable is arranged on movably on the second crane 62, second crane 62 on the second slide 6 and is provided with vertically arranged two second guide rails, the second slide 6 is provided with the two guided way grooves coordinated with two second guide rails;
Drive the second elevating mechanism of the second crane 62 lifting moving, comprise the second elevating screw be arranged vertically on the second crane 62, be arranged on the second slide 6 coordinates with the second elevating screw the second lifting nut, be arranged on the second lifting motor 621 the second crane 62 being connected the band decelerator that driving second elevating screw rotates.
The revolving bed 71 on the second crane 62 is fixedly installed on by bolt screw;
The rotary disk 72 on revolving bed 71 can be arranged on rotationally around longitudinal horizontal axis;
Be arranged on turning motor revolving bed 71 being connected the band decelerator driving rotary disk 72 to rotate by worm gear 73 worm screw 74;
Be arranged on the perpendicular cutting apparatus 8 of rotary disk 72, comprise the second main shaft 81 be arranged vertically on longitudinal horizontal axis on rotary disk 72, be connected the second motor 83 that driving second main shaft 81 rotates and second, third saw blade 821,822, second motor 83 be arranged on the second main shaft 81 by the second transmission mechanism 84 and be parallel to the second main shaft 81 and be arranged on rotary disk 72;
Second transmission mechanism 84 comprises the second drive pulley 841 be arranged on the second motor 83 output shaft, the second driven pulley 842 be arranged on the second main shaft 81, is stretched in the second belt 843 between the second drive pulley 841 and the second driven pulley 842;
Profiling control device (not shown) comprises PLC, the stencil master clamping seat be arranged on crossbeam 4, the copying control bar be arranged on the second crane 62, copying control bar is provided with the optoelectronic director head of traceable stencil master, PLC input is connected with optoelectronic director head, and output connects longitudinal moving mechanism, the second transverse moving mechanism 61, second elevating mechanism, perpendicular cutting apparatus 8.
Specific works mode: by stone material clamping on workbench 2, determine the angle of angle groove to be processed, turning motor can drive the second main shaft 81 to rotate respective angles when driving rotary disk 72 to turn an angle, thus regulate second on the second main shaft 81, 3rd saw blade 821, 822 relative to stone material horizontal axis tilt required for angle, coordinate the truncation device on the first crane 52, just can process required angle groove on stone material, coordinate longitudinal moving mechanism and the first transverse moving mechanism 51, second transverse moving mechanism 61 just can carry out the feeding cutting of angle groove to whole stone material.
The present invention can also utilize profiling control device to process required stone material lines, stencil master curved surface is followed the trail of by optoelectronic director head, surface information is sent to PLC, PLC controls the second transverse moving mechanism 61 according to curved surface signal, second elevating mechanism, perpendicular cutting apparatus 8, make second of perpendicular cutting apparatus, 3rd saw blade 821, 822 carry out lifting and traversing according to lines surface information, coordinate longitudinal moving mechanism on stone material, carry out repeatedly feeding cutting, obtain stone material lines blank, blank has second, 3rd saw blade 821, 822 cut out multiple thin slice according to surface information on stone material, thin slice is knocked out and then polishing is carried out to stone material and obtain stone material lines.
The above, be only preferred embodiment of the present invention, therefore can not limit scope of the invention process with this, and the equivalence namely done according to the present patent application the scope of the claims and description changes and modifies, and all should still remain within the scope of the patent.

Claims (10)

1. can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: comprise the base being longitudinally furnished with two guide rails, be vertically set on two columns on base, be horizontally installed on the crossbeam between two columns, the workbench on base two guide rail can be arranged on moving longitudinally, drive the longitudinal moving mechanism that workbench vertically moves, the first slide on crossbeam can be arranged on transverse shifting, drive the first transverse moving mechanism of the first slide transverse shifting, the second slide on crossbeam can be arranged on transverse shifting, drive the second transverse moving mechanism of the second slide transverse shifting, liftable is arranged on the first crane on the first slide movably, be arranged on the truncation device the first crane with the first horizontally disposed saw blade, drive the first elevating mechanism of the first crane lifting moving, liftable is arranged on the second crane on the second slide movably, drive the second elevating mechanism of the second crane lifting moving, be arranged on the revolving bed on the second crane, the rotary disk on revolving bed can be arranged on rotationally around longitudinal horizontal axis, be arranged on turning motor revolving bed being connected the band decelerator driving rotary disk to rotate by turbine and worm, be arranged on the perpendicular cutting apparatus on rotary disk, described perpendicular cutting apparatus has vertically arranged second main shaft with longitudinal horizontal axis, and the second main shaft two ends are provided with second, 3rd saw blade.
2. according to claim 1 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: also comprise profiling control device, described profiling control device comprises PLC, the stencil master clamping seat be arranged on crossbeam, the copying control bar be arranged on the second crane, described copying control bar is provided with the optoelectronic director head of traceable stencil master, PLC input is connected with optoelectronic director head, and output connects longitudinal moving mechanism, the second transverse moving mechanism, the second elevating mechanism, perpendicular cutting apparatus.
3. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described longitudinal moving mechanism is comprised and is longitudinally arranged in two road wheels of tooth row, the movably support table movement on base two guide rail of workbench, the decelerator be arranged on base, is arranged on gear that reducer output shaft is meshed with tooth row, is connected longitudinal motor that driven wheel rotates by longitudinal transmission mechanism.
4. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described first transverse moving mechanism comprises the first cross lead screw be transversely arranged on crossbeam, be arranged on the first slide coordinates with the first cross lead screw the first horizontal nut, be arranged on the first cross motor crossbeam being connected the band decelerator that driving first cross lead screw rotates.
5. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described second transverse moving mechanism comprises the second cross lead screw be transversely arranged on crossbeam, be arranged on the second slide coordinates with the second cross lead screw the second horizontal nut, be arranged on the second cross motor crossbeam being connected the band decelerator that driving second cross lead screw rotates.
6. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described first elevating mechanism comprises the first elevating screw be arranged vertically on the first crane, be arranged on the first slide coordinates with the first elevating screw the first lifting nut, be arranged on the first lifting motor the first crane being connected the band decelerator that driving first elevating screw rotates.
7. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described second elevating mechanism comprises the second elevating screw be arranged vertically on the second crane, be arranged on the second slide coordinates with the second elevating screw the second lifting nut, be arranged on the second lifting motor the second crane being connected the band decelerator that driving second elevating screw rotates.
8. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described truncation device comprises the first main shaft be vertically arranged on the first crane, the first motor of connecting driving first main axis by the first transmission mechanism and described first saw blade be arranged on the first main shaft.
9. according to claim 1 and 2 a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described perpendicular cutting apparatus is comprised and is arranged vertically on the second main shaft on rotary disk, the second motor being connected driving second main axis by the second transmission mechanism and second, third saw blade be arranged on described in the second main shaft two ends with longitudinal horizontal axis, and the second described motor is parallel to the second main shaft and is arranged on rotary disk.
10. according to claim 3 described a kind of can the stone material mo(u)lding machine of machining angle groove, it is characterized in that: described longitudinal transmission mechanism comprises the active vee-pulley being arranged on longitudinal motor output shaft, the driven vee-pulley being arranged on reducer input shaft, is stretched in V-belt initiatively between vee-pulley and driven vee-pulley.
CN201410802526.1A 2014-12-22 2014-12-22 Stone line molding machine capable of forming angle grooves Pending CN104493985A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410802526.1A CN104493985A (en) 2014-12-22 2014-12-22 Stone line molding machine capable of forming angle grooves

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410802526.1A CN104493985A (en) 2014-12-22 2014-12-22 Stone line molding machine capable of forming angle grooves

Publications (1)

Publication Number Publication Date
CN104493985A true CN104493985A (en) 2015-04-08

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ID=52935484

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201410802526.1A Pending CN104493985A (en) 2014-12-22 2014-12-22 Stone line molding machine capable of forming angle grooves

Country Status (1)

Country Link
CN (1) CN104493985A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105946121A (en) * 2016-06-25 2016-09-21 浙江常至机械有限公司 Hole digging machine
CN109623906A (en) * 2018-12-21 2019-04-16 益阳橡胶塑料机械集团有限公司 Cutting apparatus is used in a kind of production of rubber product

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105946121A (en) * 2016-06-25 2016-09-21 浙江常至机械有限公司 Hole digging machine
CN105946121B (en) * 2016-06-25 2018-02-16 浙江常至机械有限公司 Hole digging machine
CN109623906A (en) * 2018-12-21 2019-04-16 益阳橡胶塑料机械集团有限公司 Cutting apparatus is used in a kind of production of rubber product

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Application publication date: 20150408

WD01 Invention patent application deemed withdrawn after publication