CN109483746A - A kind of cutting method based on stone material cutting equipment - Google Patents

Abstract

The present invention relates to a kind of stone cutting methods based on stone material cutting equipment, mainly solve to use existing stone material cutting equipment production efficiency low, the degree of automation is low, the low problem of cutting accuracy.The present invention is by using a kind of stone material cutting equipment, including length travel mechanism, lateral displacement mechanism, elevating mechanism, spindle box mechanism, workbench and operation panel, workbench is provided with below the spindle box mechanism, the workbench is for placing stone material, the spindle box mechanism is used for cutting stone material, the spindle box mechanism is arranged on the elevating mechanism, the elevating mechanism is for driving the spindle box mechanism to move in the vertical direction, the elevating mechanism is arranged in the lateral displacement mechanism, the lateral displacement mechanism is for driving the elevating mechanism to laterally move, the technical solution in the length travel mechanism is arranged in the lateral displacement mechanism, preferably solves the problems, such as this, it can be used as the cutting of stone material.

Description

A kind of cutting method based on stone material cutting equipment

Technical field

The present invention relates to a kind of stone material cutting equipment and its cutting methods.

Background technique

Stone material is the material with high rigidity, high brittleness.With science and technology and modern industry development, stone material Application field increasingly extends, and stone mining amount increases year by year.Stone material cutting is one of important link of processing of stone, existing stone material Cutting equipment cutting efficiency is low, and cutting accuracy is poor, needs by manually being operated, and inconvenient for operation, human body is more tired, deposits In certain injured risk, therefore need to research and develop a kind of stone material cutting equipment for being able to solve the above problem.

Summary of the invention

The technical problem to be solved in the present invention overcomes existing defect, and providing one kind can be improved production efficiency and cutting essence Degree, the stone material cutting equipment and its cutting method for increasing volume recovery, reducing waste product.

The technical solution that the present invention uses to solve above-mentioned technical problem is as follows: the present invention is cut by using a kind of stone material Cut equipment, including length travel mechanism, lateral displacement mechanism, elevating mechanism, spindle box mechanism, workbench and operation panel, institute It states and is provided with workbench below spindle box mechanism, the workbench is for placing stone material, and the spindle box mechanism is for cutting stone Material, the spindle box mechanism are arranged on the elevating mechanism, and the elevating mechanism is for driving the spindle box mechanism along vertical Histogram is arranged in the lateral displacement mechanism to movement, the elevating mechanism, and the lateral displacement mechanism is described for driving Elevating mechanism laterally moves, and the lateral displacement mechanism is arranged in the length travel mechanism, the length travel mechanism For driving the lateral displacement mechanism to move longitudinally, length travel mechanism side is equipped with operation panel, the behaviour It include button module for setting the device action and the display mould for capableing of the real-time display device status information as panel Block, the operation panel connect PLC controller input terminal, and the PLC controller output end connects each mechanical part of the equipment, PLC controller receives the control instruction of operation panel, controls the movement of each mechanical part of the equipment.

Further, the length travel mechanism includes side bar, and the side bar is provided with two, and two side bars are in vertical To arranged for interval and arranged in parallel, two side bars are separately positioned on two clumps, and two side bars wrap Side bar ontology and side bar groove are included, the cross section of the side bar ontology is rectangle, and the upper surface of the side bar ontology is welded with Side bar groove, wherein the side bar both ends are respectively arranged with first stroke switch, wherein being provided with first on a side bar Vertical box is provided with second longitudinal direction cabinet on another side bar, between the first longitudinal direction cabinet and second longitudinal direction cabinet It is connected with crossbeam, therefore when first longitudinal direction cabinet and second longitudinal direction cabinet are along longitudinal movement, crossbeam is also moved, described Two the first row wheel shafts disposed in parallel are symmetrically installed in first longitudinal direction cabinet, two the first row wheel shafts are each attached to On the siding of one vertical box two sides, it is set with the first row wheel on the first row wheel shaft, one end of the first row wheel passes through the One locking nut cooperates its axial restraint, the groove profile of the first row wheel and the first side bar guide rail, and the first row wheel can be slided On the first side bar guide rail, the first side bar guide rail is fixed on the side bar groove below the first longitudinal direction cabinet for dynamic setting It is interior, be further fixed on side bar rack gear in the side bar groove, the side bar rack gear and the side bar guide rail arranged in longitudinal gap and It is arranged in parallel, first gear is provided on the side bar rack gear, the first gear is engaged with side bar rack gear, and described first Gear is fixed on transmission shaft, and one end of the transmission shaft sequentially passes through crossbeam, second longitudinal direction cabinet and consolidated by bearing block It is scheduled on second longitudinal direction cabinet, the other end sequentially passes through first longitudinal direction cabinet, bearing plate and decelerating motor and is sequentially connected, described First longitudinal direction cabinet one side is equipped with bearing plate, and motor mount, the motor installation are equipped on the bearing plate Decelerating motor is installed, the output shaft and transmission shaft of the decelerating motor are sequentially connected by shaft coupling, the motor installation on seat It is also equipped with encoder seat on seat, encoder core is fixed on the encoder seat, the encoder core connects with the deceleration motor, It is controlled by revolution of the encoder core to the output shaft of decelerating motor.

Further, two second row wheel shafts disposed in parallel, two institutes are symmetrically installed in the second longitudinal direction cabinet It states the second row wheel shaft to be each attached on the siding of second longitudinal direction cabinet two sides, the second row wheel, institute is set on the second row wheel shaft The one end for stating the second row wheel passes through the second locking nut for its axial restraint, the groove profile of the second row wheel and the second side bar guide rail Cooperation, the second row wheel are slidably disposed on the second side bar guide rail, and the second side bar guide rail is fixed on described second In side bar groove below vertical box.

Further, the lateral displacement mechanism includes square box, and the square box is hollow structure, described rectangular Cabinet is set on crossbeam and can slide along the length direction of crossbeam, and it is sliding that the inner cavity top of the square box is provided with crossbeam Plate, the crossbeam slide plate are arranged on two V-type rails disposed in parallel and can slide along V-type rail, and two V-types are led Rail is mounted on crossbeam, fluted in the upper setting of crossbeam, and crossbeam rack gear, the square box are equipped in the groove one side wall Traversing electric machine support is installed on the left of the upper surface of body, traversing motor is installed on the traversing electric machine support, traversing motor Shaft end is equipped with traversing motor pulley by flat key, passes through first between the traversing motor pulley and speed reducer belt pulley The connection of V-type V belt translation, the speed reducer belt pulley are mounted on the input shaft shaft end of speed reducer, the speed reducer installation by flat key In the upper surface of square box, gear shaft is installed in the delivery outlet of the speed reducer, the gear shaft sequentially pass through square box, Crossbeam slide plate is connect with second gear, the second gear and crossbeam rack gear engaged transmission.

Further, the elevating mechanism include be mounted on square box four diagonal angles of upper and lower surface offer it is logical Hole, the guide sleeve being equipped in four through-holes are mounted on column, the top of four columns on four guide sleeves Portion is provided with upper junction plate, and the bottom of four columns is provided with lower connecting plate, the middle position installation of the upper junction plate There is lifting cylinder, the shaft end of the lifting cylinder is equipped with fixing seat, the upper surface connection of the fixing seat and square box, institute It states and is laterally fixed with support on upper junction plate, the side of the support is equipped with hydraulic fluid tank, the hydraulic fluid tank and lifting cylinder pipe Road connection.

Further, the spindle box mechanism includes spindle box, and the spindle box is fixed on the lower surface of lower connecting plate, institute The both ends installation deep groove ball bearing of spindle box is stated, main shaft, the one end peace of main shaft are connected between two deep groove ball bearings Fill spindle pulley, and locked by round nut and stop washer, the other end of the main shaft be equipped with external pressure cutterhead and Internal pressure cutterhead, the external pressure cutterhead and internal pressure cutterhead middle position are equipped with blade, and carry out shaft end locking by nut；Institute It states and is connected between primary shaft belt pulley and driving pulley by the second V-type V belt translation, the driving pulley is mounted on three-phase by flat key The shaft end of asynchronous machine, the threephase asynchronous machine are mounted on the other side of the support.

To solve above-mentioned technical problem two The technical solution adopted by the invention is as follows:

A kind of leakage cutting method of stone material cutting equipment, comprising the following steps:

The first step lies in stone material on working plate, start button on pushing operation panel, and decelerating motor starting is led to Transmission shaft rotation is crossed, the first gear being mounted on transmission shaft is driven to rotate, first gear and side bar rack gear engaged transmission, first Vertical box, second longitudinal direction cabinet and crossbeam also move, by the encoder core of decelerating motor shaft end to its revolution into Row control, can be accurately controlled the moving distance of first longitudinal direction cabinet, second longitudinal direction cabinet and crossbeam.

Second step, traversing electric motor starting drive traversing motor pulley to rotate, and by the first V-type V belt translation, drive and slow down The gear shaft of machine output end rotates, therefore second gear rotates, and second gear and crossbeam rack gear engaged transmission promote entire mechanism Along lateral certain distance.

Third step, lifting cylinder lead to hydraulic oil, and piston rod goes downwards to specified travel position, therefore upper junction plate decline one Set a distance, lower connecting plate pass through the 2nd V also with identical stroke distances, threephase asynchronous machine starting, driving pulley rotation is declined Type V belt translation, drives spindle pulley rotation, therefore main axis, is fixed on the blade of another shaft end of main shaft with rotation, when When blade marches to the right second stroke switch, drop knife cuts stone material to blade for the first time, blade left lateral to second stroke When switch, second of drop knife of blade cuts stone material；When blade marches to forward first stroke switch, blade third time Drop knife stone material is cut, blade travel rearwardly to first stroke switch when, the 4th drop knife of blade cuts stone material, Circulation action.

4th step, after the quantity all finish cut needed for stone material, automatic cutting is finished, and each mechanism is automatically stopped, from work Stone material is removed on platform.

The present invention is equipped with PLC controller, after related technical personnel program, can be completely achieved semi-automation, thus Labor intensity is reduced, cutting efficiency is improved；The present invention can be with by length travel mechanism, lateral displacement mechanism and elevating mechanism Blade is realized along the accurate movement of X, Y, Z axis, high degree of automation greatly improves processing efficiency；The present invention is equipped with first Travel switch and second stroke switch, move blade along X, Y-axis and are limited by first stroke switch and second stroke switch Position avoids influencing cutting accuracy due to position deviation, to realize the automation of cutting overall process, precision.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the schematic diagram of stone material cutting equipment of the present invention；

Fig. 2 is the length travel mechanism top view of stone material cutting equipment of the present invention；

Fig. 3 is the length travel mechanism side view of stone material cutting equipment of the present invention；

Fig. 4 is enlarged drawing at the A in Fig. 3；

Fig. 5 is the crossbeam cross-sectional view of stone material cutting equipment of the present invention；

Fig. 6 is the partial schematic diagram of stone material cutting equipment of the present invention；

Fig. 7 is the side view of Fig. 6；

Fig. 8 is the spindle box schematic diagram of stone material cutting equipment of the present invention.

In attached drawing:

1, length travel mechanism 101, side bar 102, side bar rack gear

103, encoder seat 104, encoder core 105, bearing plate

106, first gear 107, the first row wheel 108, the first row wheel shaft

109, the first locking nut 110, the first side bar guide rail 111, the second row wheel

112, the second row wheel shaft 113, the second locking nut 114, the second side bar guide rail

115, first longitudinal direction cabinet 116, second longitudinal direction cabinet 117, positive stop strip

118, crossbeam 119, decelerating motor 120, bearing spider

121, transmission shaft 122, motor mount 123, first stroke switch

124, second stroke switch 2, lateral displacement mechanism 201, square box

202, crossbeam slide plate 203, V-type rail 204, groove

205, crossbeam rack gear 206, traversing electric machine support 207, traversing motor

208, traversing motor pulley 209, speed reducer belt pulley 210, the first V-type band

211, speed reducer 212, gear shaft 213, second gear

3, elevating mechanism 301, guide sleeve 302, column

303, upper junction plate 304, lower connecting plate 305, lifting cylinder

306, fixing seat 307, hydraulic fluid tank 308, support

4, spindle box mechanism 401, spindle box 402, deep groove ball bearing

403, main shaft 404, spindle pulley 405, round nut

406, stop washer 407, external pressure cutterhead 408, internal pressure cutterhead

409, blade 410, nut 411, driving pulley

412, the second V-type band 413, threephase asynchronous machine

Specific embodiment

With reference to the accompanying drawings and detailed description, the present invention is furture elucidated, it should be understood that following specific embodiments are only For illustrating the present invention rather than limiting the scope of the invention.

It please refers to shown in Fig. 1-8, a kind of stone material cutting equipment, including length travel mechanism 1, lateral displacement mechanism 2, lifting Mechanism 3, spindle box mechanism 4, workbench 5 and operation panel 6 are provided with workbench 5, the work below the spindle box mechanism 4 Make platform 5 and be used for cutting stone material for placing stone material, the spindle box mechanism 4, the spindle box mechanism 4 is arranged in the elevator On structure 3, for driving the spindle box mechanism 4 to move in the vertical direction, the setting of elevating mechanism 3 exists the elevating mechanism 3 In the lateral displacement mechanism 2, the lateral displacement mechanism 2 is for driving the elevating mechanism 3 to laterally move, the transverse direction Displacement mechanism 2 is arranged in the length travel mechanism 1, and the length travel mechanism 1 is for driving the lateral displacement mechanism 2 It moves longitudinally, 1 side of length travel mechanism is equipped with operation panel 6, and the operation panel 6 includes setting for setting this The button module of standby movement and the display module for capableing of the real-time display device status information, the operation panel 6 connect PLC Controller input terminal, the PLC controller output end connect each mechanical part of the equipment, and PLC controller receives operation panel 6 Control instruction controls the movement of each mechanical part of the equipment.

The length travel mechanism 1 includes side bar 101, and the side bar 101 is provided with two, and two side bars 101 are in Longitudinal gap arrangement and it is arranged in parallel, two side bars 101 are separately positioned on two clumps, two side bars 101 include side bar ontology and side bar groove, and the cross section of the side bar ontology is rectangle, the upper surface of the side bar ontology It is welded with side bar groove, wherein 101 both ends of side bar are respectively arranged with first stroke switch 123, wherein a side bar It is provided with first longitudinal direction cabinet 115 on 101, second longitudinal direction cabinet 116 is provided on another side bar 101, described first is vertical To being connected with crossbeam 118 between cabinet 115 and second longitudinal direction cabinet 116, therefore when first longitudinal direction cabinet 115 and second longitudinal direction case When body 116 is along longitudinal movement, crossbeam 118 is also moved, and two are symmetrically installed in the first longitudinal direction cabinet 115 in parallel The first row wheel shaft 108 of setting, two the first row wheel shafts 108 are each attached on the siding of 115 two sides of first longitudinal direction cabinet, The first row wheel 107 is set on the first row wheel shaft 108, one end of the first row wheel 107 will by the first locking nut 109 Its axial restraint, the groove profile of the first row wheel 107 and the first side bar guide rail 110 cooperate, and the first row wheel 107 is slidable It is arranged on the first side bar guide rail 110, the first side bar guide rail 110 is fixed on the side of 115 lower section of first longitudinal direction cabinet In beam groove, side bar rack gear 102 is further fixed in the side bar groove, the side bar rack gear 102 is in the side bar guide rail 110 Longitudinal gap arrangement and it is arranged in parallel, first gear 106, the first gear 106 are provided on the side bar rack gear 102 It is engaged with side bar rack gear 102, the first gear 106 is fixed on transmission shaft 121, and one end of the transmission shaft 121 is successively worn It crosses crossbeam 112, second longitudinal direction cabinet 116 and is fixed on 116 body of second longitudinal direction case by bearing block, the other end sequentially passes through First longitudinal direction cabinet 115, bearing plate 105 and decelerating motor 119 are sequentially connected, 115 one side of the first longitudinal direction cabinet peace Equipped with bearing plate 105, motor mount 122 is installed on the bearing plate 105, is installed on the motor mount 122 Decelerating motor 119, the output shaft and transmission shaft 121 of the decelerating motor 119 are sequentially connected by shaft coupling, the motor installation It is also equipped with encoder seat 103 on seat 122, encoder core 104, the encoder core 104 are fixed on the encoder seat 103 It connect with decelerating motor 119, is controlled by revolution of the encoder core 104 to the output shaft of decelerating motor 119.

It is symmetrically installed with two second row wheel shafts 112 disposed in parallel in the second longitudinal direction cabinet 116, two described Two row wheel shafts 112 are each attached on the siding of 116 two sides of second longitudinal direction cabinet, are set with the second row on the second row wheel shaft 112 Wheel 111, one end of the second row wheel 111 by the second locking nut 113 by its axial restraint, the second row wheel 111 Groove profile and the second side bar guide rail 114 cooperate, and the second row wheel 111 is slidably disposed on the second side bar guide rail 114, described Second side bar guide rail 114 is fixed in the side bar groove of 116 lower section of second longitudinal direction cabinet.

Three bearing spiders 120 of equidistant placement, three bearing blocks are set on 118 intermediate solid drive shaft 121 of crossbeam 120 are fixed on inside side bar 118, and positive stop strip 117 is additionally provided on the crossbeam 118, and 117 both ends of positive stop strip are respectively set There is second stroke switch 124.

The lateral displacement mechanism 2 includes square box 201, and the square box 201 is hollow structure, the square box Body 201 is set on crossbeam 118 and can slide along the length direction of crossbeam 118, the inner cavity top setting of the square box 201 There is crossbeam slide plate 202, the crossbeam slide plate 202 is arranged on two V-type rails 203 disposed in parallel and can be along V-type rail 203 slidings, two V-type rails 203 are mounted on crossbeam 118, in the upper setting fluted 204 of crossbeam 118, the groove Crossbeam rack gear 205 is installed in 204 one side walls, traversing electric machine support is installed on the left of the upper surface of the square box 201 206, traversing motor 207 is installed on the traversing electric machine support 206, the shaft end of traversing motor 207 is equipped with cross by flat key Motor pulley 208 is moved, is passed between the traversing motor pulley 208 and speed reducer belt pulley 209 by the first V-type band 210 Dynamic connection, the speed reducer belt pulley 209 are mounted on the input shaft shaft end of speed reducer 211 by flat key, and the speed reducer 211 is pacified Mounted in the upper surface of square box 201, gear shaft 212 is installed in the delivery outlet of the speed reducer 211, the gear shaft 212 according to Secondary to connect across square box 201, crossbeam slide plate 202 with second gear 213, the second gear 213 is nibbled with crossbeam rack gear 205 Close transmission.

The elevating mechanism 3 includes being mounted on four diagonal angles of upper and lower surface of square box 201 to offer through-hole, and four The guide sleeve 301 being equipped in the through-hole is mounted on column 302, four columns on four guide sleeves 301 302 top is provided with upper junction plate 303, and the bottom of four columns 302 is provided with lower connecting plate 304, the upper connection The middle position of plate 303 is equipped with lifting cylinder 305, and the shaft end of the lifting cylinder 305 is equipped with fixing seat 306, described solid Reservation 306 is connect with the upper surface of square box 201, and support 308, the support are laterally fixed on the upper junction plate 302 308 side is equipped with hydraulic fluid tank 307, and the hydraulic fluid tank 307 is connect with 305 pipeline of lifting cylinder, by hydraulic fluid tank 307 to liter It drops oil cylinder 305 and hydraulic oil is provided.

The spindle box mechanism 4 includes spindle box 401, and the spindle box 401 is fixed on the lower surface of lower connecting plate 304, Deep groove ball bearing 402 is installed at the both ends of the spindle box 401, is connected with main shaft 403 between two deep groove ball bearings 402, The one end of main shaft 403 installs spindle pulley 404, and is locked by round nut 405 and stop washer 406, the master The other end of axis 403 is equipped with external pressure cutterhead 407 and internal pressure cutterhead 408, among the external pressure cutterhead 407 and internal pressure cutterhead 408 Position is equipped with blade 409, and carries out shaft end locking by nut 410；The primary shaft belt pulley 404 and driving pulley 411 it Between be sequentially connected by the second V-type band 412, the driving pulley 411 is mounted on the axis of threephase asynchronous machine 413 by flat key End, the threephase asynchronous machine 413 are mounted on the other side of the support 308.

The working principle and cutting method of stone material cutting equipment of the invention include the following:

The first step lies in stone material on working plate 5, and start button on pushing operation panel 6, decelerating motor 119 opens It is dynamic, it is rotated by transmission shaft 121, drives the first gear 106 being mounted on transmission shaft 121 to rotate, first gear 106 and side bar 102 engaged transmission of rack gear, first longitudinal direction cabinet 115, second longitudinal direction cabinet 116 and crossbeam 118 also move, and pass through deceleration The encoder core 104 of 119 shaft end of motor controls its revolution, and it is vertical can be accurately controlled first longitudinal direction cabinet 115, second To the moving distance of cabinet 116 and crossbeam 118.

Second step, traversing motor 207 start, and traversing motor pulley 208 is driven to rotate, and are passed by the first V-type band 210 It is dynamic, drive the gear shaft 212 of 211 output end of speed reducer to rotate, therefore second gear 213 rotates, second gear 213 and crossbeam tooth 102 engaged transmission of item, promotes entire mechanism along lateral certain distance.

Third step, lifting cylinder 305 lead to hydraulic oil, and piston rod goes downwards to specified travel position, therefore upper junction plate 303 Decline certain distance, lower connecting plate 304 starts also with identical stroke distances, threephase asynchronous machine 413 is declined, driving pulley 411 rotations, are driven by the second V-type band 412, and spindle pulley 404 is driven to rotate, therefore main shaft 403 rotates, and is fixed on main shaft The blade 409 of 403 another shaft ends is with rotation, when blade 409 marches to the right second stroke switch 124, blade 409 first Secondary drop knife cuts stone material, when 409 left lateral of blade to second stroke switch 124, second of the drop knife of blade 409 to stone material into Row cutting；When blade 409 marches to forward first stroke switch 123, blade 409 drops knife for the third time and cuts to stone material, When blade 409 is travelled rearwardly to first stroke switch 123, the 4th drop knife of blade 409 cuts stone material, circulation action.

4th step, after the quantity all finish cut needed for stone material, automatic cutting is finished, and each mechanism is automatically stopped, from work Stone material is removed on platform 5.

Although the illustrative specific embodiment of the present invention is described above, in order to the technology of the art Personnel are it will be appreciated that the present invention, but the present invention is not limited only to the range of specific embodiment, to the common skill of the art For art personnel, as long as long as various change the attached claims limit and determine spirit and scope of the invention in, one The innovation and creation using present inventive concept are cut in the column of protection.

Claims (1)

1. a kind of stone cutting method based on stone material cutting equipment, which is characterized in that the cutting method the following steps are included:

The first step lies in stone material on working plate (5), start button on pushing operation panel (6), decelerating motor (119) Starting is rotated by transmission shaft (121), drives first gear (106) rotation being mounted on transmission shaft (121), first gear (106) with side bar rack gear (102) engaged transmission, first longitudinal direction cabinet (115), second longitudinal direction cabinet (116) and crossbeam (118) It also moves, its revolution is controlled by the encoder core (104) of decelerating motor (119) shaft end, can accurately be controlled First longitudinal direction cabinet (115) processed, second longitudinal direction cabinet (116) and crossbeam (118) moving distance.

Second step, traversing motor (207) starting, drives traversing motor pulley (208) to rotate, is passed by the first V-type band (210) It is dynamic, gear shaft (212) rotation of speed reducer (211) output end is driven, therefore second gear (213) rotates, second gear (213) With crossbeam rack gear (102) engaged transmission, promote entire mechanism along lateral certain distance.

Third step, lifting cylinder (305) lead to hydraulic oil, and piston rod goes downwards to specified travel position, therefore upper junction plate (303) Decline certain distance, lower connecting plate (304) starts also with identical stroke distances, threephase asynchronous machine (413) is declined, main belt (411) rotation is taken turns, is driven by the second V-type band (412), drives spindle pulley (404) rotation, therefore main shaft (403) rotates, Being fixed on the blade of main shaft (403) another shaft end, (409 with rotation, when blade (409) marches to the right second stroke switch (124) when, drop knife cuts stone material to blade (409) for the first time, when blade (409) left lateral to second stroke switchs (124), Second of drop knife of blade (409) cuts stone material；When blade (409) marches to forward first stroke switch (123), knife Piece third time drop knife cuts stone material, and blade (409) travels rearwardly when switching (123) to first stroke, blade (409) the Four times drop knife cuts stone material, circulation action.

4th step, after the quantity all finish cut needed for stone material, automatic cutting is finished, and each mechanism is automatically stopped, from workbench (5) On remove stone material.