CN107379288A - A kind of bull vertical stone process equipment - Google Patents
A kind of bull vertical stone process equipment Download PDFInfo
- Publication number
- CN107379288A CN107379288A CN201710846197.4A CN201710846197A CN107379288A CN 107379288 A CN107379288 A CN 107379288A CN 201710846197 A CN201710846197 A CN 201710846197A CN 107379288 A CN107379288 A CN 107379288A
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- Prior art keywords
- cutting
- workbench
- column
- stone material
- workpiece
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D1/00—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
- B28D1/22—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by cutting, e.g. incising
- B28D1/24—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by cutting, e.g. incising with cutting discs
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D7/00—Accessories specially adapted for use with machines or devices of the preceding groups
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D7/00—Accessories specially adapted for use with machines or devices of the preceding groups
- B28D7/005—Devices for the automatic drive or the program control of the machines
Abstract
The present invention relates to a kind of bull vertical stone process equipment, including workbench, cutting mechanism and cutting column, workbench is used for the vertical a plurality of stone material workpiece of placement, a plurality of stone material workpiece are in same plane setting, cutting mechanism is used to process a plurality of stone material workpiece simultaneously, cutting mechanism can movably be assemblied in cutting column along cutting column, and stone material workpiece is vertically extended with cutting column.Above-mentioned cutting column is located at residing for a plurality of above-mentioned stone material workpiece outside plane, and the projected position that cutting column be located at plane residing for the stone material workpiece is located at a plurality of stone material workpiece and arranged the middle part of distance.The drive mechanism of more stable, the internal each drive mechanism of the bull vertical stone process equipment structure of the present invention is less(The lift drive mechanism part of such as lifting slider), the operation stability of equipment is improved, improves the durability of equipment, and then the market competitiveness of lifting means.
Description
Technical field
The present invention relates to stone machining equipment field, and in particular to a kind of bull vertical stone process equipment.
Background technology
Existing processing of stone factory processing cylindrical product is added by artificial, using the cutting of speed lathe profiling machine mostly
Work and bull profiling machine machining, with there is such as production efficiency in artificial using speed lathe profiling machine machining
The problems such as low, labor intensity is big, product profile homogeneity difference.
And existing bull profiling machine, as the patent of invention of Application No. 200810071856.2 provides a kind of multi-head cylinder
Shape type stone profiling machine, forward and backward column are correspondingly vertically fixed on base, and forward and backward column includes being arranged symmetrically in base two respectively
Two columns of side;It is provided with workpiece grip mechanism on front column, workpiece grip mechanism can clamp multiple workpieces to be machined, simultaneously simultaneously
Drive all workpiece synchronous rotations;Workpiece topping machanism is provided with rear column, workpiece topping machanism includes passing through vertical lift
And horizontal shifting drive mechanism can up and down, the crossbeam being erected between rear left and right column horizontal movably forward and backward and it is some by
Drive with the Cutting tool of synchronous cutting workpiece along the longitudinally perpendicular main shaft being supported on crossbeam and tracked by optoelectronic induction
Stencil master curved surface with control it is each cutting drive mechanism profiling control device.Although the profiling machine once can be processed multiple simultaneously
Workpiece can reduce labor intensity, improve operating efficiency height, reduce production cost, but there is also some deficiencies for the program.
Cause high machine-spoiled rate, maintenance difficult first, machine construction is unreasonable or even cause machine to make because being difficult to maintenance
Use short life.Because Cutting tool is assemblied in rear left and right column by vertical lift and horizontal shifting drive mechanism in the program
Between crossbeam, the shake in such as each drive mechanism operation process in for a long time by stone material shape imitation working angles be present
(The especially motor of Cutting tool), reaction of the two-way interaction to machine during Cutting tool cutting stone material
Power, Cutting tool cutting stone material during caused by the mineral adulterated in lithotome different Cutting tool different directions
The active force such as vibrations influence, the rebound effect particularly as caused by the Cutting tool of both sides switches to the harder mineral of material suddenly
Impact, it will cause vertical lift and the nut being equipped with of horizontal shifting drive mechanism and the abrasion of screw mandrel, or even will
It can cause such as the abrasion of horizontal rail, groove, and the abrasion of these parts is changed very difficult, and such as horizontal rail, groove are substantially very
It can not extremely change.
Second, machine practical effect is poor, or even influence the finished product profile homogeneity of processing.Because machine uses process
In frequently encounter the impact of the rebound effect as caused by the Cutting tool of both sides switches to the harder mineral of material suddenly, and the machine
Due to using the traversing structure of rear left and right both sides Synchronous Transmission, thus its to tackle the ability that such unilateral impact influences weak, hold
Both sides degree of wear difference is easily caused, and then causes the finished workpart homogeneity difference of diverse location or even one side to use.
Third, machine space-consuming is big, virtually increase the use cost of factory.
And existing most of type stone profiling machines, the bull as disclosed in the Chinese patent of Application No. 201110322405.3
Stone profiling cutting machine, Application No. 201621235738.7 Chinese patent disclosed in a kind of multifunctional stone profiling machine,
More using 4 pillar constructions of this kind of quadrangle arrangement, above mentioned problem is equally existed.
The content of the invention
The present invention provides a kind of bull vertical stone process equipment, to solve existing most of bull cylindricality stone material shape imitations
The problems such as equipment failure rate is high, finished product homogeneity difference.
The present invention adopts the following technical scheme that:
A kind of bull vertical stone process equipment, including workbench, cutting mechanism and cutting column, workbench are used for vertical peace
A plurality of stone material workpiece are put, a plurality of stone material workpiece are in same plane setting, and cutting mechanism is a plurality of for processing this simultaneously
Stone material workpiece, cutting mechanism can movably be assemblied in cutting column along cutting column, and stone material workpiece is with cutting column along vertical
Direction is extended.Above-mentioned cutting column is located at residing for a plurality of above-mentioned stone material workpiece outside plane, and cutting column is located at the stone material
The projected position of plane residing for workpiece is located at the middle part of a plurality of stone material workpiece arrangement distance, a plurality of stone material workpiece arrangement away from
From for a plurality of stone material workpiece by it is first arranged successively to tail after first stone material workpiece and tail stone material workpiece between away from
From.
Further:
A kind of bull vertical stone process equipment also includes base, 2 workbench columns and back timber, 2 workbench columns point
Not She Yu above-mentioned workbench length direction both ends, 2 workbench columns and above-mentioned cutting column in isosceles triangular structure laying,
Back timber connecting working table column is set with cutting column top, and base is with back timber relatively located at cutting column and workbench bottom
Edge.
Above-mentioned workbench includes the table rest and crossbeam being oppositely arranged, and table rest is stood located at 2 above-mentioned workbench
Between post and above-mentioned base, crossbeam can be movably assemblied between 2 workbench columns along workbench column.Above-mentioned table rest
Top surface be provided with it is a plurality of can synchronous rotation Workpiece carrier disk, Workpiece carrier disk lays successively along table rest length direction.On
State crossbeam bottom surface and be provided with plurality of workpieces thimble, workpiece thimble is corresponded with above-mentioned Workpiece carrier disk and set.
Above-mentioned crossbeam is cooperated drivingly along upper by beam lifting motor, beam lifting screw mandrel and beam lifting nut
The movement of workbench column is stated to set.Above-mentioned beam lifting motor is on back timber.Above-mentioned beam lifting screw mandrel is provided with 2,2 horizontal strokes
Beam elevating screw is connected with extending straight down located at back timber and with the clutch end of beam lifting motor.Above-mentioned crossbeam
Lifting nut is equipped with located at crossbeam both ends and with 2 beam lifting screw mandrels.
Above-mentioned workbench also includes a rotation drive mechanism and a plurality of thimble cylinders, and rotation drive mechanism is located at work
Pedestal side edge, a plurality of thimble cylinders are assemblied in above-mentioned crossbeam correspondingly with a plurality of above-mentioned workpiece thimbles.It is a plurality of
The workpiece thimble is assemblied in the ejection end of thimble cylinder by a thimble bearing respectively.Above-mentioned rotation drive mechanism is located at above-mentioned work
Make pedestal side edge, rotation drive mechanism includes a rotation driving motor and a plurality of linkage gears, linkage gear are driven by rotation
Dynamic motor is driven and synchronous axial system is set.Each above-mentioned linkage gear is driven by two bevel gears and above-mentioned Workpiece carrier disk
Connection, bevel gear are assemblied in the table rest.
Above-mentioned cutting column is provided with 2, and 2 cutting columns are arranged side by side along the plane perpendicular to plane where above-mentioned stone material workpiece
Set.
Above-mentioned cutting mechanism includes lifting slider, cutting frame, at least one Cutting tool and cutting blade motor, lifting slider
Can movably it be assemblied in along above-mentioned cutting column outside cutting column, cutting frame is sheathed on outside lifting slider and can be towards above-mentioned work
Direction movement is set where platform, and Cutting tool is assemblied in cutting frame adjacent to the side of the workbench side, and cutting blade motor is used to drive
Dynamic Cutting tool rotates.
Above-mentioned lifting slider is cooperated drivingly by sliding block lifting motor, sliding block elevating screw and sliding block lifting nut
Setting is moved along above-mentioned cutting column.Above-mentioned sliding block lifting motor is on back timber.Above-mentioned sliding block elevating screw prolongs straight down
It is connected located at back timber and with the clutch end of sliding block lifting motor with stretching.Above-mentioned sliding block lifting nut is located at lifting slider
Middle part is simultaneously equipped with sliding block elevating screw.
Above-mentioned cutting frame is cooperated drivingly towards above-mentioned workbench by traversing motor, traversing screw mandrel and traversing nut
The movement of place direction is set.Above-mentioned traversing screw mandrel deviates from located at above-mentioned lifting slider away from the side of above-mentioned workbench side along simultaneously edge
Workbench direction is extended.Above-mentioned traversing motor deviates from the side edge of workbench side with above-mentioned traversing nut located at cutting frame,
Traversing motor is used to drive traversing nut rotary setting, and traversing nut is equipped with above-mentioned traversing screw mandrel.The lifting slider is put down
In the both sides side of the traversing screw mandrel bearing of trend along two chutes are provided with, chute is extended row along traversing screw mandrel bearing of trend.
The cutting frame is respectively equipped with a slide rail parallel to the interior edge of the two sides of traversing screw mandrel bearing of trend, slide rail respectively with above-mentioned chute
It is equipped with.
A kind of bull vertical stone process equipment also includes controlling organization, and controlling organization is used to control above-mentioned cutting mechanism
Process.Above-mentioned controlling organization is stone material shape imitation controlling organization, and controlling organization includes PLC, model is installed
Position and optoelectronic induction mechanism, model installation position are used to install model, and optoelectronic induction mechanism is used for the curved surface track for collecting model,
The curved surface TRAJECTORY CONTROL cutting mechanism that PLC passes through optoelectronic induction collect model.
From the above-mentioned description to structure of the present invention, compared to the prior art, the invention has the advantages that:
First, the present invention has by the setting of the workbench column and cutting column arranged in isosceles triangle using triangle
There is this design feature of stability to improve equipment reply in for a long time by stone material shape imitation working angles in the presence of such as each
Shake in drive mechanism operation process(The especially motor of Cutting tool), Cutting tool cutting stone material during two
Person's interaction is led during cutting reaction force, the Cutting tool of equipment stone material due to the mineral adulterated in lithotome
The ability of the active forces such as the vibrations of different Cutting tool different directions of cause.And the set location of cutting column causes cutter
Structure directly acts on the cutting in the middle part of it when tackling the reaction force opposite with cutting frame direction of propulsion in working angles
Column, and can be internal-neutralized in cutting mechanism when tackle the active force in other directions, such as cut multiple bites of frame
Among disk it is single by impact cause cut frame vibrations when, other Cutting tools will will shake in Cutting tool and stone material
Dissolve in workpiece contact, so as to reduce the impact to equipment.
Second, the setting of cutting column of the invention and cutting mechanism, stone material process is cut to Cutting tool in device side
In have during the vibrations of different Cutting tool different directions caused by the mineral adulterated in lithotome it is as follows
Advantage:First, multiple Cutting tools are located at the promotion of same traversing motor, traversing screw mandrel and traversing nut, will not cause to grind
Damage situations such as uneven, finished product favourable identity;Second, the jerk process of different Cutting tool different directions is except by its cotangent
The neutralizing of sharpener disk is outer, and the adjacent surface of slide rail and chute is rigid abutment and contact surface is big, and jerk influence is small, and equipment is not allowed
It is easy to wear;Third, the setting of single same traversing motor, traversing screw mandrel and traversing nut, traversing motor direct-drive are traversing
Nut realizes locomotive function, does not have additional drive structure, and energy dissipation is few, transmission efficiency and does not allow easy to wear and horizontal
Move motor, traversing screw mandrel and traversing nut are assemblied in middle part on rear side of equipment, disassemble, repair, changes more it is convenient soon
Victory, thus equipment use cost is lower;Fourth, the structures of double cutting columns, it is subject in reply from its of lifting slider transmission
Cut in frame impact process, cutting column anti-torsion ability is stronger in pairs, the structural strength of further lifting means.
3rd, the setting of the workbench column and cutting column in isosceles triangle arrangement of the invention, optimize equipment
Structure so that the drive mechanism of each drive mechanism of device interior is less(Such as the lift drive mechanism part of lifting slider
Deng), occupation area of equipment it is smaller, and above-mentioned advantage will also bring as the maintenance cost of equipment is lower, equipment because floor space become
The small and more high benefit of factory building utilization rate brought, and then the market competitiveness of lifting means.
Brief description of the drawings
Fig. 1 is the dimensional structure diagram of the bull vertical stone process equipment angle of the present invention.
Fig. 2 is the dimensional structure diagram of the bull vertical stone process equipment angle II of the present invention.
Fig. 3 is the decomposition texture schematic diagram of the bull vertical stone process equipment of the present invention.
Fig. 4 is the structural representation of the cutting mechanism and cutting column of the present invention.
Fig. 5 is the decomposition texture schematic diagram of the cutting mechanism and cutting column of the present invention.
Fig. 6 is structural representation of the table rest with workbench column of the present invention.
Fig. 7 is decomposition texture schematic diagram of the table rest with workbench column of the present invention.
Embodiment
Illustrate the embodiment of the present invention with reference to the accompanying drawings.
With reference to figure 1, Fig. 2, Fig. 3, a kind of bull vertical stone process equipment, including 2,2 workbench, cutting mechanism cuttings
Column 3,4,2 workbench columns 5 of base, back timber 6, safety door 7 and controlling organization.Wherein, base 4 and back timber 6 are six sides
The tabular and framework of shape structure, the hexagonal structure are the spaced hexagonal structure of the short side of three long side three, hexagonal structure
Three long sides stretch out and intersect and can form an isosceles triangular structure.Workbench is located at the above-mentioned hexagonal structure of base 4
In composition isosceles triangle long side side, 2 workbench columns 5 are located at the both sides of workbench length direction, and 2 cuttings are vertical
One in post 3 with 2 workbench columns 5 in isosceles triangular structure arrangement, another in 2 cutting columns 3 is along isosceles
The high place straight line on triangular structure base is arranged adjacent to workbench side, i.e. 2 cutting columns 3 are along where workbench
The plane of plane is set up in parallel.Cutting column 3 is vertically extended with workbench column 5.
With continued reference to Fig. 1, Fig. 2, Fig. 3, above-mentioned back timber 6 is set up in 2 cutting columns 3 and 2 tops of workbench column 5.
Above-mentioned safety door 7 is assemblied between the back timber 6 on the outside of workbench and base 4, is separated during being worked for equipment in the middle part of workbench
Processing space contact with outside equipment, so as to reduce because stone that stone material workpiece 9 jumps out during processing etc. pounds factory
Situation of people or thing etc., safety door 7 preferably use grid folding sliding doors.Workbench is used for the vertical a plurality of processed use of placement
Stone material workpiece 9, and each stone material workpiece 9 of synchronous drive rotates, and cutting mechanism 2 is used to process a plurality of stone material workpiece 9 simultaneously,
Cutting mechanism 2 can movably be assemblied in cutting column 3 along cutting column 3.
With reference to figure 1, Fig. 2, Fig. 3, Fig. 6, above-mentioned workbench includes the table rest 11 and crossbeam 12 being oppositely arranged, work
Between 2 above-mentioned workbench columns 5 and above-mentioned base 4, crossbeam 12 can be movably assemblied in pedestal 11 along workbench column 5
Between 2 workbench columns 5.The above-mentioned top surface of table rest 11 be provided with it is a plurality of can synchronous rotation Workpiece carrier disk 111, workpiece
Carrier 111 is laid successively along the length direction of table rest 11.The above-mentioned bottom surface of crossbeam 12 is provided with plurality of workpieces thimble 121, work
Part thimble 121 is corresponded with above-mentioned Workpiece carrier disk 111 and set.One group of workpiece thimble 121 and Workpiece carrier being correspondingly arranged
Disk 111 is used to clamp a stone material workpiece 9 in the middle, and centered on its axis by its length direction can be driven from
Turn.Workpiece carrier disk 111 is arranged successively along workbench length direction, even a plurality of stone material workpiece 9 are in same plane setting.
With reference to figure 1, Fig. 2, Fig. 3, the above-mentioned both ends of crossbeam 12 are sheathed on 2 workbench columns 5, and with 2 workbench columns 5
Setting is put into and takes out along the elevating movement of workbench column 5, the elevating movement for ease of stone material workpiece 9 for guide rail.Should
Elevating movement is cooperated by beam lifting motor 122, beam lifting screw mandrel 123 and the lifting nut of crossbeam 12 and driven.Crossbeam
Elevating screw 123 be provided with 2,2 beam lifting screw mandrels 123 extend straight down ground be located at back timber 6 and with beam lifting motor
122 clutch end drive connection.The above-mentioned lifting nut of crossbeam 12 located at the both ends of crossbeam 12 and with 2 beam lifting screw mandrels
123 are equipped with.Beam lifting motor 122 is located at the top end of back timber 6, and beam lifting motor 122 is adjacent to 2 beam lifting silks
One in bar 123 and with its setting that is connected, and by one along the power transmission shaft 124 of crossbeam 12 of the top surface of back timber 6 extension by crossbeam
The power of lifting motor 122 is delivered to another in 2 beam lifting screw mandrels 123.The power transmission shaft 124 of crossbeam 12 is attached to a transmission
Axle shield 125, drive shaft guard 125 coat the ground of 12 power transmission shaft of crossbeam 124 and are located at the top surface of back timber 6.
With reference to figure 3, Fig. 6, Fig. 7, above-mentioned workbench also includes a rotation drive mechanism and a plurality of thimble cylinders 120,
Rotation drive mechanism is located at the side edge of table rest 11, a pair of a plurality of thimble cylinders 120 and a plurality of above-mentioned workpiece thimbles 121 1
It is assemblied in above-mentioned crossbeam 12 with answering.Thimble cylinder 120 is independently arranged for more firmly holding each stone material workpiece 9.It is multiple
Several workpiece thimbles 121 are assemblied in the ejection end of thimble cylinder 120 by a thimble bearing respectively.Thimble bearing is used to coordinate
The rotation of Workpiece carrier disk 111 is set.Above-mentioned rotation drive mechanism is located at the above-mentioned side edge of table rest 11, rotation drive mechanism bag
Include a rotation driving motor 112 and a plurality of linkage gears 113, linkage gear 113 is driven and same by rotation driving motor 112
Step, which rotates, to be set.Connected between two linkage gears 113 by one and the intermeshing travelling gear 115 of two linkage gears 113
Connect.Each above-mentioned linkage gear 113 is connected by two bevel gears 114 and above-mentioned Workpiece carrier disk 111, bevel gear
114 are assemblied in the table rest 11, and lubricating oil is filled with table rest 11.A protective cover is attached to outside rotation drive mechanism
13。
With reference to figure 2, Fig. 4, above-mentioned cutting mechanism 2 include lifting slider 21, cutting frame 22, at least one Cutting tool 23 with
And cutting blade motor 24, lifting slider 21 can be movably assemblied in outside cutting column 3 along above-mentioned cutting column 3, cutting frame 22 is arranged
It can set outside lifting slider 21 and towards direction movement where above-mentioned workbench, Cutting tool 23 be assembled by cutter chuck holder adapted 231
In cutting frame 22 adjacent to the side of the workbench side, cutting blade motor 24 is used to drive Cutting tool 23 to rotate.Above-mentioned lifting is slided
Block 21 is cooperated drivingly along above-mentioned cutting by sliding block lifting motor 211, sliding block elevating screw 212 and sliding block lifting nut
The movement of column 3 is set.Above-mentioned sliding block lifting motor 211 is on back timber 6.Above-mentioned sliding block elevating screw 212 extends straight down
Ground is connected located at back timber 6 and with the clutch end of sliding block lifting motor 211.Above-mentioned sliding block lifting nut is slided located at lifting
The middle part of block 21 is simultaneously equipped with sliding block elevating screw 212.
It is counterpoise with reference to figure 1, Fig. 2, Fig. 3, Fig. 4, it is preferred to use 2 Cutting tools 23 and 2 cutting blade motors 24
Scheme, 2 cutting blade motors 24 are assemblied in along the both sides side of cutting frame 22 moving direction extension, and 2 cutting blade motors 24 are symmetrical
Set, the program contributes to the carrying quality of balanced cutting frame 22 and reduces cutting frame 22 because cutting blade motor 24 operates what is brought
Vibrations.The setting of 2 Cutting tools 23 of the program, therefore set 4 groups of workpiece thimbles 121 being correspondingly arranged to be held with workpiece accordingly
Load plate 111, i.e. workbench once dispose 4 stone material workpiece, 9,4 stone material workpiece 9(Or 4 groups of workpiece thimbles 121 being correspondingly arranged
With Workpiece carrier disk 111)Divide 2 on one side along workbench middle part(I.e. 2 cutting columns 3 are located at the projection position of table plane
Put)It is symmetrical arranged.Above-mentioned symmetrical structure may insure two Cutting tools 23 to being acted between cutting mechanism 2 and cutting column 3
The influence of power is more balanced.With 2 stone material workpiece 9 on one side(Or 2 groups of workpiece thimbles 121 being correspondingly arranged and Workpiece carrier disk
111)Plane where along the axis of Cutting tool 23 is symmetrical arranged.
With reference to figure 2, Fig. 4, Fig. 5, above-mentioned cutting frame 22 is mutual by traversing motor 221, traversing screw mandrel 222 and traversing nut
Coordinate and drivingly set towards direction movement where above-mentioned workbench.Above-mentioned traversing screw mandrel 222 is carried on the back located at above-mentioned lifting slider 21
Side from above-mentioned workbench side is extended along and along away from workbench direction.Above-mentioned traversing motor 221 and above-mentioned traversing spiral shell
Mother deviates from the side edge of workbench side located at cutting frame 22, and traversing motor 221 is used to drive traversing nut rotary setting, traversing spiral shell
It is female to be equipped with above-mentioned traversing screw mandrel 222.Both sides side edge of the lifting slider 21 parallel to the traversing bearing of trend of screw mandrel 222
Provided with two chutes 213, chute 213 is extended along the traversing bearing of trend of screw mandrel 222.The cutting frame 22 is parallel to traversing screw mandrel
The interior edge of the two sides of 222 bearing of trends is respectively equipped with a slide rail 223, and slide rail 223 is equipped with above-mentioned chute 213 respectively.
With continued reference to Fig. 2, Fig. 4, Fig. 5, above-mentioned controlling organization is used for the process for controlling above-mentioned cutting mechanism 2.Control
Mechanism is digital control mechanism or stone material shape imitation controlling organization.Because this device structure more science, transmission efficiency are higher and
It is smaller that device driver influences precision because of abrasion, therefore this equipment goes for digital control mechanism, it is only necessary to coordinates each
Individual moving direction alignment sensor and the drive mechanism using servomotor as power source.But due to existing processing factory
Actual state mostly be applied to stone material shape imitation controlling organization scheme, present embodiment preferably using stone material shape imitation control
Mechanism scheme is described.The controlling organization includes PLC, model installation position 81, optoelectronic induction mechanism 82, liter
Drop sliding block 21 and lift limit induction device 83 and the cutting movement limit induction of frame 22 device 84, model installation position 81 is used to install mould
Type, optoelectronic induction mechanism 82 are used for the curved surface track for collecting model, and PLC is collected by optoelectronic induction mechanism 82
The curved surface TRAJECTORY CONTROL cutting mechanism 2 of model, lifting slider 21 lift limit induction device 83 and are used to most rise to lifting slider 21 higher
Drop degree is limited, and cutting frame 22 moves limit induction device 84 and is used to limit the mobile degree of the maximum of cutting frame 22, light
Electric induction mechanism 82 is attached to the optoelectronic induction travel mechanism 821 of its movement of driving, and optoelectronic induction travel mechanism 821, which is assemblied in, cuts
Cut frame 22.Said structure is customary technical means in the art, therefore present embodiment is not described in detail.
The embodiment of the present invention is above are only, but the design concept of the present invention is not limited thereto, it is all to utilize this
Conceive the change that unsubstantiality is carried out to the present invention, the behavior for invading the scope of the present invention all should be belonged to.
Claims (10)
1. a kind of bull vertical stone process equipment, including workbench, cutting mechanism and cutting column, workbench are used for vertical
A plurality of stone material workpiece are disposed, a plurality of stone material workpiece are in same plane setting, and cutting mechanism is used to process the plural number simultaneously
Individual stone material workpiece, cutting mechanism can movably be assemblied in cutting column along cutting column, and stone material workpiece is with cutting column along perpendicular
Nogata to be extended;It is characterized in that:The cutting column is located at residing for a plurality of stone material workpiece outside plane, and cutting is vertical
Post be located at plane residing for the stone material workpiece projected position be located at a plurality of stone material workpiece arrangement distance middle part, a plurality of stones
Material workpiece arrangement distance is a plurality of stone material workpiece by first first stone material workpiece and tail stone material to after tail successively arrangement
The distance between workpiece.
A kind of 2. bull vertical stone process equipment according to claim 1, it is characterised in that:Also include base, 2 works
Make platform column and back timber, 2 workbench columns are respectively arranged on the workbench length direction both ends, 2 workbench columns with
It is described cutting column in isosceles triangular structure lay, back timber connecting working table column with cutting column top set, base and
Back timber is relatively located at cutting column and workbench bottom edge.
A kind of 3. bull vertical stone process equipment according to claim 2, it is characterised in that:The workbench includes phase
To the table rest and crossbeam of setting, table rest is located between 2 workbench columns and the base, and crossbeam can edge
Workbench column is movably assemblied between 2 workbench columns;The table rest top surface be provided with it is a plurality of can synchronous rotation
Workpiece carrier disk, Workpiece carrier disk lays successively along table rest length direction;The crossbeam bottom surface is provided with plurality of workpieces
Thimble, workpiece thimble are corresponded with the Workpiece carrier disk and set.
A kind of 4. bull vertical stone process equipment according to claim 3, it is characterised in that:The crossbeam is by crossbeam liter
Drop motor, beam lifting screw mandrel and beam lifting nut cooperate drivingly moves setting along the workbench column;Institute
Beam lifting motor is stated on back timber;The beam lifting screw mandrel is provided with 2, and 2 beam lifting screw mandrels extend straight down
Ground is connected located at back timber and with the clutch end of beam lifting motor;The beam lifting nut is located at crossbeam both ends simultaneously
It is equipped with 2 beam lifting screw mandrels.
A kind of 5. bull vertical stone process equipment according to claim 3, it is characterised in that:The workbench also includes
One rotation drive mechanism and a plurality of thimble cylinders, rotation drive mechanism are located at table rest side edge, a plurality of thimble cylinders
It is assemblied in correspondingly in the crossbeam with a plurality of workpiece thimbles;A plurality of workpiece thimbles pass through a thimble respectively
Bearing is assemblied in the ejection end of thimble cylinder;The rotation drive mechanism is located at table rest side edge, rotation drive mechanism
Including a rotation driving motor and a plurality of linkage gears, linkage gear is driven by rotation driving motor and synchronous axial system is set
Put;Each linkage gear is connected by two bevel gears and the Workpiece carrier disk, and bevel gear is assemblied in the work
Make in pedestal.
A kind of 6. bull vertical stone process equipment according to claim 2, it is characterised in that:The cutting column is provided with
2,2 cutting columns are set up in parallel along the plane perpendicular to plane where the stone material workpiece.
A kind of 7. bull vertical stone process equipment according to claim 6, it is characterised in that:The cutting mechanism includes
Lifting slider, cutting frame, at least one Cutting tool and cutting blade motor, lifting slider can movably fill along the cutting column
Outside assigned in cutting column, cutting frame is sheathed on outside lifting slider and can set towards direction movement where the workbench, cutting
Cutterhead is assemblied in cutting frame adjacent to the side of the workbench side, and cutting blade motor is used to drive Cutting tool to rotate.
A kind of 8. bull vertical stone process equipment according to claim 7, it is characterised in that:The lifting slider is by sliding
Block lifting motor, sliding block elevating screw and sliding block lifting nut cooperate and drivingly move setting along the cutting column;
The sliding block lifting motor is on back timber;The sliding block elevating screw lifts with extending straight down located at back timber and with sliding block
The clutch end drive connection of motor;The sliding block lifting nut coordinates in the middle part of lifting slider and with sliding block elevating screw
Set.
A kind of 9. bull vertical stone process equipment according to claim 7, it is characterised in that:The cutting frame is by traversing
Motor, traversing screw mandrel and traversing nut cooperate and drivingly set towards direction movement where the workbench;The horizontal stroke
Silk shifting rod is extended away from the side of the workbench side located at the lifting slider along simultaneously edge away from workbench direction;It is described
Traversing motor deviates from the side edge of workbench side with the traversing nut located at cutting frame, and traversing motor is used to drive traversing nut
Rotary setting, traversing nut are equipped with the traversing screw mandrel;The lifting slider is parallel to the traversing screw mandrel bearing of trend
Along two chutes are provided with, chute is extended along traversing screw mandrel bearing of trend for both sides side;The cutting frame prolongs parallel to traversing screw mandrel
The interior edge for stretching the two sides in direction is respectively equipped with a slide rail, and slide rail is equipped with the chute respectively.
A kind of 10. bull vertical stone process equipment according to claim 1, it is characterised in that:Also include controlling organization,
Controlling organization is used for the process for controlling the cutting mechanism;The controlling organization is stone material shape imitation controlling organization, control machine
Structure includes PLC, model installation position and optoelectronic induction mechanism, and model installation position is used to install model, photoelectricity
Induction mechanism is used for the curved surface track for collecting model, the curved surface that PLC passes through optoelectronic induction collect model
TRAJECTORY CONTROL cutting mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201710846197.4A CN107379288B (en) | 2017-09-19 | 2017-09-19 | A kind of bull vertical stone process equipment |
Applications Claiming Priority (1)
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JP2001205622A (en) * | 2000-01-27 | 2001-07-31 | Flex Giken:Kk | Cutting device for tile |
CN101367253A (en) * | 2008-09-23 | 2009-02-18 | 陈锡奎 | Multiheaded cylinder type stone profiling machine |
CN201333762Y (en) * | 2008-08-28 | 2009-10-28 | 陈锡奎 | Automatic cylindrical stone material copying machine |
CN102350740A (en) * | 2011-10-21 | 2012-02-15 | 惠安县佳能机械制造厂 | Multi-head stone profiling cutting machine |
KR101333525B1 (en) * | 2011-08-01 | 2013-11-28 | 지오석재산업주식회사 | Apparatus for profiling cubstone |
CN206201218U (en) * | 2016-11-18 | 2017-05-31 | 王文胜 | A kind of multifunctional stone profiling machine |
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JP2001205622A (en) * | 2000-01-27 | 2001-07-31 | Flex Giken:Kk | Cutting device for tile |
CN201333762Y (en) * | 2008-08-28 | 2009-10-28 | 陈锡奎 | Automatic cylindrical stone material copying machine |
CN101367253A (en) * | 2008-09-23 | 2009-02-18 | 陈锡奎 | Multiheaded cylinder type stone profiling machine |
KR101333525B1 (en) * | 2011-08-01 | 2013-11-28 | 지오석재산업주식회사 | Apparatus for profiling cubstone |
CN102350740A (en) * | 2011-10-21 | 2012-02-15 | 惠安县佳能机械制造厂 | Multi-head stone profiling cutting machine |
CN206201218U (en) * | 2016-11-18 | 2017-05-31 | 王文胜 | A kind of multifunctional stone profiling machine |
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