CN104289999A - Processing device - Google Patents

Abstract

The invention provides a processing device which comprises a first translation table translating along a first direction, a second translation table translating along a second direction, a rotating table and a cutter. The second translation stage is arranged on the first translation stage. The rotating table is arranged on the second translation table. The rotating table comprises a rotating part rotating around the third direction and an object stage arranged on the rotating part and rotating around the fourth direction. The tool moves in a fifth direction to machine the stock material placed on the stage. The first direction is not parallel to the second direction. The third direction is not parallel to the fourth direction.

Description

Processing unit (plant)

Technical field

The present invention relates to a kind of processing unit (plant).

Background technology

In general, the three axle boards along orthogonal three direction translationals are mostly used to come movable glass embryo material or process tool when the edge of three-dimensional glass being carried out to edging or repaiies lead angle.But, be limited to the free degree that glass embryo material runs with three axle boards, generally can only use the molding cutter with specific bending shape or use the mode of engraving grinding slowly process the edge lead angle of three-dimensional glass and carry out edging operation, cause crudy and speed cannot reach the demand of volume production.And the glass product processed lead angle around the corner and edging effect there will be discontinuous state.

Summary of the invention

Given this, be necessary to provide a kind of processing unit (plant) can processing embryo material flexibly rapidly.

A kind of processing unit (plant), it comprises the first translation platform along first direction translation, the second translation platform along second direction translation, turntable and cutter.Described second translation platform is arranged on the first translation platform.Described turntable is arranged on the second translation platform.Described turntable comprises the rotation section of rotating around third direction and the objective table be arranged on around fourth direction rotation on rotation section.Described cutter moves to process the embryo material be placed on objective table along the 5th direction.Described first direction is not parallel to second direction.Described third direction is not parallel to fourth direction.

Relative to prior art, processing unit (plant) provided by the present invention can regulate the position relationship between embryo material and cutter along at least five directions, make its embryo material that can be used for processing various complicated shape and the outboard peripheries processed and lead angle transitions smooth.In addition, because described processing unit (plant) can adjust the position of embryo material relative to cutter more all sidedly, make adopted cutter for comparatively simple straight knife, and do not need at the molding cutter changing various given shape according to the shape of embryo material.

Accompanying drawing explanation

The structural representation of the processing unit (plant) that Fig. 1 provides for embodiment of the present invention.

Fig. 2 is the front view of processing unit (plant) in Fig. 1.

Fig. 3 is the lateral plan of processing unit (plant) in Fig. 1.

Main element symbol description

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Refer to Fig. 1 to Fig. 3, the processing unit (plant) 1 that embodiment of the present invention provides comprises pedestal 10, first translation platform 12, second translation platform 14, turntable 16 and cutter 18.Described first translation platform 12 moves in parallel along first direction A.Described second translation platform 14 to be arranged on the first translation platform 12 and to move in parallel along second direction B.Described turntable 16 is arranged on the second translation platform 14.Described turntable 16 comprises the rotation section 160 of rotating around third direction C and the objective table 162 be arranged on around fourth direction D rotation on rotation section 160.Described cutter 18 can move to process along the 5th direction E the embryo material 2 be placed on objective table 162.Described first direction A is not parallel to second direction B.Described third direction C is not parallel to fourth direction D.In the present embodiment, described first direction A is perpendicular to second direction B.Described third direction C is perpendicular to fourth direction D.The plane that 5th direction E defines jointly perpendicular to first direction A and second direction B.

Described pedestal 10 is provided with the first slide rail 100 be parallel to each other for a pair extended along first direction A.In the present embodiment, described pedestal 10 is a rectangular flat.Described first slide rail 100 is arranged on the upper surface of pedestal 10.

Described first translation platform 12 comprises the first surface 120 and second surface 122 being parallel to each other relative.On described second surface 122, corresponding described first slide rail 100 is provided with the first chute 124 be parallel to each other for a pair.Described second surface 122 is provided with the second slide rail 126 be parallel to each other for a pair extended along second direction B.In the present embodiment, described first translation platform 12 is a rectangular flat, and described first surface 120 is arranged along the thickness direction of the first translation platform 12 successively with second surface 122.

Described second translation platform 14 comprises the loading end 140 and joint face 142 being parallel to each other relative.On described joint face 142, corresponding described second slide rail 126 is provided with the second chute 144 be parallel to each other for a pair.Described loading end 140 is an even curface.In the present embodiment, described second translation platform 14 is a rectangular flat, and described loading end 140 is arranged along the thickness direction of the second translation platform 14 successively with joint face 142.

Described turntable 16 also comprises base 164, pair of support arms 166, turning cylinder 168 and the first rotation motor 169.Described support arm 166 is upwards extended by described base 164.The opposite end of described turning cylinder 168 is rotationally connected with support arm 166 respectively.Described turning cylinder 168 is arranged along described third direction C.Described rotation section 160 is located on described turning cylinder 168.The outside that described first rotation motor 169 is arranged on a wherein support arm 166 drives rotation section 160 to rotate around third direction C to drive turning cylinder 168.In the present embodiment, described rotation section 160 roughly in square, it comprise parallel relatively connect side 1600 for a pair and be arranged on to connect between side 1600 and with is connected the vertical connected end face 1602 in side 1600.Described turning cylinder 168 is connected to described connection side 1600 respectively.Described objective table 162 is arranged on described end face 1602, and it rotates around the fourth direction D perpendicular to end face 1602.

Described cutter 18 is arranged on one second rotation motor 180 that moves along the 5th direction E.Described cutter 18 under the drive of the second rotation motor 180 while rotate an edge the 5th direction E around the 5th direction E to move to process the embryo material 2 that is placed on objective table 162.In the present embodiment, described cutter 18 is straight knife, such as: straight flange frotton, straight flange milling cutter etc.

During assembling, described first translation platform 12 is slidably arranged on described first slide rail 100 by the first chute 124.Described second translation platform 14 is slidably arranged on described second slide rail 126 by the second chute 144.Described turntable 16 is placed on the loading end 140 of described second translation platform 14.In the present embodiment, described first slide rail 100 and the second slide rail 126 all identical along the height of respective bearing of trend.So described turntable 16 can along orthogonal direction translational in same level under the driving of the first translation platform 12 and the second translation platform 14.

Carrying out adding man-hour, described embryo material 2 is fixed on objective table 162.The position of embryo material 2 in horizontal plane can be adjusted by described first translation platform 12 and the second translation platform 14, make embryo material 2 aim at cutter 18.Again by turntable 16 adjust embryo material 2 relative to cutter 18 towards, make cutter 18 smoothly can process the edge of Pei Cai 2 corner continuously, comprise polishing Pei Cai 2 corner outboard peripheries and processing outboard peripheries and principal plane between lead angle.

In the present embodiment, the material of described embryo material 2 is glass.Be understandable that, in the embodiment that other are alternative, the material of described embryo material 2 can also be metal or plastics.

Because described processing unit (plant) 1 can regulate the position relationship between embryo material 2 and cutter 18 along at least five directions, it is made to can be used for processing the embryo material 2 of various complicated shape, such as there is the erose embryo material 2 that on-plane surface combines with plane, and the outboard peripheries processed and lead angle transitions smooth.In addition, because described processing unit (plant) 1 can adjust the position of embryo material 2 relative to cutter 18 more all sidedly, make adopted cutter 18 to be comparatively simple straight knife, and do not need at the molding cutter changing various given shape according to the shape of embryo material 2.

Those skilled in the art will be appreciated that; above embodiment is only used to the present invention is described; and be not used as limitation of the invention; as long as within spirit of the present invention, the suitable change do above embodiment and change all drop within the scope of protection of present invention.

Claims (13)

1. A processing device, comprising a first translation platform that translates along a first direction, a second translation platform that translates along a second direction, a rotating platform and a tool, and the second translation platform is arranged on the first On the translational platform, the rotary platform is arranged on the second translational platform, the rotary platform includes a rotary part that rotates around the third direction and an object stage that is arranged on the rotary part and rotates around the fourth direction, and the tool moving along a fifth direction to process the blank placed on the stage, the first direction is not parallel to the second direction, and the third direction is not parallel to the fourth direction. 2. The processing device according to claim 1, further comprising a base, on which a pair of mutually parallel first slide rails extending along the first direction are arranged, and the first flat The moving table is slidably arranged on the first slide rail. 3. The processing device according to claim 2, wherein the heights of the first sliding rails extending along the first direction are consistent. 4. The processing device according to claim 2, wherein the first translation table includes a first surface and a second surface parallel to each other, and the first surface is set corresponding to the first slide rail There is a pair of first sliding slots parallel to each other, the first translation platform is slidably installed on the first sliding rail through the first sliding slots, and a pair of extending along the second direction is arranged on the second surface. The second slide rails are parallel to each other. 5. The processing device according to claim 4, wherein the heights of the second sliding rails extending along the second direction are consistent. 6. The processing device according to claim 4, wherein the second translation platform includes a bearing surface and a connecting surface parallel to each other, and a pair of mutual sliding rails are arranged on the connecting surface corresponding to the second sliding rail. A parallel second chute, through which the second translation table is slidably installed on the second slide rail, and the rotation table is placed on the bearing surface. 7. The processing device according to claim 1, wherein the turntable further comprises a base, a pair of support arms extending upwards from the base, a rotating shaft and a first rotating motor, and the rotating shaft moves along the The third direction is set and the opposite ends are respectively connected to the support arm in rotation, the rotating part is arranged on the rotating shaft, and the first rotating motor is arranged on the outside of one of the supporting arms to drive the rotating shaft to drive the rotating part to rotate Turn in the third direction. 8. The processing device according to claim 7, wherein the rotating part comprises a pair of parallel and opposite connecting sides and a top surface arranged between the connecting sides and vertically connected to the connecting sides, and the rotating shafts are respectively Connected to the connection side, the object stage is arranged on the top surface and rotates around a fourth direction perpendicular to the top surface. 9. The processing device according to claim 1, characterized in that: the cutter is arranged on a second rotating motor moving in the fifth direction, and the cutter is driven by the second rotating motor to rotate in the fifth direction. While rotating, it moves in the fifth direction to process the blank placed on the stage. 10. The processing device according to claim 1, wherein the cutter is a straight cutter. 11. The processing device according to claim 10, wherein the straight knife is selected from a straight-edged grinding rod or a straight-edged milling cutter. 12. The processing device of claim 1, wherein the first direction is perpendicular to the second direction. 13. The processing device according to claim 1, wherein the third direction is perpendicular to the fourth direction.