CN202377909U - Computerized numerical control (CNC) multi-shaft processing machine platform - Google Patents

Abstract

A computerized numerical control (CNC) multi-shaft processing machine platform comprises a working platform, at least two moving platforms, a cutting device and at least two groups of drilling devices, wherein the center of the working platform is provided with a seat body, a transverse large spindle is arranged on the front side of the seat body, the back side of the seat body is provided with at least two small spindles, and the working platform is provided with at least two tracks crossing over the working platform. The moving platforms are respectively mounted on the tracks and perform reciprocating movement in a front-and-back mode on the working platform. The cutting device is arranged on the large spindle and is capable of cutting glass on the moving platforms. The drilling devices are respectively arranged on the small spindles and are capable of drilling the glass on the moving platforms. Therefore, by means of the cutting device and the drilling devices, time-multiplex cutting and processing operation of glass drilling can be performed simultaneously, and the purposes of high efficiency, labor-hour saving and low cost are achieved.

Description

CNC multi-shaft processing machine platform

Technical field

The utility model refers to a kind of CNC glass cover attrition process board especially relevant for a kind of CNC multi-shaft processing machine platform.

Background technology

General existing CNC glass grinding machine table; Like No. the 096215233rd, TaiWan, China patent application " lapping device of CNC glass processing line ", its exposure has: include positioning table, pan feeding dark zone, synchronously slice getting device, rotary cutting apparatus, pull out main members such as limit and discard transfer apparatus, rotary cutting apparatus; Wherein this rotary cutting apparatus roughly comprises: go up water suction cover, water suction cover is provided with the emery wheel import and export on this; Spindle drum, the top that is arranged at water suction cover is located, and the spindle drum bottom is provided with main shaft and handle of a knife thereof, is equiped with emery wheel on the handle of a knife, and this spindle drum is provided with a screw rod in the bottom, so that so as to about the adjustment main shaft; Following water suction cover, the below that is arranged at water suction cover is located, and following water suction cover inboard is provided with one and gives water pond, delivers to this to water pond, with the operation of spraying water through tank being supplied water to water motor of outside; Giving between water pond and the last water suction cover of following water suction cover then forms a working space; Rotary table top, rotary table top are provided with to inhale and blow the sucker table top of function, are able to adsorb carrying glass and drive glass and rotate.

Yet though this existing CNC glass grinding machine table can promote the production yield, but it only has the single mill device, in adding man-hour, can't divide the work processing grinding glass simultaneously for a long time, causes efficient poor, long processing time; And need the gradation procedure, and each procedure promptly need be carried on the lapping device of glass to this program, causes and expends man-hour, and cost increases, and during carrying glass, also breaks glass easily, and reliability is low.This shows that above-mentioned existing CNC glass grinding machine table still has many shortcomings, real non-one perfect design, and demand urgently improveing.

The utility model content

The drawbacks of being derived in view of above-mentioned existing CNC glass grinding machine table, this real inventor urgently thinks to improve innovation, and after concentrating on studies through taking great pains to attain one's goal for many years, finally successful a kind of CNC multi-shaft processing machine of research and development this part of completion platform.

One of the utility model purpose is to provide a kind of CNC multi-shaft processing machine platform, and energy efficiency is high, saving working hour and with low cost.

Time purpose of the utility model is to provide a kind of CNC multi-shaft processing machine platform, can divide the work processing grinding glass simultaneously for a long time, need not carry glass, and can not break glass, and reliability is high.

Can reach the CNC multi-shaft processing machine platform of above-mentioned utility model purpose, include: a workbench, at least two travelling carriages, a topping machanism and at least two group drilling equipments; Wherein, The nearly centre of this workbench is provided with a pedestal; Order is divided into a material feeding region and a discharge zone with the front end and the rear end of workbench, and this pedestal bottom central has the opening that runs through, and the front of the corresponding material feeding region of this pedestal is provided with a laterally big main shaft; Then be provided with at least two disjunct horizontal primary spindles on the back side of corresponding discharge zone, this workbench is provided with at least two and is arranged in parallel and across the track of material feeding region, discharge zone; Respectively this travelling carriage is installed in respectively on each track, moves on track by travelling carriage, make each travelling carriage can be respectively opening through pedestal, in forward and backward the moving back and forth of material feeding region, discharge zone of workbench; This topping machanism is installed on this big main shaft, moves on this big main shaft by this topping machanism, make this topping machanism can be in the material feeding region top left and right moving back and forth, and can be on the material feeding region glass on the travelling carriage being cut; Respectively this drilling equipment is installed in respectively on this primary spindle, moves back and forth on this primary spindle by this drilling equipment, makes this drilling equipment can be on the discharge zone glass on the travelling carriage being holed.

Wherein, respectively this travelling carriage receives the driving of one first drive unit, and can be on track forward and backward moving back and forth, this first drive unit is an electro-motor.

Wherein, this topping machanism receives the driving of one second drive unit, and can be on this big main shaft left and right moving back and forth, this second drive unit is an electro-motor.

Wherein, respectively this drilling equipment receives the driving of one the 3rd drive unit, and can be on this primary spindle left and right moving back and forth, the 3rd drive unit is an electro-motor.

The CNC multi-shaft processing machine platform of the utility model; In use, through material feeding region, discharge zone forward and backward move back and forth of each travelling carriage in workbench, and this topping machanism can be in regular turn cuts left and right side's on the material feeding region glass; Make this topping machanism, drilling equipment can make the cutting of dividing the work for a long time, the operations of boring glass simultaneously; Reach efficient height, saving working hour, with low cost and need not carry glass, and can not break glass, the purpose that reliability is high.

See also the detailed description and the accompanying drawing thereof of following relevant the utility model one preferred embodiment, can further understand the technology contents and the purpose effect thereof of the utility model.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further specified.

Fig. 1 is the stereo appearance figure of the utility model.

Fig. 2 is the front view of the utility model.

Fig. 3 is the side schematic view of the utility model.

Fig. 4 is the rearview of the utility model.

[main element symbol description]

Workbench 1 pedestal 11 material feeding regions 12 discharge zones 13

Opening 111 laterally big main shaft 14 horizontal primary spindles 15

Track 16 travelling carriages 2 first drive units 21

Topping machanism 3 second drive units 31 drilling equipments 4

The 3rd drive unit 41.

The specific embodiment

See also Fig. 1, shown in 2, a kind of CNC multi-shaft processing machine platform that the utility model provided, it mainly includes: a workbench 1, at least two travelling carriages 2, a topping machanism 3 and at least two group drilling equipments 4.

Wherein, See also shown in Fig. 1 to 4; This workbench 1 nearly centre is provided with a pedestal 11; Make this pedestal 11 that the front end and the rear end of workbench 1 are divided into a material feeding region 12 and a discharge zone 13, these pedestal 11 bottom central have the opening 111 that runs through, and the front of these pedestal 11 corresponding material feeding regions 12 is provided with a laterally big main shaft 14; Then be provided with at least two disjunct horizontal primary spindles 15 on the back side of corresponding discharge zone 13, this workbench 1 is provided with at least two and is arranged in parallel and across the track 16 of material feeding region 12, discharge zone 13.

And respectively this travelling carriage 2 is installed in respectively on each track 16, moves on track 16 by travelling carriage 2, make each travelling carriage 2 can be respectively opening 111 through pedestal 11, in material feeding region 12, discharge zone 13 forward and backward the moving back and forth of workbench 1.

This topping machanism 3 is installed on this big main shaft 14, moves on this big main shaft 14 by topping machanism 3, make this topping machanism 3 can be in material feeding region 12 tops left and right moving back and forth, and can be on the material feeding region 12 glass on the travelling carriage 2 being cut.

Respectively this drilling equipment 4 is installed in respectively on this primary spindle 15, moves back and forth on this primary spindle 15 by this drilling equipment 4, makes that respectively this drilling equipment 4 can be on the discharge zone 13 glass on the travelling carriage 2 being holed.

During use, with several glass to be processed on the card casket (not shown), send into the travelling carriage 2 on the material feeding region 12 in regular turn by a mechanical arm (not shown); In regular turn the glass on the left and right limit travelling carriage 2 is carried out cutting process (cutting required glass shape) through this topping machanism 3; This cutting process also comprises the burr that produced behind the glass cutting, carries out the edging and the chamfering of burr, removes with the burr that glass is produced when cutting; Then; The glass of accomplishing this cutting process is moved platform 2 more in regular turn and delivers to discharge zone 13, utilizes respectively that this drilling equipment 4 carries out drilling program (getting out the hole of several required forms), and this drilling program and comprise the burr that produced behind the glass drilling; Carry out the edging and the chamfering of burr; Burr so that glass is produced when holing are removed, and in regular turn discharge zone 13 are accomplished the glass of boring afterwards again by a discharging mechanical arm (not shown), send in regular turn in the water tank (not shown) of a finished product.

So; By material feeding region 12, discharge zone 13 forward and backward move back and forth of each travelling carriage 2 in workbench 1; And this topping machanism 3 can be in regular turn cuts left and right side's on the material feeding region 12 glass, makes this topping machanism 3, drilling equipment 4 can make the cutting of dividing the work for a long time, the operations of boring glass simultaneously, reaches efficient height, saving working hour, with low cost and need not carry glass; And can not break glass, usefulness that reliability is high and purpose.

In addition, respectively this travelling carriage 2 receives the driving of one first drive unit 21, and can be on track 16 forward and backward moving back and forth.

This first drive unit 21 can be an electro-motor.

This topping machanism 3 receives the driving of one second drive unit 31, and can be on this big main shaft 14 left and right moving back and forth.

This second drive unit 31 can be an electro-motor.

Respectively this drilling equipment 4 receives the driving of one the 3rd drive unit 41, and can be on this primary spindle 15 left and right moving back and forth.

The 3rd drive unit 41 can be an electro-motor.

The CNC multi-shaft processing machine platform that the utility model provided when comparing each other with aforementioned prior art, has more following advantage:

1. high, the saving working hour and with low cost of efficient.

2. can divide the work processing grinding glass simultaneously for a long time, need not carry glass, and can not break glass, reliability is high.

Above-listed detailed description is specifying to a possible embodiments of the utility model; But this embodiment is not the claim in order to restriction the utility model; Allly do not break away from the equivalence that the utility model skill spirit done and implement or change; For example: wait the equivalence embodiment of variation, all should be contained in the utility model protection domain.

Claims (7)

1. CNC multi-shaft processing machine platform, its characteristic comprises:

A workbench; Its nearly centre is provided with a pedestal; This pedestal is divided into material feeding region and discharge zone with the front end and the rear end of workbench, and this pedestal bottom central has an opening that runs through, and the front of the corresponding material feeding region of this pedestal is provided with a laterally big main shaft; Then be provided with at least two disjunct horizontal primary spindles on the back side of corresponding discharge zone, this workbench is provided with at least two and is arranged in parallel and across the track of this material feeding region, discharge zone;

At least two travelling carriages are installed in respectively on each track, can on track, move by this travelling carriage, make each travelling carriage can be respectively opening through pedestal, in forward and backward the moving back and forth of material feeding region, discharge zone of workbench;

A topping machanism is installed on this big main shaft, moves on this big main shaft by this topping machanism, makes this topping machanism can be in this left and right moving back and forth in material feeding region top, and can be in regular turn the glass on left and right side's travelling carriage being cut on this material feeding region;

At least two group drilling equipments are installed in respectively on this primary spindle, on this primary spindle and can move back and forth, make this drilling equipment can be on the discharge zone glass on the travelling carriage being holed by this drilling equipment.

2. CNC multi-shaft processing machine platform according to claim 1, its spy is being: respectively this travelling carriage receives the driving of first drive unit, and can be on track forward and backward moving back and forth.

3. CNC multi-shaft processing machine platform according to claim 2, its spy is being: this first drive unit is an electro-motor.

4. CNC multi-shaft processing machine platform according to claim 1, its spy is being: this topping machanism receives the driving of second drive unit, and can be on this big main shaft left and right moving back and forth.

5. CNC multi-shaft processing machine platform according to claim 4, its spy is being: this second drive unit is an electro-motor.

6. CNC multi-shaft processing machine platform according to claim 1, its spy is being: respectively this drilling equipment receives the driving of the 3rd drive unit, and can be on this primary spindle left and right moving back and forth.

7. CNC multi-shaft processing machine platform according to claim 6, its spy is being: the 3rd drive unit is an electro-motor.

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