CN210499509U - CNC (computer numerical control) engraving and milling machine with double X shafts and double Z shafts - Google Patents

Abstract

The utility model discloses a two Z axle CNC numerical control CNC engraving and milling machines of two Xs, including workstation, sucking disc, vacuum generator, longmen crossbeam and processing agency etc. The utility model discloses a processing agency can be provided with two or more according to the needs of production, every processing agency can remove under X that is connected with it to servo motor's drive, every processing agency can reciprocate under Z that is connected with it to servo motor's drive, when processing agency is provided with two or more, two or more processing agencies can process or independently process according to the needs of processing in step, it is stronger not only to operate the flexibility, it is more convenient to use, the design of a plurality of processing agencies can also improve its machining efficiency greatly, its holistic structural design has not only solved traditional cnc engraving and milling machine effectively because a plurality of processing agencies can only the synchronous operation and lead to its big problem of power consumption, it has still solved traditional cnc and milling machine effectively and has used inconvenient and the poor problem of operation flexibility.

Description

CNC (computer numerical control) engraving and milling machine with double X shafts and double Z shafts

Technical Field

The utility model relates to a two Z axle CNC CNC numerical control CNC engraving and milling machines of two Xs.

Background

The machining mechanism of the traditional engraving and milling machine is generally only provided with one, and only one workpiece can be machined at a time, so that the machining efficiency is low. Later, in order to improve the processing efficiency of the engraving and milling machine, the number of processing mechanisms is increased to two or more, but the two or more processing mechanisms can only carry out processing operation synchronously, and cannot be controlled and processed independently, so that the equipment has the problems of large energy consumption, poor operation flexibility and the like, and the engraving and milling machine is not convenient to popularize and use widely.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a two Z axle CNC CNC numerical control CNC engraving and milling machines of two X, its processing agency can be provided with two or more according to the needs of production, every processing agency can remove under X that is connected with it to servo motor's drive, every processing agency can reciprocate under Z that is connected with it to servo motor's drive, when processing agency is provided with two or more, two or more processing agencies can process or independently process according to the needs of processing in step, its operational flexibility is stronger, it is more convenient to use. The utility model discloses a realize through following technical scheme:

the utility model provides a two Z axle CNC CNC numerical control CNC engraving and milling machines of two X, including the base fuselage, be provided with a plurality of Y guide rails on the top surface of base fuselage, it is provided with the workstation to slide to the higher authority of guide rail to slide in a plurality of Y jointly, be provided with a plurality of sucking discs above the workstation, every sucking disc embeds there is vacuum generator, one side of every sucking disc lower part is provided with intake pipe interface and blast pipe interface respectively, and intake pipe interface and blast pipe interface are vertical arrangement, be provided with the longmen crossbeam above the base fuselage rear side, the front side of longmen crossbeam is provided with a plurality of transverse guide, it is provided with processing mechanism to slide from side to side in transverse guide's front side, processing mechanism is provided with two at least, two processing mechanism include first processing mechanism and set up the second processing mechanism on first processing mechanism. The compressed air inlet conveying channel is connected with the air inlet pipe interface, and the exhaust pipeline is connected with the exhaust pipe interface.

Preferably, the first processing mechanism comprises a first Z-direction sliding plate, a first X-direction lead screw is fixedly arranged in the middle of the back of the first Z-direction sliding plate, a first X-direction moving servo motor is arranged at one end of the first X-direction lead screw, a first Z-direction moving servo motor is arranged above the first Z-direction sliding plate, the first Z-direction moving servo motor and the first Z-direction sliding plate are connected with the first Z-direction lead screw, a first spindle is arranged on the front side of the lower portion of the first Z-direction sliding plate, and a first cutter is mounted at the lower end of the first spindle.

Preferably, the second processing mechanism comprises a second Z-direction sliding plate, a second X-direction screw rod is fixedly arranged in the middle of the back of the second Z-direction sliding plate, a second X-direction moving servo motor is arranged at one end of the second X-direction screw rod, a second Z-direction moving servo motor is arranged above the second Z-direction sliding plate, the second Z-direction moving servo motor and the second Z-direction sliding plate are connected with a second Z-direction screw rod, a second spindle is arranged on the front side of the lower portion of the second Z-direction sliding plate, and a second cutter is mounted at the lower end of the second spindle.

Preferably, the plurality of Y-direction guide rails are arranged longitudinally, a Y-direction screw rod is longitudinally arranged in the middle of the Y-direction guide rail below the middle of the bottom surface of the workbench, a support seat is arranged at the front end of the Y-direction screw rod, and a Y-direction moving servo motor is arranged at the rear end of the Y-direction screw rod.

Preferably, a touch control panel is arranged on one side of the gantry beam, a PLC (programmable logic controller) is installed in the touch control panel, the PLC is respectively connected and controlled with each processing mechanism and the Y-direction moving servo motor, the PLC can adopt but is not limited to a programmable controller with the brand of VIGOR/Fengwu and the goods number of 4586, and an operator can input various production parameters for controlling the operation of each part into the PLC through the touch control panel.

The utility model discloses a two Z axle CNC numerical control CNC engraving and milling machines of two Xs, including base fuselage, Y to guide rail, workstation, sucking disc, vacuum generator, inlet tube interface, exhaust pipe interface, longmen crossbeam, transverse guide and processing agency etc.. The processing mechanism of the utility model can be provided with two or more than two according to the production requirement, the workpieces to be processed (such as glass plates) are firstly placed on the suckers, a vacuum generator is arranged in each sucker, the vacuum generator and the suckers are matched for use, so that the suckers can firmly suck the workpieces to be processed placed on the suckers, when the Y-direction moving servo motor is started, the workbench can be pulled to move back and forth through the Y-direction lead screw, when the Y-direction moving servo motor is started, the workbench can be pulled to move backwards to be under each processing mechanism through the Y-direction lead screw, when the first X-direction moving servo motor in the first processing mechanism is started, the first Z-direction sliding plate can be pushed to move left and right through the first X-direction lead screw, and when the first Z-direction moving servo motor is started, the first Z-direction sliding plate can be pushed to move up and down through the first Z-direction lead screw, so that the first main shaft can move up and down along with the movement of, the first cutter can descend to the surface of a workpiece below the first cutter under the driving of the first main shaft for processing; similarly, when a second X-direction moving servo motor in the second machining mechanism is started, a second Z-direction sliding plate can be pushed to move left and right through a second X-direction lead screw, and when the second Z-direction moving servo motor is started, a second Z-direction sliding plate can be pushed to move up and down through a second Z-direction lead screw, so that a second spindle can move up and down along with the movement of the second Z-direction sliding plate, and a second cutter can descend to the surface of a workpiece below the second spindle to be machined under the driving of the second spindle; because each processing mechanism is independently controlled by the X-direction moving servo motor and the Z-direction moving servo motor which are connected with the processing mechanism, each processing mechanism can synchronously process or independently process according to the production requirement, the problem that the multiple processing mechanisms installed on the existing engraving and milling machine only can synchronously operate to cause large energy consumption of equipment is effectively solved, the operation flexibility is strong, and the use is more convenient; and because the first processing mechanism and the second processing mechanism can be respectively provided with a plurality of the suckers according to the production requirements, and the suckers are also provided with a plurality of the suckers, a plurality of first processing mechanisms and a plurality of second processing mechanisms can process a plurality of workpieces simultaneously, so that the processing efficiency can be greatly improved, and the practicability is high.

Drawings

For the purpose of illustration, the invention is described in detail with reference to the following preferred embodiments and the accompanying drawings.

Fig. 1 is the utility model discloses a relief map of two Z axle CNC CNC numerical control CNC engraving and milling machines of two X.

Fig. 2 is the utility model discloses a two Z axle CNC CNC numerical control CNC engraving and milling machines's of two X front view.

Fig. 3 is the utility model discloses a two Z axle CNC CNC numerical control CNC engraving and milling machines's of two X one of them sucking discs enlarged stereogram.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In the embodiment, referring to fig. 1 to 3, the double-X double-Z axis CNC CNC engraving and milling machine of the present invention comprises a base frame 1, a plurality of Y-oriented rails 2 are disposed on the top surface of the base frame 1, a workbench 3 is disposed on the Y-oriented rails 2 in a sliding manner, a plurality of suckers 4 are disposed on the workbench 3, each sucker 4 is internally provided with a vacuum generator, an air inlet pipe connector 6 and an air outlet pipe connector 7 are disposed on one side of the lower portion of each sucker 4 respectively, the air inlet pipe connector 6 and the air outlet pipe connector 7 are arranged in a vertical manner, a gantry beam 8 is disposed on the rear side of the base frame 1, a plurality of transverse guide rails 9 are disposed on the front side of the gantry beam 8, a processing mechanism is disposed on the front side of the transverse guide rails 9 in a sliding manner from side to side, the processing mechanism is provided with two or more, the two processing mechanisms include a first processing mechanism 11, and a second processing mechanism 12 disposed on the right side of the first processing mechanism 11.

In one embodiment, the first processing mechanism 11 includes a first Z-direction sliding plate 111, a first X-direction screw rod 112 is disposed in the middle of the back of the first Z-direction sliding plate 111, a first X-direction moving servo motor 113 is disposed at one end of the first X-direction screw rod 112, a first Z-direction moving servo motor 114 is disposed above the first Z-direction sliding plate 111, a first Z-direction screw rod 115 is connected to the first Z-direction sliding plate 111 and the first Z-direction moving servo motor 114, a first spindle 116 is disposed at the front side of the lower portion of the first Z-direction sliding plate 111, and a first tool 117 is mounted at the lower end of the first spindle 116.

In one embodiment, the second processing mechanism 12 includes a second Z-direction sliding plate 121, a second X-direction screw 122 is disposed in the middle of the back of the second Z-direction sliding plate 121, a second X-direction moving servo motor 123 is disposed at one end of the second X-direction screw 122, a second Z-direction moving servo motor 124 is disposed above the second Z-direction sliding plate 121, a second Z-direction screw 125 is connected to the second Z-direction moving servo motor 124 and the second Z-direction sliding plate 121, a second spindle 126 is disposed at the front side of the lower portion of the second Z-direction sliding plate 121, and a second tool 127 is mounted at the lower end of the second spindle 126.

In one embodiment, a plurality of Y-direction guide rails 2 are arranged longitudinally, a Y-direction screw 13 is longitudinally arranged in the middle of the Y-direction guide rail 2 below the middle of the bottom surface of the workbench 3, a support seat 14 is arranged at the front end of the Y-direction screw 13, and a Y-direction moving servo motor 15 is arranged at the rear end of the Y-direction screw 13.

In one embodiment, the operation process of the double-X double-Z axis CNC engraving and milling machine is as follows: the processing mechanism can be provided with two or more processing mechanisms according to the production requirement, workpieces to be processed (such as glass plates) are firstly placed on the suckers 4, a vacuum generator is arranged in each sucker 4, the vacuum generator and the suckers 4 are matched for use, so that the suckers 4 can firmly suck the workpieces to be processed placed on the suckers 4, when the Y-direction moving servo motor 15 is started, the workbench 3 can be pulled to move back and forth through the Y-direction lead screw 13, when the Y-direction moving servo motor 15 is started, the workbench 3 can be pulled to move back to the lower part of each processing mechanism through the Y-direction lead screw 13, when the first X-direction moving servo motor 113 in the second processing mechanism 12 is started, the first Z-direction sliding plate 111 can be pushed to move left and right through the first X-direction lead screw 112, so that the first Z-direction sliding plate 111 can be accurately moved to the right above the workpieces to be processed, and when the first Z-direction moving servo motor 114 is started, the first Z-direction moving servo motor 115 can push the first Z The first main shaft 116 can move up and down along with the movement of the first Z-direction sliding plate 111, and the first tool 117 can descend to the surface of the workpiece below the first main shaft 116 to be machined under the driving of the first main shaft 116; similarly, when the second X-direction moving servo motor 123 in the second processing mechanism 12 is started, the second Z-direction sliding plate 121 can be pushed to move left and right through the second X-direction lead screw 122, so that the second Z-direction sliding plate 121 can be accurately moved to the position right above the workpiece to be processed, when the second Z-direction moving servo motor 124 is started, the second Z-direction sliding plate 121 can be pushed to move up and down through the second Z-direction lead screw 125, so that the second spindle 126 can move up and down along with the movement of the second Z-direction sliding plate 121, and the second tool 127 can be driven by the second spindle 126 to descend to the surface of the workpiece located below the second spindle 126 for processing; because each processing mechanism is independently controlled by the X-direction moving servo motor and the Z-direction moving servo motor which are connected with the processing mechanism, each processing mechanism can synchronously process or independently process according to the production requirement, the problem that the existing engraving and milling machine has large energy consumption due to the fact that a plurality of processing mechanisms installed on the engraving and milling machine cannot independently operate is effectively solved, the operation is more flexible, and the use is more convenient; and because the first processing mechanism 11 and the second processing mechanism 12 can be respectively provided with a plurality of according to the production needs, and the sucking disc 4 is also provided with a plurality of, make a plurality of first processing mechanisms 11 and a plurality of second processing mechanisms 12 can process a plurality of work pieces respectively simultaneously, or a plurality of first processing mechanisms 11 and a plurality of second processing mechanisms 12 process the same work piece simultaneously, and then realize improving its machining efficiency greatly, the practicality is strong.

The utility model discloses a two Z axle CNC numerical control CNC engraving and milling machines of two Xs, including base fuselage, Y to guide rail, workstation, sucking disc, vacuum generator, inlet tube interface, exhaust pipe interface, longmen crossbeam, transverse guide and processing agency etc.. The processing mechanisms of the utility model can be provided with two or more than two according to the production requirements, each processing mechanism can move left and right under the drive of the X-direction servo motor connected with the processing mechanism, each processing mechanism can move up and down under the drive of the Z-direction servo motor connected with the processing mechanism, when two or more processing mechanisms are arranged, the two or more processing mechanisms can synchronously process or independently process according to the processing requirements, it not only has stronger operation flexibility and more convenient use, but also can synchronously process a plurality of workpieces by the combined design of a plurality of processing mechanisms and a plurality of suckers so as to greatly improve the processing efficiency, the integral structure design not only effectively solves the problem of large energy consumption of the traditional engraving and milling machine because a plurality of processing mechanisms can only operate synchronously, it has still solved traditional cnc engraving and milling machine effectively and has used inconvenient and poor problem of operational flexibility.

The above-mentioned embodiment is only an example of the present invention, and is not intended to limit the scope of the present invention, and all technical solutions that are the same as or equivalent to the content of the claims of the present invention should be included in the scope of the present invention.

Claims (4)

1. The utility model provides a two Z axle CNC CNC numerical control CNC engraving and milling machines of two X which characterized in that: the automatic vacuum forming machine comprises a base body, wherein a plurality of Y-direction guide rails are arranged on the top surface of the base body, a workbench is arranged on the Y-direction guide rails in a sliding mode, a plurality of suckers are arranged on the workbench, a vacuum generator is arranged in each sucker, an air inlet pipe interface and an exhaust pipe interface are respectively arranged on one side of the lower portion of each sucker, the air inlet pipe interfaces and the exhaust pipe interfaces are arranged vertically, a gantry beam is arranged on the rear side of the base body, a plurality of transverse guide rails are arranged on the front side of the gantry beam, machining mechanisms are arranged on the front sides of the transverse guide rails in a sliding mode and comprise at least two machining mechanisms, and the two machining mechanisms comprise a first machining mechanism and a second machining mechanism arranged on the right side of the first machining.

2. The double-X double-Z-axis CNC engraving and milling machine of claim 1, wherein: the first processing mechanism comprises a first Z-direction sliding plate, a first X-direction lead screw is arranged in the middle of the back of the first Z-direction sliding plate, a first X-direction moving servo motor is arranged at one end of the first X-direction lead screw, a first Z-direction moving servo motor is arranged above the first Z-direction sliding plate, the first Z-direction moving servo motor and the first Z-direction sliding plate are connected with a first Z-direction lead screw, a first main shaft is arranged on the front side of the lower portion of the first Z-direction sliding plate, and a first cutter is installed at the lower end of the first main shaft.

3. The double-X double-Z-axis CNC engraving and milling machine of claim 1, wherein: the second processing mechanism comprises a second Z-direction sliding plate, a second X-direction lead screw is arranged in the middle of the back of the second Z-direction sliding plate, a second X-direction moving servo motor is arranged at one end of the second X-direction lead screw, a second Z-direction moving servo motor is arranged above the second Z-direction sliding plate, the second Z-direction moving servo motor and the second Z-direction sliding plate are connected with a second Z-direction lead screw, a second main shaft is arranged on the front side of the lower portion of the second Z-direction sliding plate, and a second cutter is mounted at the lower end of the second main shaft.

4. The double-X double-Z-axis CNC engraving and milling machine of claim 1, wherein: the Y-direction guide rails are longitudinally arranged, a Y-direction screw rod is longitudinally arranged in the middle of the Y-direction guide rails below the middle of the bottom surface of the workbench, a supporting seat is arranged at the front end of the Y-direction screw rod, and a Y-direction moving servo motor is arranged at the rear end of the Y-direction screw rod.

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