CN216181339U - Double-gantry machining production line - Google Patents

Abstract

The utility model discloses a double-gantry machining production line which comprises an automatic feeding labeling machine, a double-gantry machining center and a discharging device, wherein the automatic feeding labeling machine, the double-gantry machining center and the discharging device are sequentially arranged along the X-axis direction; wherein: the double-gantry machining center comprises a lathe bed and two gantries which are sequentially arranged along the X-axis direction; the portal frame comprises a cross beam and two cross beam bases connected to the bottoms of two ends of the cross beam in the Y-axis direction; the beam base of each portal frame is driven by the respective X-axis driving mechanism to move along the X-axis direction; the machine head is connected with a Y-axis driving mechanism, and the machine head of each portal frame is driven by the Y-axis driving mechanism to move along the Y-axis direction of the beam. So, set up two aircraft noses through two portal frames, be applicable to the big board processing, raise the efficiency, also can be used to the platelet processing, improve the processing commonality of production line.

Description

Double-gantry machining production line

Technical Field

The utility model relates to the technical field of wood board processing centers, in particular to a double-gantry processing production line.

Background

Along with the development of science and technology, wood working center is more and more general in the application of wood working field, and among the prior art, wood working center can accomplish the routing, vertical drilling, fluting process, with the help of wood working center, can conveniently process timber, can raise the efficiency. However, since a large board is processed in many places, the processing cycle is still long to complete the processing of the whole large board by sequentially processing the large board by the wood processing center.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a double gantry machining line, which has two machine heads arranged on two gantry frames, and is suitable for machining large plates, improving efficiency, and also suitable for machining small plates, and improving machining versatility of the production line.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a double gantry processing production line comprises an automatic feeding labeler, a double gantry processing center and a blanking device which are sequentially arranged along the X-axis direction; wherein:

the double-gantry machining center comprises a lathe bed and two gantries which are sequentially arranged along the X-axis direction; the portal frame comprises a cross beam and two cross beam bases connected to the bottoms of two ends of the cross beam in the Y-axis direction; the beam base of each portal frame is driven by the respective X-axis driving mechanism to move along the X-axis direction; the machine head is connected with a Y-axis driving mechanism, and the machine head of each portal frame is driven by the Y-axis driving mechanism to move along the Y-axis direction of the beam.

As a preferred scheme, the automatic feeding labeler comprises a feeding device and a printer arranged on the feeding device, and the bed body is provided with a vacuum device, a lubricating device and an air pressure device.

As a preferred scheme, the printer is connected with the switch, the switch is connected with industrial computer, controller respectively, the industrial computer is connected with the display, the controller is connected respectively in unloader, loading attachment, X axle actuating mechanism, Y axle actuating mechanism, gang drill device, vacuum device, lubricating arrangement and air pressure unit.

As a preferred scheme, the controller is connected with an electrical control cabinet, and the vacuum device, the lubricating device, the air pressure device, the gang drill device, the feeding device and the discharging device are respectively connected with the electrical control cabinet.

As a preferred scheme, the X-axis driving mechanism comprises a first gear and a first servo motor, the bed body is provided with an X-axis rack, the first gear is meshed with the X-axis rack, and the first servo motor drives the first gear to rotate and generates X-axis displacement along the X-axis rack, so that the gantry correspondingly displaces along the X-axis direction.

As a preferred scheme, a first X axial guide rail is arranged on the lathe bed, an X axial sliding block is arranged on the beam base, and the X axial sliding block is adapted to the first X axial guide rail and is arranged in a sliding mode along the first X axial guide rail.

As a preferable scheme, a feeding frame is connected between the automatic feeding labeling machine and a machine body of the double-gantry machining center, the feeding frame is provided with a second X axial guide rail arranged opposite to the first X axial guide rail, the feeding frame is detachably assembled at one end of the machine body in the X axis direction, and the X axial sliding block can be also adapted to the second X axial guide rail; the X-axis sliding block slides to the second X-axis guide rail along the first X-axis guide rail so as to move the two portal frames to the feeding frame.

Preferably, the Y-axis driving mechanism includes a second gear and a second servo motor, the cross beam is provided with a Y-axis rack, the second gear is engaged with the Y-axis rack, and the second servo motor drives the second gear to rotate and generate a displacement in the Y-axis direction along the Y-axis rack.

As a preferred scheme, be provided with Y axial guide rail on the crossbeam, the crossbeam base is provided with Y axial slider, Y axial slider adaptation is in Y axial guide rail in order to follow Y axial guide rail slidable setting.

As a preferable scheme, the Y-axis rack is disposed at the top of the cross beam, the Y-axis guide rail is disposed on the left side of the cross beam, and teeth of the Y-axis rack are disposed toward the right side, so that the second gear is engaged with the right side of the Y-axis rack.

Compared with the prior art, the large-plate processing machine has the obvious advantages and beneficial effects, and particularly, according to the technical scheme, the two machine heads are arranged through the two portal frames, so that the large-plate processing machine is suitable for large-plate processing, the efficiency is improved, the small-plate processing machine can also be used for small-plate processing, and the processing universality of a production line is improved.

Secondly, through the setting of controller, switch, industrial computer, electrical control cabinet, carry out unified management and control allotment with whole two longmen processing lines in control system (automatically controlled) aspect, especially control two aircraft noses of two portal frames better for two aircraft noses of two portal frames cooperate the work better.

And through designing lathe bed and pay-off frame into two modules alone, during packing transportation, can move two portal frames to the pay-off frame for the bigger lathe bed of relative dimension can satisfy transportation size specification requirement, simultaneously, two portal frames are carried and still can satisfy transportation size specification requirement on the pay-off frame that relative dimension is littleer, and during the installation, directly through the butt joint of first X axial guide, second X axial guide, move two portal frames to the lathe bed can, consequently, play the transportation of being convenient for, simple to operate's effect.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is another perspective view of an embodiment of the present invention;

FIG. 3 is a top view of an embodiment of the present invention;

FIG. 4 is a side view of an embodiment of the present invention;

FIG. 5 is a block diagram of an electronic control connection of an embodiment of the present invention;

FIG. 6 is a schematic view showing the two gantry frames after moving from the bed to the feeder frame and after detaching the feeder frame from the bed according to the embodiment of the present invention;

FIG. 7 is another angular view of the structure shown in FIG. 6;

fig. 8 is a partially enlarged view of fig. 6.

The attached drawings indicate the following:

automatic material loading labeller 10 loading attachment 11

Printer 12 double gantry machining center 20

Lathe bed 21X axial rack 211

First X axial guide 212 gantry 22

Beam 221Y axial rack 2211

Y-axis guide 2212 beam mount 222

X-axis slider 2221X-axis drive mechanism 23

Handpiece 24Y axial slide block 241

Y-axis driving mechanism 25 blanking device 30

The cradle 40 has a second X-axis guide 41.

Detailed Description

Referring to fig. 1 to 8, specific structures of the embodiments of the present invention are shown.

A double gantry processing production line comprises an automatic feeding labeling machine 10, a double gantry processing center 20 and a discharging device 30 which are sequentially arranged along the X-axis direction; wherein:

the double-gantry machining center 20 comprises a lathe bed 21 and two gantry frames 22 which are sequentially arranged along the X-axis direction; the gantry 22 comprises a beam 221 and two beam bases 222 connected to the bottoms of the two ends of the beam 221 in the Y-axis direction; the beam base 222 is connected with an X-axis driving mechanism 23, and the beam base 222 of each portal frame 22 is driven by the respective X-axis driving mechanism 23 to move along the X-axis direction; the cross beam 221 is provided with a machine head 24, the machine head 24 comprises a gang drill device, the machine head 24 is connected with a Y-axis driving mechanism 25, and the machine head 24 of each portal frame 22 is driven by the Y-axis driving mechanism 25 to move along the Y-axis direction of the cross beam 221.

The gang drill device can adopt conventional structure, usually, the gang drill device can set up on Z axle slide with moving about from top to bottom, the gang drill device is including gang drill bit, gang drill base, gang drill slide and gang drill lift cylinder etc. this gang drill bit sets up on the gang drill base, this gang drill base is fixed in on the gang drill slide, is provided with the gang drill slider on this gang drill slide, is provided with the gang drill guide rail on this Z axle slide, this gang drill slider slidable mounting is on the gang drill guide rail, this gang drill lift cylinder sets up on Z axle slide, this gang drill lift cylinder's piston rod and gang drill slide fixed connection and drive gang drill slide activity from top to bottom. The portal frame 22 can also be provided with an electric spindle, a dust suction device, a tool magazine mechanism and the like.

Referring to fig. 1 and 5, the automatic feeding labeling machine 10 includes a feeding device 11 and a printer 12 disposed on the feeding device 11, and the bed 21 is provided with a vacuum device, a lubricating device and an air pressure device. Printer 12 is connected with the switch, the switch is connected with industrial computer, controller respectively, the industrial computer is connected with the display, the controller is connected respectively in unloader 30, loading attachment 11, X axle actuating mechanism 23, Y axle actuating mechanism 25, gang drill device, vacuum device, lubricating arrangement and air pressure device. The controller is connected with an electrical control cabinet, and the vacuum device, the lubricating device, the air pressure device, the gang drill device, the feeding device 11 and the discharging device 30 are respectively connected with the electrical control cabinet. Through the setting of controller, switch, industrial computer, electrical control cabinet, unify the management and control allotment with whole two longmen processing lines in control system (automatically controlled) aspect, especially control two aircraft noses 24 of two portal frames 22 better for two aircraft noses 24 of two portal frames 22 cooperate the work better.

In this embodiment, the X-axis driving mechanism 23 includes a first gear and a first servo motor, the bed 21 is provided with an X-axis rack 211, the first gear is engaged with the X-axis rack 211, and the first servo motor drives the first gear to rotate and generate an X-axis displacement along the X-axis rack 211, so that the gantry 22 correspondingly displaces along the X-axis. The bed 21 is provided with a first X axial guide rail 212, the beam base 222 is provided with an X axial slider 2221, and the X axial slider 2221 is adapted to the first X axial guide rail 212 so as to be slidably disposed along the first X axial guide rail 212.

As shown in fig. 6 to 8, a feeding rack 40 is connected between the automatic feeding labeling machine 10 and the bed 21 of the double gantry machining center 20, the feeding rack 40 is provided with a second X axial guide rail 41 arranged opposite to the first X axial guide rail 212, the feeding rack 40 is detachably assembled at one end of the bed 21 in the X axis direction, and the X axial slider 2221 is further adapted to the second X axial guide rail 41; the X-axis slide 2221 slides along the first X-axis guide rail 212 onto the second X-axis guide rail 41 to move the two gantry frames 22 onto the feeding frame 40. Through designing lathe bed 21 and pay-off frame 40 into two modules alone, during packing transportation, can move two portal frames 22 to pay-off frame 40 on for the bigger lathe bed 21 of relative size can satisfy transportation size specification requirement, and simultaneously, two portal frames 22 attach and carry and still can satisfy transportation size specification requirement on the smaller pay-off frame 40 of relative size, and during the installation, assemble pay-off frame 40 and lathe bed 21 butt joint earlier, then directly through the butt joint of first X axial guide 212, second X axial guide 41, move two portal frames 22 to on the lathe bed 21 can.

As shown in fig. 8, the Y-axis driving mechanism 25 includes a second gear and a second servo motor, the cross beam 221 is provided with a Y-axis rack 2211, the second gear is engaged with the Y-axis rack 2211, and the second servo motor drives the second gear to rotate and generate a Y-axis displacement along the Y-axis rack 2211. The cross beam 221 is provided with a Y-axis guide rail 2212, the cross beam base 222 is provided with a Y-axis slider 241, and the Y-axis slider 241 is adapted to the Y-axis guide rail 2212 to be slidably arranged along the Y-axis guide rail 2212. The Y-axis rack 2211 is disposed on the top of the cross beam 221, the Y-axis guide rail 2212 is disposed on the right side of the cross beam 221, and the teeth of the Y-axis rack 2211 are disposed toward the left side, so that the second gear is engaged with the left side of the Y-axis rack 2211. Therefore, the displacement action of the machine head 24 along the Y-axis direction is more accurate and stable, the phenomena of shaking, deflection and the like are not easy to occur, and the processing precision is favorably improved.

The design of the utility model is mainly characterized in that the two machine heads 24 are arranged through the two portal frames 22, so that the utility model is suitable for processing large plates, improves the efficiency, can also be used for processing small plates and improves the processing universality of a production line.

Secondly, through the setting of controller, switch, industrial computer, electrical control cabinet, carry out unified management and control allotment with whole two longmen processing lines in control system (automatically controlled) aspect, especially control two aircraft noses 24 of two portal frames 22 better for two aircraft noses 24 of two portal frames 22 cooperate the work better.

And, through designing lathe bed 21 and pay-off frame 40 into two modules alone, during packing transportation, can move two portal frames 22 to pay-off frame 40 on for the bigger lathe bed 21 of relative size can satisfy transportation size specification requirement, simultaneously, two portal frames 22 carry still can satisfy transportation size specification requirement on the smaller pay-off frame 40 of relative size, and during the installation, directly through the butt joint of first X axial guide 212, second X axial guide 41, move two portal frames 22 to lathe bed 21 on can, consequently, play the effect of being convenient for transport, simple to operate.

In the description of the present invention, it should be noted that, for the orientation words, such as the terms "upper", "lower", "front", "rear", "left", "right", etc., indicating the orientation and positional relationship based on the orientation or positional relationship shown in the drawings, are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation and operation, and should not be construed as limiting the specific scope of the present invention.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (10)

1. The utility model provides a two longmen processing lines which characterized in that: comprises an automatic feeding labeler, a double-gantry machining center and a blanking device which are sequentially arranged along the X-axis direction; wherein:

the double-gantry machining center comprises a lathe bed and two gantries which are sequentially arranged along the X-axis direction; the portal frame comprises a cross beam and two cross beam bases connected to the bottoms of two ends of the cross beam in the Y-axis direction; the beam base of each portal frame is driven by the respective X-axis driving mechanism to move along the X-axis direction; the machine head is connected with a Y-axis driving mechanism, and the machine head of each portal frame is driven by the Y-axis driving mechanism to move along the Y-axis direction of the beam.

2. The double gantry manufacturing line of claim 1, characterized in that: the automatic feeding labeling machine comprises a feeding device and a printer arranged on the feeding device, and the machine body is provided with a vacuum device, a lubricating device and an air pressure device.

3. The double gantry manufacturing line of claim 2, characterized in that: the printer is connected with the switch, the switch is connected with industrial computer, controller respectively, the industrial computer is connected with the display, the controller is connected respectively in unloader, loading attachment, X axle actuating mechanism, Y axle actuating mechanism, gang drill device, vacuum apparatus, lubricating arrangement and air pressure device.

4. The double gantry manufacturing line of claim 3, characterized in that: the controller is connected with an electrical control cabinet, and the vacuum device, the lubricating device, the air pressure device, the gang drill device, the feeding device and the discharging device are respectively connected to the electrical control cabinet.

5. The double gantry manufacturing line of claim 1, characterized in that: the X-axis driving mechanism comprises a first gear and a first servo motor, the lathe bed is provided with an X-axis rack, the first gear is meshed with the X-axis rack, and the first servo motor drives the first gear to rotate and generates X-axis direction displacement along the X-axis rack, so that the portal frame correspondingly displaces along the X-axis direction.

6. The double gantry machining line according to claim 1 or 5, characterized in that: be provided with first X axial guide rail on the lathe bed, the crossbeam base is provided with X axial slider, X axial slider adaptation is in order to follow first X axial guide rail slidable setting in first X axial guide rail.

7. The double gantry manufacturing line of claim 6, wherein: the automatic feeding labeling machine is connected with a feeding frame between the double-gantry machining center and a machine body, the feeding frame is provided with a second X axial guide rail which is arranged opposite to the first X axial guide rail, the feeding frame is detachably assembled at one end of the machine body in the X axis direction, and the X axial slide block can be also adapted to the second X axial guide rail; the X-axis sliding block slides to the second X-axis guide rail along the first X-axis guide rail so as to move the two portal frames to the feeding frame.

8. The double gantry manufacturing line of claim 1, characterized in that: the Y-axis driving mechanism comprises a second gear and a second servo motor, the beam is provided with a Y-axis rack, the second gear is meshed with the Y-axis rack, and the second servo motor drives the second gear to rotate and generates displacement in the Y-axis direction along the Y-axis rack.

9. The double gantry manufacturing line of claim 8, wherein: the Y-axis guide rail is arranged on the beam, the Y-axis sliding block is arranged on the beam base, and the Y-axis sliding block is matched with the Y-axis guide rail and is arranged in a sliding mode along the Y-axis guide rail.

10. The double gantry manufacturing line of claim 9, wherein: the Y-axis rack is arranged at the top of the cross beam, the Y-axis guide rail is arranged on the right side of the cross beam, and teeth of the Y-axis rack face the left side, so that the second gear is meshed with the left side of the Y-axis rack.

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