CN211028155U

CN211028155U - Automatic drilling machine for aluminum template

Info

Publication number: CN211028155U
Application number: CN201921088362.5U
Authority: CN
Inventors: 林诗云; 妙伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-07-12
Filing date: 2019-07-12
Publication date: 2020-07-17
Anticipated expiration: 2029-07-12

Abstract

The utility model discloses an aluminum mould board automatic drilling machine relates to aluminum mould board processing equipment field, be provided with the workstation in the middle of the lathe bed, the crossbeam is installed through the second mobile system in the lathe bed upper end, a plurality of plankers, every are installed through first mobile system to the crossbeam front end install the unit head on the planker, the workstation lower extreme is fixed with album bits groove, workstation one side is provided with the control cabinet, the control cabinet with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, the unit head passes through lift feeding system and installs on the planker, the utility model discloses need not the manual work and rule, beat when punching, use P L C digital control system, only need set for set the hole site, can automatic processing, whole drilling process need not manual intervention, and many aircraft noses drill simultaneously, have promoted production efficiency greatly.

Description

Automatic drilling machine for aluminum template

Technical Field

The utility model relates to an aluminum mould board processing equipment field especially relates to an aluminum mould board automatic drilling machine.

Background

Aluminum alloy template for building. The new generation of template system appears after the wood template and the steel template, greatly improves the construction efficiency of the building construction engineering, and saves a lot of building materials and manual arrangement. However, in the actual production process of the aluminum template, the manual drilling mode is adopted at present.

The following defects exist in the process of manually punching a tension screw rod hole:

1) the method needs to firstly scribe and dot on a template and determine the drilling position

2) Only a single hole site can be processed, and the production efficiency is low

3) The drilling precision is not consistent, the hole wall is not smooth, burrs are generated and the like

4) The consumption of electric hand drill and drill bit is huge

5) In the processing process, only a single block can be processed, and the flow production cannot be realized

The manual punching of the slotted hole has the following defects:

1) although pre-scribing and dotting are not required, the number of drilled holes on an average single standard template is about 28, so that the production efficiency is greatly limited

2) Fast abrasion of drill bit

3) After long-time work, workers are easy to fatigue.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aluminum mould board automatic drilling machine.

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

the utility model provides an aluminum mould board automatic drilling machine, includes the lathe bed, be provided with the workstation in the middle of the lathe bed, the crossbeam is installed through second mobile system in the lathe bed upper end, a plurality of plankers, every are installed through first mobile system to the crossbeam front end install the unit head on the planker, the workstation lower extreme is fixed with album bits groove, workstation one side is provided with the control cabinet, the control cabinet with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, the unit head passes through lift feed system and installs on the planker.

Furthermore, the second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail and a second sliding block, the second guide rail is installed at the upper end of the lathe bed, the second sliding block is fixed at the lower end of the cross beam, and the second sliding block is installed on the second guide rail.

Further, the second moving system comprises a gear, a rack and a first motor, the rack is installed at the upper end of the lathe bed, the first motor is installed on the cross beam, the output end of the first motor is fixedly connected with the gear, and the gear is meshed with the rack.

Furthermore, the first moving system comprises a first guide rail and a first sliding block, the first guide rail is fixed at the front end of the cross beam, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage, and the console can independently control the movement of each carriage.

Furthermore, a slide rail is fixed at the lower end of the scrap collecting groove on the lathe bed, and a sieve plate is arranged in the slide rail in a sliding mode.

Furthermore, a handle is fixed at the tail end of the sieve plate.

Furthermore, a supporting plate is fixed on the lathe bed, the supporting plate is fixed below the sieve plate, and a material collecting box is arranged between the sieve plate and the supporting plate.

Furthermore, a lifting feeding system of the power head is driven by hydraulic pressure or gas-liquid mixing.

Furthermore, the unit head includes second motor and drill bit, second motor lower extreme output shaft has set up the pivot, the pivot has set up the drill bit through the clamping piece connection, the clamping piece passes through the adapter sleeve to be fixed on the planker.

Furthermore, a cutting fluid atomization device is arranged on the dragging plate and comprises a liquid pump and an atomization nozzle, and the atomization nozzle is arranged towards the lower end of the drill bit.

Furthermore, a positioning baffle plate for determining the placing position of the workpiece is respectively arranged at the left side and the rear side of the workbench.

The utility model discloses have following useful part:

1) manual marking and dotting are not needed, the P L C digital control system is used, only hole positions are set, automatic machining can be realized, and manual intervention is not needed in the whole drilling process;

2) the multiple machine heads drill holes simultaneously, so that the production efficiency is greatly improved;

3) a perfect power protection mechanism is adopted to prevent the motor from being burnt down due to the sticking of a drill bit in the drilling process;

4) before and during drilling, atomized cutting fluid is continuously sprayed out through the nozzle to lubricate and cool the drill bit, so that the service life of the drill bit is greatly prolonged;

5) a step-type drill can be used, and the drilling process is changed into the reaming process, so that the drilling efficiency is further improved;

6) the numerical control U-shaped drill bit can be used, and the drilling quality can still be ensured under the condition of high feeding speed in an internal cooling mode. After the drill bit is worn, only the follow-up cutter blade is needed, so that the production cost can be greatly saved;

7) when a plurality of machine heads are used for drilling, the machine heads are independently controllable, and the fault of a single machine head does not influence the work of other machine heads.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

fig. 2 is a left side view of the structure of fig. 1 according to the present invention;

fig. 3 is a schematic top view of the structure of fig. 1 according to the present invention.

In the figure: the device comprises a lathe bed 1, a workbench 2, a crossbeam 3, a carriage 4, a first guide rail 5, a power head 6, a second guide rail 7, a gear 8, a rack 9, a first motor 10, a chip collecting groove 11, a slide rail 12, a sieve plate 13, a handle 14, a control console 15, a support plate 16 and a material collecting box 17.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-3, an aluminum mould plate automatic drilling machine, includes lathe bed 1, be provided with workstation 2 in the middle of the lathe bed 1, crossbeam 3 is installed through the second mobile system to the upper end of

lathe bed

1, 3 front ends of crossbeam have a plurality of plankers 4 through first mobile system, every install unit head 6 on the

planker

4, 2 lower extremes of workstation are fixed with

collection bits groove

11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system.

Example 2:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with

collection bits groove

11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7.

Example 3:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with

collection bits groove

11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9.

Example 4:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with

collection bits groove

11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4.

Example 5:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with

collection bits groove

11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13.

Example 6:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with collection bits groove 11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13. A supporting plate 16 is fixed on the lathe bed 1, the supporting plate 16 is fixed below the sieve plate 13, and a material collecting box 17 is arranged between the sieve plate 13 and the supporting plate 16.

Example 7:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with collection bits groove 11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13. A supporting plate 16 is fixed on the lathe bed 1, the supporting plate 16 is fixed below the sieve plate 13, and a material collecting box 17 is arranged between the sieve plate 13 and the supporting plate 16. And the lifting feed system of the power head 6 is driven by hydraulic pressure or gas-liquid mixture.

Example 8:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with collection bits groove 11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13. A supporting plate 16 is fixed on the lathe bed 1, the supporting plate 16 is fixed below the sieve plate 13, and a material collecting box 17 is arranged between the sieve plate 13 and the supporting plate 16. And the lifting feed system of the power head 6 is driven by hydraulic pressure or gas-liquid mixture. The power head 6 comprises a second motor and a drill bit, an output shaft at the lower end of the second motor is connected with a rotating shaft, the rotating shaft is connected with the drill bit through a clamping piece, and the clamping piece is fixed on the carriage 4 through a connecting sleeve

Example 9:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with collection bits groove 11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13. A supporting plate 16 is fixed on the lathe bed 1, the supporting plate 16 is fixed below the sieve plate 13, and a material collecting box 17 is arranged between the sieve plate 13 and the supporting plate 16. And the lifting feed system of the power head 6 is driven by hydraulic pressure or gas-liquid mixture. The power head 6 comprises a second motor and a drill bit, an output shaft at the lower end of the second motor is connected with a rotating shaft, the rotating shaft is connected with the drill bit through a clamping piece, and the clamping piece is fixed on the carriage 4 through a connecting sleeve. The cutting fluid atomizing device is arranged on the dragging plate 4 and comprises a liquid pump and an atomizing nozzle, and the atomizing nozzle is installed towards the lower end of the drill bit.

Example 10:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with collection bits groove 11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The second moving system comprises a gear 8, a rack 9 and a first motor 10, the rack 9 is installed at the upper end of the lathe bed 1, the first motor 10 is installed on the cross beam 3, the output end of the first motor 10 is fixedly connected with the gear 8, and the gear 8 is meshed with the rack 9. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13. A supporting plate 16 is fixed on the lathe bed 1, the supporting plate 16 is fixed below the sieve plate 13, and a material collecting box 17 is arranged between the sieve plate 13 and the supporting plate 16. And the lifting feed system of the power head 6 is driven by gas-liquid mixing. The power head 6 comprises a second motor and a drill bit, an output shaft at the lower end of the second motor is connected with a rotating shaft, the rotating shaft is connected with the drill bit through a clamping piece, and the clamping piece is fixed on the carriage 4 through a connecting sleeve. The cutting fluid atomizing device is arranged on the dragging plate 4 and comprises a liquid pump and an atomizing nozzle, and the atomizing nozzle is installed towards the lower end of the drill bit. And a positioning baffle plate for determining the placing position of the workpiece is respectively arranged at the left side and the rear side of the workbench 2.

The drilling machine comprises a machine body, a plurality of power heads 6 (not limited to 14 power heads shown in the figure) are used for simultaneously drilling, the single power head 6 can be independently operated and controlled through a control console 15, a cross beam 3 drives a gear 8 to rotate through second motors of second moving systems on two sides of the machine body 1, a second sliding block below the cross beam 3 moves on a second guide rail 7 in the front-back direction through the engagement of the gear 8 and a rack 9, the power head 6 fixed on a dragging plate 4 can move in the left-right direction through a first guide rail 5 and a first sliding block of the first moving system on the cross beam 3, a cutting fluid atomizing device is arranged on the dragging plate 4 and provides lubricating and cooling effects for a drill bit through a liquid pump and an atomizing nozzle, a chip collecting groove 11 is arranged on a support plate 16 below the workbench 2 and is used for collecting aluminum chips generated in the drilling process, a sieve plate 13 above the chip collecting groove 11 is used for primarily separating the generated large aluminum chips and powdery aluminum chips, positioning baffles are respectively arranged on the left side and the rear side of the workbench 2 and are used for determining the placing position of a workpiece, a lifting system of the power heads 6 is driven by a hybrid driving system, and.

① inputs transverse and longitudinal hole position distance, size and quantity through a

control console

15, ② places workpieces, ③ a power head 6 of a machine tool is transversely adjusted, then a beam 3 longitudinally moves to a drilling position, a material pressing cylinder on a ④ workbench 2 compresses the workpieces, the power head 6 selected by the ⑤ control console 15 starts a gas-liquid mixing driven lifting feeding system and rapidly feeds the workpiece to a position about 3mm above the surface of the workpiece, a second motor of the power head 6 drives a drill bit to rotate, the lifting feeding system continuously moves downwards, the feeding speed is converted into a cutting feeding speed, the aluminum template is drilled through the drill bit, ⑥ after drilling is finished, the power head 6 rapidly returns through the lifting feeding system and stops the second motor, an ⑦ material pressing cylinder lifts and feeds materials, and the ⑧ beam 3 moves backwards to an initial position (or does not move) to finish the whole drilling process.

Example 11:

lathe bed

planker

4, 2 lower extremes of workstation are fixed with collection bits groove 11, 2 one side of workstation are provided with control cabinet 15, control cabinet 15 with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, unit head 6 is installed on planker 4 through lift feed system. The second moving system comprises a second linear guide rail, the second linear guide rail comprises a second guide rail 7 and a second sliding block, the second guide rail 7 is installed at the upper end of the lathe bed 1, the second sliding block is fixed at the lower end of the cross beam 3, and the second sliding block is installed on the second guide rail 7. The first moving system comprises a first guide rail 5 and a first sliding block, the first guide rail 5 is fixed at the front end of the cross beam 3, the first sliding block is installed on the first guide rail, the first sliding block is fixed at the rear end of each carriage 4, and the control console 15 can independently control the movement of each carriage 4. The lower end of a chip collecting groove 11 on the lathe bed 1 is fixed with a slide rail 12, and a sieve plate 13 is arranged in the slide rail 12 in a sliding mode. A handle 14 is fixed at the end of the sieve plate 13. A supporting plate 16 is fixed on the lathe bed 1, the supporting plate 16 is fixed below the sieve plate 13, and a material collecting box 17 is arranged between the sieve plate 13 and the supporting plate 16. And the lifting feeding system of the power head 6 is hydraulically driven. The power head 6 comprises a second motor and a drill bit, an output shaft at the lower end of the second motor is connected with a rotating shaft, the rotating shaft is connected with the drill bit through a clamping piece, and the clamping piece is fixed on the carriage 4 through a connecting sleeve. The cutting fluid atomizing device is arranged on the dragging plate 4 and comprises a liquid pump and an atomizing nozzle, and the atomizing nozzle is installed towards the lower end of the drill bit. And a positioning baffle plate for determining the placing position of the workpiece is respectively arranged at the left side and the rear side of the workbench 2.

The drilling machine comprises a machine body, a power head, a plurality of power heads 6 (not limited to 14 as shown in the figure) and a control console 15, wherein the power heads 6 can be independently operated and controlled by the control console 15, a cross beam 3 can move in the front-back direction through a second guide rail 7 and a second sliding block of a second linear guide rail of a second moving system on two sides of the machine body 1, the power heads 6 fixed on a dragging plate 4 can move in the left-right direction through a first guide rail 5 and a first sliding block of a first moving system on the cross beam 3, a cutting fluid atomizing device is arranged on the dragging plate 4 and provides lubricating and cooling effects for a drill bit through a liquid pump and an atomizing nozzle, a chip collecting groove 11 is arranged on a supporting plate 16 below a working table 2 and is used for collecting aluminum chips generated in the drilling process, a sieve plate 13 above the chip collecting groove 11 is used for primarily separating the generated large aluminum chips and powdery aluminum chips, a positioning baffle plate is respectively arranged on the left side and the rear side of the working table 2 and is used for determining the placing positions of workpieces, a lifting feed system of the power heads 6;

control console

15, ② places workpieces, ③ a power head 6 of a machine tool is transversely adjusted, then a beam 3 longitudinally moves to a drilling position, a material pressing cylinder on a ④ workbench 2 compresses the workpieces, the power head 6 selected by the ⑤ control console 15 starts a hydraulic driving lifting feed system and quickly feeds the workpiece to a position about 3mm above the surface of the workpiece, a second motor of the power head 6 drives a drill bit to rotate, the lifting feed system continuously moves downwards, the feed speed is converted into cutting feed speed, the aluminum template is drilled through the drill bit, ⑥ after drilling is finished, the power head 6 quickly returns through the lifting feed system and stops the second motor, an ⑦ material pressing cylinder lifts and feeds materials, and the ⑧ beam 3 moves backwards to an initial position (or not) to finish the whole drilling process.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an aluminum mould board automatic drilling machine, its characterized in that, includes the lathe bed, be provided with the workstation in the middle of the lathe bed, the crossbeam is installed through second mobile system in the lathe bed upper end, a plurality of plankers are installed through first mobile system to the crossbeam front end, every install the unit head on the planker, the workstation lower extreme is fixed with album bits groove, workstation one side is provided with the control cabinet, the control cabinet with first mobile system, second mobile system electric connection, first mobile system with second mobile system mutually perpendicular sets up, the unit head passes through lift feeding system and installs on the planker.

2. The automatic drilling machine for aluminum formworks according to claim 1, wherein the second moving system comprises a second linear guide, the second linear guide comprises a second guide and a second slide, the second guide is mounted at the upper end of the machine bed, the second slide is fixed at the lower end of the cross beam, and the second slide is mounted on the second guide.

3. The automatic drilling machine for the aluminum template as claimed in claim 2, wherein the second moving system comprises a gear, a rack and a first motor, the rack is mounted at the upper end of the lathe bed, the first motor is mounted on the cross beam, the output end of the first motor is fixedly connected with the gear, and the gear is meshed with the rack.

4. The automatic drilling machine for aluminum formworks as claimed in claim 1, wherein the first moving system comprises a first guide rail and a first slide block, the first guide rail is fixed at the front end of the cross beam, the first slide block is mounted on the first guide rail, a first slide block is fixed at the rear end of each carriage, and the control console can independently control the movement of each carriage.

5. The automatic drilling machine for the aluminum template as claimed in claim 1, wherein a slide rail is fixed at the lower end of the chip collecting groove on the lathe bed, and a sieve plate is slidably mounted in the slide rail.

6. The automatic drilling machine for aluminum formworks as claimed in claim 5, wherein a handle is fixed to an end of the screen plate.

7. The automatic drilling machine for the aluminum template as claimed in claim 1, wherein a support plate is fixed on the lathe bed, the support plate is fixed below the sieve plate, and a material collecting box is arranged between the sieve plate and the support plate.

8. The automatic aluminum template drilling machine as claimed in claim 1, wherein the lifting and feeding system of the power head is a hydraulic or gas-liquid hybrid drive.

9. The automatic drilling machine for the aluminum template as claimed in claim 1, wherein the power head comprises a second motor and a drill bit, an output shaft at the lower end of the second motor is connected with a rotating shaft, the rotating shaft is connected with the drill bit through a clamping member, and the clamping member is fixed on the dragging plate through a connecting sleeve.

10. The automatic drilling machine for aluminum formworks according to claim 9, wherein the carriage is provided with a cutting fluid atomizing device, the cutting fluid atomizing device comprises a liquid pump and an atomizing nozzle, and the atomizing nozzle is installed to face the lower end of the drill bit.