CN219649298U - Special machine for drilling and chamfering tooth row of die cutting machine - Google Patents

Abstract

A special machine for drilling and chamfering tooth rows of a die cutting machine is characterized in that four longitudinal guide rails are transversely arranged on a plane workbench, a sliding tool plate is arranged on the longitudinal guide rails, a servo motor is arranged in the middle of the rear lower edge of the sliding tool plate, the servo motor is fixed on the workbench, five workpiece cushion blocks are transversely arranged on the sliding tool plate, four front positioning blocks are transversely arranged in front of the sliding tool plate, a left vertical jacking cylinder and a right vertical jacking cylinder are arranged behind the sliding tool plate, side positioning blocks are respectively arranged on the left side and the right side of the sliding tool plate, guide hole plate cylinders arranged on cylinder rods of the left guide hole plate and the right guide hole plate are arranged between the upper ends of the cylinder rods of the left guide hole plate cylinder and the right guide hole plate cylinder; two groups of drilling machine heads are arranged on the left and right sides of the front side of the workbench, multi-shaft devices which extend backwards are arranged on the two groups of drilling machine heads, and the multi-shaft devices are positioned above the hole guide plate. The novel die cutting machine solves the problem of low efficiency of processing the die cutting machine row drill holes of a common drilling machine, and is very suitable for the die cutting machine row drill holes.

Description

Special machine for drilling and chamfering tooth row of die cutting machine

Technical Field

The utility model relates to the field of drilling machine tool equipment, in particular to a special machine for drilling and chamfering of a die cutting machine tooth row.

Background

Sixty assembly small holes are formed in the die cutting machine tooth row, and the die cutting machine tooth row can be completed by drilling and tapping for many times by using a common drilling machine, and has the defects of labor and time consumption and extremely low working efficiency.

Disclosure of Invention

The utility model provides a special machine for drilling holes on a die cutting machine tooth row by one-time assembly and twice completion for solving the problem of low efficiency of machining the die cutting machine tooth row by using a common drilling machine.

The technical scheme of the utility model is that the special machine for drilling and chamfering the tooth row of the die cutting machine is characterized in that four longitudinal guide rails are transversely arranged on a plane workbench, a sliding tool plate is arranged on the longitudinal guide rails, a servo motor is arranged in the middle of the rear lower edge of the sliding tool plate, the servo motor is fixed on the workbench, five workpiece cushion blocks are transversely arranged on the sliding tool plate, four front positioning blocks are transversely arranged on the front edge of the sliding tool plate, a left vertical jacking cylinder and a right vertical jacking cylinder are arranged on the rear edge of the sliding tool plate, side positioning blocks are respectively arranged on the left side and the right side of the sliding tool plate, guide hole plate cylinders arranged on cylinder rods of the left guide hole plate and the right guide hole plate are arranged between the upper ends of the cylinder rods of the left guide hole plate and the right guide hole plate;

two groups of drilling machine heads are arranged on the left and right sides of the front side of the workbench, multi-shaft devices which extend backwards are arranged on the two groups of drilling machine heads, and the multi-shaft devices are positioned above the hole guide plate.

When the workpiece positioning device works, a workpiece is placed on a workpiece cushion block on a sliding tooling plate, a jacking cylinder is started to push the workpiece forward to lean against the rear of a front positioning block, and the left side and the right side of the workpiece are limited by side positioning blocks; and starting the guide hole plate cylinder, pulling the guide hole plate to move downwards and pressing the guide hole plate cylinder onto the workpiece.

And starting the drilling machine head to drive the multi-axis device to work, completing the drilling of the first batch of small holes of the workpiece through the matching of the guide hole plates, and directly chamfering the drilled hole openings by the composite drill bit.

After the primary drilling is completed, the drilling machine head is reset, the multi-axis device is driven to withdraw, the servo motor is started, the sliding tooling plate is pushed to move forwards along the longitudinal guide rail to a given value to stop, the drilling machine head is started again, the multi-axis device is driven to work downwards, the drilling of the second batch of small holes of the workpiece is completed, and the hole opening of the drilling is chamfered by the composite drill bit.

After the secondary drilling is completed, the drilling machine head is reset, the multi-shaft device is driven to withdraw, the servo motor is started, the sliding tooling plate is pulled to move backwards for resetting, the guide hole plate air cylinder is started to loosen the guide hole plate, and the jacking air cylinder acts to loosen the workpiece to be taken out.

The technical effect of the utility model is that by adopting the technical scheme, one-time workpiece clamping can be realized, and the drilling and chamfering of sixty small holes on the die cutting machine tooth row can be completed twice through the adjustment of the servo motor (because the distance between the small holes is too small, the multi-axis machine drill bit density is limited, and the one-time completion is impossible), so that the working efficiency is greatly improved.

Drawings

Fig. 1 is a front view of the structure of the present utility model.

In the figure, a workbench 1, a longitudinal guide rail 2, a sliding tooling plate 3, a jacking cylinder 4, a workpiece cushion block 5, a servo motor 6, a front positioning block 7, a side positioning block 8, a guide hole plate cylinder 9, a guide hole plate 10, a multi-axis device 11 and a drilling machine head 12.

Description of the embodiments

As shown in the figure, four longitudinal guide rails 2 are transversely arranged on a plane workbench 1, a sliding tooling plate 3 is arranged on the longitudinal guide rails 2, a servo motor 6 is arranged in the middle of the rear lower edge of the sliding tooling plate 3, the servo motor 6 is fixed on the workbench, five workpiece cushion blocks 5 are transversely arranged on the sliding tooling plate 3, four front positioning blocks 7 are transversely arranged on the front edge of the sliding tooling plate 3, a left vertical jacking cylinder 4 and a right vertical jacking cylinder 4 are arranged on the rear edge of the sliding tooling plate 3, side positioning blocks 8 are respectively arranged on the left side and the right side of the sliding tooling plate 3, guide hole plate cylinders 9 with upper cylinder rods are arranged on the outer sides of the side positioning blocks 8, and a guide hole plate 10 is arranged between the upper ends of the left guide hole plate cylinders 9 and the right guide hole plate cylinders;

two groups of drilling machine heads 12 are arranged on the left and right sides of the front side of the workbench 1, a plurality of shaft devices 11 which extend backwards are arranged on the two groups of drilling machine heads 12, and the shaft devices 11 are positioned above the hole guide plate 10.

When the workpiece positioning device works, a workpiece is placed on a workpiece cushion block 5 on a sliding tool plate 3, a jacking cylinder 4 is started, the workpiece is pushed forward to lean against the rear of a front positioning block 7, and the left side and the right side of the workpiece are limited by a side positioning block 8; the guide hole plate cylinder 9 is started to pull the guide hole plate 10 to move downwards and press the guide hole plate onto the workpiece.

And starting the drilling machine head 12 to drive the multi-axis device 11 to work, completing the drilling of the first batch of small holes of the workpiece through the matching of the hole guide plate 10, and chamfering the drilled hole openings directly by the composite drill bit.

After the primary drilling is finished, the drilling machine head 12 is reset, the multi-axis device 11 is driven to withdraw, the servo motor 6 is started, the sliding tooling plate 3 is pushed to move forwards along the longitudinal guide rail 2 to a given value to stop, the drilling machine head 12 is started again, the multi-axis device 11 is driven to work downwards, the drilling of the second batch of small holes of the workpiece is finished, and the hole openings of the drilling holes are chamfered directly by the composite drill bit.

After the secondary drilling is finished, the drilling machine head 12 is reset, the multi-shaft device 11 is driven to withdraw, the servo motor 6 is started, the sliding tooling plate 3 is pulled to move backwards for resetting, the guide hole plate air cylinder 9 is started to loosen the guide hole plate 10, and the jacking air cylinder 4 acts to loosen the workpiece to take out.

Claims (1)

1. A special machine for drilling and chamfering of die cutting machine tooth row is characterized in that: four longitudinal guide rails are transversely arranged on a plane workbench, a sliding tooling plate is arranged on the longitudinal guide rails, a servo motor is arranged in the middle of the rear edge of the lower surface of the sliding tooling plate, the servo motor is fixed on the workbench, five workpiece cushion blocks are transversely arranged on the sliding tooling plate, four front positioning blocks are transversely arranged on the front edge of the sliding tooling plate, a left vertical jacking cylinder and a right vertical jacking cylinder are arranged on the rear edge of the sliding tooling plate, side positioning blocks are respectively arranged on the left side and the right side of the sliding tooling plate, guide hole plate cylinders arranged on cylinder rods of the left guide hole plate and the right guide hole plate are respectively arranged on the outer sides of the side positioning blocks, and guide hole plates are arranged between the upper ends of the cylinder rods of the left guide hole plate cylinder and the right guide hole plate cylinder; two groups of drilling machine heads are arranged on the left and right sides of the front side of the workbench, multi-shaft devices which extend backwards are arranged on the two groups of drilling machine heads, and the multi-shaft devices are positioned above the hole guide plate.