CN112338533A

CN112338533A - Aluminum template processing equipment

Info

Publication number: CN112338533A
Application number: CN201910721886.1A
Authority: CN
Inventors: 周建庚
Original assignee: Suntown Technology Group Co Ltd
Current assignee: Suntown Technology Group Co Ltd
Priority date: 2019-08-06
Filing date: 2019-08-06
Publication date: 2021-02-09

Abstract

The invention belongs to the technical field of machining equipment, and discloses aluminum template machining equipment, which comprises: the device comprises a machine frame, a sawing sliding seat, a sawing unit, a milling unit and a lifting power unit; the sawing slide seat and the machine frame form a moving pair; the sawing unit is mounted on the sawing slide seat; the milling unit is installed on the sawing sliding seat through the lifting power unit. Compared with the prior art, the aluminum template processing equipment can integrate the functions of groove milling and saw cutting, simultaneously perform groove milling and saw cutting processing, shorten the processing time, improve the processing efficiency, eliminate the need of arranging a conveying device between a sawing machine and a milling machine, reduce the time of clamping and feeding, and simultaneously facilitate the improvement of the compactness of the equipment.

Description

Aluminum template processing equipment

Technical Field

The invention belongs to the technical field of machining equipment, and particularly discloses aluminum template machining equipment.

Background

In machining technical field, the condition that the substrate needs to be cut and milled exists, for example, the aluminium template includes the template main part and welds respectively in the shrouding at template main part both ends, when processing aluminium template, needs to cut off the aluminium template substrate of extrusion and forms the template main part, still need mill the vertical muscle that is close to limit portion at template main part both ends, so process out the position of dodging of shrouding at both ends, again with the shrouding welding at the both ends of template main part. In order to cut and mill a substrate, in the related art, chinese patent application No. 201820710659.X discloses a sawing and milling device including a sawing machine, a milling machine, and a conveying device connecting the sawing machine and the milling machine. The defects of the related technology are that the mode of firstly sawing and then milling is adopted, the processing time is long, the processing efficiency is low, a conveying device needs to be arranged between a sawing machine and a milling machine, and the feeding time and the equipment volume are increased.

Therefore, there is a need to provide a new aluminum template processing device to solve the above technical problems.

Disclosure of Invention

The invention aims to provide aluminum template processing equipment with high processing efficiency and small equipment volume.

The invention discloses an aluminum template processing device, which comprises: the device comprises a machine frame, a sawing sliding seat, a sawing unit, a milling unit and a lifting power unit; the sawing slide seat and the machine frame form a moving pair; the sawing unit is mounted on the sawing slide seat; the milling unit is installed on the sawing sliding seat through the lifting power unit.

Preferably, a linear power unit for driving the sawing sliding seat to reciprocate along the rack is arranged between the sawing sliding seat and the rack, and the linear power unit comprises a first motor fixed on the rack, a screw nut fixed below the sawing sliding seat and a ball screw matched with the screw nut; one end of the ball screw is connected with the first motor and is driven to rotate by the first motor.

Preferably, the aluminum mould plate processing equipment further comprises a supporting platform which is formed on the rack and used for feeding, and the feeding direction of the supporting platform is perpendicular to the moving direction of the saw blade.

Preferably, the aluminum mold plate processing apparatus further includes: the workpiece clamping device comprises a baffle arranged at one end of the supporting platform, a lateral part telescopic pressing plate arranged opposite to the baffle, and an upper part telescopic pressing plate arranged above the supporting platform and spaced from the supporting platform, wherein the supporting platform, the baffle, the lateral part telescopic pressing plate and the upper part telescopic pressing plate jointly enclose a workpiece clamping space.

Preferably, the aluminum mold plate processing apparatus further includes: the first telescopic power part is used for driving the side telescopic pressing plate to telescopically move, and the second telescopic power part is used for driving the upper telescopic pressing plate to telescopically move.

Preferably, the sawing unit comprises a saw blade and a sawing motor for driving the saw blade to rotate; the milling unit comprises a milling cutter and a slot milling motor for driving the milling cutter to rotate.

Preferably, a horizontal guide groove is formed in the top of the machine frame, and a horizontal guide rail matched with the horizontal guide groove is arranged on the saw cutting sliding seat.

Preferably, the sawing sliding seat is provided with a vertical guide rail; the lifting power unit comprises: the sawing machine comprises a milling groove sliding seat and a lifting cylinder, wherein one end of the milling groove sliding seat is fixed at the other end of the sawing sliding seat, the lifting cylinder is connected with the milling groove sliding seat, and the upper portion of the sawing unit is fixed on the sawing sliding seat.

Preferably, the whole frame is of a cuboid frame structure, the sawing slide seat is arranged at the top of the frame, and the first motor is mounted at one end of the top of the frame; the sawing unit and the milling unit are arranged on the side part of the frame side by side at intervals along the guiding direction of the horizontal guide rail; the sawing unit and the milling unit are both positioned below the sawing sliding seat.

Preferably, the first motor is a servo motor.

Compared with the prior art, the aluminum template processing equipment can integrate the functions of groove milling and saw cutting, simultaneously perform groove milling and saw cutting processing, shorten the processing time, improve the processing efficiency, eliminate the need of arranging a conveying device between a sawing machine and a milling machine, reduce the time of clamping and feeding, and simultaneously facilitate the improvement of the compactness of the equipment.

Drawings

FIG. 1 is a front view of one embodiment of the present invention (further including a workpiece to be machined);

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a left side view of FIG. 1;

fig. 4 is a perspective view of fig. 1.

In the figure:

the device comprises a frame 1, a sawing sliding seat 2, a linear power unit 3, a sawing unit 4, a milling unit 5, a lifting power unit 6, a supporting platform 7, a baffle 8, a side telescopic pressing plate 9, an upper telescopic pressing plate 10, a work clamping space 11, a first telescopic power part 12, a workpiece 13 and a supporting pad 14;

a horizontal guide slot 011;

horizontal guide rails 21, vertical guide rails 22;

a first motor 31, a screw nut 32, a ball screw 33;

a saw blade 41, a sawing motor 42;

a milling cutter 51, a slot milling motor 52;

a milling groove sliding seat 61 and a lifting cylinder 62.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Referring to fig. 1 to 4, an aluminum mold plate processing apparatus includes: the device comprises a frame 1, a sawing slide seat 2, a sawing unit 4, a milling unit 5 and a lifting power unit 6; the sawing slide seat 2 and the machine frame 1 form a moving pair; the sawing unit 4 is arranged on the sawing slide seat 2; the milling unit 5 is mounted on the sawing slide 2 via a lifting power unit 6.

In the present embodiment: the frame 1 is used for providing mounting support; the lifting power unit 6 is used for providing lifting power to drive the milling unit 5 to approach or move away from the workpiece 13. The sawing slide seat 2 is used for installing the sawing unit 4 and the milling unit 5, and the sawing unit 4 and the milling unit 5 can be driven to synchronously move by moving the sawing slide seat 2, so that the sawing unit 4 and the milling unit 5 can simultaneously cut and mill the substrate, the cutting and the milling are finished on the same station, a middle material conveying structure is not needed, the processing time is shortened, and the processing efficiency is improved; and the compactness of the equipment is improved. The groove milling process and the saw cutting of the end face of the template are clamped at one time, and the machining precision and the dimensional stability of the longitudinal rib avoiding notch are guaranteed.

Further, as another embodiment of the present invention, a linear power unit 3 for driving the sawing slide 2 to reciprocate along the machine frame 1 is arranged between the sawing slide 2 and the machine frame 1, and the linear power unit 3 includes a first motor 31 fixed to the machine frame 1, a lead screw nut 32 fixed below the sawing slide 2, and a ball screw 33 engaged with the lead screw nut 32; one end of the ball screw 33 is connected to the first motor 31 and is driven to rotate by the first motor 31.

In the present embodiment, the screw nut 32 and the ball screw 33 form a screw transmission mechanism, and the first motor 31 rotates to drive the ball screw 33 to rotate, so as to drive the sawing slide 2 to realize linear movement. When the sawing slide 2 moves, the sawing unit 4 and the milling unit 5 fixed on the sawing slide can be driven to move simultaneously, so that the sawing slide moves close to or away from the workpiece 13.

Further, as another embodiment of the present invention, the aluminum die plate processing apparatus further includes a supporting platform 7 formed on the frame 1 for feeding, and a feeding direction of the supporting platform 7 is perpendicular to a moving direction of the saw blade.

In this embodiment, the supporting platform 7 is used for supporting the workpiece 13, the feeding direction of the supporting platform 7 is the feeding direction of the workpiece 13, and the moving direction of the saw blade 41 is perpendicular to the feeding direction of the workpiece 13, so as to vertically cut off the workpiece 13 and complete the sawing operation.

Further, as another embodiment of the present invention, an aluminum mold plate processing apparatus further includes: the workpiece clamping device comprises a baffle 8 arranged at one end of a supporting platform 7, a lateral telescopic pressing plate 9 arranged opposite to the baffle 8, and an upper telescopic pressing plate 10 arranged above the supporting platform 7 and spaced from the supporting platform 7, wherein a workpiece clamping space 11 is defined by the supporting platform 7, the baffle 8, the lateral telescopic pressing plate 9 and the upper telescopic pressing plate 10.

In the present embodiment, the baffle 8 is used for blocking one side of the workpiece 13, and the side-part telescopic pressing plate 9 is used for pressing the workpiece 13 from the opposite side of the workpiece 13, so that the movement of the workpiece 13 in the horizontal direction can be limited; the upper telescopic platen 10 presses the workpiece 13 downward from above the workpiece 13, and restricts the movement of the workpiece 13 in the vertical direction. In the embodiment, the supporting platform 7, the baffle 8, the side telescopic pressing plate 9 and the upper telescopic pressing plate 10 together enclose a workpiece clamping space 11 for positioning and clamping a workpiece 13, so that accurate positioning and stable clamping are guaranteed.

Further, as another embodiment of the present invention, an aluminum mold plate processing apparatus further includes: a first telescopic power member 12 for driving the side telescopic pressing plate 9 to move telescopically, and a second telescopic power member (not shown) for driving the upper telescopic pressing plate 10 to move telescopically.

Specifically, in the present embodiment, the first telescopic power member 12 and the second telescopic power member (not shown) are both air cylinders, and the clamping and releasing of the workpiece 13 are realized by the linear reciprocating motion of the air cylinders.

Further, as another embodiment of the present invention, the sawing unit 4 includes a saw blade 41 and a sawing motor 42 for driving the saw blade 41 to rotate; the milling unit 5 includes a milling cutter 51 and a slot-milling motor 52 for driving the milling cutter 51 to rotate.

Specifically, in the present embodiment, the saw blade 41 is a disc-shaped saw blade 41, the saw blade 41 is perpendicular to the workpiece 13, and the saw blade 41 is driven by the power of the sawing motor 42 to cut the elongated workpiece 13 into a desired size.

Further, as another embodiment of the present invention, a horizontal guide slot 011 is provided on the top of the frame 1, and a horizontal guide rail 21 matched with the horizontal guide slot 011 is provided on the sawing slide 2.

In this embodiment, the horizontal guide rail 21 and the horizontal guide slot 011 cooperate to provide guidance for the relative reciprocating linear motion between the sawing slide 2 and the frame 1, and at the same time, to limit the degree of freedom and the stroke of the sawing slide 2, thereby ensuring the stable operation of the device.

Further, as another embodiment of the present invention, the sawing slider 2 is provided with a vertical guide rail 22; the elevating power unit 6 includes: a milling groove sliding seat 61 and a lifting cylinder 62, wherein one end of the lifting cylinder is fixed on the sawing sliding seat 2, the other end of the lifting cylinder is connected with the milling groove sliding seat 61, and the upper part of the sawing unit 4 is fixed on the sawing sliding seat 2.

In this embodiment, the vertical guide rail 22 is used for guiding the lifting power unit 6, and the milling groove sliding base 61 is driven to move up and down by the extension and contraction of the lifting cylinder 62, so as to drive the milling unit 5 to be close to or far away from the workpiece 13, thereby realizing the feeding and discharging during milling.

Further, as another embodiment of the present invention, the whole frame 1 is a rectangular frame structure, the sawing sliding seat 2 is arranged at the top of the frame 1, and the first motor 31 is installed at one end of the top of the frame 1; the sawing unit 4 and the milling unit 5 are arranged side by side along the guiding direction of the horizontal guide rail 21 and are arranged at the side part of the frame 1 at intervals; the sawing unit 4 and the milling unit 5 are located below the sawing slide 2.

In the present embodiment, the frame 1 of a rectangular parallelepiped frame structure facilitates the forming and the formation of the feeding space. In the embodiment, the position setting of each piece needs to consider the installation and operation space of each piece, so that the compactness of the equipment needs to be ensured while avoiding interference.

Further, as another embodiment of the present invention, the first motor 31 is a servo motor.

In the embodiment, the servo motor is beneficial to being connected with other electrical elements, and automatic control is realized.

Further, as another embodiment of the present invention, four supporting pads 14 made of rubber material are provided below the frame 1. This design does benefit to the frictional force that improves frame 1 and ground, does benefit to the equipment and stabilizes and lay, and the supporting pad 14 that the rubber materials made can provide certain buffering simultaneously.

While the foregoing is directed to embodiments of the present invention, it will be understood by those skilled in the art that various changes may be made without departing from the spirit and scope of the invention.

Claims

1. An aluminum die plate processing apparatus, comprising: the device comprises a machine frame, a sawing sliding seat, a sawing unit, a milling unit and a lifting power unit; the sawing slide seat and the machine frame form a moving pair; the sawing unit is mounted on the sawing slide seat; the milling unit is installed on the sawing sliding seat through the lifting power unit.

2. The aluminum template processing device as recited in claim 1, wherein a linear power unit for driving the sawing slide to reciprocate along the machine frame is arranged between the sawing slide and the machine frame, and the linear power unit comprises a first motor fixed on the machine frame, a screw nut fixed below the sawing slide, and a ball screw matched with the screw nut; one end of the ball screw is connected with the first motor and is driven to rotate by the first motor.

3. The aluminum die plate processing device according to claim 2, further comprising a support platform formed on the frame for feeding, wherein a feeding direction of the support platform is perpendicular to a moving direction of the saw blade.

4. The aluminum die plate processing apparatus according to claim 3, further comprising: the workpiece clamping device comprises a baffle arranged at one end of the supporting platform, a lateral part telescopic pressing plate arranged opposite to the baffle, and an upper part telescopic pressing plate arranged above the supporting platform and spaced from the supporting platform, wherein the supporting platform, the baffle, the lateral part telescopic pressing plate and the upper part telescopic pressing plate jointly enclose a workpiece clamping space.

5. The aluminum die plate processing apparatus according to claim 4, further comprising: the first telescopic power part is used for driving the side telescopic pressing plate to telescopically move, and the second telescopic power part is used for driving the upper telescopic pressing plate to telescopically move.

6. The aluminum template processing apparatus according to claim 5, wherein the sawing unit includes a saw blade and a sawing motor for driving the saw blade to rotate; the milling unit comprises a milling cutter and a slot milling motor for driving the milling cutter to rotate.

7. The aluminum die plate processing device as recited in claim 6, wherein a horizontal guide groove is formed in the top of the frame, and a horizontal guide rail matched with the horizontal guide groove is formed in the sawing slide seat.

8. The aluminum template processing equipment according to claim 7, wherein the sawing slide is provided with vertical guide rails; the lifting power unit comprises: the sawing machine comprises a milling groove sliding seat and a lifting cylinder, wherein one end of the milling groove sliding seat is fixed at the other end of the sawing sliding seat, the lifting cylinder is connected with the milling groove sliding seat, and the upper portion of the sawing unit is fixed on the sawing sliding seat.

9. The aluminum formwork processing device according to claim 8, wherein the frame is of a rectangular frame structure as a whole, the sawing slide is arranged on the top of the frame, and the first motor is mounted at one end of the top of the frame; the sawing unit and the milling unit are arranged on the side part of the frame side by side at intervals along the guiding direction of the horizontal guide rail; the sawing unit and the milling unit are both positioned below the sawing sliding seat.

10. The aluminum die plate processing apparatus of claim 9, wherein the first motor is a servo motor.