CN212823853U

CN212823853U - Cutting and milling combined sawing machine capable of receiving materials

Info

Publication number: CN212823853U
Application number: CN201922474217.7U
Authority: CN
Inventors: 李兴牛
Original assignee: Foshan Yelu Nemrical Control Equipment Co ltd
Current assignee: Foshan Yelu Nemrical Control Equipment Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2021-03-30
Anticipated expiration: 2029-12-31

Abstract

The utility model discloses a cutting and milling combined sawing machine capable of connecting materials, which is characterized by comprising a frame, wherein the frame is provided with a feeding end, a discharging end and a conveying device for driving a workpiece to be linearly conveyed from the feeding end to the discharging end; the machine frame is provided with a milling part for milling the workpiece and a cutting part for sawing the workpiece between the feeding end and the discharging end; and a material receiving mechanism for receiving the milled and cut material pieces is arranged at the position of the material outlet. The combined sawing machine can automatically complete two procedures of cutting and milling on one device, can automatically receive materials for the processed workpieces after processing, realizes full-automatic operation of feeding, conveying, cutting, milling and material receiving, does not need manual participation, and has high processing efficiency.

Description

Cutting and milling combined sawing machine capable of receiving materials

Technical Field

The utility model belongs to the technical field of the aluminium alloy processing trade, concretely relates to cutting milling combination sawing machine that can connect the material.

Background

The aluminum profile machining method is characterized in that the aluminum profile is usually subjected to two procedures of cutting and milling in the machining process, the aluminum profile is firstly cut by cutting equipment in the prior art, then the aluminum profile is moved to the milling equipment for milling operation through manual operation, the method is very troublesome, two-step operation is required to be carried out independently, and the machining efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can connect the material the cutting mill combination sawing machine, can accomplish cutting mill two processes automatically on a equipment through the combination sawing machine that sets up, its machining efficiency is very high.

The cutting and milling combined sawing machine capable of receiving materials comprises a rack, wherein a feeding end, a discharging end and a conveying device for driving a workpiece to be conveyed linearly from the feeding end to the discharging end are arranged on the rack; the machine frame is provided with a milling part for milling the workpiece and a cutting part for sawing the workpiece between the feeding end and the discharging end; and a material receiving mechanism for receiving the milled and cut material pieces is arranged at the position of the material outlet.

Further, a bearing platform is arranged on the machine frame, and a first pressing mechanism is arranged on the bearing platform; the conveying device comprises a clamping part used for positioning and clamping a workpiece, the clamping part is connected with a first linear driving device which drives the clamping part to reciprocate along the direction from the feeding end to the discharging end, and the cutting part performs cutting motion between the bearing platform and the clamping part.

Furthermore, the cutting part comprises a saw blade and a cutting driving motor for driving the saw blade to rotate in a cutting way; the cutting part is connected with a cutting driving device which is used for driving the cutting part to do cutting motion between the bearing platform and the clamping part.

Furthermore, the milling part comprises a first milling mechanism, the first milling mechanism comprises a milling cutter, a milling driving motor for driving the milling cutter to perform milling rotation, and a first lifting driving device for adjusting the vertical height of the milling cutter, and the milling part is connected with a milling driving device for driving the milling driving device to perform milling movement between the supporting platform and the clamping part.

Furthermore, the milling driving device comprises two side guide rails arranged side by side on the frame, bearing plates arranged on the two side guide rails, and a guide driving motor for driving the bearing plates to mill along the guide directions of the two side guide rails, the two side guide rails are arranged symmetrically to the bearing tables, and the guide directions of the two side guide rails are perpendicular to the conveying direction of the workpiece.

Furthermore, the milling part also comprises a second milling mechanism arranged on the bearing plate, and the second milling mechanism and the first milling mechanism are arranged side by side and symmetrically relative to the bearing platform.

Further, the milling part also comprises a third milling mechanism and a fourth milling mechanism which are arranged on the bearing plate; the third milling mechanism and the fourth milling mechanism are symmetrically arranged side by side relative to the bearing platform; the third milling mechanism and the first milling mechanism are arranged along the guide rail on one side; the fourth milling mechanism and the second milling mechanism are arranged along the guide rail on the other side, and the milling positions of the third milling mechanism and the first milling mechanism are staggered; the milling positions of the fourth milling mechanism and the second milling mechanism are staggered.

Furthermore, the material receiving mechanism comprises a material receiving table, and the material receiving table is connected with a material receiving driving device which drives the material receiving driving device to perform reciprocating material receiving motion between the bearing table and the material outlet end.

Furthermore, the upper surface of the receiving platform and the upper surface of the bearing platform are located at the same horizontal plane position.

Furthermore, the side of material receiving platform is provided with the collection portion that is used for collecting the material piece, it is provided with the pusher who is used for with material piece propelling movement to collection portion to receive the bench material.

The utility model discloses the implementation provides effective effect: the combined sawing machine can automatically complete two procedures of cutting and milling on one device, can automatically receive materials for the processed workpieces after processing, realizes full-automatic operation of feeding, conveying, cutting, milling and material receiving, does not need manual participation, and has high processing efficiency.

Drawings

Fig. 1 is a schematic structural view of a cutting and milling combined sawing machine capable of receiving materials according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a schematic view of a first structure of a cutting and milling combined sawing machine capable of receiving materials according to an embodiment of the present invention;

fig. 4 is a second schematic structural view of the cutting and milling combined sawing machine capable of receiving materials according to the embodiment of the present invention.

Description of reference numerals:

a frame 1; a feed end 2; a discharge end 3; a conveying device 4; a milling part 5; a cutting section 6; a receiving mechanism 7; a support table 8; a first pressing mechanism 9; a clamping portion 10; a first linear drive device 11; a saw blade 12; a cutting drive motor 13; a cutting drive 14; a first milling mechanism 15; a milling cutter 16; a milling drive motor 17; a first elevation drive device 29; a milling drive 18; a guide rail 30; a support plate 31; a steering drive motor 32; a second milling mechanism 19; a third milling mechanism 21; a fourth milling mechanism 22; a receiving mechanism 7; a receiving table 25; a receiving drive device 26; a collecting section 27; a pushing device 28.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

As shown in fig. 1-4, the sawing machine comprises a frame 1, wherein the frame 1 is provided with a feeding end 2, a discharging end 3 and a conveying device 4 for driving a workpiece to be conveyed linearly from the feeding end 2 to the discharging end 3; a milling part 5 for milling the workpiece and a cutting part 6 for sawing the workpiece are arranged between the feeding end 2 and the discharging end 3 of the frame 1; and a material receiving mechanism 7 for receiving the milled and cut material is arranged at the discharge end 3.

The working process of the sawing machine comprises the following steps: the workpiece is placed at the position of a feeding end 2, the workpiece is clamped through a clamping part 10 and is conveyed to a supporting platform 8 linearly from the direction from the feeding end 2 to a discharging end 3, a first pressing mechanism 9 presses and fixes the workpiece, a milling part 5 starts milling the workpiece, a cutting part 6 cuts and separates the workpiece after milling is completed, the workpiece is loosened through the clamping part 10 after cutting is completed, the workpiece is moved to the position of the discharging end 3 to be conveyed in a reciprocating mode, the first pressing mechanism 9 is loosened during conveying, the workpiece at the position of the discharging end 3 is driven to push the workpiece placed on the supporting platform 8 to the discharging end 3 through clamping of the clamping part 10, the workpiece is received by a synchronous receiving mechanism 7, full-automatic operation of feeding, conveying, cutting, milling and receiving is achieved, and manual participation is not needed. The milling or cutting can adjust the processing sequence or the processing procedure type according to the processing requirements.

A supporting platform 8 is arranged on the frame 1, and a first pressing mechanism 9 is arranged on the supporting platform 8; the conveying device 4 comprises a clamping part 10 used for positioning and clamping the workpiece, the clamping part 10 is connected with a first linear driving device 11 which drives the clamping part 10 to reciprocate along the direction from the feeding end 2 to the discharging end 3, and the cutting part 6 performs cutting motion between the supporting platform 8 and the clamping part 10. In the prior art, the first pressing mechanism 9 and the clamping portion 10 can be arranged in a structure that a pressing plate and an air cylinder are matched, and the first linear driving device 11 can be arranged in a structure that a servo motor drives a screw rod to drive the clamping portion 10 to move along a guide rail. The arranged supporting platform 8 is used for supporting and placing a workpiece, the first pressing mechanism 9 is used for fixing the workpiece on the supporting platform 8, and the clamping part 10 is used for automatically conveying the workpiece from the feeding end 2 to the supporting platform 8; the working matching process of conveying and cutting is as follows: firstly, a clamping part 10 clamps a workpiece at the position of a feeding end 2, when the workpiece is driven by a first linear driving device 11 to move to the position of a supporting platform 8 along the moving direction of the clamping part 10, a first pressing mechanism 9 on the supporting platform 8 fixes the workpiece for processing, a cutting part 6 arranged beside the supporting platform 8 starts to saw the workpiece between the first pressing mechanism 9 and the clamping part 10, the cutting moving direction of the cutting part 6 is vertical to the direction from the feeding end 2 to a discharging end 3, and after cutting is completed, the clamping part 10 stops clamping and releases the workpiece and resets to the feeding end 2 to do reciprocating motion. The cutting movement direction is perpendicular to the direction from the feeding end 2 to the discharging end 3, so that the shape of the cut workpiece is regular.

The cutting part 6 comprises a saw blade 12 and a cutting driving motor 13 for driving the saw blade 12 to rotate; the cutting part 6 is connected with a cutting driving device 14 for driving the cutting part to perform cutting movement between the supporting platform 8 and the clamping part 10. In the prior art, the cutting driving device 14 can be applied to a structure that a servo motor drives a screw rod to drive the cutting part 6 to move along a guide rail.

The milling part 5 comprises a first milling mechanism 15, the first milling mechanism 15 comprises a milling cutter 16, a milling driving motor 17 for driving the milling cutter 16 to perform milling rotation, and a first lifting driving device 29 for adjusting the vertical height of the milling cutter 16, and the milling part 5 is connected with a milling driving device 18 for driving the milling driving device to perform milling movement between the supporting platform 8 and the clamping part 10. In the prior art, the milling driving device 18 can be applied to a structure that a servo motor drives a screw rod to drive the milling part 5 to move along the guide direction of a guide rail; the first lifting driving device 29 can be applied to a structure that a servo motor drives a screw rod to drive the milling part 5 to move along the guide direction of the guide rail.

The milling driving device 18 comprises two side guide rails 30 arranged side by side on the frame 1, bearing plates 31 arranged on the two side guide rails 30, and a guide driving motor 32 for driving the bearing plates 31 to mill along the guide directions of the two side guide rails 30, wherein the two side guide rails 30 are arranged symmetrically to the bearing platform 8, and the guide directions of the two side guide rails 30 are perpendicular to the conveying direction of the workpiece.

The milling part 5 further comprises a second milling mechanism 19 arranged on the supporting plate 31, and the second milling mechanism 19 and the first milling mechanism 15 are arranged side by side and symmetrically relative to the supporting platform 8. The milling mechanisms are provided with two groups, and the workpieces can be milled simultaneously through the arranged first milling mechanism 19 and the second milling mechanism 19, so that the machining efficiency is improved.

The milling part 5 further comprises a third milling mechanism 21 and a fourth milling mechanism 22 which are arranged on the supporting plate 31; the third milling mechanism 21 and the fourth milling mechanism 22 are symmetrically arranged in parallel relative to the supporting platform 8; the third milling mechanism 21 and the first milling mechanism 15 are arranged along the guide rail 30 on one side; the fourth milling mechanism 22 and the second milling mechanism 19 are arranged along the guide rail 30 on the other side, and the milling positions of the third milling mechanism 21 and the first milling mechanism 15 are staggered; the fourth milling means 22 are offset from the milling position of the second milling means 19. The first milling mechanism 15, the second milling mechanism 19, the third milling mechanism 21 and the fourth milling mechanism 22 are all arranged on the bearing plate 31, the third milling mechanism 21 and the fourth milling mechanism 22 are arranged side by side with the first milling mechanism 15 and the second milling mechanism 19, the milling positions are staggered, the bearing plate 31 is driven to move along the direction of the guide rail 30 by the milling driving device 18, so that the first milling mechanism 15, the second milling mechanism 19, the third milling mechanism 21 and the fourth milling mechanism 22 arranged on the bearing plate 31 are driven to synchronously move, the milling at different positions of a workpiece is realized by one-time operation, the processing requirement of multiple times of milling of the workpiece can be met, the position processing of the milling mechanism does not need to be adjusted for multiple times, and the processing efficiency is higher; the number of the milling mechanisms can be set to be single group, double group or multiple groups according to the requirement; the milling movement direction is vertical to the direction from the feeding end 2 to the discharging end 3, and the position and the shape of a milled workpiece can be regular through vertical arrangement. In this embodiment, the second, third and fourth milling mechanisms have the same structural style, and different structures can be provided according to different requirements.

The receiving mechanism 7 comprises a receiving platform 25, and the receiving platform 25 is connected with a receiving driving device 26 for driving the receiving driving device to perform reciprocating receiving motion between the supporting platform 8 and the discharging end 3. In the prior art, the material receiving driving device 26 can be applied to a structure matched with an air cylinder; the material receiving platform 25 is capable of receiving the milled and cut material pieces, storing the material pieces, and moving the material pieces to the collecting part 27 after storing a certain amount of the material pieces.

The upper surface of the receiving platform 25 and the upper surface of the supporting platform 8 are in the same horizontal plane position. Through the upper surface side of the material receiving platform 25 and the upper surface side of the supporting platform 8 which are arranged at the same horizontal plane position, the workpiece and the material piece can be ensured to move smoothly, and the workpiece is prevented from being clamped.

A collecting part 27 for collecting the material pieces is arranged beside the material receiving platform 25, and a pushing device 28 for pushing the material pieces to the collecting part 27 is arranged on the material receiving platform 25. In the prior art, the pushing device 28 can be applied to a structure that a push plate is matched with a cylinder for driving; the workpieces temporarily stored in the receiving platform 25 need to be transferred and collected, and the workpieces can be automatically pushed to the collecting part 27 through the arranged pushing device 28, so that the collection of the workpieces is completed, and the automatic operation is realized.

The preferred embodiment of the present invention is only listed in the present specification, and all the technical changes equivalent to those made under the working principle and thought of the present invention are considered as the protection scope of the present invention.

Claims

1. The cutting and milling combined sawing machine capable of receiving materials is characterized by comprising a rack (1), wherein a feeding end (2), a discharging end (3) and a conveying device (4) for driving a workpiece to be conveyed linearly from the feeding end (2) to the discharging end (3) are arranged on the rack (1); a milling part (5) for milling the workpiece and a cutting part (6) for sawing the workpiece are arranged between the feeding end (2) and the discharging end (3) of the frame (1); and a material receiving mechanism (7) for receiving the milled and cut material pieces is arranged at the position of the discharge end (3).

2. The combined cutting and milling sawing machine capable of receiving materials according to claim 1, characterized in that a supporting platform (8) is arranged on the machine frame (1), and a first pressing mechanism (9) is arranged on the supporting platform (8); conveyor (4) are including clamping part (10) that are used for fixing a position the centre gripping to the work piece, clamping part (10) are connected with the drive clamping part (10) are followed feed end (2) extremely reciprocating motion's first linear drive device (11) are made to discharge end (3) direction, cutting unit (6) in make cutting motion between cushion cap (8) and clamping part (10).

3. The material-acceptable cutting and milling combined sawing machine according to claim 2, characterized in that the cutting part (6) comprises a saw blade (12), a cutting drive motor (13) driving the saw blade (12) into a cutting rotation; the cutting part (6) is connected with a cutting driving device (14) which is used for driving the cutting part to do cutting motion between the bearing platform (8) and the clamping part (10).

4. The material-accessible cutting and milling combined sawing machine according to claim 2, characterized in that the milling part (5) comprises a first milling mechanism (15), the first milling mechanism (15) comprises a milling cutter (16), a milling drive motor (17) for driving the milling cutter (16) to perform milling rotation, and a first lifting drive device for adjusting the vertical height of the milling cutter, and the milling part (5) is connected with a milling drive device (18) for driving the milling drive device to perform milling movement between the supporting table (8) and the clamping part (10).

5. The material-receiving cutting and milling combined sawing machine according to claim 4, wherein the milling driving device comprises two side guide rails arranged side by side on the machine frame (1), support plates arranged on the two side guide rails, and a guide driving motor for driving the support plates to perform milling motion along the guide directions of the two side guide rails, the two side guide rails are arranged symmetrically to the support table (8), and the guide directions of the two side guide rails are perpendicular to the conveying direction of the workpiece.

6. The material-loadable cutting and milling combined sawing machine according to claim 5, characterised in that the milling section (5) further comprises a second milling means (19) arranged on the supporting plate, the second milling means (19) and the first milling means (15) being arranged side by side symmetrically with respect to the supporting table (8).

7. The material-acceptable cutting and milling combined sawing machine according to claim 6, characterized in that the milling part (5) further comprises a third milling mechanism (21) and a fourth milling mechanism (22) arranged on the supporting plate; the third milling mechanism (21) and the fourth milling mechanism (22) are arranged side by side and symmetrically relative to the bearing platform (8); the third milling mechanism (21) and the first milling mechanism (15) are arranged along the guide rail on one side; the fourth milling mechanism (22) and the second milling mechanism (19) are arranged along the guide rail on the other side, and the milling positions of the third milling mechanism (21) and the first milling mechanism (15) are staggered; the fourth milling means (22) is offset from the milling position of the second milling means (19).

8. The combined sawing machine for cutting and milling of receivable materials according to any one of claims 2 to 7, characterized in that the receiving mechanism (7) comprises a receiving table (25), and the receiving table (25) is connected with a receiving driving device (26) for driving the receiving table (8) and the discharge end (3) to perform reciprocating receiving motion.

9. The combined sawing machine for cutting and milling of receivable materials according to claim 8, characterized in that the upper side of the material receiving table (25) and the upper side of the supporting table (8) are in the same horizontal position.

10. The combined sawing machine for cutting and milling of receivable materials according to claim 8, characterized in that a collecting portion (27) for collecting the materials is arranged beside the material receiving table (25), and a pushing device (28) for pushing the materials to the collecting portion is arranged on the material receiving table (25).