CN111300051A - Curtain hasp automatic processing all-in-one - Google Patents

Abstract

The invention discloses an automatic curtain wall lock catch machining integrated machine, which belongs to a combined machining machine tool and comprises a rack, wherein a drilling mechanism, a milling mechanism, a cutting mechanism, a positioning and conveying mechanism and a control system which is electrically connected with the drilling mechanism, the milling mechanism, the cutting mechanism and the positioning and conveying mechanism are arranged on the rack; the drilling mechanism is used for drilling holes in the substitute processing section, the milling mechanism is used for milling chamfers on the substitute processing section, and the cutting mechanism is used for cutting the section processed by the drilling mechanism and the milling mechanism into sections in a fixed length manner; the positioning and conveying mechanism is provided with a conveying channel for the section to pass through and is used for conveying the section towards the cutting mechanism along the directions of the drilling mechanism and the milling mechanism and positioning the section in the conveying channel when the drilling mechanism, the milling mechanism and the cutting mechanism work and process. The drilling mechanism, the milling mechanism, the cutting mechanism and the positioning and conveying mechanism are controlled by the control system respectively, so that the processing efficiency of the curtain wall lock catch is improved.

Description

Curtain hasp automatic processing all-in-one

Technical Field

The invention relates to a combined machining machine tool, in particular to an automatic machining all-in-one machine for a curtain wall corner connector.

Background

The glass curtain wall is a building external protective structure or decorative structure which has a certain displacement capacity relative to a main structure by a supporting structure system and does not bear the action of the main structure, and the glass curtain wall is an attractive and novel building wall decoration method and is a remarkable characteristic of modern dominant high-rise building times.

The glass curtain wall is provided with an opening sash, an object for controlling the opening sash to be closed is a lock catch (also called a buckling machine), the lock catch is a non-standard product, the lock catch is generally in an inverted 'convex' structure, the upper part of the lock catch is provided with a groove for sliding into a locking point, a through hole for fixing the lock catch needs to be processed on the groove, and two ends of the groove need to be milled to facilitate the sliding of the locking point. The glass curtain wall lock catch is mainly installed below the inner side of the unit frame and fixed on the inner side of the unit frame through steel teeth, and meanwhile, a lock point is installed on the curtain wall opening sash.

The lock catch needs to be machined by a curtain wall manufacturer, the whole section of the section is generally adopted as a machining raw material in the machining process of the lock catch, a driller and a milling chamfer are carried out on the section, and then the section is cut into sections to finally complete machining of the lock catch, but the existing button machine for manufacturing the curtain wall in the domestic curtain wall manufacturing industry is completely machined by using a platform sawing machine, a hand drilling machine and a milling machine manually, time and labor are wasted, efficiency is low, and the machining risk coefficient is high.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the automatic curtain wall lock catch machining all-in-one machine.

The purpose of the invention is realized by adopting the following technical scheme:

an automatic machining all-in-one machine for a curtain wall lock catch comprises a rack, wherein a drilling mechanism, a milling mechanism, a cutting mechanism, a positioning and conveying mechanism and a control system which is electrically connected with the drilling mechanism, the milling mechanism, the cutting mechanism and the positioning and conveying mechanism respectively are arranged on the rack; the drilling mechanism is used for drilling holes in the profile to be machined, the milling mechanism is used for milling chamfers on the profile to be machined, and the cutting mechanism is used for cutting the profile machined by the drilling mechanism and the milling mechanism into sections in a fixed length manner; the positioning and conveying mechanism is provided with a conveying channel for the sectional material to pass through and is used for conveying the sectional material towards the cutting mechanism along the directions of the drilling mechanism and the milling mechanism and positioning the sectional material in the conveying channel when the drilling mechanism, the milling mechanism and the cutting mechanism work and process.

Furthermore, the drilling mechanism comprises a first power head, a drill bit for drilling on the section bar is arranged on the first power head, and the extension line of the first power head is perpendicular to the conveying direction of the positioning and conveying mechanism; the drilling adjusting assembly is used for driving the first power head to reciprocate in the direction parallel to the conveying channel and perpendicular to the conveying channel and close to and far away from the conveying channel, and the drilling adjusting assembly is arranged on the rack and is connected with the first power head in a driving mode.

Furthermore, the milling mechanism comprises a second power head, a milling cutter for milling the chamfer of the section bar is arranged on the second power head, and the extension line of the second power head is perpendicular to the conveying direction of the positioning and conveying mechanism; the milling adjusting component is used for driving the second power head to reciprocate in the direction parallel to the conveying channel, perpendicular to the conveying channel and close to and far away from the conveying channel, and the milling adjusting component is arranged on the rack and connected with the second power head in a driving mode.

Furthermore, the cutting mechanism comprises a third power head, a saw blade for cutting the section is arranged on the third power head, and the extension line of the third power head is parallel to the conveying direction of the positioning and conveying mechanism; the cutting adjusting assembly is used for driving the third power head to reciprocate in the direction close to and far away from the conveying channel, and the cutting adjusting assembly is arranged on the rack and is in driving connection with the third power head; the cutting adjustment assembly has a first position and a second position; when the cutting adjusting assembly is in the first position, the saw blade and the conveying channel have an overlapped part in the conveying direction of the section bar, and when the cutting adjusting assembly is in the second position, the saw blade and the conveying channel are staggered in the conveying direction of the section bar; the cutting adjustment assembly is used for driving the third power head to reciprocate between a first position and a second position.

The cutting mechanism is arranged on the outer periphery of the cutting mechanism, the cutting mechanism is arranged in a surrounding mode together with the rack, and a feeding hole and a discharging hole for the profile to enter and output are formed in two opposite sides of the dust cover; the discharge hole is covered with a hairbrush.

Furthermore, a material guide channel and a collecting box are also arranged on the dust cover; the material guide channel is arranged at the lower part of the opening edge of the material outlet and extends downwards from the direction of the material outlet to the direction far away from the cutting mechanism, and the collecting box is arranged at the lower part of the material guide channel.

Furthermore, the positioning and conveying mechanism comprises a traction assembly, a positioning assembly and a resisting plate, wherein the traction assembly, the positioning assembly and the resisting plate are respectively arranged on two opposite sides of the conveying channel; the traction assembly is used for conveying the clamping section bar to the cutting mechanism from one end of the drilling mechanism and one end of the milling mechanism after the drilling mechanism, the milling mechanism and the cutting mechanism complete machining operation; the positioning assembly is used for pressing the section bar against the abutting plate to keep the section bar in a fixed state in the conveying channel in the processing operation process of the drilling mechanism, the milling mechanism and the cutting mechanism.

Further, the traction assembly comprises a screw rod transmission mechanism and a traction chuck, the traction chuck is arranged on the rack in a sliding mode through a linear guide rail, and the screw rod transmission mechanism is arranged on the rack and is in driving connection with the traction pressure head so that the traction pressure head can move in a reciprocating mode in the extending direction of the linear guide rail; the extension direction of the linear guide rail is parallel to the conveying direction of the conveying channel, the traction chuck can clamp or release the section, and the section is driven by the screw rod transmission mechanism to move towards the direction close to the cutting mechanism or move towards the direction far away from the cutting mechanism.

Furthermore, a dust removal assembly for removing cuttings on the surface of the profile during the operation of the drilling mechanism and the milling mechanism is also arranged on the machine frame; the dust removal assembly comprises a chip blocking cover frame arranged on the periphery of the conveying channel and used for blocking chips, and a chip pumping device arranged on the lower portion of the chip blocking cover frame and communicated with the interior of the chip blocking cover frame and used for pumping away the chips in the chip blocking cover frame.

Furthermore, an air knife is also arranged in the chip blocking cover frame and is positioned above the conveying channel; the air outlet of the air knife faces towards the conveying channel, an extension line of the air outlet of the air knife is intersected with the conveying direction of the conveying channel to form an included angle, and the included angle is an acute angle.

Compared with the prior art, the invention has the beneficial effects that:

the drilling mechanism of curtain hasp automatic processing all-in-one, mill the mechanism, cutting mechanism, location conveying mechanism electric connection is in control system respectively, to drilling mechanism through control system, mill the mechanism, the drilling to the section bar is realized to cutting mechanism and location conveying mechanism's control, mill the automation mechanized operation of chamfer and cutting, location conveying mechanism is used for at drilling mechanism, mill the mechanism and press from both sides tight section bar location in the cutting mechanism processing operation process, so that the precision is higher in the course of working, and at drilling mechanism, mill the mechanism and the section bar of driving continues to carry toward finished product output direction after the cutting mechanism processing operation finishes.

The efficiency of processing of curtain hasp is improved greatly, reduces the required operating personnel of many processing equipment of control, reduces the human labor cost, simultaneously, also can let hasp production precision obtain improving, reduces the rejection rate.

Drawings

FIG. 1 is one of the overall structural schematic diagrams of the automatic processing all-in-one machine for curtain wall lock catches of the invention;

FIG. 2 is a second schematic view of the whole structure of the automatic curtain wall latch machining integrated machine of the present invention;

FIG. 3 is a third schematic view of the whole structure of the automatic curtain wall latch machining integrated machine of the present invention;

FIG. 4 is a schematic view of the overall structure of the positioning and conveying mechanism of the present invention;

FIG. 5 is a second schematic view of the overall structure of the positioning and conveying mechanism of the present invention;

FIG. 6 is a third schematic view of the overall structure of the positioning and conveying mechanism of the present invention.

In the figure: 10. a frame; 11. a machine platform; 12. a stand; 20. a drilling mechanism; 21. a first power head; 22. a drilling adjustment assembly; 30. a milling mechanism; 31. a second power head; 32. a milling adjustment assembly; 40. a cutting mechanism; 41. a third power head; 411. a saw blade; 42. a cutting adjustment assembly; 43. a dust cover; 431. a feed inlet; 432. a discharge port; 44. a material guide channel; 45. a collection box; 50. a positioning and conveying mechanism; 51. a delivery channel; 52. a traction assembly; 53. a positioning assembly; 54. a resisting plate; 521. a linear guide rail; 55. a dust removal assembly; 551. a chip blocking cover frame; 552. a chip pumping device; 553. and (4) an air knife.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

As shown in fig. 1 to 6, in order to improve the production efficiency and production precision of the curtain wall latch and reduce the labor cost and rejection rate, the invention provides an automatic curtain wall latch machining all-in-one machine, which comprises a frame 10, wherein a drilling mechanism 20, a milling mechanism 30, a cutting mechanism 40, a positioning and conveying mechanism 50 and a control system (not shown) electrically connected with the drilling mechanism 20, the milling mechanism 30, the cutting mechanism 40 and the positioning and conveying mechanism 50 are arranged on the frame 10, the control system is accurately arranged to control the drilling mechanism 20, the milling mechanism 30, the cutting mechanism 40 and the positioning and conveying mechanism 50 to realize the automatic operation of drilling, milling, chamfering and cutting the section bar, the positioning and conveying mechanism 50 is used for clamping and positioning the section bar in the machining operation process of the drilling mechanism 20, the milling mechanism 30 and the cutting mechanism 40 to ensure higher precision in the machining process, and after the drilling mechanism 20, the milling mechanism 30 and the cutting mechanism 40 are finished, the section bar is driven to be conveyed in the conveying direction.

The drilling mechanism 20 is used for drilling through holes in grooves of the profile to be machined, the milling mechanism 30 is used for milling chamfers on the side edges of the grooves of the profile to be machined, and the cutting mechanism 40 is used for cutting the profile machined by the drilling mechanism 20 and the milling mechanism 30 into sections in a fixed length manner, so that the drilled and milled profile is cut into the length required by the lock catch; the positioning and conveying mechanism 50 is provided with a conveying channel 51 for the sectional material to pass through, and is used for conveying the sectional material towards the cutting mechanism 40 along the directions of the drilling mechanism 20 and the milling mechanism 30, and positioning the sectional material in the conveying channel 51 when the drilling mechanism 20, the milling mechanism 30 and the cutting mechanism 40 are operated and processed, so that the processing precision is higher in the drilling and milling processes.

The drilling mechanism 20 comprises a first power head 21, wherein the first power head 21 is provided with a drill bit for drilling a hole in the profile, in this case, the groove of the profile faces upwards during the conveying process, so that the bottom of the groove is parallel to the horizontal plane, and the extension line of the first power head 21 is perpendicular to the conveying direction of the positioning and conveying mechanism 50, in particular, perpendicular to the horizontal plane.

The drilling mechanism 20 further includes a drill adjustment assembly 22 for driving the first power head 21 to reciprocate in directions parallel to the feed channel 51, perpendicular to the feed channel 51, and toward and away from the feed channel 51, the drill adjustment assembly 22 being disposed on the housing 10 and drivingly connected to the first power head 21.

The milling mechanism 30 comprises a second power head 31, and the second power head 31 is provided with a milling cutter for milling a chamfer of the profile, as described above, the groove of the profile faces upward during the conveying process, so that the bottom of the groove is parallel to the horizontal plane, and the extension line of the second power head 31 is perpendicular to the conveying direction of the positioning and conveying mechanism 50, and in particular, perpendicular to the horizontal plane.

The milling mechanism 30 further includes a milling adjustment assembly 32 for driving the second power head 31 to reciprocate in directions parallel to the feed channel 51, perpendicular to the feed channel 51, and toward and away from the feed channel 51, the milling adjustment assembly 32 being disposed on the housing 10 and drivingly connected to the second power head 31.

In this example, the frame 10 includes a machine base 11 for supporting the positioning and conveying mechanism 50 and the cutting mechanism 40, and a stand 12 for supporting the drilling mechanism 20 and the milling mechanism 30, the stand 12 is disposed on an upper portion of the machine base 11, the drilling adjusting assembly 22 and the milling adjusting assembly 32 are both disposed on the stand 12, the first power head 21 and the second power head 31 thereof are disposed downward, so as to form a drilling area and a milling area at a position corresponding to the positioning and conveying mechanism 50, and the sequence of the drilling mechanism 20 and the milling mechanism 30 is not specifically defined in this scheme, and the sequences of the two mechanisms can be interchanged.

The cutting mechanism 40 comprises a third power head 41, a saw blade 411 for cutting the section bar is arranged on the third power head 41, and the extension line of the third power head 41 is parallel to the conveying direction of the positioning conveying mechanism 50, so that the saw blade 411 is perpendicular to the section bar;

further, the cutting mechanism 40 further includes a cutting adjustment assembly 42 for driving the third power head 41 to reciprocate in a direction approaching to and moving away from the conveying channel 51, the cutting adjustment assembly 42 is disposed on the frame 10 and is driven and connected with the third power head 41, in this example, the conveying direction is a horizontal linear conveying direction, and the cutting adjustment assembly 42 drives the third power head 41 to move in the same horizontal conveying direction, and is perpendicular to the conveying direction;

specifically, the cutting adjustment assembly 42 has a first position and a second position; when the cutting adjustment assembly 42 is in the first position, the saw blade 411 and the conveying channel 51 have an overlapped part in the conveying direction of the section bar, and when the cutting adjustment assembly 42 is in the second position, the saw blade 411 and the conveying channel 51 are staggered in the conveying direction of the section bar; the cutting adjusting assembly 42 is used for driving the third power head 41 to reciprocate between a first position and a second position, when the positioning conveying mechanism 50 conveys an uncut section bar to a cutting station of the cutting mechanism 40, the cutting adjusting assembly 42 drives the third power head 41 to be close to the section bar, so that the saw blade 411 cuts the section bar, finally the section bar is cut off to be machined into a lock catch, then the cutting adjusting assembly 42 drives the third power head 41 to be far away from the conveying channel 51 again, and the positioning conveying mechanism 50 continues to drive a subsequent section bar to advance towards the conveying direction to prepare for cutting of the next section bar.

The drilling adjustment assembly 22, the cutting adjustment assembly, and the cutting adjustment assembly 42 may respectively adopt one of the mechanical transmission structures commonly used in the field, such as a screw transmission, a cylinder transmission, and are not limited herein.

In order to avoid influencing the processing environment in the processing process, the cutting mechanism 40 further comprises a dust cover 43, the dust cover 43 is arranged on the periphery of the cutting mechanism 40 to avoid the flying-out of the cutting chips in the cutting process, the cutting mechanism 40 is arranged around the frame 10, a feeding hole 431 and a discharging hole 432 for the entering and outputting of the section bar are formed in two opposite sides of the dust cover 43, a hairbrush covers the discharging hole 432, and the cutting chips on the surface of the lock catch which is just cut are swept away.

The dust cover 43 is also provided with a material guiding channel 44 and a collecting box 45, and the processed lock catch falls into the collecting box 45 through the material guiding channel 44 to wait for packing, stacking and loading;

specifically, the material guiding channel 44 is disposed at the lower portion of the opening edge of the material outlet 432, and extends from the material outlet 432 to the direction away from the cutting mechanism 40 in a downward inclined manner, and the collecting box 45 is disposed at the lower portion of the material guiding channel 44.

The positioning conveying mechanism 50 comprises a traction assembly 52, a positioning assembly 53 and a resisting plate 54, wherein the traction assembly 52, the positioning assembly 53 and the resisting plate 54 are respectively arranged at two opposite sides of the conveying channel 51;

the traction assembly 52 is used for conveying the clamping section from one end of the drilling mechanism 20 and one end of the milling mechanism 30 to the cutting mechanism 40 after the drilling mechanism 20, the milling mechanism 30 and the cutting mechanism 40 complete the processing operation; the positioning assembly 53 is used to press the profile against the pressing plate 54 to keep the profile in a fixed state in the conveying channel 51 during the machining operation of the drilling mechanism 20, the milling mechanism 30 and the cutting mechanism 40.

The traction assembly 52 comprises a screw rod transmission mechanism and a traction chuck, the traction chuck is arranged on the rack 10 in a sliding manner through the linear guide rail 521, the screw rod transmission mechanism is arranged on the rack 10 and is in driving connection with the traction pressure head, so that the traction pressure head can move in a reciprocating manner in the extending direction of the linear guide rail 521;

the extension direction of the linear guide rail 521 is parallel to the conveying direction of the conveying channel 51, the traction chuck can clamp the section or release the section, and the section is driven by the screw rod transmission mechanism to move towards the direction close to the cutting mechanism 40 or the release section moves towards the direction far away from the cutting mechanism 40.

The positioning and conveying mechanism 50 comprises a positioning state and a traction state, in the traction state, a traction chuck of the traction assembly 52 clamps the profile, the traction chuck is driven by the lead screw transmission mechanism to drive the traction chuck to drive the profile to be driven towards the conveying direction, at the moment, the positioning assembly 53 is separated from the profile, so that the profile can be driven by the traction assembly 52, in the positioning state, the traction chuck of the traction assembly 52 releases the profile, the profile is driven by the lead screw transmission mechanism to move and reset towards the opposite direction of the conveying direction, the positioning assembly 53 abuts against one side of the profile to press the profile against the abutting plate 54, so that the profile is fixed in the conveying channel 51 to facilitate drilling, milling and cutting, after the mechanism is machined, the positioning and conveying mechanism 50 enters the traction state again, and the subsequent unprocessed profile is conveyed to the corresponding machining station.

Further, the drawing member 52 and the positioning member 53 may be plural, and the plural drawing members 52 and the positioning member 53 are respectively provided on one side or both sides of the conveyance path 51 in the conveyance direction.

In order to avoid the influence of the chips generated in the drilling and milling processes on the processing environment, the frame 10 is further provided with dust removing assemblies 55 for removing the chips on the surface of the profile during the operation of the drilling mechanism 20 and the milling mechanism 30, in this example, two sets of dust removing assemblies 55 are correspondingly arranged on the processing area of the positioning and conveying mechanism 50 of the drilling mechanism 20 and the processing area of the positioning and conveying mechanism 50 of the milling mechanism 30 respectively;

the dust removing assembly 55 comprises a chip blocking cover frame 551 arranged on the periphery of the conveying channel 51 and used for blocking chips, and a chip extracting device 552 arranged on the lower portion of the chip blocking cover frame 551 and communicated with the interior of the chip blocking cover frame 551 and used for extracting the chips in the chip blocking cover frame 551.

An air knife 553 is also arranged in the chip blocking cover frame 551, and the air knife 553 is positioned above the conveying channel 51 and is used for blowing the chips on the surface of the section bar to the chip extracting device 552;

the air outlet of the air knife 553 is arranged towards the conveying channel 51, and the extension line of the air outlet of the air knife 553 and the conveying direction of the conveying channel 51 are intersected to form an included angle which is an acute angle, so that the situation that the air blown out from the air outlet of the air knife 553 is directly blown to the surface of the section to directly cut and eject the cutting scraps is avoided.

In this embodiment, the chip blocking cover frame 551 is disposed around the periphery of the conveying passage 51, specifically around the periphery of the processing areas of the drilling mechanism 20 and the milling mechanism 30, and two peripheries through which the conveying passage 51 passes are provided with notches for conveying the section material, and at the upper part and the side part thereof, specifically, at the positions corresponding to the positions of the first power head 21 and the second power head 31, openings for the drill bit and the milling cutter to extend into for processing are provided, and the size of the openings must meet the processing moving range of the drilling adjusting assembly 22 and the milling adjusting assembly 32.

In addition, an oil injection device is arranged in the chip blocking cover frame 551 corresponding to the drilling mechanism 20 and the milling mechanism 30, and the oil injection device is used for spraying cooling liquid on the processing area of the quasi-drilling bit and the milling cutter so as to reduce the processing temperature of the section.

Through the scheme, the drilling mechanism 20, the milling mechanism 30, the cutting mechanism 40 and the positioning and conveying mechanism 50 are controlled through the control system, so that the automation degree of the processing process of the curtain wall lock catch is higher, the rejection rate, the processing cost and the labor cost are reduced, and the production efficiency and the workpiece precision are improved.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. The utility model provides a curtain hasp automatic processing all-in-one which characterized in that:

the drilling machine comprises a rack, wherein a drilling mechanism, a milling mechanism, a cutting mechanism, a positioning and conveying mechanism and a control system which is respectively and electrically connected with the drilling mechanism, the milling mechanism, the cutting mechanism and the positioning and conveying mechanism are arranged on the rack;

the drilling mechanism is used for drilling holes in the profile to be machined, the milling mechanism is used for milling chamfers on the profile to be machined, and the cutting mechanism is used for cutting the profile machined by the drilling mechanism and the milling mechanism into sections in a fixed length manner; the positioning and conveying mechanism is provided with a conveying channel for the sectional material to pass through and is used for conveying the sectional material towards the cutting mechanism along the directions of the drilling mechanism and the milling mechanism and positioning the sectional material in the conveying channel when the drilling mechanism, the milling mechanism and the cutting mechanism work and process.

2. The curtain wall lock catch automatic processing all-in-one machine of claim 1, characterized in that: the drilling mechanism comprises a first power head, a drill bit for drilling on the section is arranged on the first power head, and the extension line of the first power head is perpendicular to the conveying direction of the positioning and conveying mechanism;

the drilling adjusting assembly is used for driving the first power head to reciprocate in the direction parallel to the conveying channel and perpendicular to the conveying channel and close to and far away from the conveying channel, and the drilling adjusting assembly is arranged on the rack and is connected with the first power head in a driving mode.

3. The curtain wall lock catch automatic processing all-in-one machine of claim 1, characterized in that: the milling mechanism comprises a second power head, a milling cutter for milling a section bar chamfer is arranged on the second power head, and the extension line of the second power head is perpendicular to the conveying direction of the positioning conveying mechanism;

the milling adjusting component is used for driving the second power head to reciprocate in the direction parallel to the conveying channel, perpendicular to the conveying channel and close to and far away from the conveying channel, and the milling adjusting component is arranged on the rack and connected with the second power head in a driving mode.

4. The curtain wall lock catch automatic processing all-in-one machine of claim 1, characterized in that: the cutting mechanism comprises a third power head, a saw blade for cutting the section is arranged on the third power head, and the extension line of the third power head is parallel to the conveying direction of the positioning and conveying mechanism;

the cutting adjusting assembly is used for driving the third power head to reciprocate in the direction close to and far away from the conveying channel, and the cutting adjusting assembly is arranged on the rack and is in driving connection with the third power head;

the cutting adjustment assembly has a first position and a second position; when the cutting adjusting assembly is in the first position, the saw blade and the conveying channel have an overlapped part in the conveying direction of the section bar, and when the cutting adjusting assembly is in the second position, the saw blade and the conveying channel are staggered in the conveying direction of the section bar; the cutting adjustment assembly is used for driving the third power head to reciprocate between a first position and a second position.

5. The curtain wall lock catch automatic processing all-in-one machine of claim 4, characterized in that: the cutting mechanism also comprises a dust cover, the dust cover is arranged at the periphery of the cutting mechanism, the cutting mechanism is arranged in a surrounding manner together with the rack, and a feeding hole and a discharging hole for the profile to enter and output are formed in two opposite sides of the dust cover; the discharge hole is covered with a hairbrush.

6. The curtain wall lock catch automatic processing all-in-one machine of claim 5, characterized in that: the dustproof cover is also provided with a material guide channel and a collecting box;

the material guide channel is arranged at the lower part of the opening edge of the material outlet and extends downwards from the direction of the material outlet to the direction far away from the cutting mechanism, and the collecting box is arranged at the lower part of the material guide channel.

7. The curtain wall lock catch automatic processing all-in-one machine of claim 1, characterized in that: the positioning and conveying mechanism comprises a traction assembly, a positioning assembly and a resisting plate, and the traction assembly, the positioning assembly and the resisting plate are respectively arranged on two opposite sides of the conveying channel;

the traction assembly is used for conveying the clamping section bar to the cutting mechanism from one end of the drilling mechanism and one end of the milling mechanism after the drilling mechanism, the milling mechanism and the cutting mechanism complete machining operation; the positioning assembly is used for pressing the section bar against the abutting plate to keep the section bar in a fixed state in the conveying channel in the processing operation process of the drilling mechanism, the milling mechanism and the cutting mechanism.

8. The curtain wall lock catch automatic processing all-in-one machine of claim 7, characterized in that: the traction assembly comprises a screw rod transmission mechanism and a traction chuck, the traction chuck is arranged on the rack in a sliding mode through a linear guide rail, and the screw rod transmission mechanism is arranged on the rack and is in driving connection with the traction pressure head so that the traction pressure head can move in a reciprocating mode in the extension direction of the linear guide rail;

the extension direction of the linear guide rail is parallel to the conveying direction of the conveying channel, the traction chuck can clamp or release the section, and the section is driven by the screw rod transmission mechanism to move towards the direction close to the cutting mechanism or move towards the direction far away from the cutting mechanism.

9. The curtain wall latch automatic processing all-in-one machine of any one of claims 1-8, characterized in that: the frame is also provided with a dust removal assembly for removing cuttings on the surface of the profile in the operation process of the drilling mechanism and the milling mechanism;

the dust removal assembly comprises a chip blocking cover frame arranged on the periphery of the conveying channel and used for blocking chips, and a chip pumping device arranged on the lower portion of the chip blocking cover frame and communicated with the interior of the chip blocking cover frame and used for pumping away the chips in the chip blocking cover frame.

10. The curtain wall latch automatic processing all-in-one machine of claim 9, characterized in that: an air knife is further arranged in the scrap blocking cover frame and is positioned above the conveying channel;

the air outlet of the air knife faces towards the conveying channel, an extension line of the air outlet of the air knife is intersected with the conveying direction of the conveying channel to form an included angle, and the included angle is an acute angle.

Images