CN114505683A - A steel mascerating machine is worn to intelligence for aluminium alloy processing - Google Patents

Abstract

The invention relates to the technical field of aluminum profile processing, in particular to an intelligent steel sheet penetrating machine for aluminum profile processing, which comprises a workbench, a steel sheet penetrating mechanism and an angle code penetrating mechanism, wherein the workbench is provided with a first moving mechanism and a second moving mechanism, the first moving mechanism is provided with two first moving parts, the second moving mechanism is provided with two second supporting parts, the steel sheet penetrating mechanism and the angle code penetrating mechanism are respectively arranged at two sides of a moving area of the first moving parts, the first moving part and the second moving part are provided with clamps, the steel sheet penetrating mechanism comprises a steel sheet box and a first pushing block, first lapse cylinder, second lapse cylinder and first finger cylinder, the steel sheet box is established in the both sides that first removal portion removed the region, and first material pushing block slides through first lapse cylinder and establishes the bottom at first material pushing block, and first finger cylinder is established on second lapse cylinder, and this device can be accurate peg graft the both ends at the aluminium alloy with steel sheet and angle sign indicating number.

Description

A steel mascerating machine is worn to intelligence for aluminium alloy processing

Technical Field

The invention relates to the technical field of aluminum profile processing, in particular to an intelligent steel sheet penetrating machine for aluminum profile processing.

Background

The aluminum profile is an alloy material taking aluminum as a main component, aluminum bars are hot-melted and extruded to obtain aluminum materials with different cross-sectional shapes, but the proportion of the added alloy is different, and the mechanical properties and the application fields of the produced industrial aluminum profiles are also different. In general, industrial aluminum profiles refer to all aluminum profiles except for aluminum profiles for building doors and windows, curtain walls, indoor and outdoor decoration, and building structures.

In the processing process of the aluminum profile door and window, gluing, steel sheet penetrating and corner code penetrating work needs to be carried out on the profile to be processed so that the two profiles are connected more firmly, and gluing, steel sheet penetrating and corner code penetrating are mainly carried out manually at present. The manual rubber coating of workman, wear the steel sheet and wear the angle sign indicating number, not only need consume a large amount of labours, make manufacturing cost greatly increased, operating stability is poor moreover, and product quality can not obtain guaranteeing, and simultaneously, workman intensity of labour is big, and work efficiency is low, and production cycle is long, has influenced the whole operation efficiency of enterprise.

Chinese patent CN201210487820.9 discloses an automatic rubber coating steel sheet penetrating and angle code penetrating device for processing aluminum profile doors and windows, which comprises a workbench, two support bases arranged in parallel are arranged on the workbench, a mobile support base is arranged at each end of the two support bases, two fixed support bases arranged at the inner sides of the two mobile support bases are arranged on each support base, a rubber coating mechanism is arranged at one side of the inclined side of each fixed support base, a steel sheet penetrating mechanism and two angle code penetrating mechanisms which are arranged at the outer side of the support base side by side are sequentially arranged between the mobile support base and the fixed support base at the same end of each support base, a mobile support base driving mechanism, a compression cylinder, a rubber coating mechanism, a steel sheet penetrating mechanism and an angle code penetrating mechanism are respectively connected with a control device.

The device is lower in steel sheet penetrating mode precision, and cannot adapt to different aluminum profile steel sheet penetrating operations.

Disclosure of Invention

Based on this, it is necessary to provide an intelligent steel sheet penetrating machine for aluminum profile machining, aiming at the problems in the prior art.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

an intelligent steel sheet penetrating machine for processing aluminum profiles comprises a workbench, a steel sheet penetrating mechanism and an angle code penetrating mechanism, wherein a first moving mechanism and a second moving mechanism are arranged on the workbench, the first moving mechanism is provided with two first moving parts capable of moving in opposite directions or in opposite directions, the second moving mechanism is provided with two second supporting parts capable of moving in opposite directions or in opposite directions, moving areas of the first moving part and the second moving part are horizontal and vertical, the steel sheet penetrating mechanism and the angle code penetrating mechanism are respectively arranged on two sides of the moving area of the first moving part, clamps for horizontally fixing aluminum profiles in a releasable manner are arranged on the first moving part and the second moving part, the steel sheet penetrating mechanism comprises a steel sheet box, a first pushing block, a first pushing cylinder, a second pushing cylinder and a first finger cylinder, the steel sheet box is arranged on two sides of the moving area of the first moving part, a containing cavity which penetrates through the steel sheets in the vertical direction and is used for stacking the steel sheets is arranged in the steel sheet box, the first material pushing block is arranged at the bottom end of the first material pushing block in a sliding mode through the first pushing cylinder, the first material pushing block moves towards the inclined end of the aluminum section and takes out the steel sheet at the bottommost end of the accommodating cavity, the working end of the second pushing cylinder faces towards the inclined end of the aluminum section and is arranged on one side of the steel sheet box, and the first finger cylinder is arranged at the working end of the second pushing cylinder and is used for clamping one corner of the steel sheet and inserting the other corner into the inclined end of the aluminum section.

Preferably, the corner brace passing mechanism comprises a corner brace box, a second pushing block, a third pushing cylinder, a fourth pushing cylinder and a second finger cylinder, the corner brace box is arranged on two sides of the moving area of the first moving part, a containing cavity which is penetrated along the vertical direction and used for stacking corner braces is arranged in the corner brace box, the second pushing block is arranged at the bottom end of the second pushing block in a sliding mode through the third pushing cylinder, the second pushing block moves towards the oblique end of the aluminum profile and takes out the corner brace at the bottom end of the containing cavity, the working end of the fourth pushing cylinder faces towards the oblique end of the aluminum profile and is arranged on one side of the corner brace box, and the second finger cylinder is arranged at the working end of the fourth pushing cylinder and used for clamping one corner brace and inserting another corner at the oblique end of the aluminum profile.

Preferably, the top end of the first pusher block is provided with a first groove that can accommodate a single steel sheet.

Preferably, wear steel sheet mechanism still includes first riser, and first riser setting is in the both sides of the removal region of first removal portion, and the work end of first riser is vertical upwards, and steel sheet box, first ejector pad, first lapse cylinder, second lapse cylinder and first finger cylinder all set up the work end at first riser.

Preferably, the top end of the second pusher block is provided with a second groove that can accommodate a single corner brace.

Preferably, the corner brace passing mechanism further comprises second lifters, the second lifters are arranged on two sides of the moving area of the first moving portion, the working ends of the second lifters are vertically upward, and the corner brace box, the second pushing block, the third pushing cylinder, the fourth pushing cylinder and the second finger cylinder are arranged at the working ends of the second lifters.

Preferably, still include second positioning mechanism, second positioning mechanism includes second broad finger cylinder and second arm board, and the second broad finger cylinder sets up in the bottom of the removal region of first removal portion along the horizontal direction, and the fixed two work ends that set up at the second broad finger cylinder of second arm board is provided with the second butt joint board that is used for butt aluminium alloy inclined end on the fixture on the second arm board.

Preferably, still include second positioning mechanism, second positioning mechanism includes sliding cylinder, first broad finger cylinder and first arm board, sliding cylinder sets up in the second removal portion, sliding cylinder's work end goes up and down along vertical direction, first broad finger cylinder sets up the work end at sliding cylinder along the horizontal direction, first arm board sets up the both ends at first broad finger cylinder along the horizontal direction, the other end of first arm board is provided with the first butt joint board of aluminium alloy inclined end on the butt fixture.

Preferably, the first moving mechanism comprises a suspension plate, a first guide rail, a first sliding plate and a first bidirectional screw rod, the suspension plate is horizontally suspended at the top of the workbench, the first guide rail is arranged on the suspension plate, the first guide rail extends along the length direction of the suspension plate, the two first sliding plates are arranged on the first guide rail in a sliding manner in opposite directions or in a back-to-back manner, the clamp is arranged on the first sliding plate, the bottom end of the first sliding plate is provided with a first internal thread lug extending along the sliding direction of the first sliding plate, the first bidirectional screw rod is rotatably arranged on the suspension plate, the two first internal thread lugs are screwed with the two sections of threads of the first bidirectional screw rod, and one end of the first bidirectional screw rod is provided with a motor for rotating the driver; the second moving mechanism comprises a second guide rail, a second sliding plate and a second bidirectional screw rod, the second guide rail is arranged on the workbench and is perpendicular to the first guide rail, the two second sliding plates are arranged on the second guide rail in an opposite or back sliding mode, the other clamping apparatus is arranged on the second sliding plate, a second internal thread lug extending along the sliding direction of the second sliding plate is arranged at the bottom end of the second sliding plate, the second bidirectional screw rod is rotatably arranged on the workbench, the two second internal thread lugs are screwed with the two sections of threads of the second bidirectional screw rod, and the other motor for driving the second bidirectional screw rod to rotate is arranged at one end of the second bidirectional screw rod.

Preferably, fixture includes fixed plate and butt cylinder, and the fixed one side that is used for the butt aluminium alloy that sets up in first removal portion and second removal portion of fixed plate, and the butt cylinder setting is used for the opposite side of butt aluminium alloy on first removal portion and second removal portion.

Compared with the prior art, the beneficial effect of this application is:

1. the aluminum profile frame is characterized in that an aluminum profile with an end part cut into an inclined plane is fixed on a first moving part and a second moving part through a fixture, the first moving mechanism drives the inclined end of the aluminum profile to pass through a steel sheet penetrating mechanism and an angle code penetrating mechanism, the steel sheet penetrating mechanism and the angle code penetrating mechanism are used for inserting the steel sheet and the angle code penetrating mechanism into the inclined end of the aluminum profile, the first moving mechanism and the second moving mechanism drive the aluminum profile to be close to form a frame, and in the moving process, the inclined ends of the adjacent aluminum profiles on the first moving part and the second moving part are mutually butted through the steel sheet and the angle code, so that the automatic processing of the aluminum profile frame is completed;

2. according to the corner connection box, one corner of the lowermost end of the corner connection box can be inserted into the inclined end of an aluminum section through the second pushing block, the third pushing cylinder, the fourth pushing cylinder and the second finger cylinder;

3. according to the steel sheet pushing device, the first lifters are arranged on two sides of the moving area of the first moving part, and when the heights of the steel sheets of the steel sheet box, the first material pushing block, the first pushing cylinder, the second pushing cylinder and the first finger cylinder need to be adjusted, the first lifters are started to adapt to production;

4. according to the steel sheet pushing device, the second lifters are arranged on two sides of the moving area of the first moving part, and when the heights of the steel sheets of the angle stacking box, the second pushing block, the third pushing cylinder, the fourth pushing cylinder and the second finger cylinder need to be adjusted, the second lifters are started to adapt to production;

5. the aluminum profile is limited when the clamping device clamps the aluminum profile through the first positioning mechanism, the aluminum profile is placed on the first moving part, and the clamping device and the second wide finger cylinder are started, so that the second butt plates on the two second arm plates move oppositely to clamp two ends of the aluminum profile until the clamping device fixes the aluminum profile on the first moving part;

6. the aluminum profile is limited in the radial direction when the clamping apparatus clamps the aluminum profile through the second positioning mechanism, so that the aluminum profile is in butt joint with the aluminum profile on the first moving part;

7. this application is through with fixed plate fixed setting on first removal portion and second removal portion, places the aluminium alloy between the work end of fixed plate and butt cylinder, starts the butt cylinder, makes its work end can the butt one side of aluminium alloy and with its butt on the fixed plate to the completion is fixed to the aluminium alloy, prevents when wearing the steel sheet and wearing the angle sign indicating number, and the aluminium alloy removes.

Drawings

FIG. 1 is a perspective view of a steel piercing machine of the present application from a first perspective;

FIG. 2 is a top view of a steel piercing machine of the present application;

FIG. 3 is a perspective view of a first and second movement mechanism of the present application;

FIG. 4 is a perspective view of the blade passing mechanism of the present application;

FIG. 5 is a top view of the blade passing mechanism of the present application;

FIG. 6 is a partial perspective view of the blade passing mechanism of the present application;

FIG. 7 is a perspective view of the corner brace apparatus of the present application;

FIG. 8 is a partial perspective view of the corner brace apparatus of the present application;

FIG. 9 is a top view of the corner brace apparatus of the present application;

FIG. 10 is a perspective view of a blade threading machine of the present application from a second perspective;

FIG. 11 is a perspective view of an aluminum alloy, steel sheet and corner brace.

The reference numbers in the figures are:

1-a workbench; 2-a first movement mechanism; 2 a-a suspension plate; 2 b-a first guide rail; 2 c-a first sliding plate; 2c1 — first internally threaded ear; 2 d-a first bidirectional screw; 3-a second moving mechanism; 3 a-a second guide rail; 3 b-a second sliding plate; 3b 1-second internally threaded lug; 3 c-a second bidirectional screw; 4-a fixture; 4 a-a fixed plate; 4 b-an abutment cylinder; 5-a steel sheet penetrating mechanism; 5 a-a steel sheet box; 5 b-a first pusher block; 5b1 — first groove; 5 c-a first push cylinder; 5 d-a second pushing cylinder; 5 e-first finger cylinder; 5 f-a first riser; 6-corner-penetrating stacking mechanism; 6 a-corner box; 6 b-a second pusher block; 6b1 — second groove; 6 c-a third pushing cylinder; 6 d-a fourth pushing cylinder; 6 e-a second finger cylinder; 6 f-a second riser; 7 a-a second broad finger cylinder; 7 b-a second armplate; 7b 1-second abutment plate; 8 a-a sliding cylinder; 8 b-a first wide finger cylinder; 8 c-a first armplate; 8c1 — first abutment plate; 9-structure; 9 a-aluminum profile; 9 b-corner connector; 9 c-steel sheet.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-11, the present application provides:

an intelligent steel sheet penetrating machine for processing aluminum profiles comprises a workbench 1, a steel sheet penetrating mechanism 5 and an angle code penetrating mechanism 6, wherein a first moving mechanism 2 and a second moving mechanism 3 are arranged on the workbench 1, the first moving mechanism 2 is provided with two first moving parts capable of moving in opposite directions or in opposite directions, the second moving mechanism 3 is provided with two second supporting parts capable of moving in opposite directions or in opposite directions, moving areas of the first moving parts and the second moving parts are horizontal and vertical, the steel sheet penetrating mechanism 5 and the angle code penetrating mechanism 6 are respectively arranged on two sides of the moving area of the first moving parts, clamps 4 for horizontally fixing aluminum profiles in a releasable manner are arranged on the first moving parts and the second moving parts, the steel sheet penetrating mechanism 5 comprises a steel sheet box 5a, a first pushing block 5b, a first pushing cylinder 5c, a second pushing cylinder 5d and a first finger cylinder 5e, the steel sheet box 5a is arranged on two sides of the moving area of the first moving parts, be provided with in the steel sheet box 5a and link up and be used for piling up the chamber that holds of steel sheet along vertical direction, first material pushing block 5b slides through first lapse cylinder 5c and sets up in the bottom of first material pushing block 5b, first material pushing block 5b removes and takes out the steel sheet that holds the chamber bottom to the tip of aluminium alloy, the working end that the cylinder 5d was passed to the second is towards the tip of aluminium alloy and sets up in one side of steel sheet box 5a, first finger cylinder 5e sets up the tip that is used for the centre gripping steel sheet and pegs graft another angle at the aluminium alloy on the working end that cylinder 5d was passed to the second.

Based on the above embodiments, the technical problem that the present application intends to solve is how to automatically insert and connect the steel sheet and the corner connector to the oblique ends of the two aluminum profiles to form a frame-shaped structure. Therefore, the aluminum profile with the end cut into the inclined plane is fixed on the first moving part and the second moving part through the fixture 4, the first moving mechanism 2 drives the inclined end of the aluminum profile to pass through the steel sheet penetrating mechanism 5 and the angle code penetrating mechanism 6, the steel sheet penetrating mechanism 5 and the angle code penetrating mechanism 6 are used for inserting the steel sheet and the angle code penetrating mechanism 6 into the inclined end of the aluminum profile, the first moving mechanism 2 and the second moving mechanism 3 drive the aluminum profile to be close to form a frame, and in the moving process, the inclined ends of the adjacent aluminum profiles on the first moving part and the second moving part are mutually butted through the steel sheet and the angle code, so that the automatic processing of the aluminum profile frame is completed;

the concrete connecting structure comprises an aluminum profile 9a, an angle code 9b and a steel sheet 9 c;

the workbench 1 is used for arranging a first moving mechanism 2, a second moving mechanism 3, a fixture 4, a steel sheet penetrating mechanism 5 and an angle code penetrating mechanism 6; the aluminum profile is cut to form an inclined end, and the inclined end of the aluminum profile is provided with a groove for inserting a steel sheet and a hole for inserting an angle code;

when the first moving mechanism 2 is started, the aluminum profiles on the two first moving parts move in opposite directions, so that the inclined end of the aluminum profile on the first moving part passes through the steel sheet penetrating mechanism 5, when the inclined end of the aluminum profile moves through the installation area of the steel sheet penetrating mechanism 5, the first pushing cylinder 5c is started, so that the first pushing block 5b moves in the horizontal direction at the bottom end of the steel sheet box 5a, meanwhile, the steel sheet at the bottommost end in the steel sheet box 5a is taken, one corner of the steel sheet moves into the clamping claw of the first finger cylinder 5e, the first finger cylinder 5e is started, so that the first finger cylinder 5e clamps one corner of the first finger cylinder 5e, then the second pushing cylinder 5d is started, so that the other corner of the steel sheet is inserted into the inclined end of the aluminum profile in the clamped state, then the first finger cylinder 5e releases the steel sheet, and the working ends of the first pushing cylinder 5c and the second pushing cylinder 5d reset, finishing the installation of the steel sheet;

when the first moving part drives the inclined end of the aluminum profile passing through the steel sheet passing through to pass through the angle code passing mechanism 6, the angle code is inserted on the inclined end of the aluminum profile by the angle code passing mechanism 6;

the aluminum profiles on the two first moving parts move oppositely until the inclined end of the aluminum profile on the first moving part abuts against the inclined end of the aluminum profile on the second moving part, and meanwhile, the steel sheet of the inclined end of the aluminum profile on the first moving part and the other angle of the angle code are inserted into the inclined end of the aluminum profile on the second moving part, so that the steel sheet penetrating and connecting operation of the aluminum profiles is completed.

As shown in fig. 7-9, further:

the corner brace passing mechanism 6 comprises a corner brace box 6a, a second pushing block 6b, a third pushing cylinder 6c, a fourth pushing cylinder 6d and a second finger cylinder 6e, the corner brace box 6a is arranged on two sides of a moving area of a first moving part, a containing cavity which is through in the vertical direction and used for stacking corner braces is arranged in the corner brace box 6a, the second pushing block 6b is arranged at the bottom end of the second pushing block 6b in a sliding mode through the third pushing cylinder 6c, the second pushing block 6b moves towards the inclined end of the aluminum profile and takes out the corner brace at the bottommost end of the containing cavity, the working end of the fourth pushing cylinder 6d faces towards the inclined end of the aluminum profile and is arranged on one side of the corner brace box 6a, and the second finger cylinder 6e is arranged at the working end of the fourth pushing cylinder 6d and used for clamping one corner brace and inserting the other corner at the inclined end of the aluminum profile.

Based on the above embodiments, the technical problem that the present application intends to solve is how to insert the corner connector into the oblique end of the aluminum profile by the corner connector penetrating mechanism 6. Therefore, a stirring corner at the bottommost end in the corner box 6a can be inserted into the inclined end of the aluminum profile through the second pushing block 6b, the third pushing cylinder 6c, the fourth pushing cylinder 6d and the second finger cylinder 6 e;

specifically, when the third pushing cylinder 6c is activated, the sliding fourth pushing cylinder 6d can send out the corner brace at the bottom end of the corner brace box 6a, and one corner of the corner brace is located in the clamping area of the second finger cylinder 6e, the second finger cylinder 6e is activated, so that the second finger cylinder 6e clamps one corner of the corner brace, the fourth pushing cylinder 6d is activated to drive the second finger cylinder 6e clamping the corner brace to move towards the oblique end of the aluminum profile, so that the other corner of the clamped corner brace is inserted into the oblique end of the aluminum profile, then the second finger cylinder 6e releases the corner brace, the third pushing cylinder 6c and the fourth pushing cylinder 6d are reset, and the corner brace at the bottom end of the corner brace box 6a falls on the second pushing block 6b again, so that continuous assembly is facilitated.

As shown in fig. 6, further:

the top end of the first pusher block 5b is provided with a first groove 5b1 that can accommodate a single piece of steel.

Based on the above-described embodiment, the technical problem that the present application intends to solve is how the first pusher block 5b takes the steel piece at the lowermost end in the magazine 5a while sliding. For this purpose, the first groove 5b1 is formed in the top end of the first pushing block 5b, when the first groove 5b1 is located at the bottom end of the steel sheet box 5a, the steel sheet in the steel sheet box 5a falls into the first groove 5b1, and when the first pushing block 5b slides, the steel sheet falling into the first groove 5b1 is separated from the bottom end of the steel sheet box 5a under the abutting action of the side edge of the first groove 5b1, so that the first finger cylinder 5e clamps and is inserted into the oblique end of the aluminum profile.

As shown in fig. 4, further:

the steel sheet penetrating mechanism 5 further comprises a first lifter 5f, the first lifter 5f is arranged on two sides of a moving area of the first moving portion, the working end of the first lifter 5f is vertically upward, and the steel sheet box 5a, the first pushing block 5b, the first pushing cylinder 5c, the second pushing cylinder 5d and the first finger cylinder 5e are all arranged at the working end of the first lifter 5 f.

Based on the above embodiments, the technical problem that the present application intends to solve is how to insert steel sheets into aluminum profiles of different heights. Therefore, the first lifters 5f are arranged on two sides of the moving area of the first moving part, and when the heights of the steel sheet box 5a, the first pushing block 5b, the first pushing cylinder 5c, the second pushing cylinder 5d and the first finger cylinder 5e need to be adjusted, the first lifters 5f are started to adapt to production.

As shown in fig. 8, further:

the top end of the second pusher block 6b is provided with a second groove 6b1 that can accommodate a single corner brace.

Based on the above embodiment, the technical problem that the present application intends to solve is how to bring the corner brace at the bottom end of the corner brace box 6a when the second material pushing block 6b moves. For this purpose, the second groove 6b1 is formed in the top end of the second pushing block 6b, when the second groove 6b1 is located at the bottom end of the corner box 6a, the corner brace in the corner box 6a falls in the second groove 6b1, and when the second pushing block 6b slides, the corner brace falling in the second groove 6b1 is separated from the bottom end of the corner box 6a under the abutting action of the side edge of the second groove 6b1, so that the corner brace is clamped and connected to the oblique end of the aluminum profile by the second finger cylinder 6 e.

As shown in fig. 7 and 8, further:

the corner brace passing mechanism 6 further comprises a second lifter 6f, the second lifter 6f is arranged on two sides of the moving area of the first moving portion, the working end of the second lifter 6f faces upwards vertically, and the corner brace box 6a, the second pushing block 6b, the third pushing cylinder 6c, the fourth pushing cylinder 6d and the second finger cylinder 6e are all arranged at the working end of the second lifter 6 f.

Based on the above embodiments, the technical problem that the present application intends to solve is how to plug the corner connectors into the aluminum profiles with different heights. For this reason, this application is through setting up second riser 6f in the both sides of the removal region of first removal portion, when the wearing steel sheet height of needs adjustment angle sign indicating number box 6a, second ejector pad 6b, third pushing cylinder 6c, fourth pushing cylinder 6d and second finger cylinder 6e, starts second riser 6f to adapt to production.

As shown in fig. 10, further:

still include second positioning mechanism, second positioning mechanism includes second broad finger cylinder 7a and second arm board 7b, and second broad finger cylinder 7a sets up in the bottom of the removal region of first removal portion along the horizontal direction, and second arm board 7b is fixed to be set up at two work ends of second broad finger cylinder 7a, is provided with second butt joint board 7b1 that is used for butt joint aluminium alloy inclined end on fixture 4 on the second arm board 7 b.

Based on the above embodiments, the technical problem that the present application intends to solve is how to limit the position of the aluminum profile on the first moving mechanism so that the two steel sheet penetrating mechanisms 5 can simultaneously butt the steel sheets. For this reason, this application carries on spacingly through first positioning mechanism to it when fixture 4 centre gripping aluminium alloy, places the aluminium alloy in first removal portion, starts fixture 4 and the wide finger cylinder 7a of second for second butt joint board 7b1 on two second arm boards 7b moves the both ends with the centre gripping aluminium alloy in opposite directions, fixes the aluminium alloy on first removal portion until fixture 4.

As shown in fig. 10, further:

still include second positioning mechanism, second positioning mechanism includes sliding cylinder 8a, first broad finger cylinder 8b and first arm board 8c, sliding cylinder 8a sets up in the second removal portion, sliding cylinder 8 a's work end goes up and down along vertical direction, first broad finger cylinder 8b sets up the work end at sliding cylinder 8a along the horizontal direction, first arm board 8c sets up the both ends at first broad finger cylinder 8b along the horizontal direction, the other end of first arm board 8c is provided with the first butt joint board 8c1 of aluminium alloy slant end on the butt fixture 4.

Based on the above embodiments, the technical problem that the present application intends to solve is how to limit the position of the aluminum profile on the second moving mechanism so as to be butted against the aluminum profile on the first moving mechanism. For this reason, this application is radial spacing to it when fixture 4 centre gripping aluminium alloy through second positioning mechanism, place the aluminium alloy in the second removal portion, start fixture 4 and first broad finger cylinder 8b, make the both ends of first butt joint board 8c1 on two first arm boards 8c remove with the centre gripping aluminium alloy in opposite directions, brake fixture 4 fixes the aluminium alloy on the second removal portion, accomplish spacing back, start sliding cylinder 8a, make first broad finger cylinder 8b and first arm board 8c descend in order to dodge the both ends of aluminium alloy, so that dock with the aluminium alloy on the first removal portion.

As shown in fig. 3, further:

the first moving mechanism 2 comprises a suspension plate 2a, a first guide rail 2b, a first sliding plate 2c and a first bidirectional screw rod 2d, the suspension plate 2a is horizontally suspended at the top of the workbench 1, the first guide rail 2b is arranged on the suspension plate 2a, the first guide rail 2b extends along the length direction of the suspension plate 2a, the two first sliding plates 2c are arranged on the first guide rail 2b in a sliding manner in opposite directions or in a back-to-back direction, a clamp 4 is arranged on the first sliding plate 2c, the bottom end of the first sliding plate 2c is provided with a first internal thread lug 2c1 extending along the sliding direction of the first sliding plate, the first bidirectional screw rod 2d is rotatably arranged on the suspension plate 2a, the two first internal thread lugs 2c1 are screwed with the two sections of threads of the first bidirectional screw rod 2d, and one end of the first bidirectional screw rod 2d is provided with a motor for rotating a driver;

the second moving mechanism 3 comprises a second guide rail 3a, a second sliding plate 3b and a second bidirectional screw rod 3c, the second guide rail 3a is arranged on the workbench 1 and is perpendicular to the first guide rail 2b, the two second sliding plates 3b are arranged on the second guide rail 3a in a sliding manner in an opposite or back direction, another fixture 4 is arranged on the second sliding plate 3b, a second internal thread lug 3b1 extending along the sliding direction is arranged at the bottom end of the second sliding plate 3b, the second bidirectional screw rod 3c is rotatably arranged on the workbench 1, the two second internal thread lugs 3b1 are screwed with two sections of threads of the second bidirectional screw rod 3c, and another motor for rotating a driver is arranged at one end of the second bidirectional screw rod 3 c.

Based on the above embodiments, the technical problem that the present application intends to solve is how to drive the aluminum profiles to move synchronously by the first moving mechanism 2 and the second moving mechanism 3. For this purpose, the present application enables the first bidirectional screw rod 2d to rotate on the suspension plate 2a by starting the motor connected with the first bidirectional screw rod 2d, and the two first internal thread lugs 2c1 are screwed with the first bidirectional screw rod 2d, so that the aluminum profiles on the two first sliding plates 2c move towards or away from each other on the first guide rail 2b, and the aluminum profile on the first sliding plate 2c can be butted with the aluminum profile on the second moving part;

by actuating the connection with the second two-way screw rod 3c, the second two-way screw rod 3c rotates on the workbench 1, and the two second inner threaded lugs 3b1 are screwed with the second two-way screw rod 3c, so that the aluminum profiles on the two second sliding plates 3b move towards or away from each other on the second guide rail 3a, and the aluminum profiles on the second sliding plates 3b can be butted against the aluminum profiles on the first moving part.

As shown in fig. 3, further:

fixture 4 includes fixed plate 4a and butt cylinder 4b, and fixed plate 4a is fixed to be set up on first removal portion and second removal portion for the one side of butt aluminium alloy, and butt cylinder 4b sets up on first removal portion and second removal portion for the opposite side of butt aluminium alloy.

Based on the above-described embodiments, the technical problem that the present application intends to solve is how the clamps 4 releasably fix the aluminum profile on the first and second moving parts. For this reason, this application is through fixed the setting on first removal portion and second removal portion with fixed plate 4a, places the aluminium alloy between fixed plate 4a and butt cylinder 4 b's work end, starts butt cylinder 4b, makes its work end can the butt one side of aluminium alloy and with its butt on fixed plate 4a to the completion is to the fixed of aluminium alloy, prevents when wearing the steel sheet and wearing the angle sign indicating number, and the aluminium alloy removes.

This application is fixed on first removal portion and second removal portion through fixture 4 with the aluminium alloy that the tip cut into the inclined plane, first moving mechanism 2 drives the oblique end of aluminium alloy again through wearing steel sheet mechanism 5 and wearing angle sign indicating number mechanism 6, peg graft the oblique end at the aluminium alloy with steel sheet and wearing angle sign indicating number mechanism 6 by wearing steel sheet mechanism 5 and wearing angle sign indicating number mechanism 6, first moving mechanism 2 and second moving mechanism 3 drive the aluminium alloy and are close to in order to become the frame, at the removal in-process, the oblique end of adjacent aluminium alloy passes through steel sheet and the mutual butt joint of angle sign indicating number in first removal portion and the second removal portion, in order to accomplish the automatic processing of aluminium alloy frame.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an intelligence steel sheet penetrating machine for aluminium alloy processing, including workstation (1), steel sheet penetrating mechanism (5) and angle sign indicating number mechanism (6), be provided with first moving mechanism (2) and second moving mechanism (3) on workstation (1), first moving mechanism (2) have two first moving parts that can move in opposite directions or dorsad, second moving mechanism (3) have two second supporting parts that can move in opposite directions or dorsad, the removal region level of first moving part and second moving part is perpendicular, steel sheet penetrating mechanism (5) and angle sign indicating number mechanism (6) set up respectively in the both sides of first moving part moving region, its characterized in that, be provided with fixture (4) of horizontal fixation aluminium alloy with releasable mode on first moving part and the second moving part, penetrating mechanism (5) include steel sheet box (5a), first pushing block (5b), First lapse cylinder (5c), second lapse cylinder (5d) and first finger cylinder (5e), steel sheet box (5a) set up in the both sides that the first removal portion removed the region, be provided with in steel sheet box (5a) and link up and be used for piling up the chamber that holds of steel sheet along vertical direction, first material pushing block (5b) slide through first lapse cylinder (5c) and set up the bottom in first material pushing block (5b), first material pushing block (5b) move and take out the steel sheet that holds the chamber bottommost to the tip of aluminium alloy, the working end of second lapse cylinder (5d) is towards the tip of aluminium alloy and is set up in one side of steel sheet box (5a), first finger cylinder (5e) set up and be used for the one corner of centre gripping steel sheet and peg graft the tip of another corner at the aluminium alloy on the working end of second lapse cylinder (5 d).

2. The intelligent steel sheet penetrating machine for aluminum profile processing as claimed in claim 1, wherein the corner brace penetrating mechanism (6) comprises a corner brace box (6a), a second pushing block (6b), a third pushing cylinder (6c), a fourth pushing cylinder (6d) and a second finger cylinder (6e), the corner brace box (6a) is arranged on two sides of the moving area of the first moving part, a containing cavity which penetrates through the corner brace box (6a) in the vertical direction and is used for stacking the corner brace is arranged in the corner brace box (6a), the second pushing block (6b) is arranged at the bottom end of the second pushing block (6b) in a sliding mode through the third pushing cylinder (6c), the second pushing block (6b) moves towards the oblique end of the aluminum profile and takes out the corner brace at the bottom end of the containing cavity, the working end of the fourth pushing cylinder (6d) faces towards the oblique end of the aluminum profile and is arranged on one side of the corner brace box (6a), and the second finger cylinder (6e) is arranged at the working end of the fourth pushing cylinder (6d) and is used for clamping the corner brace box (6a) One corner of the code is inserted into the inclined end of the aluminum profile.

3. An intelligent steel sheet threading machine for aluminum profile processing as claimed in claim 1 or 2, characterized in that the top end of the first pusher block (5b) is provided with a first groove (5b1) capable of accommodating a single steel sheet.

4. The intelligent steel sheet penetrating machine for aluminum profile machining is characterized in that the steel sheet penetrating mechanism (5) further comprises first lifters (5f), the first lifters (5f) are arranged on two sides of a moving area of the first moving portion, a working end of each first lifter (5f) faces upwards vertically, and a steel sheet box (5a), a first pushing block (5b), a first pushing cylinder (5c), a second pushing cylinder (5d) and a first finger cylinder (5e) are arranged at the working end of each first lifter (5 f).

5. The intelligent steel threading machine for aluminum profile processing as recited in claim 2, characterized in that the top end of the second pusher block (6b) is provided with a second groove (6b1) capable of accommodating a single corner brace.

6. The intelligent steel sheet penetrating machine for aluminum profile machining is characterized in that the angle-penetrating mechanism (6) further comprises a second lifter (6f), the second lifter (6f) is arranged on two sides of a moving area of the first moving portion, a working end of the second lifter (6f) faces upwards vertically, and the angle-penetrating box (6a), the second pushing block (6b), the third pushing cylinder (6c), the fourth pushing cylinder (6d) and the second finger cylinder (6e) are arranged at a working end of the second lifter (6 f).

7. The intelligent steel sheet penetrating machine for aluminum profile machining is characterized by further comprising a second positioning mechanism, wherein the second positioning mechanism comprises a second wide finger cylinder (7a) and a second arm plate (7b), the second wide finger cylinder (7a) is arranged at the bottom of the moving area of the first moving part in the horizontal direction, the second arm plate (7b) is fixedly arranged at two working ends of the second wide finger cylinder (7a), and a second abutting plate (7b1) used for abutting the inclined end of the aluminum profile on the fixture (4) is arranged on the second arm plate (7 b).

8. The intelligent steel sheet penetrating machine for aluminum profile machining is characterized by further comprising a second positioning mechanism, the second positioning mechanism comprises a sliding cylinder (8a), a first wide finger cylinder (8b) and a first arm plate (8c), the sliding cylinder (8a) is arranged at the second moving portion, the working end of the sliding cylinder (8a) is lifted along the vertical direction, the first wide finger cylinder (8b) is arranged at the working end of the sliding cylinder (8a) along the horizontal direction, the first arm plate (8c) is arranged at two ends of the first wide finger cylinder (8b) along the horizontal direction, and a first abutting plate (8c1) abutting against the inclined end of an aluminum profile on a fixture (4) is arranged at the other end of the first arm plate (8 c).

9. The intelligent steel sheet penetrating machine for aluminum profile processing according to claim 1, wherein the first moving mechanism (2) comprises a suspension plate (2a), a first guide rail (2b), a first sliding plate (2c) and a first bidirectional screw rod (2d), the suspension plate (2a) is horizontally suspended at the top of the workbench (1), the first guide rail (2b) is arranged on the suspension plate (2a), the first guide rail (2b) extends along the length direction of the suspension plate (2a), the two first sliding plates (2c) are arranged on the first guide rail (2b) in a sliding manner in a way of being opposite to or opposite to each other, a clamp (4) is arranged on the first sliding plate (2c), the bottom end of the first sliding plate (2c) is provided with a first internal thread lug (2c1) extending along the sliding direction of the first sliding plate, the first bidirectional screw rod (2d) is rotatably arranged on the suspension plate (2a), and the two first internal threads (2c1) are screwed with two sections of the first bidirectional screw rod (2d), one end of the first bidirectional screw rod (2d) is provided with a motor for driving a driver to rotate;

the second moving mechanism (3) comprises a second guide rail (3a), a second sliding plate (3b) and a second bidirectional screw rod (3c), the second guide rail (3a) is arranged on the workbench (1) and is perpendicular to the first guide rail (2b), the two second sliding plates (3b) are arranged on the second guide rail (3a) in a sliding mode in an opposite or back direction, another fixture (4) is arranged on the second sliding plate (3b), a second internal thread lug (3b1) extending along the sliding direction of the second sliding plate is arranged at the bottom end of the second sliding plate (3b), the second bidirectional screw rod (3c) is rotatably arranged on the workbench (1), the two second internal thread lugs (3b1) are screwed with the two sections of threads of the second bidirectional screw rod (3c), and another motor for rotating of a driver is arranged at one end of the second bidirectional screw rod (3 c).

10. The intelligent steel sheet penetrating machine for aluminum profile machining is characterized in that the clamp (4) comprises a fixing plate (4a) and an abutting air cylinder (4b), the fixing plate (4a) is fixedly arranged on the first moving portion and the second moving portion and used for abutting against one side of the aluminum profile, and the abutting air cylinder (4b) is arranged on the first moving portion and the second moving portion and used for abutting against the other side of the aluminum profile.

Images