CN220497503U - Full-automatic aluminum strip bending equipment - Google Patents

Abstract

The utility model relates to full-automatic aluminum strip bending equipment. The aluminum strip bending device solves the problem that in the prior art, the use flexibility of the aluminum strip bending device is poor. The automatic material bending machine comprises a material conveying pedestal, wherein a material positioning conveying groove is formed in the material conveying pedestal, a bending pedestal is arranged at one end of the material conveying pedestal, an automatic conveying belt which is located on the same axis with the material positioning conveying groove is arranged on the bending pedestal, a blanking gap is formed between the bending pedestal and the material conveying pedestal, an adjusting type edging mechanism which is symmetrically arranged is arranged between the bending pedestal and the material conveying pedestal and at the blanking gap, a material pressing assembly which stretches across the automatic conveying belt is arranged on the bending pedestal, and a movable bending mechanism is arranged at one end of the automatic conveying belt, which is far away from the material conveying pedestal. The utility model has the advantages that: the operation is convenient and flexible.

Description

Full-automatic aluminum strip bending equipment

Technical Field

The utility model relates to the technical field of mechanical equipment, in particular to full-automatic aluminum strip bending equipment.

Background

The hollow glass is a glass sheet group with heat insulation and sound insulation glass performance, which is manufactured by bonding glass sheets and an aluminum frame containing a drying agent by using a high-air-tightness composite adhesive, wherein the aluminum frame is formed by bending aluminum strips according to the shape and the size of glass, the aluminum frame is formed by adopting an aluminum strip bending machine, and the aluminum strip automatic bending machine can complete plastic deformation of the aluminum strips under the condition of multiple constraint. However, when the existing aluminum strips are actually processed, the aluminum strips are manually held by hands and fed into a bending device to be bent, and then the aluminum strips are cut by the cutting device after being bent into a frame, and as a large amount of aluminum scraps are generated when the aluminum strips are cut and splashed on a workbench, if the aluminum scraps are not cleaned in time, the environment in a workshop can be polluted, so that people can easily inhale fine aluminum scraps into nasal cavities during operation and processing, and if the aluminum scraps are inhaled for a long time, dust and lung can be caused, and the health of the people is endangered; in addition, the existing aluminum strip bending equipment is difficult to bend and polish according to needs, and the use flexibility is poor.

In order to solve the defects existing in the prior art, long-term exploration is performed, and various solutions are proposed. For example, chinese patent literature discloses a hollow glass aluminum strip bender [ CN202020889342.4], it includes the support of installing on the workstation, is equipped with on the support to blow in the recess with the sweeps in the sweeps piece, is equipped with on the support and is used for covering the fender bits that establishes cylinder and first motor, is equipped with the cavity that is linked together with the recess in the workstation, and the tank bottom wall equipartition of recess is equipped with a plurality of chip removal holes, is equipped with the negative pressure chip removal piece that is used for collecting the sweeps in the cavity.

The above-mentioned scheme has solved the aluminium bits that equipment cutting was buckled to aluminium strip in the prior art to a certain extent and is difficult to the clearance, causes the problem of injury to the health of processing personnel easily, but this scheme still has a great deal of shortages, for example: bending and polishing are difficult to carry out according to the needs, and the use flexibility is poor.

Disclosure of Invention

The utility model aims to solve the problems and provides full-automatic aluminum strip bending equipment.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a full-automatic aluminum strip equipment of bending, including the material conveying pedestal, be equipped with the material location conveyer trough on the material conveying pedestal, and material conveying pedestal one end is equipped with the pedestal of bending, be equipped with the automatic conveyer belt that is located the same axis with the material location conveyer trough on the pedestal of bending, and be equipped with blanking clearance between the pedestal of bending and the material conveying pedestal, the pedestal of bending and material conveying pedestal between and lie in blanking clearance department and be equipped with the regulation formula edging mechanism that is the symmetry and set up, be equipped with on the pedestal of bending and span the material on automatic conveyer belt and compress tightly the subassembly, and the one end that the pedestal was carried to the material is kept away from to the automatic conveyer belt is equipped with movable bending mechanism.

Through set up regulation formula edging mechanism between material transportation pedestal and the pedestal of bending, utilize regulation formula edging mechanism can carry out nimble polishing according to the specification size of aluminium strip, ensure the thickness of aluminium strip, the position of polishing is selected in a flexible way, secondly, can confirm bending angle and length in a flexible way through movable formula bending mechanism, it is more nimble convenient to use.

In the above-mentioned full-automatic aluminum strip equipment of bending, adjusting type edging mechanism includes driving motor, and driving motor passes through the lift setting at the material and carries the pedestal and bend the motor frame location of pedestal one side, and driving motor's output has edging cutter through output shaft, is equipped with lift formula adjusting part on the output shaft.

In the above-mentioned full-automatic aluminum strip equipment of bending, over-and-under type adjusting part is including the cover setting up the epaxial jar that shakes that ends circumference inboard is equipped with positioning bearing, and foretell output shaft wears to establish at positioning bearing inner circle, and the jar upper end that shakes is connected with the linkage horizontal pole through connecting screw, and the linkage horizontal pole both ends set up respectively on bending pedestal and material conveying pedestal through the lifter.

The position of the polishing cutter can be adjusted through the lifting adjusting assembly, so that the polishing height position of the aluminum strip is adjusted.

In the above-mentioned full-automatic aluminum strip equipment of bending, movable bending mechanism is including setting up the actuating cylinder at the pedestal one side up end of bending, actuating cylinder passes through actuating cylinder support slide positioning on the pedestal of bending, and pedestal one side of bending is equipped with the slip adjustment groove that is used for sliding adjustment actuating cylinder support position thereby adjusts actuating cylinder position, actuating cylinder output is equipped with the portion of bending that is used for bending the material, the pedestal opposite side of bending is equipped with the roof pressure structure with actuating cylinder dislocation set, it is the bulldozing subassembly that sets up perpendicularly with roof pressure structure that is equipped with on the pedestal of bending.

The bending part on the driving mechanism is utilized to bend the aluminum strip, and the bending position can be slidably adjusted according to the requirement.

In the full-automatic aluminum strip bending equipment, the jacking structure comprises a jacking cylinder, the jacking cylinder is positioned by sliding a jacking cylinder support arranged on one side of the bending pedestal, and the output end of the jacking cylinder is connected with a jacking part for jacking and positioning the inner wall of the material bending part. The jacking structure can adjust the corresponding jacking position according to the bending position, so that the bending effect of the aluminum strip is ensured.

In the full-automatic aluminum strip bending equipment, the jacking part is rectangular, the arc-shaped part is arranged in a sliding mode in the circumferential direction of the jacking part, and the arc-shaped part is connected with the linkage push rod arranged at the upper end of the jacking part.

The setting of roof pressure portion and arc portion can select the bending of right angle bending or arc angle as required, further improves the flexibility of buckling.

In the full-automatic aluminum strip bending equipment, the jacking part and the bending part are arranged in a staggered mode, and the jacking part is arranged at one end close to the automatic conveying belt.

In the full-automatic aluminum strip bending equipment, the pushing component comprises a pushing cylinder, a pushing plate is arranged at the output end of the pushing cylinder, and the pushing plate is limited through a guide groove arranged on the upper end face of the bending seat.

The pushing component can position the bending angle of the aluminum strip according to the requirement and perform forming and positioning.

In the above-mentioned full-automatic aluminum strip equipment of bending, the material compresses tightly the subassembly and includes to span the location horizontal pole that sets up in automatic conveyer belt upside, and the location horizontal pole both ends are fixed a position through the location installation pole that is vertical setting, and is connected with the compression roller framework through the lift adjustment pole on the location horizontal pole, is equipped with the pinch roller on the compression roller framework.

The setting of material compresses tightly the subassembly and can flatten the aluminium strip that will buckle the processing, ensures the effect of buckling.

In the full-automatic aluminum strip bending equipment, the bending pedestal and the material conveying pedestal are provided with lifting adjusting grooves capable of lifting the power supply rack.

Compared with the prior art, the utility model has the advantages that: simple structure, the simple operation utilizes adjustable edging mechanism to realize polishing the external regulation of high to the aluminium strip to, can adjust the angle of buckling, the type of buckling and the length of buckling of aluminium strip as required through movable bending mechanism, the flexibility of use is good.

Drawings

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of a vibration-damping cylinder according to the present utility model;

FIG. 3 is a schematic view of the structure of the top press part in the present utility model;

FIG. 4 is a schematic view of a material compacting assembly according to the present utility model;

in the figure: the material conveying pedestal 1, the material positioning conveying trough 11, the bending pedestal 2, the automatic conveying belt 21, the blanking gap 3, the adjusting edging mechanism 4, the driving motor 41, the motor frame 42, the lifting adjusting trough 43, the output shaft 44, the edging cutter 45, the lifting adjusting assembly 46, the vibration stopping barrel 461, the positioning bearing 462, the connecting screw 463, the linkage cross rod 464, the lifting rod 465, the material compacting assembly 5, the positioning cross rod 51, the positioning mounting rod 52, the lifting adjusting rod 53, the press roller frame 54, the press roller 55, the movable bending mechanism 6, the driving cylinder 61, the driving cylinder bracket 62, the sliding adjusting trough 63, the bending part 64, the jacking structure 7, the jacking cylinder 71, the jacking cylinder bracket 72, the jacking part 73, the arc part 74, the linkage push rod 75, the pushing assembly 8, the pushing cylinder 81, the pushing plate 82 and the guide groove 83.

Detailed Description

The utility model will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1-4, a full-automatic aluminum strip bending device comprises a material conveying pedestal 1, a material positioning conveying groove 11 is formed in the material conveying pedestal 1, a bending pedestal 2 is arranged at one end of the material conveying pedestal 1, an automatic conveying belt 21 which is located on the same axis as the material positioning conveying groove 11 is arranged on the bending pedestal 2, a blanking gap 3 is formed between the bending pedestal 2 and the material conveying pedestal 1, an adjusting edging mechanism 4 which is symmetrically arranged is arranged between the bending pedestal 2 and the material conveying pedestal 1 and at the blanking gap 3, a material compacting assembly 5 which spans over the automatic conveying belt 21 is arranged on the bending pedestal 2, and a movable bending mechanism 6 is arranged at one end, far away from the material conveying pedestal 1, of the automatic conveying belt 21.

The adjusting type edging mechanism 4 adjusts the polishing height and the distance close to the aluminum strips according to polishing requirements so as to determine the polishing height position and polishing thickness, the polished aluminum scraps fall from the blanking gap 3, and the blanking gap 3 is provided with a receiving frame;

the material compressing assembly 5 is used for carrying out flattening treatment on the material before bending, so that the condition of curling during bending is prevented, and secondly, the movable bending mechanism 6 can set the bending angle and the type of the bending inner angle.

Wherein, adjusting edging mechanism 4 includes driving motor 41, and driving motor 41 is fixed a position at the motor frame 42 of material transport pedestal 1 and bending pedestal 2 one side through going up and down, and driving motor 41's output is connected with edging cutter 45 through output shaft 44, is equipped with lift adjusting part 46 on the output shaft 44.

The lifting adjusting assembly 46 comprises a vibration stopping cylinder 461 sleeved on the output shaft 44, positioning bearings 462 are arranged on the inner sides of the circumferential directions of two ends of the vibration stopping cylinder 461, the output shaft 44 is arranged on the inner ring of the positioning bearings 462 in a penetrating mode, the upper end of the vibration stopping cylinder 461 is connected with a linkage cross rod 464 through a connecting screw 463, and two ends of the linkage cross rod 464 are arranged on the bending pedestal 2 and the material conveying pedestal 1 through lifting rods 465 respectively.

The vibration-damping cylinder 461 is for securing stability of the output shaft 44, and the elevating lever 465 is electrically adjusted.

Obviously, movable bending mechanism 6 is including setting up the actuating cylinder 61 at the up end of pedestal 2 one side of bending, actuating cylinder 61 is through actuating cylinder support 62 slide positioning on pedestal 2 of bending, and pedestal 2 one side of bending is equipped with the slip adjustment groove 63 that is used for sliding adjustment actuating cylinder support 62 position thereby adjusts actuating cylinder 61 position, actuating cylinder 61 output is equipped with the portion of bending 64 that is used for bending the material, pedestal 2 opposite side of bending is equipped with the roof pressure structure 7 with actuating cylinder 61 dislocation set, it is equipped with the bulldozing assembly 8 that is perpendicular setting with roof pressure structure 7 on the pedestal 2 of bending.

During bending, the position of the driving cylinder bracket 62 is adjusted in advance in a sliding manner to determine the bending length, and the bending portion 64 is utilized to push and press the aluminum strip.

Further, the jacking structure 7 comprises a jacking cylinder 71, the jacking cylinder 71 is positioned by a jacking cylinder bracket 72 arranged on one side of the bending pedestal 2 in a sliding manner, and the output end of the jacking cylinder 71 is connected with a jacking part 73 for jacking and positioning the inner wall of the material bending part.

The pressing structure 7 is used for positioning the aluminum strip and ensuring the pressing effect of the bending portion 64.

Further, the pressing portion 73 is rectangular, and the pressing portion 73 is provided with an arc portion 74 in a sliding manner in a circumferential direction, and the arc portion 74 is connected to a link push rod 75 provided at an upper end of the pressing portion 73. Right-angle bending and bending at an arc angle can be selected as required.

Specifically, the pressing portion 73 and the bending portion 64 are disposed in a staggered manner, and the pressing portion 73 is disposed at an end near the automatic conveyor belt 21.

Still further, the pushing component 8 comprises a pushing cylinder 81, a pushing plate 82 is arranged at the output end of the pushing cylinder 81, and the pushing plate 82 is limited by a guide groove 83 arranged on the upper end surface of the bending seat.

The bottom of the pushing and pressing component 8 is provided with a lifting motor, before the aluminum strip is bent, the pushing and pressing component 8 is positioned in the bending pedestal 2, and after the aluminum strip is bent, the pushing and pressing component 8 ascends to push and press the aluminum strip.

In detail, the material compacting assembly 5 comprises a positioning cross rod 51 which is arranged on the upper side of the automatic conveying belt 21 in a crossing manner, two ends of the positioning cross rod 51 are positioned through positioning installation rods 52 which are longitudinally arranged, the positioning cross rod 51 is connected with a press roller frame 54 through a lifting adjusting rod 53, and the press roller frame 54 is provided with a compacting roller 55.

The material compacting component 5 is used for flattening aluminum strips, and the height of the compacting roller 55 can be adjusted by utilizing the lifting adjusting rod 53, so that the purpose of adjusting the compacting degree is achieved.

Preferably, the bending pedestal 2 and the material conveying pedestal 1 are provided with a lifting adjusting groove 43 capable of lifting the power supply frame 42.

In summary, the principle of this embodiment is as follows: when the aluminum strip bending device is used, aluminum strips are placed in the material positioning conveying groove 11, one end of the aluminum strip is placed on the automatic conveying belt 21, the automatic conveying belt 21 runs, the aluminum strip automatically moves, edging is carried out on two sides of the aluminum strip by using the edging cutter 45 in the moving process, edging thickness and height positions can be adjusted according to requirements, secondly, the aluminum strip is flattened by using the compaction roller 55, finally, the bending part 64 is driven by the driving cylinder 61 to push and bend the aluminum strip, the bending inner wall of the aluminum strip is positioned by using the jacking part 73 or the arc-shaped part 74, after the aluminum strip is bent, the pushing component 8 is lifted, one side of the aluminum strip is pushed and pressed, and therefore the bending angle is determined.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Although terms such as the material conveying pedestal 1, the material positioning conveying groove 11, the bending pedestal 2, the automatic conveying belt 21, the blanking gap 3, the adjusting edging mechanism 4, the driving motor 41, the motor frame 42, the elevation adjusting groove 43, the output shaft 44, the edging cutter 45, the elevation adjusting assembly 46, the vibration-stopping cylinder 461, the positioning bearing 462, the connecting screw 463, the linkage cross bar 464, the elevating rod 465, the material pressing assembly 5, the positioning cross bar 51, the positioning mounting rod 52, the elevating adjusting rod 53, the press roller frame 54, the pressing roller 55, the movable bending mechanism 6, the driving cylinder 61, the driving cylinder bracket 62, the sliding adjusting groove 63, the bending portion 64, the pressing structure 7, the pressing cylinder 71, the pressing cylinder bracket 72, the pressing portion 73, the arc portion 74, the linkage push rod 75, the pressing assembly 8, the pushing cylinder 81, the pushing plate 82, the guide groove 83 are used more herein, other terms are not excluded. These terms are used merely for convenience in describing and explaining the nature of the utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides a full-automatic aluminium strip equipment of bending, includes material conveying pedestal (1), material conveying pedestal (1) on be equipped with material location conveyer trough (11), and material conveying pedestal (1) one end is equipped with bending pedestal (2), bending pedestal (2) on be equipped with automatic conveyer belt (21) that are located same axis with material location conveyer trough (11), and be equipped with blanking clearance (3) between bending pedestal (2) and material conveying pedestal (1), a serial communication port, bending pedestal (2) and material conveying pedestal (1) between and be located blanking clearance (3) department and be equipped with adjusting edging mechanism (4) that are the symmetry and set up, bending pedestal (2) on be equipped with and span material on automatic conveyer belt (21) and automatic conveyer belt (21) keep away from the one end of material conveying pedestal (1) and be equipped with movable type bending mechanism (6).

2. The full-automatic aluminum strip bending equipment according to claim 1, wherein the adjusting edging mechanism (4) comprises a driving motor (41), the driving motor (41) is positioned by a motor frame (42) arranged on one side of the material conveying pedestal (1) and one side of the bending pedestal (2) in a lifting manner, an edging cutter (45) is connected to an output end of the driving motor (41) through an output shaft (44), and a lifting adjusting component (46) is arranged on the output shaft (44).

3. The full-automatic aluminum strip bending equipment according to claim 2, wherein the lifting adjusting component (46) comprises a vibration stopping cylinder (461) sleeved on the output shaft (44), positioning bearings (462) are arranged on the inner sides of two ends of the vibration stopping cylinder (461), the output shaft (44) is arranged on the inner ring of the positioning bearings (462) in a penetrating mode, the upper end of the vibration stopping cylinder (461) is connected with a linkage cross rod (464) through a connecting screw (463), and two ends of the linkage cross rod (464) are arranged on the bending pedestal (2) and the material conveying pedestal (1) through lifting rods (465) respectively.

4. The full-automatic aluminum strip bending equipment according to claim 1, wherein the movable bending mechanism (6) comprises a driving cylinder (61) arranged on the upper end face of one side of the bending pedestal (2), the driving cylinder (61) is slidably positioned on the bending pedestal (2) through a driving cylinder support (62), a sliding adjusting groove (63) for slidably adjusting the position of the driving cylinder support (62) to adjust the position of the driving cylinder (61) is formed in one side of the bending pedestal (2), a bending part (64) for bending materials is arranged at the output end of the driving cylinder (61), a jacking structure (7) staggered with the driving cylinder (61) is arranged on the other side of the bending pedestal (2), and a pushing component (8) perpendicular to the jacking structure (7) is arranged on the bending pedestal (2).

5. The full-automatic aluminum strip bending equipment according to claim 4, wherein the jacking structure (7) comprises a jacking cylinder (71), the jacking cylinder (71) is positioned by a jacking cylinder bracket (72) arranged on one side of the bending pedestal (2) in a sliding manner, and the output end of the jacking cylinder (71) is connected with a jacking part (73) for jacking and positioning the inner wall of the material bending part.

6. The full-automatic aluminum strip bending equipment according to claim 5, wherein the top pressing part (73) is rectangular, an arc-shaped part (74) is arranged on the inner side of the circumference of the top pressing part (73), and the arc-shaped part (74) is connected with a linkage push rod (75) arranged at the upper end of the top pressing part (73).

7. The full-automatic aluminum strip bending equipment according to claim 5, wherein the top pressing part (73) and the bending part (64) are arranged in a staggered mode, and the top pressing part (73) is arranged at one end close to the automatic conveying belt (21).

8. The full-automatic aluminum strip bending equipment according to claim 4, wherein the pushing component (8) comprises a pushing cylinder (81), a pushing plate (82) is arranged at the output end of the pushing cylinder (81), and the pushing plate (82) is limited by a guide groove (83) arranged on the upper end face of the bending seat.

9. The full-automatic aluminum strip bending equipment according to claim 1, wherein the material compacting assembly (5) comprises a positioning cross rod (51) which is transversely arranged on the upper side of the automatic conveying belt (21), two ends of the positioning cross rod (51) are positioned through positioning installation rods (52) which are longitudinally arranged, the positioning cross rod (51) is connected with a press roller frame body (54) through a lifting adjusting rod (53), and the press roller frame body (54) is provided with a compacting roller (55).

10. The full-automatic aluminum strip bending equipment as claimed in claim 2, wherein lifting adjusting grooves (43) capable of lifting the power supply rack (42) are formed in the bending pedestal (2) and the material conveying pedestal (1).