CN218519929U

CN218519929U - Aluminum bar conveying and collecting device

Info

Publication number: CN218519929U
Application number: CN202222239064.XU
Authority: CN
Inventors: 吴炬峰
Original assignee: Enping Hongxing Aluminum Co ltd
Current assignee: Enping Hongxing Aluminum Co ltd
Priority date: 2022-08-24
Filing date: 2022-08-24
Publication date: 2023-02-24
Anticipated expiration: 2032-08-24

Abstract

The utility model discloses an aluminium bar is carried and collection device is equipped with transport assembly, lift up the subassembly, balladeur train and packing subassembly down on its rack. The conveying assembly comprises a mounting rack A and a mounting rack B, and the mounting rack A and the mounting rack B are oppositely arranged. The upstream of the conveying component is rotatably provided with a rotating shaft A through a bearing, and the downstream of the conveying component is rotatably provided with a rotating shaft B through a bearing. The rotating shaft A is externally sleeved with a roller A, and the rotating shaft B is externally sleeved with a roller B. The groove is located beside the downstream of the conveying assembly, and the downstream of the conveying assembly and the baling assembly are connected through a lower sliding frame. The tail end of the downstream of the conveying assembly is provided with a baffle for intercepting the aluminum bar. The lifting assembly comprises a slide rail A and a slide rail B, the slide rail A and the slide rail B are oppositely arranged, and the lifting assembly is located at the downstream of the conveying assembly and located between the mounting rack A and the mounting rack B. The roller A is driven by the driving assembly to rotate and is used for driving the aluminum bar to move towards the downstream of the conveying assembly. Automation efficiency, energy conservation and improvement of space utilization rate.

Description

Aluminum bar conveying and collecting device

Technical Field

The utility model belongs to the technical field of aluminium bar production and relevant equipment, especially, relate to aluminium bar and carry and collection device.

Background

Along with the development of society and science and technology, the equipment in each field has all obtained very big development, has a large amount of aluminium products in daily life, and these aluminium products are mostly through processing such as aluminium ingot, aluminium bar and come. The aluminum bar is required to be cut after being formed for the first time in production, then is conveyed to a designated position, and is packed and transported through a collecting device. The existing aluminum bar transporting and collecting device still has some defects.

1. Current aluminium bar is carried and collection device when using, mostly need transport the packing again with the aluminium bar after cutting, and work efficiency is low and has increased staff's the amount of labour.

2. When the existing aluminum bar conveying and collecting device is used, the aluminum bars are heavier and need to be packed together, so that the stress of the packing frame is larger, the packing frame can be damaged due to long-time use, and the service life of the packing frame is short.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient reliable aluminium bar is carried and collection device.

In order to achieve the above object, the utility model discloses an aluminium bar is carried and collection device has the rack. The rack is provided with a conveying assembly, a lifting assembly, a lower sliding frame and a packing assembly positioned in the groove. The conveying assembly comprises a mounting rack A and a mounting rack B, and the mounting rack A and the mounting rack B are oppositely arranged. The upstream of the conveying assembly is rotatably provided with a rotating shaft A through a bearing, and the downstream of the conveying assembly is rotatably provided with a rotating shaft B through a bearing. A roller A is sleeved outside the rotating shaft A, and a roller B is sleeved outside the rotating shaft B. The groove is positioned at one side of the downstream of the conveying component, and the downstream of the conveying component and the baling component are connected through a lower sliding frame. The tail end of the downstream of the conveying assembly is provided with a baffle for intercepting the aluminum bar. The lifting assembly comprises a sliding rail A and a sliding rail B, the sliding rail A and the sliding rail B are oppositely arranged, and the lifting assembly is located at the downstream of the conveying assembly and located between the mounting rack A and the mounting rack B. The roller A is driven by the driving component to rotate and is used for driving the aluminum bar to move towards the downstream of the conveying component.

Therefore, the cut aluminum bars can arrive at the conveying assembly 2 and abut against the baffle automatically, the lifting assembly lifts the aluminum bars and then the aluminum bars are drawn into the packaging assembly along the lower sliding frame, automatic collection of the aluminum bars is achieved, automation efficiency is improved, the packaging assembly is made to be lower than the height of the conveying assembly through the groove, the aluminum bars are collected by utilizing gravity, energy is saved, occupied area is saved in the whole layout, and space utilization rate is improved.

Further, a conical gear A is installed at one end, far away from the lower sliding frame, of the rolling shaft A. The driving assembly is fixed on the outer side of the mounting frame B and comprises a mounting frame, a rotating shaft C rotatably mounted in the mounting frame and a motor fixed on the rotating shaft C. A plurality of bevel gears B engaged with the bevel gear a are fixed to the rotating shaft C. The driving assembly and the packing assembly are respectively located on two sides of the mounting frame A, so that the space utilization rate is further improved, and meanwhile, the interference of parts is avoided.

Furthermore, the lifting assembly 3 comprises a slide rail A and a slide rail B, and a top plate is installed between the slide rail A and the slide rail B, the lower side of the middle part of the top plate is connected with the action end of the air cylinder through a hinge, and the top surface of the top plate inclines towards one side of the packing assembly.

Further, the packing assembly comprises a packing frame and a protection assembly positioned on the packing frame. The upper side of the bag frame is provided with a Y-shaped arm used for gathering the aluminum bar. The bottom of the Y-shaped arm is provided with a U-shaped frame with a downward opening. The rubber columns are uniformly distributed in the U-shaped frame along the length direction of the U-shaped frame. One end of the rubber column is connected with the U-shaped frame in an abutting mode, and the other end of the rubber column is connected with the Y-shaped arm in an abutting mode.

Furthermore, the outer side of the rubber column is sleeved with a spring.

Further, the baling assembly also includes a mount. The pneumatic cylinder is installed to the upside of mount pad, and the push pedal is installed to the flexible end of pneumatic cylinder. The push plate is positioned on one side of the baling frame near the upstream of the conveying component. The push pedal can be the aluminium bar terminal surface and aligns, does benefit to neatly packing the aluminium bar.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up conveying component and lift the subassembly, when the staff uses, the aluminium bar after will cutting gets into on conveying component's the roller bearing A, motor drive is down, belt pulley A drives belt pulley B rotation and B pivot rotation, pivot B is rotatory to make a plurality of bevel gear B bevel gear A rotate, roller bearing A rotates and to carry the aluminium bar of top to the roller bearing B on, until the aluminium bar is intercepted by the baffle, start the cylinder after that, the cylinder is with the roof jack-up of top, the top surface of roof is the inclined plane towards packing subassembly, therefore, can make the aluminium bar landing under its self action of gravity when ejecting aluminium bar, and through lower carriage landing to packing department subassembly, thereby can carry the aluminium bar fast, reduce staff's the amount of labour simultaneously, work efficiency is improved, current transport and collection device when using have been solved, mostly need transport after cutting the aluminium bar and collect the packing again, and from this will waste a large amount of manpower and materials, work efficiency is low and the problem that has increased staff's the amount of labour simultaneously.

2. The utility model discloses a set up protection component, when the aluminium bar through lower balladeur train landing to packing frame in, the aluminium bar falls to packing frame inside under the action of gravity, at this moment, the inside spring and the rubber post of top atress downstream and compression of U type frame, spring and rubber post atress compression, can the absorbed force at the in-process of spring and rubber post compression simultaneously, and then can play the effect of certain protection to packing frame, increase the life of device, current transport and collection device when using have been solved, because the aluminium bar itself is heavier and need many packing together, consequently packing frame's atress is great, long-time use can cause packing frame to damage, the problem of low life.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is an exploded view of the transfer assembly of the present invention;

fig. 3 is a perspective view of the lifting assembly of the present invention;

fig. 4 is a perspective view of the packing assembly of the present invention;

fig. 5 is an enlarged view of the protection assembly of the present invention.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 5, the aluminum bar conveying and collecting device of the present invention has a rack 1. The gantry 1 is provided with a transport assembly 2, a lifting assembly 3, a lower carriage 2015 and a baling assembly 4 located in the groove 101. The conveying assembly 2 comprises a mounting rack A201 and a mounting rack B202, and the mounting rack A201 and the mounting rack B202 are oppositely arranged. The upstream of the conveying component 2 is rotatably provided with a rotating shaft A2031 through a bearing, and the downstream of the conveying component 2 is rotatably provided with a rotating shaft B2041 through a bearing. A roller A203 is sleeved outside the rotating shaft A2031, and a roller B204 is sleeved outside the rotating shaft B2041. The trough 101 is located on the side downstream of the conveyor assembly 2, and the conveyor assembly 2 downstream and the bale assembly 4 are connected by a lower slide 2015. The end downstream of the conveyor assembly 2 is provided with a baffle 2014 for intercepting the aluminium bars. The lifting assembly 3 comprises a slide rail A301 and a slide rail B302, the slide rail A301 and the slide rail B302 are oppositely arranged, and the lifting assembly 3 is positioned at the downstream of the conveying assembly 2 and between the mounting rack A201 and the mounting rack B202. The roller A203 is driven by the driving component to rotate and is used for driving the aluminum bar to move towards the downstream of the conveying component 2.

A bevel gear a206 is mounted on the end of the roller a203 remote from the lower carriage 2015. The driving assembly 200 is fixed on the outer side of the mounting frame B202 and comprises a mounting frame 2013, a rotating shaft C2011 rotatably mounted in the mounting frame C2011 and a motor 207 fixed on the rotating shaft C. A plurality of bevel gears B2012 meshing with the bevel gear a206 are fixed to the rotation shaft C2011.

The lifting assembly 3 comprises a slide rail A301 and a slide rail B302, and a top plate 303 arranged between the slide rail A301 and the slide rail B302, wherein the lower side of the middle part of the top plate 303 is connected with the action end of the air cylinder 304 through a hinge, and the top surface of the top plate 303 inclines towards the packing assembly 4.

The baling assembly 4 includes a baling frame 404 and a guard assembly 405 positioned thereon. The upper side of the bag frame 404 is provided with a Y-shaped arm 440 for gathering the aluminum rod. The bottom of the Y-arm 440 is provided with a downwardly opening U-shaped frame 4051. The rubber posts 4053 are evenly distributed within the U-shaped frame 4051 along the length of the U-shaped frame 4051. One end of the rubber column 4053 abuts against the U-shaped frame 4051, and the other end abuts against the Y-shaped arm 440.

The rubber column 4053 is sleeved with a spring 4052.

The baling assembly 4 further comprises a mounting 401. A hydraulic cylinder 402 is mounted on the upper side of the mounting seat 401, and a push plate 403 is mounted on the telescopic end of the hydraulic cylinder 402. A pusher 403 is located on the upstream side of the bale receptacle 404 from the conveyor assembly 2.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims

1. Aluminium bar is carried and collection device has rack (1), its characterized in that:

the table frame (1) is provided with a conveying assembly (2), a lifting assembly (3), a lower sliding frame (2015) and a packing assembly (4) positioned in the groove (101);

the conveying assembly (2) comprises a mounting rack A (201) and a mounting rack B (202), wherein the mounting rack A (201) and the mounting rack B (202) are oppositely arranged;

a rotating shaft A (2031) is rotatably mounted at the upstream of the conveying assembly (2) through a bearing, and a rotating shaft B (2041) is rotatably mounted at the downstream of the conveying assembly (2) through a bearing;

a roller A (203) is sleeved outside the rotating shaft A (2031), and a roller B (204) is sleeved outside the rotating shaft B (2041);

the trough (101) is located beside the downstream of the conveying assembly (2), and the downstream of the conveying assembly (2) is connected with the packing assembly (4) through the lower carriage (2015);

a baffle plate (2014) for intercepting the aluminum bar is arranged at the downstream end of the conveying assembly (2);

the lifting assembly (3) comprises a slide rail A (301) and a slide rail B (302), the slide rail A (301) and the slide rail B (302) are oppositely arranged, and the lifting assembly (3) is positioned at the downstream of the conveying assembly (2) and between the mounting rack A (201) and the mounting rack B (202);

the roller A (203) is driven by a driving component to rotate and is used for driving the aluminum bar to move towards the downstream of the conveying component (2).

2. The aluminum bar conveying and collecting device according to claim 1,

a bevel gear A (206) is mounted at one end, far away from the lower sliding frame (2015), of the rotating shaft A (2031);

the driving assembly 200 is fixed on the outer side of the mounting frame B (202), and comprises a mounting frame (2013), a rotating shaft C (2011) rotatably mounted in the mounting frame C and a motor (207) fixed on the rotating shaft C;

and a plurality of conical gears B (2012) meshed with the conical gear A (206) are fixed on the rotating shaft C (2011).

3. The aluminum bar conveying and collecting device of claim 2,

the lifting assembly (3) comprises a slide rail A (301) and a slide rail B (302), and a top plate (303) arranged between the slide rail A (301) and the slide rail B (302), wherein the lower side of the middle part of the top plate (303) is connected with the action end of a cylinder (304) through a hinge, and the top surface of the top plate (303) inclines towards one side of the packing assembly (4).

4. The aluminum bar conveying and collecting device of claim 3,

the packing component (4) comprises a packing frame (404) and a protection component (405) positioned on the packing frame;

a Y-shaped arm (440) used for gathering the aluminum bars is arranged on the upper side of the packing frame (404);

the bottom of the Y-shaped arm (440) is provided with a U-shaped frame (4051) with a downward opening;

the rubber columns (4053) are uniformly distributed in the U-shaped frame (4051) along the length direction of the U-shaped frame (4051);

one end of the rubber column (4053) abuts against the U-shaped frame (4051), and the other end abuts against the Y-shaped arm (440).

5. The aluminum bar conveying and collecting device according to claim 4,

and a spring (4052) is sleeved outside the rubber column (4053).

6. The aluminum bar conveying and collecting device of claim 5,

the packing assembly (4) further comprises a mounting seat (401);

a hydraulic cylinder (402) is installed on the upper side of the installation seat (401), and a push plate (403) is installed at the telescopic end of the hydraulic cylinder (402);

the push plate (403) is positioned on one side of the packing rack (404) close to the upstream of the conveying component (2).