CN219822850U - Automatic conveying equipment for aluminum strip storage - Google Patents

Abstract

The utility model discloses an automatic conveying device for aluminum strip storage, which comprises: the device comprises a storage rack, a connecting shaft, a storage base, a shaft rotation driving device, a pushing device, a blocking device and a conveying driving device; at least three storage racks are arranged, each storage rack is provided with at least three storage tanks, and each storage tank is used for storing a group of aluminum strips; all the storage racks are connected to a connecting shaft which is rotatably arranged on the storage base and is driven to rotate by a shaft rotation driving device; one side of the storage base is provided with a pushing device, the other side of the storage base is provided with a blocking device, the blocking device and the pushing device are respectively positioned at two ends of the connecting shaft, and the pushing device is used for pushing the aluminum strip on the blocking device; a conveying and driving device is arranged between the blocking device and the end part of the connecting shaft. The automatic conveying equipment for aluminum strip storage solves the problem that in the prior art, automatic conveying of aluminum strips in an aluminum strip storage trough to aluminum strip shearing equipment cannot be realized.

Description

Automatic conveying equipment for aluminum strip storage

Technical Field

The utility model relates to equipment for producing aluminum strips, in particular to automatic conveying equipment for storing aluminum strips.

Background

In the hollow glass, aluminum strips are required to be used, the aluminum strips are bent to form an aluminum frame, and the aluminum frame is clamped between two glass layers, so that the hollow glass is convenient to produce, and the effect of forming a cavity in the hollow glass is achieved. The steps for producing aluminum strips in hollow glass are as follows: step one, reserving aluminum strips; cutting the aluminum strips to obtain aluminum strip sections with specified lengths; and thirdly, bending the aluminum bar sections to form a required aluminum frame. Step one, aluminum strip storage equipment is needed, and step two, aluminum strip shearing equipment is needed.

The Chinese patent discloses a method for preparing the Chinese medicine with the following application number: an aluminum strip storage trough of CN202221752287.X comprises a rack, wherein a material receiving and feeding unit is arranged on the rack, and a storage mechanism, a horizontal moving mechanism and a lifting mechanism are also arranged on the rack; the storage mechanism comprises a feeding support, the feeding support is connected to the frame, the feeding support is provided with a storage support, a lower supporting block is movably arranged on the feeding support and connected to the horizontal moving mechanism, 12 storage tanks which are in V shape are evenly and equidistantly arranged on the lower supporting block along the horizontal straight line direction, and 13 aluminum strip guide rollers are rotatably connected to the lower supporting block.

Although the aluminum strip storage trough can realize aluminum strip storage, the aluminum strip storage trough still has the following defects: the inventor installs aluminium strip shearing equipment next to aluminium strip storage equipment, all now is the manual work place aluminium strip in the aluminium strip storage silo on aluminium strip shearing equipment, realizes cutting then, and manual work conveys aluminium strip, leads to cutting efficiency to reduce, then how to realize carrying aluminium strip automatic transport to aluminium strip shearing equipment in the aluminium strip storage silo is the problem that needs to be solved urgently.

Disclosure of Invention

The utility model provides automatic aluminum strip storage conveying equipment, which solves the problem that the automatic conveying of aluminum strips in an aluminum strip storage trough to aluminum strip shearing equipment cannot be realized in the prior art.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model discloses an automatic conveying device for aluminum strip storage, which comprises: the device comprises a storage rack, a connecting shaft, a storage base, a shaft rotation driving device, a pushing device, a blocking device and a conveying driving device; at least three storage racks are arranged, each storage rack is provided with at least three storage tanks, and each storage tank is used for storing a group of aluminum strips; all the storage racks are connected to a connecting shaft which is rotatably arranged on the storage base and is driven to rotate by a shaft rotation driving device; one side of the storage base is provided with a pushing device, the other side of the storage base is provided with a blocking device, the blocking device and the pushing device are respectively positioned at two ends of the connecting shaft, and the pushing device is used for pushing the aluminum strip on the blocking device; and a conveying driving device is arranged between the blocking device and the end part of the connecting shaft, the conveying driving device is used for conveying the aluminum strips in the X direction after clamping the aluminum strips, and the connecting shaft is positioned in the X direction.

Preferably, the blocking means comprises: the blocking block and the blocking cylinder are used for driving the blocking block to move in the direction perpendicular to the X direction, and the blocking block is matched with the pushing device to compress the aluminum strip.

Preferably, the conveying and driving device comprises: the driven roller, the driving roller and the roller rotation driving mechanism are rotatably provided with a mounting pin, the mounting pin is movably arranged on the blocking block, the mounting pin is opposite to the moving direction of the blocking block, a spring is arranged between the mounting pin and the blocking block, the spring enables the driven roller to have a trend of moving towards the driving roller, the blocking block is provided with a perforation which is used for allowing the aluminum strip to pass through only when the driving roller and the driven roller clamp the aluminum strip, and the driving roller is driven by the roller rotation driving mechanism.

Preferably, the pushing device includes: the pushing rod is an L-shaped mechanism, the pushing rod is aligned with an aluminum strip in the storage groove, the pushing rod is fixed to a piston rod of the moving cylinder, the moving cylinder drives the pushing rod to be aligned with the aluminum strip in the same storage groove of the output station in sequence, the moving cylinder is installed in the pushing seat, the pushing seat can move in the X direction, and the pushing seat is fixed to the piston rod of the pushing cylinder.

Preferably, the storage base includes: the connecting device comprises a connecting strip and a plurality of single seats, wherein at least three single seats are arranged in rows, a gap is formed between every two adjacent single seats, the gap is used for the rotation of the storage rack, all single seats are used for the penetration of the connecting shaft, and all single seats are connected to one connecting strip.

Preferably, the blocking device and the conveying and driving device are arranged in a mounting box, and the mounting box can be used for the aluminum strips to pass through.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, firstly, by arranging the storage rack and a plurality of storage grooves on the storage rack, a plurality of aluminum strips can be stored, and preparation is made for continuous output of the aluminum strips; then, the shaft rotation driving device is arranged, so that the storage rack is driven to rotate, the storage tanks can be sequentially rotated to the output station, namely, the pushing device can push the storage tanks to the position, and all aluminum strips in the storage tanks can be pushed out by the pushing device; then, the pushing device and the blocking device are matched, so that the aluminum strip is pressed on the blocking device by the pushing device, the aluminum strip is positioned in the X direction, the output length of the aluminum strip is conveniently controlled subsequently, and the aluminum strip is conveniently positioned and cut subsequently; and then, the blocking device releases the aluminum strips, and the conveying driving device clamps the aluminum strips, so that continuous conveying of the aluminum strips is realized. In the whole process, automatic aluminum strip conveying after aluminum strip storage is realized, follow-up automatic aluminum strip cutting is facilitated, the processing efficiency of the aluminum strips is improved, and the production efficiency of hollow glass is improved.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

Fig. 1 is a schematic structural view of an automatic aluminum strip storage conveying device.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a schematic structural view of the automatic aluminum strip storage conveying device after the mounting box in fig. 1 is dismounted.

Fig. 4 is an enlarged view at B in fig. 3.

Reference numerals: the storage rack 1, the storage tank 11, the connecting shaft 2, the storage base 3, the connecting bar 31, the single base 32, the shaft rotation driving device 4, the pushing device 5, the pushing rod 51, the moving cylinder 52, the pushing seat 53, the pushing cylinder 54, the blocking device 6, the through hole 60, the conveying driving device 7, the driven roller 71, the driving roller 72, the mounting pin 73, the spring 74, the aluminum bar 8 and the mounting box 9.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the present utility model more clear and easy to understand, the present utility model is further described below with reference to the accompanying drawings and the detailed description:

as shown in fig. 1 to 4, the present utility model discloses an automatic aluminum strip storage and conveying apparatus, comprising: the storage rack 1, the connecting shaft 2, the storage base 3, the shaft rotation driving device 4, the pushing device 5, the blocking device 6 and the conveying driving device 7; at least three storage racks 1 are provided, each storage rack 1 is provided with at least three storage tanks 11, and each storage tank 11 is used for storing a group of aluminum strips 8; all the storage racks 1 are connected to a connecting shaft 2, the connecting shaft 2 is rotatably arranged on a storage base 3, and the connecting shaft 2 is driven to rotate by a shaft rotation driving device 4; a pushing device 5 is arranged on one side of the storage base 3, a blocking device 6 is arranged on the other side of the storage base 3, the blocking device 6 and the pushing device 5 are respectively positioned at two ends of the connecting shaft 2, and the pushing device 5 is used for pushing an aluminum strip 8 on the blocking device 6; a conveying and driving device 7 is arranged between the blocking device 6 and the end part of the connecting shaft 2, the conveying and driving device 7 is used for conveying the aluminum strips 8 in the X direction after clamping the aluminum strips 8, and the connecting shaft 2 is positioned in the X direction.

The blocking means 6 comprise: the blocking block and a blocking cylinder (not shown in the figure) are used for driving the blocking block to move in the direction perpendicular to the X direction, and the blocking block is matched with the pushing device 5 to compress the aluminum strip 8. The blocking cylinder is driven to block the aluminum strip 8 from moving in the X direction, and the blocking block can be driven to release the aluminum strip 8, so that the aluminum strip 8 can be continuously output after being positioned in the X direction.

The conveying and driving device 7 comprises: the driven roller 71, the driving roller 72 and a roller rotation driving mechanism (not shown in the figure), the driven roller 71 can be rotatably mounted on a mounting pin 73, the mounting pin 73 is movably mounted on a blocking block, the mounting pin 73 is opposite to the moving direction of the blocking block, a spring 74 is mounted between the mounting pin 73 and the blocking block, the spring 74 enables the driven roller 71 to have a trend of moving towards the driving roller 72, the blocking block is provided with a perforation 60, the perforation 60 is used for allowing the aluminum strip 8 to pass through only when the driving roller 72 and the driven roller 71 clamp the aluminum strip 8, and the driving roller 72 is driven by the roller rotation driving mechanism. When the aluminium strip 8 is positioned from the X-direction, the blocking cylinder is extended and the perforations 60 in the blocking block are offset from the position of the aluminium strip 8, i.e. from the storage 11 at the output station, and the driven roller 71 is also remote from the drive roller 72. When the driven roller 71 and the driving roller 72 are required to clamp the aluminum strip 8, the blocking cylinder drives the blocking block to move, the driven roller 71 and the spring 74 are in elastic fit to drive the aluminum strip 8 to move towards the driven roller 71, and finally the driven roller 71 and the driving roller 72 are compressed by the aluminum strip 8, and the spring 74 is compressed to a position where deformation is difficult to occur; finally, the roller rotation driving mechanism drives the driving roller 72 to rotate, thereby driving the aluminum strip 8 to be conveyed forward.

The pushing device 5 includes: the pushing rod 51, the moving cylinder 52, the pushing seat 53 and the pushing cylinder 54, the pushing rod 51 is an L-shaped mechanism, the pushing rod 51 is aligned with one aluminum strip 8 in the storage tank 11, the pushing rod 51 is fixed to a piston rod of the moving cylinder 52, the moving cylinder 52 drives the pushing rod 51 to be aligned with the aluminum strip 8 in the same storage tank 11 located at the output station in sequence, the moving cylinder 52 is installed in the pushing seat 53, the pushing seat 53 can move in the X direction, and the pushing seat 53 is fixed to the piston rod of the pushing cylinder 54. The moving cylinder 52 drives the pushing rod 51 to move, so that the pushing rod 51 can be aligned with the aluminum strip 8 at the output station, the pushing seat 53 moves under the pushing of the pushing cylinder 54, so that the single aluminum strip 8 of the pushing rod 51 is pushed out, and the aluminum strip 8 is output.

The storage base 3 includes: the connecting strip 31 and a plurality of single pedestal 32, single pedestal 32 have at least three, and all single pedestal 32 arrange into the row, form the clearance between two adjacent single pedestal 32, and the clearance supplies storage rack 1 to rotate, and all single pedestal 32 all supply connecting axle 2 to pass, all single pedestal 32 all are connected to a connecting strip 31. Each single seat 32 supports the connecting shaft 2 everywhere, thereby avoiding breakage caused by overload of the connecting shaft 2. All the individual housings 32 are simultaneously connected such that the individual housings 32 are positioned relative to one another.

The blocking device 6 and the conveying and driving device 7 are arranged in the mounting box 9, and the mounting box 9 can be used for the aluminum strips 8 to pass through. The blocking cylinder of the blocking device 6 is installed on the inner wall of the installation box 9, and the driving roller 72 of the output driving device and the roller rotation driving mechanism are installed at the same time.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (6)

1. Automatic conveying equipment is deposited to aluminium strip, its characterized in that includes: the storage rack (1), a connecting shaft (2), a storage base (3), a shaft rotation driving device (4), a pushing device (5), a blocking device (6) and a conveying driving device (7);

at least three storage racks (1) are provided, each storage rack (1) is provided with at least three storage tanks (11), and each storage tank (11) is used for storing a group of aluminum strips (8);

all the storage racks (1) are connected to a connecting shaft (2), the connecting shaft (2) is rotatably arranged on the storage base (3), and the connecting shaft (2) is driven to rotate by a shaft rotation driving device (4);

one side of the storage base (3) is provided with a pushing device (5), the other side of the storage base (3) is provided with a blocking device (6), the blocking device (6) and the pushing device (5) are respectively positioned at two ends of the connecting shaft (2), and the pushing device (5) is used for pushing the aluminum strip (8) on the blocking device (6);

a conveying driving device (7) is arranged between the blocking device (6) and the end part of the connecting shaft (2), the conveying driving device (7) is used for conveying the aluminum strips (8) in the X direction after clamping the aluminum strips (8), and the connecting shaft (2) is positioned in the X direction.

2. Automatic transport device for the storage of aluminium strips according to claim 1, characterized in that the blocking means (6) comprise: the blocking block and the blocking cylinder are used for driving the blocking block to move in the direction perpendicular to the X direction, and the blocking block is matched with the pushing device (5) to compress the aluminum strip (8).

3. Automatic conveying device for the storage of aluminium strips according to claim 2, characterized in that the conveying and driving means (7) comprise: the aluminum strip driving device comprises a driven roller (71), a driving roller (72) and a roller rotation driving mechanism, wherein the driven roller (71) can be rotatably provided with a mounting pin (73), the mounting pin (73) can be movably mounted on a blocking block, a spring (74) is mounted between the mounting pin (73) and the blocking block in the moving direction of the mounting pin (73) relative to the blocking block, the spring (74) enables the driven roller (71) to have a trend of moving towards the driving roller (72), the blocking block is provided with a through hole (60), and the through hole (60) is used for allowing the aluminum strip (8) to pass through only when the driving roller (72) and the driven roller (71) clamp the aluminum strip (8), and the driving roller (72) is driven by the roller rotation driving mechanism.

4. An automatic conveying device for depositing aluminium strips according to claim 3, characterized in that the pushing means (5) comprise: the pushing rod (51), the moving cylinder (52), the pushing seat (53) and the pushing cylinder (54), the pushing rod (51) is an L-shaped mechanism, the pushing rod (51) is aligned with one aluminum strip (8) in the storage groove (11), the pushing rod (51) is fixed to a piston rod of the moving cylinder (52), the moving cylinder (52) drives the pushing rod (51) to be aligned with the aluminum strip (8) in the same storage groove (11) located at the output station in sequence, the moving cylinder (52) is installed in the pushing seat (53), the pushing seat (53) can move in the X direction, and the pushing seat (53) is fixed to the piston rod of the pushing cylinder (54).

5. The automatic aluminum strip storage conveyor apparatus according to claim 4, wherein the storage base (3) comprises: the connecting device comprises connecting strips (31) and a plurality of single seats (32), wherein the number of the single seats (32) is at least three, all the single seats (32) are arranged in a row, gaps are formed between every two adjacent single seats (32), the gaps are used for enabling the storage rack (1) to rotate, all the single seats (32) are used for enabling the connecting shafts (2) to pass through, and all the single seats (32) are connected to the connecting strips (31).

6. The automatic aluminum strip storage conveying equipment according to claim 5, wherein the blocking device (6) and the conveying driving device (7) are arranged in a mounting box (9), and the mounting box (9) can be used for the aluminum strips (8) to pass through.