CN218753174U - Circulation carrier conveyer belt lifter of double-layer assembly line - Google Patents

Abstract

A double-layer assembly line circulating carrier conveyer belt lifter comprises a bracket component 1, a power component 2 and a double-layer carrier component 3. The utility model has the advantages of compact and reasonable structure, it is reliable and stable to use, can realize two double-deck carrier subassembly 3's synchronous lift in step, and set up according to actual conditions, and upper and lower two sets of double-deck carrier subassembly 3's motor 38 can set up to syntropy or antiport, and upper and lower two sets of carrier subassembly 4 can stretch out in the syntropy or stretch out in the opposite direction promptly. The working efficiency is improved, and the conveying cost is reduced.

Description

Circulation carrier conveyer belt lifter of double-layer assembly line

Technical Field

The utility model belongs to the technical field of the machining technique and specifically relates to a two-layer assembly line circulation carrier conveyer belt lift.

Background

An elevator is a lifting device, which is generally used for lifting materials, and is generally single-layer, and can lift only one large material at a time. For mechanical processing, a part to be processed is often required to be transported to a high position from a low position through a lifter, in order to improve the production rhythm, the conveying speed of a roller bed and the lifting speed of the lifter are generally increased, and after the method is adopted, the power required to be output by a driving motor is large, and the cost is greatly improved.

In order to solve the problems existing in the prior art, the utility model provides a double-layer assembly line circulation carrier conveyer belt lift.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model provides a double-layer assembly line circulation carrier conveyer belt lift.

The utility model provides a technical scheme that its technical problem adopted is:

a double-layer assembly line circulating carrier conveyer belt lifter comprises a bracket component 1, a power component 2 and a double-layer carrier component 3; wherein;

the bracket assembly 1 comprises two vertical brackets 11, the side surfaces of the two vertical brackets 11 are respectively provided with a vertical slide rail 12, slide blocks 13 capable of sliding up and down along the slide rails 12 are arranged on the slide rails 12, and a fixing plate 14 is arranged between the adjacent slide blocks 13; the top of each vertical support 11 is provided with a top plate 15, and the top of each top plate 15 is provided with a fixed pulley I16; the sliding block 13 can slide up and down along the sliding rail 12, and simultaneously drives the fixing plate 14 to slide up and down along the sliding rail 12;

the power assembly 2 comprises a hydraulic cylinder 21, a fixed pulley II22 is mounted at the tail end of a telescopic shaft of the hydraulic cylinder 21, a flexible rack 23 is mounted on the fixed pulley II22, one end of the flexible rack 23 is fixed to the bottom of the top plate 15, and the other end of the flexible rack is fixed to the fixed plate 14 through a locking frame 24 after bypassing the fixed pulley I16; when the hydraulic cylinder 21 extends, the flexible rack 23 is driven to extend or shorten, and the fixing plate 14 is indirectly driven to slide up and down along the slide rail 12;

the double-layer carrier assembly 3 comprises a mounting plate 31 mounted on the fixing plate 14, mounting frames 32 are fixed on the outer sides of the mounting plate 31, bearing blocks 33 are mounted on the outer sides of the two mounting frames 32, a driven shaft 34 is arranged between the bearing blocks 33, driven wheels 35 are mounted on two sides of the driven shaft 34, and transmission belts 36 are respectively arranged on the driven wheels 35; a motor support 37 is mounted on the outer mounting frame 32, a motor 38 is mounted on the motor support 37, an output shaft of the motor 38 is connected to the driving wheel 391 through a motor belt 39, and a driving shaft 392 is mounted between the driving wheel 391 and the secondary driving wheel 393; when the motor 38 works, the output shaft drives the driving wheel 391 and the secondary driving wheel 393 to synchronously rotate through the motor belt 39, and when the driving wheel 391 and the secondary driving wheel 393 synchronously rotate, the driven wheel 35 is driven to synchronously rotate through the transmission belt 36, namely, the two transmission belts 36 synchronously rotate to generate displacement.

The utility model discloses still have following additional technical characterstic:

as the utility model discloses technical scheme further specifically optimizes: the double-layer carrier component 3 is provided with a carrier component 4.

As the utility model discloses technical scheme further specifically optimizes: the bottom of the carrier component 4 is provided with two parallel mounting bars 41, and the two parallel mounting bars 41 are respectively mounted on the upper parts of the two transmission belts 36 through bolts, that is, when the two transmission belts 36 synchronously rotate to generate displacement, the carrier component 4 is driven to synchronously rotate to generate displacement.

As the utility model discloses technical scheme further specifically optimizes: the sliding block 13 and the fixing plate 14 are provided with an upper group and a lower group.

As the utility model discloses technical scheme further specifically optimizes: the double-layer carrier assembly 3 is provided with an upper group and a lower group.

Compared with the prior art, the utility model, its advantage lies in:

the utility model has the advantages of compact and reasonable structure, it is reliable and stable to use, can realize two double-deck carrier subassembly 3's synchronous lift in step, and set up according to actual conditions, and upper and lower two sets of double-deck carrier subassembly 3's motor 38 can set up to syntropy or antiport, and upper and lower two sets of carrier subassembly 4 can stretch out in the syntropy or stretch out in the opposite direction promptly. The working efficiency is improved, and the conveying cost is reduced.

Drawings

Fig. 1 is a schematic structural view of a bracket assembly 1 of the present invention;

fig. 2 is a schematic structural view of a power assembly 2 of the present invention;

fig. 3 is a schematic structural view of a double-layer carrier assembly 3 according to the present invention;

fig. 4 is a schematic top view of the dual-layer carrier assembly 3 according to the present invention;

fig. 5 is a schematic structural view of the carrier assembly 4 of the present invention;

fig. 6 is a schematic bottom view of the carrier assembly 4 of the present invention;

fig. 7-12 are schematic diagrams of three-dimensional structures of the conveyor belt lifter of the double-layer assembly line cycle carrier of the present invention.

Description of reference numerals: bracket component 1, power component 2, double-deck carrier subassembly 3, carrier subassembly 4.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings.

Example 1

A double-layer assembly line circulating carrier conveyer belt lifter comprises a bracket component 1, a power component 2 and a double-layer carrier component 3.

The bracket assembly 1 comprises two vertical brackets 11, the side surfaces of the two vertical brackets 11 are respectively provided with a vertical slide rail 12, slide blocks 13 capable of sliding up and down along the slide rails 12 are arranged on the slide rails 12, and a fixing plate 14 is arranged between the adjacent slide blocks 13; the top of each vertical support 11 is provided with a top plate 15, and the top of each top plate 15 is provided with a fixed pulley I16; the sliding block 13 and the fixing plate 14 are provided with an upper group and a lower group. The sliding block 13 can slide up and down along the sliding rail 12, and simultaneously drives the fixing plate 14 to slide up and down along the sliding rail 12.

The power assembly 2 comprises a hydraulic cylinder 21, a fixed pulley II22 is mounted at the tail end of a telescopic shaft of the hydraulic cylinder 21, a flexible rack 23 is mounted on the fixed pulley II22, one end of the flexible rack 23 is fixed to the bottom of the top plate 15, and the other end of the flexible rack is fixed to the fixed plate 14 through a locking frame 24 after bypassing the fixed pulley I16; when the hydraulic cylinder 21 extends, the flexible rack 23 is driven to extend or contract, and the fixing plate 14 is indirectly driven to slide up and down along the slide rail 12.

The double-layer carrier assembly 3 is provided with an upper group and a lower group. The double-layer carrier assembly 3 comprises a mounting plate 31 mounted on the fixing plate 14, mounting frames 32 are fixed on the outer sides of the mounting plate 31, bearing blocks 33 are mounted on the outer sides of the two mounting frames 32, a driven shaft 34 is arranged between the bearing blocks 33, driven wheels 35 are mounted on two sides of the driven shaft 34, and transmission belts 36 are respectively arranged on the driven wheels 35; a motor support 37 is mounted on the outer mounting frame 32, a motor 38 is mounted on the motor support 37, an output shaft of the motor 38 is connected to a driving wheel 391 through a motor belt 39, and a driving shaft 392 is mounted between the driving wheel 391 and the secondary driving wheel 393; when the motor 38 works, the output shaft drives the driving wheel 391 and the secondary driving wheel 393 to synchronously rotate through the motor belt 39, and when the driving wheel 391 and the secondary driving wheel 393 synchronously rotate, the driven wheel 35 is driven to synchronously rotate through the transmission belt 36, namely, the two transmission belts 36 synchronously rotate to generate displacement.

The double-layer carrier component 3 is provided with a carrier component 4. The bottom of the carrier component 4 is provided with two parallel mounting bars 41, and the two parallel mounting bars 41 are respectively mounted on the upper parts of the two transmission belts 36 through bolts, that is, when the two transmission belts 36 synchronously rotate to generate displacement, the carrier component 4 is driven to synchronously rotate to generate displacement.

Example 2

A use method of a double-layer assembly line circulating carrier conveyer belt lifter,

firstly, the hydraulic cylinder 21 is started, and when the hydraulic cylinder 21 expands and contracts, the flexible rack 23 is driven to extend or contract, so as to indirectly drive the fixing plate 14 to slide up and down along the slide rail 12, and indirectly drive the double-layer carrier assembly 3 to slide up and down along the slide rail 12.

Secondly, when the motor 38 works, the output shaft drives the driving wheel 391 and the secondary driving wheel 393 to rotate synchronously through the motor belt 39, and when the driving wheel 391 and the secondary driving wheel 393 rotate synchronously, the driven wheel 35 is driven to rotate synchronously through the transmission belt 36, that is, the two transmission belts 36 rotate synchronously to generate displacement, and finally the carrier assembly 4 is driven to rotate synchronously to generate displacement.

According to the actual situation, the motors 38 of the upper and lower two sets of double-layer carrier assemblies 3 can be set to rotate in the same direction or in opposite directions, i.e. the upper and lower two sets of carrier assemblies 4 can extend in the same direction or in opposite directions.

The above detailed description of embodiments of the invention provided in the accompanying drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention.

Claims (5)

1. The utility model provides a two-layer assembly line circulation carrier conveyer belt lift which characterized in that: comprises a bracket component (1), a power component (2) and a double-layer carrier component (3); wherein;

the support assembly (1) comprises two vertical supports (11), vertical sliding rails (12) are arranged on the side faces of the two vertical supports (11), sliding blocks (13) capable of sliding up and down along the sliding rails (12) are mounted on the sliding rails (12), and a fixing plate (14) is mounted between every two adjacent sliding blocks (13); the top of each vertical support (11) is provided with a top plate (15), and the top of each top plate (15) is provided with a fixed pulley I (16); the sliding block (13) can slide up and down along the sliding rail (12) and simultaneously drives the fixing plate (14) to slide up and down along the sliding rail (12);

the power assembly (2) comprises a hydraulic cylinder (21), a fixed pulley II (22) is installed at the tail end of a telescopic shaft of the hydraulic cylinder (21), a flexible rack (23) is installed on the fixed pulley II (22), one end of the flexible rack (23) is fixed to the bottom of the top plate (15), and the other end of the flexible rack (23) is fixed to the fixing plate (14) through a locking frame (24) after bypassing the fixed pulley I (16); when the hydraulic cylinder (21) stretches, the flexible rack (23) is driven to extend or shorten, and the fixing plate (14) is indirectly driven to slide up and down along the slide rail (12);

the double-layer carrier assembly (3) comprises mounting plates (31) mounted on a fixing plate (14), mounting frames (32) are fixed on the outer sides of the mounting plates (31), bearing seats (33) are mounted on the outer sides of the two mounting frames (32), a driven shaft (34) is arranged between the bearing seats (33), driven wheels (35) are mounted on two sides of the driven shaft (34), and transmission belts (36) are respectively arranged on the driven wheels (35); a motor support (37) is installed on the outer side installation rack (32), a motor (38) is installed on the motor support (37), an output shaft of the motor (38) is connected to a driving wheel (391) through a motor belt (39), and a driving shaft (392) is installed between the driving wheel (391) and a secondary driving wheel (393); when the motor (38) works, the output shaft drives the driving wheel (391) and the secondary driving wheel (393) to synchronously rotate through the motor belt (39), and when the driving wheel (391) and the secondary driving wheel (393) synchronously rotate, the driven wheel (35) is driven to synchronously rotate through the transmission belt (36), namely, the two transmission belts (36) synchronously rotate to generate displacement.

2. The dual-level in-line endless carrier belt conveyor elevator of claim 1, wherein: and the double-layer carrier assembly (3) is provided with a carrier assembly (4).

3. The dual-level in-line endless carrier belt elevator of claim 2, wherein: the bottom of the carrier component (4) is provided with two parallel mounting bars (41), the two parallel mounting bars (41) are respectively mounted on the upper parts of the two transmission belts (36) through bolts, namely, when the two transmission belts (36) synchronously rotate to generate displacement, the carrier component (4) is driven to synchronously rotate to generate displacement.

4. The dual-level in-line endless carrier belt conveyor elevator of claim 1, wherein: the sliding block (13) and the fixing plate (14) are provided with an upper group and a lower group.

5. The dual-level in-line endless carrier belt conveyor elevator of claim 1, wherein: the double-layer carrier assembly (3) is provided with an upper group and a lower group.

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