CN220786987U - Light-duty low noise double-column stacker - Google Patents

Abstract

The utility model relates to the technical field of stackers, and discloses a light low-noise double-upright-column stacker which comprises a first guide rail, wherein a second sliding block is connected to the upper surface of the first guide rail in a sliding manner, a protection box is fixedly connected to the upper surface of the second sliding block, a damping plate is fixedly connected to the upper surface of the second sliding block, a second motor is fixedly connected to the upper surface of the damping plate, a first speed reducer is fixedly connected to the output end of the second motor, a first rotating wheel is fixedly connected to the output end of the first speed reducer, and a belt is connected to the outer wall of the first rotating wheel in a sliding manner. According to the utility model, the second motor is connected with the first speed reducer so as to control the power of the second motor, the first speed reducer drives the first rotating wheel to rotate so as to drive the belt to move, and the second rotating wheel, the rotating rod and the first moving wheel are driven to rotate, so that the effect of stably moving the stacker and reducing vibration is achieved.

Description

Light-duty low noise double-column stacker

Technical Field

The utility model relates to the technical field of stackers, in particular to a light low-noise double-upright-column stacker.

Background

The development of warehouse logistics is very rapid, and the warehouse links in logistics comprise warehouse entry, warehouse exit, storage and management of goods. The warehouse can be used for long-term storage of goods or short-term transfer so as to meet the requirement of a supply chain, and in order to utilize the warehouse area as much as possible, the shelves of the warehouse are large-sized shelves with high positions, and particularly in places where the goods need to be vertically stacked, a double-upright stacker is needed to stack the goods.

The existing double-upright-column stacker can possibly appear in the use process, and vibration is generated when the double-upright-column stacker moves so that the stacker resonates, and the stacker generates larger noise, so that the working environment becomes noisy and further the work is affected.

Disclosure of Invention

In order to make up for the defects, the utility model provides a light low-noise double-upright-column stacker, which aims to solve the problems that when the stacker moves, vibration is generated to enable the stacker to generate resonance, and the stacker generates larger noise, so that the working environment becomes noisy and further the work is influenced.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a light-duty low noise double column stacker, includes first guide rail, the upper surface sliding connection of first guide rail has the second sliding block, the upper surface fixedly connected with protection box of second sliding block, the upper surface fixedly connected with shock attenuation board of second sliding block, the upper surface fixedly connected with second motor of shock attenuation board, the output fixedly connected with first reduction gear of second motor, the output fixedly connected with first rotor of first reduction gear, the outer wall sliding connection of first rotor has the belt, the inside rotation of second sliding block is connected with the dwang, the outer wall fixedly connected with first removal wheel of dwang, the outer wall sliding connection of first removal wheel is at first guide rail, the outer wall fixedly connected with second rotor of dwang, the outer wall sliding connection of second rotor is at the inner wall of belt.

As a further description of the above technical solution:

the outer wall fixedly connected with spliced pole of second sliding block, the inner wall sliding connection of spliced pole is at the outer wall of first guide rail, the inside rotation of spliced pole is connected with the spacing wheel of second, the outer wall sliding connection of the spacing wheel of second is at the outer wall of first guide rail.

As a further description of the above technical solution:

the outer wall fixedly connected with first sliding block of spliced pole, the inner wall sliding connection of first sliding block is at the outer wall of first guide rail, the inner wall rotation of first sliding block is connected with the second and removes the wheel, the outer wall sliding connection of second removes the wheel reaches the upper surface at first guide rail.

As a further description of the above technical solution:

the upper surface fixedly connected with support column of spliced pole, the outer wall fixedly connected with mount of support column, the outer wall fixedly connected with first motor of mount, the output fixedly connected with second reduction gear of first motor.

As a further description of the above technical solution:

the output of second reduction gear fixedly connected with take-up reel, the lower surface fixedly connected with connecting plate of take-up reel, connecting plate outer wall fixedly connected with support column, the last surface fixedly connected with supporting shoe of connecting plate, the last surface fixedly connected with of supporting shoe is at the lower surface of second reduction gear.

As a further description of the above technical solution:

the inside sliding connection of winding roll has wire rope, wire rope's outer wall sliding connection has spacing roller, the both ends of spacing roller rotate and are connected with the link.

As a further description of the above technical solution:

one end fixedly connected with of wire rope carries cargo table, the spout has been seted up to the inside of carrying cargo table, the inner wall sliding connection of spout has the slide rail, slide rail outer wall fixed connection is at the outer wall of support column.

As a further description of the above technical solution:

the inner wall fixed connection of link is at the outer wall of support column, the upper surface of link rotates and is connected with first spacing wheel, the outer wall sliding connection of first spacing wheel has the second guide rail, the lower surface sliding connection of second guide rail is at the upper surface of link.

The utility model has the following beneficial effects:

1. according to the utility model, the second motor is connected with the first speed reducer so as to control the power of the second motor, the first speed reducer drives the first rotating wheel to rotate and drives the belt to move, so that the second rotating wheel, the rotating rod and the first moving wheel are driven to rotate, the effect of stably reducing vibration of the stacker is achieved, vibration generated when the second motor is used can be reduced through the damping plate under the second motor, and the effect of reducing noise is achieved.

2. According to the utility model, the rotation speed is controlled through the second speed reducer at the output end of the first motor, so that the winding drum can wind and unwind the steel wire rope more stably, the steel wire rope can slide on the outer wall of the limiting roller, the cargo carrying platform can be driven to slide on the sliding rail, and the cargo carrying platform can be stably lifted by the action.

Drawings

FIG. 1 is a schematic front perspective view of a light low noise double upright stacker according to the present utility model;

FIG. 2 is a cross-sectional view of a second slider of a lightweight low noise dual column stacker of the present utility model;

FIG. 3 is a cross-sectional view of a connecting column of a lightweight low noise dual column stacker of the present utility model;

fig. 4 is a split view of a connecting frame of a light low-noise double-upright stacker provided by the utility model.

Legend description:

1. a first guide rail; 2. a first slider; 3. a connecting column; 4. a second slider; 5. a protective case; 6. a cargo bed; 7. a slide rail; 8. a second guide rail; 9. a first limit wheel; 10. a connecting frame; 11. a fixing frame; 12. a first motor; 13. a support column; 14. a second motor; 15. a first decelerator; 16. a belt; 17. a first rotating wheel; 18. a second rotating wheel; 19. a rotating lever; 20. a first moving wheel; 21. a shock absorbing plate; 22. the second limiting wheel; 23. a second moving wheel; 24. a limit roller; 25. a wire rope; 26. a chute; 27. a winding roll; 28. a connecting plate; 29. a support block; 30. and a second decelerator.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, one embodiment provided by the present utility model is: the utility model provides a light-duty low noise double column stacker, including first guide rail 1, the upper surface sliding connection of first guide rail 1 has second sliding block 4, the upper surface fixedly connected with protection box 5 of second sliding block 4, the upper surface fixedly connected with shock attenuation board 21 of second sliding block 4, the upper surface fixedly connected with second motor 14 of shock attenuation board 21, the output fixedly connected with first reduction gear 15 of second motor 14, the output fixedly connected with first rotor 17 of first reduction gear 15, the outer wall sliding connection of first rotor 17 has belt 16, the inside rotation of second sliding block 4 is connected with dwang 19, the outer wall fixedly connected with first removal wheel 20 of dwang 19, the outer wall sliding connection of first removal wheel 20 is at first guide rail 1, the outer wall fixedly connected with second rotor 18 of dwang 19, the outer wall sliding connection of second rotor 18 is at the inner wall of belt 16.

The second motor 14 is started to drive the first speed reducer 15 to drive the first rotating wheel 17 to rotate, the belt 16 is driven to move through the rotation of the first rotating wheel 17, the second rotating wheel 18 is driven to rotate, the rotating rod 19 is driven to rotate inside the second sliding block 4 through the rotation of the second rotating wheel 18, the first moving wheel 20 is driven to rotate, vibration generated when the second motor 14 is started is generated through the second motor 14 and the damping plate 21 under the first speed reducer 15, noise generated by vibration is reduced, noise is reduced, the power of the second motor 14 is controlled through the first speed reducer 15, the first moving wheel 20 is enabled to rotate stably, the first moving wheel 20 is enabled to slide on the first guide rail 1 through the rotation of the first moving wheel 20, and noise is reduced when the stacker moves.

The outer wall fixedly connected with spliced pole 3 of second sliding block 4, the inner wall sliding connection of spliced pole 3 is at the outer wall of first guide rail 1, and the inside rotation of spliced pole 3 is connected with second spacing wheel 22, and the outer wall sliding connection of second spacing wheel 22 is at the outer wall of first guide rail 1.

The connecting column 3 is driven to move through the movement of the second sliding block 4, the second limiting wheels 22 inside the connecting column 3 are in contact with the first guide rail 1, so that the limiting effect is achieved, the connecting column is attached to the first guide rail 1, and shaking generated during movement is reduced.

The outer wall fixedly connected with first sliding block 2 of spliced pole 3, the inner wall sliding connection of first sliding block 2 is at the outer wall of first guide rail 1, and the inner wall rotation of first sliding block 2 is connected with the second and removes round 23, and the outer wall sliding connection of second removes round 23 reaches the upper surface at first guide rail 1.

The first sliding block 2 is driven to move through the movement of the connecting column 3, so that the second moving wheel 23 slides on the first guide rail 1.

The upper surface fixedly connected with support column 13 of spliced pole 3, the outer wall fixedly connected with mount 11 of support column 13, the outer wall fixedly connected with first motor 12 of mount 11, the output fixedly connected with second reduction gear 30 of first motor 12.

The effect of supporting the first motor 12 is started by the fixing frame 11, and the effect of controlling the power of the first motor 12 can be started by the second decelerator 30.

The output of second reduction gear 30 fixedly connected with take-up reel 27, the lower surface fixedly connected with connecting plate 28 of take-up reel 27, connecting plate 28 outer wall fixedly connected with support column 13, the upper surface fixedly connected with supporting shoe 29 of connecting plate 28, the upper surface fixedly connected with of supporting shoe 29 is at the lower surface of second reduction gear 30.

The connection plate 28 has an effect of supporting the winding reel 27, and the support block 29 has an effect of supporting the second speed reducer 30.

The inside sliding connection of take-up reel 27 has wire rope 25, and wire rope 25's outer wall sliding connection has spacing roller 24, and the both ends of spacing roller 24 are connected with link 10 in rotation.

The rotation of the winding roll 27 drives the steel wire rope 25 to slide on the limiting roller 24, so that the limiting roller 24 is driven to rotate on the connecting frame 10, and the limiting roller 24 is used for limiting the steel wire rope 25.

One end fixedly connected with cargo carrying platform 6 of wire rope 25, the spout 26 has been seted up to the inside of cargo carrying platform 6, and the inner wall sliding connection of spout 26 has slide rail 7, and slide rail 7 outer wall fixed connection is at the outer wall of support column 13.

The movement of the wire rope 25 drives the loading platform 6 to move, so that the loading platform slides on the slide rail 7.

The inner wall fixed connection of link 10 is at the outer wall of support column 13, and the upper surface rotation of link 10 is connected with first spacing wheel 9, and the outer wall sliding connection of first spacing wheel 9 has second guide rail 8, and the lower surface sliding connection of second guide rail 8 is at the upper surface of link 10.

The connecting frame 10 is driven by the movement of the supporting column 13, and then the first limiting wheel 9 is driven to slide on the second guide rail 8, so that the stacker can move along the second guide rail 8.

Working principle: when this light-duty low noise double column stacker is used to needs, drive first reduction gear 15 through start second motor 14 and drive first rotation wheel 17 and rotate, and then drive belt 16 through the rotation of first rotation wheel 17 and remove, and then drive second rotation wheel 18 and rotate, and then drive dwang 19 and rotate inside second sliding block 4 through the rotation of second rotation wheel 18, and then drive first removal wheel 20 and rotate, shock attenuation board 21 through second motor 14 and under first reduction gear 15 plays the vibrations that produce when carrying out second motor 14 and start, and then reduce the production of noise, and then make it slide on first guide rail 1 through first removal wheel 20 rotation, and then drive spliced pole 3 and remove, and through the inside second spacing wheel 22 of spliced pole 3 and first guide rail 1 contact, and then play spacing effect, the removal through spliced pole 3 drives first sliding block 2 and removes, and then makes second removal wheel 23 slide on first guide rail 1, and then drive 13 support column through the removal of spliced pole 3, thereby drive link 10 and remove, and then drive first motor 9 and make it slide on first guide rail 1 and then drive wire rope 25 and make it move on the outer wall 25, and then drive wire rope reel 8 and make it to move through the smooth motion, and further drive wire rope reel 25.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. Light-duty low noise double column stacker, including first guide rail (1), its characterized in that: the upper surface sliding connection of first guide rail (1) has second sliding block (4), the upper surface fixedly connected with protection box (5) of second sliding block (4), the upper surface fixedly connected with shock attenuation board (21) of second sliding block (4), the upper surface fixedly connected with second motor (14) of shock attenuation board (21), the output fixedly connected with first reduction gear (15) of second motor (14), the output fixedly connected with first rotor (17) of first reduction gear (15), the outer wall sliding connection of first rotor (17) has belt (16), the inside rotation of second sliding block (4) is connected with dwang (19), the outer wall fixedly connected with first rotor (20) of dwang (19), the outer wall sliding connection of first rotor (20) is at first guide rail (1), the outer wall fixedly connected with second rotor (18) of dwang (19), the outer wall sliding connection of second rotor (18) is at the inner wall of belt (16).

2. A lightweight low noise double column stacker as in claim 1 wherein: the outer wall fixedly connected with spliced pole (3) of second sliding block (4), the inner wall sliding connection of spliced pole (3) is at the outer wall of first guide rail (1), the inside rotation of spliced pole (3) is connected with second spacing wheel (22), the outer wall sliding connection of second spacing wheel (22) is at the outer wall of first guide rail (1).

3. A lightweight low noise double column stacker as in claim 2 wherein: the outer wall fixedly connected with first sliding block (2) of spliced pole (3), the inner wall sliding connection of first sliding block (2) is at the outer wall of first guide rail (1), the inner wall rotation of first sliding block (2) is connected with second removal round (23), the outer wall sliding connection of second removal round (23) reaches the upper surface at first guide rail (1).

4. A lightweight low noise double column stacker as in claim 2 wherein: the upper surface fixedly connected with support column (13) of spliced pole (3), the outer wall fixedly connected with mount (11) of support column (13), the outer wall fixedly connected with first motor (12) of mount (11), the output fixedly connected with second reduction gear (30) of first motor (12).

5. The light low noise double column stacker of claim 4 wherein: the output end fixedly connected with take-up reel (27) of second reduction gear (30), the lower surface fixedly connected with connecting plate (28) of take-up reel (27), connecting plate (28) outer wall fixedly connected with support column (13), the upper surface fixedly connected with supporting shoe (29) of connecting plate (28), the upper surface fixedly connected with of supporting shoe (29) is at the lower surface of second reduction gear (30).

6. The light low noise double column stacker of claim 5 wherein: the inside sliding connection of take-up reel (27) has wire rope (25), the outer wall sliding connection of wire rope (25) has spacing roller (24), the both ends of spacing roller (24) rotate and are connected with link (10).

7. The light low noise double column stacker of claim 6 wherein: one end fixedly connected with of wire rope (25) carries cargo table (6), the spout (26) has been seted up to the inside of carrying cargo table (6), the inner wall sliding connection of spout (26) has slide rail (7), slide rail (7) outer wall fixed connection is at the outer wall of support column (13).

8. The light low noise double column stacker of claim 6 wherein: the inner wall fixed connection of link (10) is at the outer wall of support column (13), the upper surface of link (10) rotates and is connected with first spacing wheel (9), the outer wall sliding connection of first spacing wheel (9) has second guide rail (8), the lower surface sliding connection of second guide rail (8) is at the upper surface of link (10).