CN219296205U - Scalable storage silo - Google Patents

Abstract

The utility model discloses a telescopic storage bin which comprises a first bin body, a second bin body and at least one set of driving mechanism, wherein the second bin body is sleeved in the first bin body; in general, the utility model is convenient to assemble, disassemble and move, occupies small space during equipment transportation, can effectively reduce the transportation cost and has high practicability.

Description

Scalable storage silo

Technical Field

The utility model relates to the technical field of solid waste resource recycling, in particular to a telescopic storage bin.

Background

The construction waste is solid waste generated in the process of building new construction, reconstruction, extension or demolition, and most of the construction waste can be reused as renewable resources after being sorted, removed or crushed. The on-site recycling of the construction waste stacking place is a good choice, secondary pollution in the construction waste transferring process can be effectively reduced, on-site recycling equipment needs to be subjected to frequent transfer operation according to different construction waste stacking places, and particularly the storage bin is large in size, large in occupied space during transportation and high in transportation cost.

Disclosure of Invention

The utility model mainly aims to provide the telescopic storage bin which is convenient to assemble, disassemble and move, small in occupied space during equipment transportation, capable of effectively reducing transportation cost and high in practicability.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides a scalable storage silo, includes the first storehouse body, the second storehouse body and at least one set of actuating mechanism, the second storehouse body cover is located in the first storehouse body, actuating mechanism includes drive arrangement, gear and rack, drive arrangement with the first storehouse body links firmly, drive arrangement's output is connected the gear, the rack with the second storehouse body links firmly, the drive arrangement drive the gear rotates and with the rack meshing is used for the drive the second storehouse body is followed the round trip movement of first storehouse body axis direction.

The first bin body comprises a support, a conical bin and a first silo, the support is detachably connected with the conical bin, the first silo is fixedly connected with the conical bin, sliding grooves evenly distributed around the axis are formed in the inner wall of the first silo, and the sliding grooves are formed in the direction of the axis of the first silo.

The second silo body comprises a second silo and an annular end plate, the annular end plate is fixedly connected with the lower end part of the second silo, the annular end plate is sleeved in the first silo, and sliding teeth matched with the sliding grooves are arranged on the annular end plate.

And a sealing gasket is arranged between the annular end plate and the first silo.

Still include anti-falling mechanism, anti-falling mechanism is including setting up anti-falling plate on the first storehouse body and setting up the butt board on the second storehouse body, anti-falling plate with the first storehouse body rotates to be connected, anti-falling plate is close to one side of the second storehouse body extends the pawl end, anti-falling plate is kept away from one side of the second storehouse body extends the upset end.

An extension spring is arranged between one side of the pawl end of the anti-falling plate and the first bin body, and a rope pulling hole is formed in the overturning end of the anti-falling plate.

The driving device is an electromagnetic braking speed reducing motor.

The utility model has the beneficial effects that:

1. when the utility model is used for transferring, the driving mechanism drives the second bin body to move into the first bin body, and the space occupied by equipment can be effectively reduced without disassembling the first bin body and the second bin body, so that the transportation is convenient, and the transportation cost is obviously reduced; when the novel bin is used, the driving mechanism drives the second bin body to move to the outside of the first bin body, so that the installation link between the first bin body and the second bin body is reduced, the novel bin is convenient and quick, and a large amount of labor cost and installation cost are saved; the support is detachably connected with the cone bin, so that the occupied space during equipment transportation can be further reduced;

2. the sliding groove is arranged in the first bin body, the sliding teeth are arranged on the second bin body and matched with the sliding grooves, so that the second bin body can not deflect when moving back and forth in the first bin body, the gear and the rack in the driving mechanism can be well meshed, and the second bin body can slide smoothly in the first bin body;

3. the driving mechanism adopts gear and rack transmission, has reasonable and practical structure, is simple and convenient to operate, has long stroke and small occupied space, and is particularly suitable for being used in equipment needing frequent transition operation;

4. the driving device adopts the electromagnetic braking and braking gear motor, has small volume, and rapid and reliable braking, ensures that the second bin body is kept motionless after moving to a proper position, and does not slide downwards due to the action of gravity; the anti-falling mechanism is low in manufacturing cost, and equipment damage caused by free sliding of the second bin body can be effectively prevented when accidents occur to the driving device;

in general, the utility model is convenient to assemble, disassemble and move, occupies small space during equipment transportation, can effectively reduce the transportation cost and has high practicability.

Drawings

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

FIG. 2 is a schematic view in the direction A-A of FIG. 1;

FIG. 3 is a schematic view of the second cartridge body slid into the first cartridge body according to the present utility model;

in the figure: 1. the first bin body, 11, the support, 12, the cone bin, 13, the first bin, 2, the second bin body, 21, the second bin, 22, the annular end plate, 3, the driving mechanism, 31, the driving device, 32, the gear, 33, the rack, 4, the chute, 5, the sliding tooth, 6, the sealing gasket, 7, the anti-falling mechanism, 71, the anti-falling plate, 72, the resisting plate, 8, the tension spring, 9 and the stay cord hole.

Detailed Description

The following detailed description of the utility model refers to the accompanying drawings and preferred embodiments.

As shown in fig. 1 and 2, a telescopic storage bin comprises a first bin body 1, a second bin body 2 and at least one set of driving mechanism 3, wherein the second bin body 2 is sleeved in the first bin body 1, the driving mechanism 3 comprises a driving device 31, a gear 32 and a rack 33, the driving device 31 is fixedly connected to the outer side of the upper end part of the first bin body 1 through bolts, the output end of the driving device 31 is connected with the gear 32, the rack 33 is fixedly connected to the outer side of the second bin body through welding or bolts, the driving device 31 drives the gear 32 to rotate and is meshed with the rack 33 so as to drive the second bin body 2 to move back and forth along the axial direction of the first bin body 1, and the second bin body 2 slides in or slides out of the first bin body 1, so that the height of the telescopic bin is reduced; during transition operation, the driving mechanism 3 drives the second bin body 2 to move into the first bin body 1, and the space occupied by equipment can be effectively reduced without disassembling the first bin body 1 and the second bin body 2, so that the transportation is convenient, and the transportation cost is obviously reduced; when the novel storehouse is used, the driving mechanism 3 drives the second storehouse body 2 to move to the outside of the first storehouse body 1, so that the installation links between the first storehouse body 1 and the second storehouse body 2 are reduced, the novel storehouse is convenient and quick, and a large amount of labor cost and installation cost are saved.

The first silo body 1 includes support 11, awl storehouse 12 and first silo 13, support 11 and awl storehouse 12 can dismantle the connection, space that occupies when can further reduce equipment transportation, first silo 13 passes through welded fastening with awl storehouse 12, welding or bolted fastening have on the inner wall of first silo 13 encircle first silo 13 axis evenly distributed's spout 4, spout 4 is U type cross-section, easy manufacture and convenient to use, spout 4 sets up along the axis direction of first silo 13, the upper end of spout 4 flushes with the upper end of first silo 13, the lower extreme of spout 4 extends to the junction of first silo 13 and awl storehouse 12, can make the second silo body 2 can furthest slide into inside the first silo body 1, furthest's reduction transportation space.

The second bin body 2 comprises a second bin 21 and an annular end plate 22, the annular end plate 22 is welded on the outer side of the lower end part of the second bin 21, the outermost diameter of the annular end plate 22 is smaller than the inner diameter of the first bin 13, the annular end plate 22 is sleeved in the first bin 13, sliding teeth 5 formed by cutting are arranged on the annular end plate 22, the sliding teeth 5 can be welded on the annular end plate 22 after being manufactured, a plurality of sliding teeth 5 are uniformly distributed along the axis of the annular end plate 22, the sliding teeth 5 are matched with the sliding grooves 4, the second bin body 2 is ensured not to deflect when moving back and forth in the first bin body 1, the gear 32 and the rack 33 in the driving mechanism 3 can be well meshed, and the second bin body 2 can slide smoothly in the first bin body 1.

A sealing gasket 6 is arranged between the annular end plate 22 and the first silo 13, so that materials in the silo can be prevented from being discharged, and the tightness of the telescopic silo is improved.

The anti-falling mechanism 7 is further arranged, the anti-falling mechanism 7 comprises an anti-falling plate 71 arranged on the first bin body 1 and a plurality of resisting plates 72 arranged on the second bin body 2, the anti-falling plate 71 is rotationally connected with the first bin body 1, the plurality of resisting plates 72 are welded on the outer side of the second bin body 2 along the axis direction of the second bin body 2, one side of the anti-falling plate 71, which is close to the second bin body 2, extends out of a pawl end, an extension spring 8 is arranged between one side of the pawl end of the anti-falling plate 71 and the first bin body 1, one side of the anti-falling plate 71, which is far away from the second bin body 2, extends out of a turnover end, and the turnover end of the anti-falling plate 71 is provided with a rope pulling hole 9; when the driving mechanism 3 drives the second bin body 2 to move upwards, the anti-falling plate 71 can be propped against the direction away from the second bin body 2 by the resisting plate 72, so that the movement of the second bin body 2 is not influenced by the anti-falling plate 71; when the driving mechanism 3 drives the second bin body 2 to move to a proper position to stop, under the action of the tension spring 8, the pawl end of the anti-falling plate 71 can be abutted against the outer wall of the second bin body 2 and the lower part of the abutment plate 72 to prevent the second bin body 2 from falling down; the number of the retaining plates 72 is multiple, so that the situation that the second bin body 2 falls down to cause the bin body to be damaged in the upward moving process can be effectively avoided in time; when the driving mechanism 3 drives the second bin body 2 to move downwards, the overturning end of the anti-falling plate 71 is pulled downwards obliquely through the rope pulling hole 9, so that the pawl end of the anti-falling plate 71 is far away from the second bin body 2, and after the driving mechanism 3 drives the second bin body 2 to move to a proper position to stop, the overturning end of the anti-falling plate 71 is loosened.

The driving device 31 adopts an electromagnetic braking and braking gear motor, has small volume, and rapid and reliable braking, and can ensure that the second bin body 2 cannot slide downwards due to the action of gravity when the driving device 31 stops running, thereby ensuring the safety and reliability of the device.

As shown in fig. 3, the second bin body 2 moves into the first bin body 1, so that the overall height of the telescopic bin can be obviously reduced, the occupied space during equipment transportation is reduced, and the transportation cost is saved.

In addition, the top of the second bin body 2 is provided with a feed inlet, and the bottom of the first bin body 1 is provided with a discharge outlet, so that materials can be conveniently fed into and discharged from the first bin body.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. A scalable storage silo which characterized in that: including the first storehouse body, the second storehouse body and at least one set of actuating mechanism, the second storehouse body cover is located in the first storehouse body, actuating mechanism includes drive arrangement, gear and rack, drive arrangement with the first storehouse body links firmly, drive arrangement's output is connected the gear, the rack with the second storehouse body links firmly, drive arrangement drive the gear rotation and with the rack meshing is used for the drive the second storehouse body is followed the round trip movement of first storehouse body axis direction.

2. The collapsible bin of claim 1, wherein: the first bin body comprises a support, a conical bin and a first silo, the support is detachably connected with the conical bin, the first silo is fixedly connected with the conical bin, sliding grooves evenly distributed around the axis are formed in the inner wall of the first silo, and the sliding grooves are formed in the direction of the axis of the first silo.

3. The retractable storage silo of claim 2, wherein: the second silo body comprises a second silo and an annular end plate, the annular end plate is fixedly connected with the lower end part of the second silo, the annular end plate is sleeved in the first silo, and sliding teeth matched with the sliding grooves are arranged on the annular end plate.

4. A telescopic storage silo according to claim 3, wherein: and a sealing gasket is arranged between the annular end plate and the first silo.

5. The collapsible bin of claim 1, wherein: still include anti-falling mechanism, anti-falling mechanism is including setting up anti-falling plate on the first storehouse body and setting up the butt board on the second storehouse body, anti-falling plate with the first storehouse body rotates to be connected, anti-falling plate is close to one side of the second storehouse body extends the pawl end, anti-falling plate is kept away from one side of the second storehouse body extends the upset end.

6. The collapsible bin of claim 5, wherein: an extension spring is arranged between one side of the pawl end of the anti-falling plate and the first bin body, and a rope pulling hole is formed in the overturning end of the anti-falling plate.

7. The collapsible bin of claim 1, wherein: the driving device is an electromagnetic braking speed reducing motor.

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