CN220200730U

CN220200730U - Automatic charging elevator

Info

Publication number: CN220200730U
Application number: CN202321589654.3U
Authority: CN
Inventors: 邱德明; 丁志强
Original assignee: Xinjiang Jindayu Environmental Technology Co ltd
Current assignee: Xinjiang Jindayu Environmental Technology Co ltd
Priority date: 2023-06-21
Filing date: 2023-06-21
Publication date: 2023-12-19
Anticipated expiration: 2033-06-21

Abstract

The utility model relates to the technical field of elevators, in particular to an automatic charging elevator, which comprises a machine base and a controller, wherein a rotary lifting assembly is arranged on the machine base, a plurality of lifting hopper assemblies are uniformly arranged on the rotary lifting assembly at intervals, a receiving hopper and a feeding assembly are respectively arranged at the upper side end and the lower side end of the rotary lifting assembly, and a turnover assembly is arranged on the machine base corresponding to the receiving hopper; the rotary lifting assembly comprises an annular support, a plurality of transmission gears are uniformly arranged on the annular support at intervals, rotary toothed chains are sleeved outside the transmission gears, a plurality of sleeves are uniformly arranged on the rotary toothed chains at intervals, driving motors are connected on the rotary gears, and the driving motors are fixedly mounted on the machine base. The lifting device can continuously convey lifting materials by utilizing the lifting driving assembly, and effectively improves the working efficiency.

Description

Automatic charging elevator

Technical Field

The utility model relates to the technical field of elevators, in particular to an automatic feeding elevator.

Background

The elevator is a large mechanical device for transportation by changing potential energy, such as a mine elevator, a dam passing elevator and the like. The hoisting machine generally refers to large-scale mechanical equipment with higher power and higher hoisting capacity, and the flexible part steel wire rope or chain and transported goods are dragged by the power machine to move up and down to finish the transportation process. In the traditional material feeding process, manual carrying and lifting are adopted mostly, time and labor are consumed, labor force is greatly increased, automatic feeding cannot be achieved, meanwhile, automatic feeding cannot be achieved through traditional equipment when feeding and discharging, and therefore automatic feeding lifting machines are required to meet demands of people.

Chinese patent CN215905236U discloses an automatic feeding device of material loading lifting machine, relates to the lifting machine field, including the lifting machine base, the top side fixed mounting of lifting machine base has two lifting support, and the top side fixed mounting of two lifting support has same lifting power equipment, control equipment is installed to one side of lifting power equipment. According to the automatic feeding device, the lifting frame can be driven to move downwards through the control of the control device and the lifting power device, after the material in the feeding pipe can fall into the lifting hopper after moving to one side of the feeding pipe, the lifting frame and the lifting hopper can be driven to move upwards along with continuous rising of the lifting chain, and after the lifting hopper moves upwards, the lifting hopper can be contacted with the two overturning pressing blocks, so that the material in the lifting hopper can be discharged and falls into the collecting hopper, automatic lifting feeding is completed, the material can fall into the collecting device through the collecting hopper, and multiple batches and small batches of automatic feeding are realized.

However, the above technical solution still has the following drawbacks: only a single lifting hopper is arranged to convey materials in a reciprocating manner, and the working efficiency is low.

Disclosure of Invention

The technical problem to be solved by the utility model is to provide an automatic feeding elevator, which can continuously and uninterruptedly convey the lifted materials by utilizing a lifting driving assembly, and effectively improves the working efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the automatic feeding elevator comprises an engine base and a controller, wherein a rotary lifting assembly is arranged on the engine base, a plurality of lifting hopper assemblies are uniformly arranged on the rotary lifting assembly at intervals, a receiving hopper and a feeding assembly are respectively arranged at the upper side end and the lower side end of the rotary lifting assembly, and a turnover assembly is arranged on the engine base corresponding to the receiving hopper; the rotary lifting assembly comprises an annular support, a plurality of transmission gears are uniformly arranged on the annular support at intervals, rotary toothed chains are sleeved outside the transmission gears in a meshed mode, a plurality of sleeves are uniformly arranged on the rotary toothed chains at intervals, a driving motor is connected to the rotary gears, and the driving motor is fixedly arranged on the base; each lifting hopper assembly comprises a lifting hopper, lifting hoppers are symmetrically provided with hanging rods, one ends of the hanging rods are rotatably connected with the lifting hoppers, rotating rods are arranged at the other ends of the hanging rods, and the rotating rods are freely rotatably sleeved in the sleeves.

Further, the turnover assembly comprises a movable support and a clamping supporting plate rotatably connected and installed on the movable support, a turnover motor is connected to the clamping supporting plate, the movable support is slidably installed on the base, a driving electric cylinder is arranged on the movable support, and the driving electric cylinder is fixedly installed on the base.

Further, the card layer board is including being used for supporting the diaphragm of promotion hopper bottom, one side of diaphragm is connected and is equipped with the cardboard, the cardboard with contained angle between the diaphragm with promote the hopper bucket bottom the contained angle the same with the lateral wall.

Further, a distance sensor is arranged on the card supporting plate.

Further, a guide groove is arranged between the feeding component and the lifting hopper, a telescopic bracket is arranged on the guide groove, and a reciprocating electric cylinder is arranged on the telescopic bracket.

The utility model has the beneficial effects that:

in an actual use situation, the rotating lifting assembly is utilized to simultaneously operate to drive the lifting hopper assemblies to lift and transfer materials uninterruptedly, when one lifting hopper assembly reaches a receiving hopper to stop transferring materials, the other lifting hopper assembly just reaches the position of the feeding assembly, and therefore the overturning assembly is utilized to drive one lifting hopper assembly to transfer the materials to the receiving hopper, and the other empty lifting hopper assembly can receive the feeding assembly to feed materials; the annular support is in a fixed state, a moving path is provided for the lifting hopper assembly, a driving motor is used for driving a transmission gear and a rotating toothed chain to form a transfer driving piece, lifting driving force is realized, the lifting hopper is assembled with the sleeve through a hanging rod and a rotating rod, the lifting hopper can be always in a vertical hanging state under the action of gravity, materials are conveniently contained, meanwhile, the hanging rod is rotationally connected with the lifting hopper, and the overturning assembly is convenient for overturning the lifting hopper to transfer the materials into the receiving hopper; the feeding assembly can adopt an automatic feeder in the conventional prior art, a specific feeding mode is not limited, and the matching is more flexible and convenient. The lifting device can continuously convey lifting materials by utilizing the lifting driving assembly, and effectively improves the working efficiency.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure of the present utility model;

FIG. 2 is an enlarged schematic view of FIG. 1A according to the present utility model;

fig. 3 is a schematic side view of a part of the structure of the present utility model.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model.

As shown in fig. 1-3, the utility model provides an automatic feeding elevator, which comprises a machine base 1 and a controller, wherein a rotary lifting assembly 2 is arranged on the machine base 1, a plurality of lifting hopper assemblies 3 are uniformly arranged on the rotary lifting assembly 2 at intervals, a receiving hopper 4 and a feeding assembly 5 are respectively arranged at the upper side end and the lower side end of the rotary lifting assembly 2, and a turnover assembly 6 is arranged on the machine base 1 corresponding to the receiving hopper 4; the rotary lifting assembly 2 comprises an annular support 21, a plurality of transmission gears 22 are uniformly arranged on the annular support 21 at intervals, a rotary toothed chain 23 is sleeved outside the transmission gears 22, a plurality of sleeves 24 are uniformly arranged on the rotary toothed chain 23 at intervals, a driving motor is connected to the rotary gears 22, and the driving motor is fixedly arranged on the base 1; each lifting hopper assembly 3 comprises a lifting hopper 31, lifting hoppers 31 are symmetrically provided with hanging rods 32, one ends of the hanging rods 32 are rotatably connected with the lifting hoppers 31, the other ends of the hanging rods 32 are provided with rotating rods 33, and the rotating rods 33 are freely rotatably sleeved in the sleeves 24.

In this embodiment, the rotating lifting assembly 2 is utilized to simultaneously operate to drive the plurality of lifting hopper assemblies 3 to lift and transfer materials continuously, and when one of the lifting hopper assemblies 3 arrives at the receiving hopper 4 to stop transferring materials, the other lifting hopper assembly 3 just arrives at the position of the feeding assembly 5, so that the other empty lifting hopper assembly 3 can receive the feeding assembly 5 to feed materials while the overturning assembly 6 is utilized to drive the one lifting hopper assembly 3 to transfer materials to the receiving hopper 4; the annular brackets 21 are in a fixed state, the two annular brackets are fixedly connected, so that the lifting hopper 31 moves between the two annular brackets 21 and is not blocked, a moving path is provided for the lifting hopper assembly 3, a driving motor is used for driving the transmission gear 22 and the rotating toothed chain 23 to form a transferring driving piece, lifting driving force is realized, the lifting hopper 31 is connected and assembled with the sleeve 24 by using the hanging rod 32 and the rotating rod 33, the lifting hopper 31 can be always in a vertical hanging state under the action of gravity, materials are conveniently contained, meanwhile, the hanging rod 32 is rotationally connected with the lifting hopper 31, and the overturning assembly 6 is convenient for overturning the lifting hopper 31 to transfer the materials into the receiving hopper 4; the feeding assembly 5 can adopt an automatic feeder in the conventional prior art, a specific feeding mode is not limited, and the matching is more flexible and convenient. The lifting machine can continuously and uninterruptedly convey lifting materials by utilizing the lifting driving assembly, and effectively improves the working efficiency.

As shown in fig. 2, the turnover assembly 6 includes a moving bracket 61 and a card supporting plate 62 rotatably connected to and mounted on the moving bracket 61, a turnover motor 63 is connected to and provided on the card supporting plate 62, the moving bracket 61 is slidably mounted on the base 1, a driving cylinder 64 is provided on the moving bracket 61, and the driving cylinder 64 is fixedly mounted on the base 1; in this embodiment, when the lifting hopper 31 filled with materials reaches a designated position, the driving motor is suspended to drive the whole materials to be transferred, the driving motor 64 is controlled to drive the moving bracket 61 so that the clamping support plate 62 clamps the lifting hopper 31 to push to a position capable of transferring materials with the receiving hopper 4, and the overturning motor 63 is controlled to drive the clamping support plate 62 to drive the lifting hopper 31 to overturn so as to transfer the materials into the receiving hopper 4, so that the lifting and transferring work of the materials is completed.

As shown in fig. 2, the clamping plate 62 includes a transverse plate 621 for supporting the bottom of the lifting hopper 31, one side of the transverse plate 621 is connected with a clamping plate 622, and an included angle between the clamping plate 622 and the transverse plate 621 is the same as an included angle between the bottom of the lifting hopper 31 and the side wall; in this embodiment, the clamping plate 62 uses the transverse plate 621 and the clamping plate 622 to clamp and hold the lifting hopper 31, so that the material can be conveniently transferred in the subsequent overturning operation.

As shown in fig. 1, the card supporting plate 62 is provided with a distance sensor; in this embodiment, the distance sensor is used to detect whether the lifting hopper 31 reaches the designated overturning position, so that the driving motor is conveniently and timely controlled to pause the conveying, and meanwhile, the operation card supporting plate 62 is controlled to clamp the lifting hopper 31 to overturn and transfer the material to the receiving hopper.

As shown in fig. 1, a guide groove 51 is arranged between the feeding assembly 5 and the lifting hopper 31, a telescopic bracket 52 is arranged on the guide groove 51, and a reciprocating cylinder 53 is arranged on the telescopic bracket 52; in this embodiment, the reciprocating cylinder 53 is used to drive the telescopic bracket 52 to drive the guide chute 51 to move telescopically between the feeding assembly 5 and the lifting hopper 31, so as to avoid affecting the normal operation of the lifting hopper 31.

All technical features in the present embodiment can be modified in appearance according to actual needs.

The foregoing embodiments are preferred embodiments of the present utility model, and in addition, the present utility model may be implemented in other ways, and any obvious substitution is within the scope of the present utility model without departing from the concept of the present utility model.

Claims

1. The utility model provides an automatic feeding lifting machine, includes frame (1) and controller, its characterized in that: the automatic lifting machine is characterized in that a rotary lifting assembly (2) is arranged on the machine base (1), a plurality of lifting hopper assemblies (3) are uniformly arranged on the rotary lifting assembly (2) at intervals, a receiving hopper (4) and a feeding assembly (5) are respectively arranged at the upper side end and the lower side end of the rotary lifting assembly (2), and a turnover assembly (6) is arranged on the machine base (1) corresponding to the receiving hopper (4);

the rotary lifting assembly (2) comprises an annular support (21), a plurality of transmission gears (22) are uniformly arranged on the annular support (21) at intervals, a rotary toothed chain (23) is sleeved outside the transmission gears (22), a plurality of sleeves (24) are uniformly arranged on the rotary toothed chain (23) at intervals, a driving motor is connected to the rotary gears (22), and the driving motor is fixedly arranged on the base (1);

each lifting hopper assembly (3) comprises a lifting hopper (31), lifting hoppers (31) are symmetrically provided with hanging rods (32), one ends of the hanging rods (32) are rotationally connected with the lifting hoppers (31), rotating rods (33) are arranged at the other ends of the hanging rods (32), and the rotating rods (33) are freely sleeved in the sleeves (24) in a rotating mode.

2. An automatic feed elevator according to claim 1, wherein: the turnover assembly (6) comprises a movable support (61) and a clamping support plate (62) rotatably connected and installed on the movable support (61), a turnover motor (63) is connected to the clamping support plate (62), the movable support (61) is slidably installed on the base (1), a driving electric cylinder (64) is arranged on the movable support (61), and the driving electric cylinder (64) is fixedly installed on the base (1).

3. An automatic feed elevator according to claim 2, wherein: the clamping plate (62) comprises a transverse plate (621) for supporting the bottom of the lifting hopper (31), one side of the transverse plate (621) is connected with a clamping plate (622), and an included angle between the clamping plate (622) and the transverse plate (621) is the same as an included angle between the bottom and the side wall of the lifting hopper (31).

4. An automatic feed elevator according to claim 2, wherein: a distance sensor is arranged on the card supporting plate (62).

5. An automatic feed elevator according to claim 1, wherein: a guide groove (51) is arranged between the feeding component (5) and the lifting hopper (31), a telescopic bracket (52) is arranged on the guide groove (51), and a reciprocating electric cylinder (53) is arranged on the telescopic bracket (52).