CN219670059U - Material lifting mechanism with good stability - Google Patents

Abstract

The utility model discloses a material lifting mechanism with good stability, which comprises two C-shaped channel steel, wherein the two C-shaped channel steel are distributed in mirror symmetry, anti-shake sliding blocks are connected inside the two C-shaped channel steel in a sliding manner, rollers are respectively connected to the front side wall, the rear side wall and the lower side wall of each anti-shake sliding block in a rotating manner, a connecting assembly is fixedly connected to the middle position of one side wall, which is close to each other, of the two anti-shake sliding blocks, and a self-rotation turning hopper is connected between the two connecting assemblies. According to the utility model, the hopper connecting pipe is driven to rotate by the material turning motor, and the material containing hopper is connected to the hopper connecting pipe, so that the material containing hopper starts to rotate, and the mechanism avoids the situation that the material is poured in the discharging process due to collision between the hopper and the limiting device when the traditional bucket elevator discharges by the self-turning function of the material containing hopper.

Description

Material lifting mechanism with good stability

Technical Field

The utility model relates to the technical field of material lifting, in particular to a material lifting mechanism with good stability.

Background

Bucket elevators typically scoop material from an underlying store through a hopper, which tilts the material down into a receiving trough as the chain is lifted to the top, bypassing the top wheel. The belt of the bucket elevator is usually rubber belt and is installed on the lower or upper and lower direction-changing drums, the chain-driven bucket elevator is usually equipped with two parallel transmission chains, a pair of transmission wheels is installed on the upper or lower surface, a pair of direction-changing chain wheels is installed on the lower or upper surface, and the bucket elevator is usually equipped with a casing to prevent dust in the bucket elevator from flying.

However, current material lifting mechanism, mostly through gear tooth chain cooperation transmission, when the lifting box of placing the material, when moving to the top, cooperate stop gear again, realize lifting box's upset, thereby send the material into equipment and process, because lifting box all needs to cooperate the striking with stop device at every turn, lead to stop gear and material box all very wearing and tearing to appear very easily, and the in-process that overturns through striking block, the condition that the material was spilt appears easily takes place, consequently, the skilled in the art provides a bucket-type material lifting mechanism that stability is strong, in order to solve the problem that above-mentioned exists

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a material lifting mechanism with good stability.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the material lifting mechanism with good stability comprises two C-shaped channel steel, wherein the two C-shaped channel steel are distributed in mirror symmetry, anti-shake sliding blocks are connected inside the two C-shaped channel steel in a sliding mode, rollers are connected to the front side wall and the rear side wall of each anti-shake sliding block in a rotating mode at the positions close to the upper end and the lower end, connecting components are fixedly connected to the middle positions of the side walls, close to each other, of the two anti-shake sliding blocks, and a self-rotation turning hopper is connected between the two connecting components;

through above-mentioned technical scheme, sliding connection is connected with the hopper at the anti-shake slider in two C font channel-sections, thereby can prevent at hopper upward movement's in-process that the chain rocked and cause the hopper to rock, thereby lead to the material to incline and spill for this elevating system can be more steady removal.

Further, the connecting assembly comprises a sliding block connecting rod, the other end of the sliding block connecting rod is connected with a hopper connecting rod, and a connecting groove is formed in the outer side wall of the hopper connecting rod;

through above-mentioned technical scheme, utilize coupling assembling to connect from rotating the turning over hopper.

Further, the self-rotation turning hopper comprises a turning motor, one side wall of the turning motor is fixedly connected to a hopper connecting rod close to one side, a movable end of the turning motor is connected with a hopper connecting pipe, and the outer side wall of the hopper connecting pipe is fixedly connected with a containing hopper;

through above-mentioned technical scheme, after the hopper reached the unloading position, the stirring motor rotated to drive the hopper connecting pipe and rotate, because the hopper is connected on the hopper connecting pipe, consequently, the hopper begins to rotate, thereby pours the material, and this mechanism has avoided traditional bucket elevator unloading time, hopper and stop device collision, leads to the condition that the material was spilled to take place in the unloading process through the self-turning function of hopper.

Further, the inner side walls at the two ends of the hopper connecting pipe are respectively connected with a rotating bearing, and the inner supporting points of the two rotating bearings are respectively connected to the outer side walls at one end, close to each other, of the two hopper connecting rods;

through above-mentioned technical scheme, utilize the both ends of slewing bearing support hopper connecting pipe, make it more steady in the rotation in-process.

Further, the bottoms of the two C-shaped channel steels are fixedly connected with a supporting base, and reinforcing rods are fixedly connected to the rear side walls of the two C-shaped channel steels and the rear end of the upper side wall of the supporting base;

through above-mentioned technical scheme, utilize the stiffening rod to increase the overall structure of this mechanism for the bearing capacity of this mechanism improves.

Further, connecting plates are fixedly connected to the upper side walls of the two C-shaped channel steels and close to a side wall which is far away from each other, a lifting motor is connected to one side wall bolt of the connecting plate close to one side position, a motor base is fixedly connected to the top of one side wall of the C-shaped channel steel close to one side position, the lifting motor is arranged on the motor base, a supporting plate is connected between the motor base and one side wall of the C-shaped channel steel close to one side position, a motor connecting rod is connected to the movable end of the lifting motor and the middle position of one side wall of the connecting plate close to the other side position, and the other ends of the two motor connecting rods are connected with winding rollers through bearings;

through above-mentioned technical scheme, rotate through the promotion motor and drive two wind-up rolls and rotate for promote the chain and drag the hopper upward movement.

Further, the winding roller is connected with a lifting chain, and the other end of the lifting chain is connected in a connecting groove of a hopper connecting rod adjacent to the lifting chain;

through above-mentioned technical scheme, pull the hopper through the promotion chain and rise.

Further, hinge plates are fixedly connected to the upper positions of the rear side walls of the two C-shaped channel steel, and material guide plates are hinged to the two hinge plates;

through above-mentioned technical scheme, the material deflector that sets up in two C font channel-section steel rear sides can carry out the angle modulation according to specific service condition to in leading the material next link, make this elevating system can cooperate different equipment cooperation to use.

The utility model has the following beneficial effects:

1. according to the utility model, the lifting motor is utilized to drive the two wind-up rolls to rotate, so that the lifting chain is pulled to the hopper to move upwards, and the anti-shake sliding blocks which are in sliding connection with the two C-shaped channel steels are connected with the hopper, so that the hopper can be prevented from swinging left and right in the process of moving upwards, and the material can be inclined and spilled, so that the lifting mechanism can move more stably.

2. According to the utility model, when the hopper reaches the discharging position, the material turning motor rotates to drive the hopper connecting pipe to rotate, and the hopper is connected to the hopper connecting pipe, so that the hopper starts to rotate to pour out materials.

3. According to the utility model, the material guide plates arranged at the rear sides of the two C-shaped channel steel can be subjected to angle adjustment according to specific use conditions, so that the material is guided to the next link, and the lifting mechanism can be matched with different equipment for use.

Drawings

FIG. 1 is an overall view of a stable material lifting mechanism according to the present utility model;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is a schematic rear view of a stable material lifting mechanism according to the present utility model;

fig. 4 is an isometric cross-sectional view of a stable material lifting mechanism in accordance with the present utility model.

Legend description:

1. c-shaped channel steel; 2. a hinged plate; 3. a material guide plate; 4. a support base; 5. a reinforcing rod; 6. an anti-shake slider; 7. a roller; 8. a connection assembly; 9. self-rotating turning hoppers; 10. lifting the chain; 11. a connecting plate; 12. a motor base; 13. lifting the motor; 14. a support plate; 15. a wind-up roll; 16. a motor connecting rod; 17. a slider connecting rod; 18. a connecting groove; 19. a hopper connecting rod; 20. a rotating bearing; 21. a hopper connecting pipe; 22. a turning motor; 23. and a hopper.

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: in order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a material lifting mechanism that stability is good, including two C font channel-section steel 1, two C font channel-section steel 1 are mirror symmetry and distribute, the inside sliding connection of two C font channel-section steel 1 has anti-shake slider 6, the lateral wall is leaned on the upper end and is leaned on the equal rotation of lower extreme position to be connected with gyro wheel 7 around every anti-shake slider 6, a lateral wall intermediate position fixedly connected with coupling assembling 8 that two anti-shake slider 6 are close to each other, be connected with between two coupling assembling 8 and turn over hopper 9 from rotating, sliding connection prevents that the chain from rocking thereby causing hopper 23 to swing about the in-process that hopper 23 upwards moved, thereby lead to the material to incline, make this lifting mechanism can more steady removal.

The connecting assembly 8 comprises a slide block connecting rod 17, the other end of the slide block connecting rod 17 is connected with a hopper connecting rod 19, a connecting groove 18 is formed in the outer side wall of the hopper connecting rod 19, the connecting assembly 8 is utilized to connect the self-rotating material turning hopper 9, the self-rotating material turning hopper 9 comprises a material turning motor 22, one side wall of the material turning motor 22 is fixedly connected to the hopper connecting rod 19 close to one side, a hopper connecting pipe 21 is connected to the movable end of the material turning motor 22, a containing hopper 23 is fixedly connected to the outer side wall of the hopper connecting pipe 21, after the containing hopper 23 reaches a discharging position, the material turning motor 22 rotates, so that the hopper connecting pipe 21 is driven to rotate, and the containing hopper 23 starts to rotate, so that materials are poured out.

The two ends inside wall of hopper connecting pipe 21 is last all to be connected with rolling bearing 20, the interior supporting point of two rolling bearing 20 is connected respectively on the one end lateral wall that two hopper connecting rods 19 are close to each other, utilize rolling bearing 20 to support the both ends of hopper connecting pipe 21, make it more steady at the rotation in-process, the bottom fixedly connected with of two C font channel-section steel 1 supports base 4, the equal fixedly connected with stiffening rod 5 of rear end department is leaned on with the last lateral wall of supporting base 4 to the back lateral wall of two C font channel-section steel 1, utilize stiffening rod 5 to increase the overall structure of this mechanism for the bearing capacity of this mechanism improves.

The upper side walls of the two C-shaped channel steel 1 are fixedly connected with connecting plates 11 near a side wall which is far away from each other, a lifting motor 13 is connected to a side wall bolt of the connecting plates 11 near one side position, a motor base 12 is fixedly connected to the top of one side wall of the C-shaped channel steel 1 near one side position, the lifting motor 13 is arranged on the motor base 12, a support plate 14 is connected between the motor base 12 and one side wall of the C-shaped channel steel 1 near one side position, the movable end of the lifting motor 13 and a motor connecting rod 16 are connected to the middle position of one side wall of the connecting plates 11 near the other side position, rolling rollers 15 are connected to the other ends of the two motor connecting rods 16 through bearings, the rolling rollers 15 are driven to rotate through rotation of the lifting motor 13, so that a lifting chain 10 is dragged to a hopper 23 to move upwards, the other ends of the lifting chain 10 are connected to a connecting groove 18 of a hopper connecting rod 19 adjacent to the lifting chain, material guide plates 3 are hinged to the two hinge plates 2 through the lifting chain 10 to the upper side of the C-shaped channel steel 1, and the material guide plates 3 are arranged on the two sides of the C-shaped channel steel 1 to be matched with each other in a certain angle, and the material guide mechanism can be matched with each other under the condition that the material guide plates are not matched with each other.

Working principle: utilize to promote motor 13 to drive two wind-up rolls 15 and rotate for promote chain 10 and drag flourishing hopper 23 upward movement, and anti-shake slider 6 and flourishing hopper 23 of sliding connection in two C font channel-section steel 1 are connected, thereby can prevent that the chain from rocking and causing flourishing hopper 23 horizontal hunting in flourishing hopper 23 upward movement's in-process, thereby lead to the material to incline and spill, make this elevating system can more steady removal, after flourishing hopper 23 reaches the unloading position, turn over material motor 22 and drive hopper connecting pipe 21 and rotate, because flourishing hopper 23 connects on hopper connecting pipe 21, consequently, flourishing hopper 23 begins to rotate, thereby pour out the material, this mechanism is through flourishing hopper's self-turning function when having avoided traditional bucket elevator unloading, the condition emergence that leads to the material to incline in the unloading process, and the material deflector 3 that sets up in two C font channel-section steel 1 rear sides can carry out the angle adjustment according to specific service condition, thereby in leading to this elevating system to the cooperation of different equipment use.

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. The utility model provides a material hoist mechanism that stability is good, includes two C font channel-section steel (1), its characterized in that: two C font channel-section steel (1) are mirror symmetry and distribute, two the inside sliding connection of C font channel-section steel (1) has anti-shake slider (6), every the front and back lateral wall of anti-shake slider (6) leans on upper end and leans on lower extreme position all to rotate and be connected with gyro wheel (7), two anti-shake slider (6) are close to each other a lateral wall intermediate position fixedly connected with coupling assembling (8), two be connected with between coupling assembling (8) from rotating hopper (9) that turns over.

2. The stable material lifting mechanism according to claim 1, wherein: the connecting assembly (8) comprises a slider connecting rod (17), the other end of the slider connecting rod (17) is connected with a hopper connecting rod (19), and a connecting groove (18) is formed in the outer side wall of the hopper connecting rod (19).

3. The stable material lifting mechanism according to claim 1, wherein: the automatic rotation material turning hopper (9) comprises a material turning motor (22), one side wall of the material turning motor (22) is fixedly connected to a hopper connecting rod (19) close to one side, a movable end of the material turning motor (22) is connected with a hopper connecting pipe (21), and the outer side wall of the hopper connecting pipe (21) is fixedly connected with a material containing hopper (23).

4. The stable material lifting mechanism according to claim 1, wherein: the inner side walls at two ends of the hopper connecting pipe (21) are respectively connected with a rotating bearing (20), and the inner supporting points of the two rotating bearings (20) are respectively connected to the outer side walls at one end, close to each other, of the two hopper connecting rods (19).

5. The stable material lifting mechanism according to claim 1, wherein: the bottoms of the two C-shaped channel steels (1) are fixedly connected with a supporting base (4), and reinforcing rods (5) are fixedly connected to the rear side walls of the two C-shaped channel steels (1) and the upper side walls of the supporting base (4) near the rear ends.

6. The stable material lifting mechanism according to claim 1, wherein: two the last lateral wall of C font channel-section steel (1) just is close to a lateral wall department fixedly connected with connecting plate (11) that keep away from each other, lean on a lateral wall bolted connection of connecting plate (11) of side position has promotion motor (13), lean on a lateral wall top fixedly connected with motor base (12) of C font channel-section steel (1) of side position, promotion motor (13) set up on motor base (12), be connected with backup pad (14) between motor base (12) and the lateral wall of C font channel-section steel (1) of leaning on a side position, the expansion end of promotion motor (13) and the lateral wall intermediate position of connecting plate (11) of leaning on the opposite side position all are connected with motor connecting rod (16), two the other end of motor connecting rod (16) all is connected with wind-up roll (15) through the bearing.

7. The stable material lifting mechanism of claim 6 wherein: the winding roller (15) is connected with a lifting chain (10), and the other end of the lifting chain (10) is connected in a connecting groove (18) of a hopper connecting rod (19) adjacent to the lifting chain.

8. The stable material lifting mechanism according to claim 1, wherein: the hinge plates (2) are fixedly connected to the upper positions of the rear side walls of the two C-shaped channel steels (1), and the material guide plates (3) are hinged to the two hinge plates (2).