CN215665990U

CN215665990U - Material pushing device for material stacking pool

Info

Publication number: CN215665990U
Application number: CN202121647784.9U
Authority: CN
Inventors: 陈源森; 刘生力; 刘旭峰; 李旦昱; 顾贤雷; 赵顺平; 金雷; 吴冬; 陈龙; 王旭波; 孙林浩
Original assignee: Zhejiang Longyuan Sifang Machinery Manufacture Co ltd
Current assignee: Zhejiang Longyuan Sifang Machinery Manufacture Co ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2022-01-28
Anticipated expiration: 2031-07-20

Abstract

A pushing device for a material stacking pool comprises a guide rail and a pushing plate, wherein the pushing plate is arranged on a moving frame, rollers are distributed on the bottom of the moving frame, the rollers are arranged in groups, the connecting line of the mounting position of each group of rollers is parallel to the direction of the guide rail, each group of rollers is arranged on the corresponding guide rail, roller grooves are formed in the outer circumference of each roller, a driving motor and a chain wheel are arranged on the moving frame, the driving motor, a power supply and a switch form a loop through a circuit, the driving motor is connected with the chain wheel in a transmission manner, a fixed ring chain is arranged in a pool cavity of the material stacking pool along the direction of the guide rail, the chain wheel is connected with the corresponding fixed ring chain, and the driving motor can drive the chain wheel to rotate forwards and backwards to enable the moving frame to move forwards and backwards corresponding to the guide rail. The utility model has the advantages that: through establishing the material stacking pool, the storage capacity of raw materials is increased, and the straightness accuracy, parallelism and flatness are ensured to ensure that the pushing device operates stably by adopting a light rail pre-embedding mode.

Description

Material pushing device for material stacking pool

Technical Field

The utility model relates to the technical field of manufacturing of feeding devices, in particular to a material pushing device for a material stacking pool.

Background

When material is taken from the material stacking pool, the original forklift feeding mode wastes time, labor and labor for the material with good flowability, potential safety hazards exist, and tires are easy to slip. Finally, the residual bottom material part is difficult to classify and process. Meanwhile, in order to reserve a forklift channel, the stacking space of the material stacking pool is greatly reduced.

The prior Chinese utility model patent application with the application number of CN202020804762.8 entitled "a double-track pushing device" discloses a double-track pushing device, which is characterized by comprising a track, an X-axis pushing device and a Y-axis pushing device; the X-axis material pushing device is arranged on the track, and the Y-axis material pushing device is arranged on the side edge of the track; the X-axis material pushing device can push the material piece to a set position along the track; the Y-axis pushing device can transfer the material piece from the vibration discharging device to each track; the number of the tracks is two, namely a track I and a track II; the utility model discloses a through setting up two tracks that are parallel to each other, coordinate spacing cylinder and arrange the material cylinder, realize that two tracks transport the material piece simultaneously. However, the device is difficult to be modified and applied to the feeding operation of the material with stronger fluidity, so the structure of the device needs to be further improved.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the material pushing device for the material stacking pool, which has the advantages of high feeding efficiency, small occupied stacking space and safe use, aiming at the current situation of the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows: this a blevile of push for pond is stacked to material stacks guide rail on the bottom of the pool surface and can follow the scraping wings of guide rail removal, its characterized in that including the parallel arrangement of material: the material pushing plate is arranged on the moving frame, rollers are distributed on the bottom of the moving frame, the rollers are arranged in groups, the connecting line of the mounting position of each group of rollers is parallel to the direction of the guide rail, each group of rollers is arranged on the corresponding guide rail, roller grooves capable of rolling on the corresponding guide rail are formed in the outer circumference of each roller, a driving motor and a chain wheel are arranged on the moving frame, the driving motor forms a loop with a power supply and a switch through a circuit, the driving motor is in transmission connection with the chain wheel, a fixed ring chain is arranged in a pool cavity of the material stacking pool along the direction of the guide rail, the chain wheel is in transmission connection with the corresponding fixed ring chain, and the driving motor can drive the chain wheel to rotate forwards and reversely so that the moving frame moves forwards and backwards corresponding to the guide rail.

As an improvement, the bottom of the material pushing plate is connected with a pressing plate capable of shoveling materials on the bottom surface of the material stacking pool.

In a further improvement, the top of the pressure plate is connected with the bottom of the material pushing plate in a sealing mode through a rubber plate.

As an improvement, guide wheels are respectively arranged on the movable frames on the front side and the rear side of the chain wheel, the height of the front guide wheel is lower than that of the chain wheel, and the height of the chain wheel is lower than that of the rear guide wheel.

The improved structure of the main shaft driving device is characterized in that chain wheels are arranged on the moving frames on two sides of the driving motor, guide wheels are correspondingly arranged on the moving frames on the front side and the rear side of the two chain wheels respectively, the driving motor is in transmission connection with a speed reducer through a belt wheel, the speed reducer is connected with a first main shaft combining piece and a second main shaft combining piece, the first main shaft combining piece is connected with the left chain wheel, and the second main shaft combining piece is connected with the right chain wheel.

As an improvement, embedded parts are arranged on the bottom surface of the material stacking pool at intervals, the top surfaces of the embedded parts are parallel to the bottom surface of the material stacking pool, and the inclination of the bottom surface of the material stacking pool is 1: 100.

The embedded parts are divided into two groups, the first group of embedded parts are connected with the left guide rail, the second group of embedded parts are connected with the right guide rail, the number of the rollers is four, the bottom ends of the four rollers are located on the same plane, the four rollers are two rollers and are used as one group, one group of rollers are connected to the left guide rail, and the other group of rollers are connected to the right guide rail.

The improved structure is characterized in that the embedded part comprises a connecting plate and a connecting rod, the top of the connecting plate can be connected with the corresponding guide rail, the connecting rod is inserted into the bottom of the material stacking pool in an inserting mode, the concrete structure that the corresponding guide rail is connected with the embedded part is that mounting grooves are formed in the bottom surface of the material stacking pool at intervals, the connecting rod is inserted into the bottom of the mounting groove, the connecting plate is located at the bottom of the mounting groove, the corresponding guide rail is placed on the embedded part, and a cement surface layer and an earth inner layer are filled in the mounting groove.

The improved structure is characterized in that the front side wall and the rear side wall of the material stacking pool are respectively provided with a side wall hanging piece used for connecting a fixed ring chain.

The further improvement is that the inclination of the connecting line of the front side wall hanging piece and the rear side wall hanging piece is parallel to the inclination of the bottom surface of the material stacking pool.

Compared with the prior art, the utility model has the advantages that: by establishing the material stacking pool, the storage capacity of the raw materials is greatly increased, and the waste of land is avoided; by establishing the material stacking tank, the whole raw material tank workshop is cleaner and cleaner, the raw materials are prevented from flowing around, and the unloading vehicle can conveniently get in and out; the material pushing device is used for feeding materials, so that the raw material processing amount is increased, the labor intensity of workers is reduced, the production cost is reduced, and the production benefit is integrally improved; the pushing device moves back and forth by matching the fixed ring chain with the chain wheel; the light rail embedding mode is adopted, so that the straightness, parallelism and flatness are ensured to ensure that the pushing device runs stably; the electromagnetic braking three-phase asynchronous motor is used for braking, so that the free sliding of the material pushing device in a non-working state is prevented; and the front and the back are provided with limiting devices to prevent workers from operating carelessly and causing collision.

Drawings

FIG. 1 is a rear view of an embodiment of the present invention;

FIG. 2 is a top view taken along direction A of FIG. 1;

FIG. 3 is a schematic view of the roller of FIG. 1 adapted to a guide rail;

FIG. 4 is a side elevational view of FIG. 1;

FIG. 5 is a top view of a material stacking pond in an embodiment of the present invention;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 5;

FIG. 8 is an enlarged view of portion I of FIG. 4;

fig. 9 is an enlarged view of a portion II in fig. 7.

Detailed Description

The utility model is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 9, the pushing device for a material stacking pool of the present embodiment includes a guide rail 2 disposed on the bottom surface of a material stacking pool 1 in parallel and a material pushing plate 3 capable of moving along the guide rail 2, the material pushing plate 3 is disposed on a moving frame 4, rollers 41 are disposed at the bottom of the moving frame 4, the rollers 41 are disposed in groups, a connecting line of mounting positions of each group of rollers 41 is parallel to the direction of the guide rail 2, each group of rollers 41 is disposed on a corresponding guide rail 2, a roller groove capable of rolling on a corresponding guide rail 2 is disposed on the outer circumference of each roller 41, a driving motor 5 and a chain wheel 6 are disposed on the moving frame 4, the driving motor 5 forms a loop with a power supply and a switch through a circuit, the driving motor 5 is in transmission connection with the chain wheel 6, a fixed ring chain is disposed in the pool cavity of the material stacking pool 1 along the direction of the guide rail 2, the chain wheel 6 is connected with a corresponding fixed ring, the driving motor 5 can drive the chain wheel 6 to rotate forwards and backwards so as to correspondingly move the moving frame 4 forwards and backwards relative to the guide rail 2. The bottom of the material pushing plate 3 is connected with a pressing plate 31 which can scoop up the material on the bottom surface of the material stacking pool. The top of the pressing plate 31 is connected with the bottom of the material pushing plate 3 through a rubber plate 32 in a sealing mode. The bottom surface of the pressing plate 31 presses on the guide rail 2, or a concave part capable of guiding the guide rail 2 is arranged on the pressing plate 31, and the bottom surface of the pressing plate 31 presses on the bottom surface of the material stacking pool 1.

Guide wheels 42 are respectively provided on the moving frame 4 on the front side and the rear side of the sprocket 6, the front guide wheel is lower than the sprocket 6, and the sprocket 6 is lower than the rear guide wheel. The movable frames 4 on both sides of the driving motor 5 are respectively provided with a chain wheel 6, the movable frames 4 on the front side and the rear side of the two chain wheels 6 are respectively and correspondingly provided with a guide wheel, the driving motor 5 is in transmission connection with a speed reducer 51 through a belt wheel, the speed reducer 51 is connected with a first main shaft combining part and a second main shaft combining part, the first main shaft combining part is connected with the left chain wheel, and the second main shaft combining part is connected with the right chain wheel. The bottom surface of the material stacking pool 1 is provided with embedded parts 11 at intervals, the top surfaces of the embedded parts 11 are parallel to the bottom surface of the material stacking pool 1, and the inclination of the bottom surface of the material stacking pool 1 is 1: 100. The specific structures of the reducer 51, the first spindle coupling and the second spindle coupling are well known in the art and will not be described in detail.

The embedded parts 11 are divided into two groups, the first group of embedded parts 11 are connected with the left guide rail, the second group of embedded parts 11 are connected with the right guide rail, the number of the rollers 41 is four, the bottom ends of the four rollers 41 are located on the same plane, two rollers 41 are used as one group, one group of rollers 41 are connected on the left guide rail, and the other group of rollers 41 are connected on the right guide rail. The built-in fitting 11 includes that the top can be with the connecting plate that corresponds guide rail 2 and be connected and peg graft the connecting rod of piling up 1 bottoms in the pond at the material, the concrete structure that corresponding guide rail 2 is connected with built-in fitting 11 does, the interval is provided with the mounting groove on the bottom surface of pond 1 is piled up to the material, the connecting rod inserts the mounting groove bottom, the connecting plate is located the mounting groove bottom, corresponding guide rail 2 is placed on built-in fitting 11, it has cement top layer 13 and earth nexine 12 to fill in the mounting groove. And side wall pendants 14 for connecting and fixing the loop chains are respectively arranged on the front side wall and the rear side wall of the material stacking pool 1. The inclination of the connecting line of the front side wall hanging piece and the rear side wall hanging piece is parallel to the inclination of the bottom surface of the material stacking pool 1.

Aiming at the raw materials with better fluidity, the original forklift feeding mode wastes time, labor and time, has potential safety hazards and ensures that tires are easy to slip. Finally, the residual bottom material part is difficult to classify and process. Meanwhile, in order to reserve a forklift channel, the stacking space of the raw material pool is greatly reduced. Therefore, a product is needed, aiming at the raw material, the problems are solved, and the labor intensity and the production cost of workers are reduced.

This blevile of push's advantage lies in:

1. the pushing device moves back and forth by matching the fixed ring chain with the chain wheel.

2. The light rail embedding mode is adopted, and the straightness accuracy, the parallelism and the flatness are guaranteed, so that the pushing device runs stably.

3. The electromagnetic braking three-phase asynchronous motor is used for braking, so that the free sliding of the material pushing device in a non-working state is prevented.

4. And the front and the back are provided with limiting devices to prevent workers from operating carelessly and causing collision.

5. A fish pond (namely a material stacking pond) is established and is matched with the material pushing device for use.

Claims

1. The utility model provides a blevile of push for pond is stacked to material, includes guide rail (2) and scraping wings (3) that can follow guide rail (2) and remove on the material stacking pond (1) bottom surface are placed in parallel in, its characterized in that: the material pushing plate (3) is arranged on a moving frame (4), rollers (41) are distributed at the bottom of the moving frame (4), the rollers (41) are arranged in groups, the connecting line of the installation position of each group of rollers (41) is parallel to the direction of the guide rail (2), each group of rollers (41) is arranged on the corresponding guide rail (2), roller grooves capable of rolling on the corresponding guide rail (2) are arranged on the outer circumference of each roller (41), a driving motor (5) and a chain wheel (6) are arranged on the moving frame (4), the driving motor (5) forms a loop with a power supply and a switch through lines, the driving motor (5) is in transmission connection with the chain wheel (6), a fixed ring chain is arranged in the cavity of the material stacking pool (1) along the direction of the guide rail (2), and the chain wheel (6) is in transmission connection with the corresponding fixed ring chain, the driving motor (5) can drive the chain wheel (6) to rotate forwards and backwards so as to enable the moving frame (4) to move forwards and backwards correspondingly relative to the guide rail (2).

2. The pusher apparatus of claim 1, wherein: the bottom of the material pushing plate (3) is connected with a pressing plate (31) capable of shoveling materials on the bottom surface of the material stacking pool.

3. The pusher apparatus of claim 2, wherein: the top of the pressure plate (31) is connected with the bottom of the material pushing plate (3) in a sealing way through a rubber plate (32).

4. A pusher arrangement according to any one of claims 1 to 3 wherein: guide wheels (42) are respectively arranged on the movable frames (4) on the front side and the rear side of the chain wheel (6), the height of the front guide wheel is lower than that of the chain wheel (6), and the height of the chain wheel (6) is lower than that of the rear guide wheel.

5. The pusher apparatus of claim 4, wherein: the chain wheels (6) are arranged on the moving frames (4) on two sides of the driving motor (5), the guide wheels are correspondingly arranged on the moving frames (4) on the front side and the rear side of the two chain wheels (6), the driving motor (5) is in transmission connection with the speed reducer (51) through the belt wheel, the speed reducer (51) is connected with the first main shaft combining part and the second main shaft combining part, the first main shaft combining part is connected with the left chain wheel, and the second main shaft combining part is connected with the right chain wheel.

6. A pusher arrangement according to any one of claims 1 to 3 wherein: the bottom surface of the material stacking pool (1) is provided with embedded parts (11) at intervals, the top surfaces of the embedded parts (11) are parallel to the bottom surface of the material stacking pool (1), and the inclination of the bottom surface of the material stacking pool (1) is 1: 100.

7. The pusher apparatus of claim 6, wherein: the embedded parts (11) are divided into two groups, the first group of embedded parts (11) are connected with the left guide rail, the second group of embedded parts (11) are connected with the right guide rail, the number of the rollers (41) is four, the bottom ends of the four rollers (41) are located on the same plane, the number of the four rollers (41) is two, one group of the rollers (41) is connected to the left guide rail, and the other group of the rollers (41) is connected to the right guide rail.

8. The pusher apparatus of claim 7, wherein: built-in fitting (11) include the top can with correspond the connecting plate that guide rail (2) are connected and peg graft at the material and stack the connecting rod of pond (1) bottom, and the concrete structure that corresponding guide rail (2) are connected with built-in fitting (11) does, and the interval is provided with the mounting groove on the bottom surface of pond (1) is stacked to the material, the connecting rod inserts the mounting groove bottom, the connecting plate is located the mounting groove bottom, and corresponding guide rail (2) are placed on built-in fitting (11), it has cement top layer (13) and earth nexine (12) to fill in the mounting groove.

9. The pusher apparatus of claim 8, wherein: the front side wall and the rear side wall of the material stacking pool (1) are respectively provided with a side wall pendant (14) used for connecting a fixed ring chain.

10. The pusher apparatus of claim 9, wherein: the inclination of the connecting line of the front side wall hanging piece and the rear side wall hanging piece is parallel to the inclination of the bottom surface of the material stacking pool (1).