CN216378154U - Stepping bottom plate for feeding corrosive materials - Google Patents

Abstract

The invention discloses a stepping bottom plate for feeding corrosive materials, which relates to the field of methane production and comprises a bottom plate structure, wherein the bottom plate structure comprises a plurality of bottom plate supporting steel materials which are fixed on a stock bin frame in parallel, a group of roller bracket sets is fixed on the side surface of each bottom plate supporting steel material, each group of roller bracket sets comprises a plurality of Y-shaped brackets, and two support arms at the upper part of each Y-shaped bracket are respectively provided with a roller; an inverted V-shaped telescopic section bar is supported and arranged between the two adjacent groups of the roller wheel bracket groups through the adjacent roller wheels; each bottom plate supporting steel is also fixed with a V-shaped anti-leakage section, and each anti-leakage section is tightly attached to the lower part of two adjacent telescopic sections; still be connected with a plurality of pneumatic cylinders that are located flexible section bar below on the feed bin frame, the flexible end of a plurality of pneumatic cylinders is connected respectively in the bottom of a plurality of flexible section bars. Compared with the prior art, the invention can prevent the erosion of the material to the bottom plate, has the feeding power and can increase the feeding efficiency.

Description

Stepping bottom plate for feeding corrosive materials

Technical Field

The invention relates to the field of methane production, in particular to a stepping bottom plate for feeding corrosive materials.

Background

The traditional crushed straw feeder usually utilizes a crawler as feeding power, and crushed straws with high humidity have high corrosivity as materials, so that the crawler made of rubber is easily corroded.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a stepping bottom plate for feeding corrosive materials, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a stepping bottom plate for feeding corrosive materials comprises a bottom plate structure, wherein the bottom plate structure comprises a plurality of bottom plate supporting steel materials which are fixed on a stock bin frame in parallel, a group of roller bracket groups is fixed on the side surface of each bottom plate supporting steel material, each group of roller bracket groups comprises a plurality of Y-shaped brackets, and two support arms at the upper part of each Y-shaped bracket are respectively provided with a roller;

an inverted V-shaped telescopic section bar is supported and arranged between the two adjacent groups of the roller wheel bracket groups through the adjacent roller wheels;

each bottom plate supporting steel is also fixed with a V-shaped anti-leakage section, and each anti-leakage section is tightly attached to the lower part of two adjacent telescopic sections;

still be connected with a plurality of pneumatic cylinders that are located flexible section bar below on the feed bin frame, the flexible end of a plurality of pneumatic cylinders is connected respectively in the bottom of a plurality of flexible section bars.

The pneumatic cylinder sets up in bottom plate support steel below, and the flexible end of pneumatic cylinder passes through the connecting plate to be connected in flexible section bar.

The telescopic section and the leak-proof section are both anti-corrosion sections.

The upper right side of the bottom plate structure is provided with an inclined material guide plate, and the material guide plate is fixed on the stock bin frame.

The edge of the anti-leakage section bar is provided with a roller embedding opening, and the roller is positioned in the roller embedding opening.

Compared with the prior art, the invention has the advantages that:

the bottom plate structure of the stepping bottom plate can adopt a profile structure, so that the stepping bottom plate can be an anti-corrosion profile instead of a rubber material such as a crawler belt and the like, and can prevent materials from corroding the stepping bottom plate. And the bottom plate structure adopts the form that the hydraulic cylinder drives the telescopic section bar to drive the material to advance, and can also play the feeding power role of the crawler belt, thereby increasing the feeding efficiency.

Drawings

FIG. 1 is an external schematic view of a feeder to which the present invention is applied;

FIG. 2 is a side view of a feeder to which the present invention is applied;

FIG. 3 is a schematic view of the interior of the feeder to which the present invention is applied, hidden behind the front side plate;

fig. 4 is a schematic view of the structure of the stepping base plate of the present invention.

In the figure, 1, a bin frame, 2, side plates, 3, a weighing sensor, 4, a motor, 5, a leakage-proof section bar, 6, a telescopic section bar, 7, a hydraulic cylinder, 8, a material guide plate, 9, a refining roller, 10, a discharging roller, 11, a toothed plate, 12, a refining convex plate, 13, a bottom plate supporting steel, 14, a Y-shaped support, 15, a roller, 16, a bottom plate structure, 17, an upper plate, 18, an intermediate plate, 19, a lower plate, 20 and a discharge hole.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

It should be noted that the directions of front-back, left-right, and counterclockwise are described with reference to fig. 2, but should not affect the scope of the present invention.

As shown in fig. 1 to 4, the feeder to which the present invention is applied includes a bin frame 1 and a bin fixed to the bin frame 1, the bin includes a bottom plate structure 16 extending obliquely from an upper right to a lower left, two side plates 2 vertically disposed on a front side and a rear side of the bottom plate structure 16, respectively, and a zigzag plate connected between left portions of the two side plates 2; the Z-shaped plate comprises a vertical upper plate 17 positioned at the upper right, a vertical lower plate 19 positioned at the lower left, and a middle plate 18 horizontally connecting the bottom end of the upper plate 17 and the top end of the lower plate 19;

a roller storage space is arranged below the middle plate 18, a discharge hole 20 is formed in the bottom of the roller storage space, and the discharge hole 20 is communicated with the lower end of the bottom plate structure 16;

two rollers are arranged in the roller storage space, namely a discharging roller 10 positioned at the lower left and a homogenizing roller 9 positioned at the upper right and closely adjacent to the discharging roller 10;

a plurality of toothed plates 11 are arranged on the outer surface of the discharging roller 10 in a protruding mode, and the toothed plates 11 are arranged above the bottom plate structure 16 in an adjacent mode; a plurality of refining convex plates 12 are arranged on the outer surface of the refining roller 9 in a protruding way;

the bottom plate structure 16 comprises a plurality of bottom plate supporting steel materials 13 which are fixed on the bin frame 1 in parallel, a group of roller bracket groups is fixed on the side surface of each bottom plate supporting steel material 13, each group of roller bracket group comprises a plurality of Y-shaped brackets 14, and two support arms on the upper part of each Y-shaped bracket 14 are respectively provided with a roller 15;

an inverted V-shaped telescopic section bar 6 is supported and arranged between two adjacent groups of roller bracket groups through adjacent rollers 15;

each bottom plate supporting steel 13 is also fixed with a V-shaped anti-leakage section bar 5, and each anti-leakage section bar 5 is tightly attached to the lower part of two adjacent telescopic section bars 6;

still be connected with a plurality of pneumatic cylinders 7 that are located flexible section bar 6 below on the feed bin frame 1, the flexible end of a plurality of pneumatic cylinders 7 is connected respectively in the bottom of a plurality of flexible section bars 6.

The discharging roller 10 and the homogenizing roller 9 are both connected to the motor 4.

The motor 4 is arranged outside the storage bin.

The hydraulic cylinder 7 is arranged below the bottom plate supporting steel 13, and the telescopic end of the hydraulic cylinder 7 is connected to the telescopic section bar 6 through a connecting plate.

The telescopic section 6 and the leakage-proof section 5 are both anti-corrosion sections.

The bottom of the stock bin frame 1 is supported and arranged on the weighing sensor 3.

The toothed plate 11 includes a lower plate vertically connected to the outer side wall of the discharging roller 10, and an upper plate deviating from the lower plate in a counterclockwise direction so as to be connected to the lower plate at an included angle.

The refining convex plate 12 is a triangular plate.

An inclined material guide plate 8 is arranged at the upper right of the bottom plate structure 16, and the material guide plate 8 is fixed on the bin frame 1.

The edge of the anti-leakage section bar 5 is provided with a roller rabbet, and the roller 15 is positioned in the roller rabbet.

When the feeding machine is used, the crushed straws with high humidity are taken as materials and put into the bin from the opening at the top of the bin, although a gap is reserved between the discharging roller 10 and the bottom plate structure 16, the crushed straws are easy to gather, so that the size of the crushed straws is larger than that of the gap, and the crushed straws cannot leak from the discharging hole 20 under the condition that the discharging roller 10 is not operated, so that the feeding machine has the function of storage. Meanwhile, the feeding device also has a feeding function, specifically, after the discharging roller 10 is started, the discharging roller 10 rotates anticlockwise, and materials can continuously fall into the discharging port 20 under the pushing of the toothed plate 11 so as to be discharged from the discharging port 20. In the above process, in order to prevent the crushed straws from blocking the discharging roller 10 and making the crushed straws unable to rotate, the accumulated crushed straws need to face a direction away from the discharging roller 10 in a certain way to reduce the accumulation amount, which is the function of the homogenizing roller 9 in the invention: when the discharging roller 10 is in operation, the material homogenizing roller 9 is started at the same time, so that the material homogenizing roller 9 also moves in the counterclockwise direction, and thus, the material homogenizing convex plate 12 on the material homogenizing roller 9 can drive the material to move in the direction away from the discharging roller 10, and the blockage at the discharging roller 10 is avoided. In the above process, the hydraulic cylinder 7 can be simultaneously started to enable the telescopic section bar 6 to smoothly and continuously move towards the left and right directions on the roller 15, when the telescopic section bar 6 moves towards the left direction, the telescopic section bar 6 drives the material to move towards the discharge hole 20 direction, when the telescopic section bar moves towards the right direction, the material is pushed to move towards the left end of the telescopic section bar 6 under the blocking effect of the material guide plate 8, and then the telescopic section bar 6 can drive the material to move towards the discharge hole 20 direction. Even if the material guide plate 8 is not present, the material always moves towards the discharge hole 20 due to the gravity and the continuous pushing of the telescopic section bar 6. The V-shaped leakage-preventing profiles 5 prevent the material from falling out of the gap of the floor structure 16. The weighing sensor 3 can weigh the whole of the bin and the bin frame 1 before and after the materials are conveyed, and the weight difference between the front and the back is the weight of the output materials.

The invention has the advantages that:

1. the discharging roller and the material homogenizing roller can effectively prevent materials such as crushed straws and the like from falling into the discharging hole, so that the material storage function is realized, and the storage capacity can be made large enough.

2. The discharging roller can effectively drive materials such as crushed straws and the like to fall into the discharging port, so that the straw feeding device has a storage function and a feeding function.

3. Because the discharge roller ejection of compact in-process promotes the material through the pinion rack, pinion rack storage space is fixed, consequently as long as the discharge roller speed of operation is fixed, so ejection of compact speed is just fixed to can accomplish the ejection of compact at the uniform velocity.

4. The discharging speed can be adjusted by adjusting the running speed of the discharging roller, so that the discharging device can adjust the discharging speed according to actual conditions and has wide application range.

5. The material can be effectively prevented from being accumulated at the discharging roller by the arranged material homogenizing roller, so that the discharging roller is prevented from being blocked.

6. The material homogenizing roller can enable the material to be more uniform.

7. The bottom plate structure is designed in an inclined mode, so that the discharging efficiency can be improved by utilizing gravity.

8. The bottom plate structure adopts an anti-corrosion section bar instead of rubber materials such as a crawler belt and the like, so that the corrosion of materials to the bottom plate structure can be prevented. And the bottom plate structure adopts the form that the hydraulic cylinder drives the telescopic section bar to drive the material to advance, and can also play the feeding power role of the crawler belt, thereby increasing the feeding efficiency.

9. The weighing sensor is arranged, so that weighing calculation can be carried out on the given material amount.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (5)

1. The stepping bottom plate for feeding corrosive materials is characterized by comprising a bottom plate structure (16), wherein the bottom plate structure (16) comprises a plurality of bottom plate supporting steel materials (13) which are fixed on a stock bin frame (1) in parallel, one group of roller bracket sets is fixed on the side surface of each bottom plate supporting steel material (13), each group of roller bracket sets comprises a plurality of Y-shaped brackets (14), and two support arms at the upper part of each Y-shaped bracket (14) are respectively provided with a roller (15);

an inverted V-shaped telescopic section bar (6) is supported and arranged between the two adjacent roller bracket groups through the adjacent rollers (15);

each bottom plate supporting steel (13) is also fixedly provided with a V-shaped leakage-proof section bar (5), and each leakage-proof section bar (5) is tightly attached to the lower part of two adjacent telescopic section bars (6);

still be connected with a plurality of being located on feed bin frame (1) pneumatic cylinder (7) of flexible section bar (6) below, it is a plurality of the flexible end of pneumatic cylinder (7) is connected respectively in a plurality of the bottom of flexible section bar (6).

2. Stepping floor for feeding corrosive materials according to claim 1, characterized in that said hydraulic cylinder (7) is arranged below said floor support steel (13).

3. Stepping floor for feeding corrosive materials according to claim 2, characterized in that the telescopic end of the hydraulic cylinder (7) is connected to the telescopic profile (6) by a connecting plate.

4. Stepping floor for feeding corrosive materials according to claim 1, characterized in that said telescopic profile (6) and said leak-proof profile (5) are both anti-corrosion profiles.

5. Stepping floor for feeding corrosive materials according to claim 1, characterized in that the edges of said leak-proof profiles (5) are provided with roller notches, inside which said rollers (15) are positioned.

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