CN212023949U - Sand and stone material storage and taking system - Google Patents

Abstract

The sand and stone storage and taking system comprises a sand and stone material stacking area, wherein the sand and stone material stacking area is composed of a plurality of stacking subareas arranged side by side, each stacking subarea is partitioned by a retaining wall, the sand and stone material stacking area is arranged on the ground level, and the top of each stacking subarea is provided with an opening so that different sand and stone materials are respectively conveyed into different material pushing subareas from the openings at the tops through other auxiliary conveying devices; a plurality of discharge openings and a belt conveyor are arranged at the bottom of each stacking subarea at intervals along the length direction, the belt conveyor below each stacking subarea is positioned below the plurality of discharge openings, and each discharge opening is internally provided with a discharge opening device to realize the automatic material taking function; from this, the utility model discloses a many discharge openings formula structural design has both kept the advantage that traditional store yard simple structure is reliable with low costs, has realized automatic characteristics such as automatic high efficiency, energy-concerving and environment-protective, nimble reliable to the material system simultaneously.

Description

Sand and stone material storage and taking system

Technical Field

The utility model relates to a technical field of mixture production and processing especially relates to a grit material stores and takes system.

Background

The sandstone materials are the main raw materials commonly used in the mixed material production and processing industry, 3-5 sandstone materials with different types and specifications are generally required to be used simultaneously according to different mixed material production processes, and 5-8 or even more types of sandstone materials are usually required to be stored simultaneously on a production site to meet the requirements of production and processing of different types of mixed materials.

The storage of production field grit material, early mostly adopt the loose mode of stacking in open air, and the grit material of different kinds and specification piles up respectively, also for the consideration of rain-proof and drainage in order to pile the compactness, more factories then adopt the mode of concentrated stacking, divide an area at the production field and be used for storing grit material specially promptly to harden the ground in windrow district, build the canopy at the top, and divide windrow district through the barricade, be used for depositing the grit material of different kinds and specification.

During feeding, the material transporting vehicle transports the sand and stone materials to the site and then directly unloads the sand and stone materials onto the corresponding material pile or into the material pile area, and then arranges the sand and stone materials by machines such as a loader and the like, collects the sand and stone materials together and stacks the sand and stone materials as high as possible.

In production, the aggregate material is transferred from the stacking area to a batching hopper of the mix processing plant by a loader (e.g., a loader, a scraper vehicle, etc.).

The existing schemes have the following problems and defects:

the efficiency is low. The working mode of multiple transportation is low in efficiency.

High energy consumption. A large amount of loading machines and tools are needed, and oil consumption and emission are generated.

The pollution is large. On one hand, dust in the sand and stone materials can cause dust pollution during transportation;

on the other hand, various machines and tools have exhaust emission during working.

Much land is occupied. Because of the height limitations of the stockpile, the stockpile area is generally occupied more.

Various improved sand and stone storage solutions have been introduced in recent years, but while solving the disadvantages of the conventional stockpiling method, they have new problems and disadvantages, such as: cost too high, system complexity, poor flexibility, etc.

Therefore, the designer of the utility model, in view of the above defects, through careful research and design, synthesizes the experience and achievement of long-term related industries, and researches and designs an emery material storage and taking system to overcome the above defects.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a grit material is stored and is taken system, its simple structure, convenient operation has that take up an area of little, the energy storage is big, automatic high-efficient, energy-concerving and environment-protective, simple structure, nimble reliable, advantage such as comprehensive cost low.

In order to achieve the purpose, the utility model discloses an grit material is stored and is taken system, including grit material windrow district, discharge opening and band conveyer etc. its characterized in that:

the sand and stone material piling region is composed of a plurality of piling subareas which are arranged side by side, each piling subarea is separated by a retaining wall, the sand and stone material piling region is arranged on the ground level, and the top of each piling subarea is provided with an opening so as to respectively send different sand and stone materials into different material pushing subareas from the openings at the top through an auxiliary conveying device;

a plurality of discharge openings are arranged at the bottom of each material piling partition at intervals along the length direction, each discharge opening is provided with a discharge opening device for controlling the opening and closing state of the discharge opening and adjusting the opening size of the discharge opening, and a belt conveyor is arranged below each material piling partition, which is positioned at the plurality of discharge openings, so as to collect sand and stone materials discharged from each discharge opening.

Wherein: and each discharge opening and the belt conveyor are positioned below the ground level.

Wherein: the discharge opening at the bottom of each material piling partition is sequentially arranged at equal intervals along the length direction of the bottom of the material piling partition.

Wherein: each unloading opening device can adjust the opening and closing state and the opening size of the unloading opening.

According to the above, the utility model discloses a grit material stores and takes system has following effect:

1. by adopting the structural design of multiple discharge ports, the advantages of simple and reliable structure and low cost of the traditional storage yard are kept, and the characteristics of automatic high efficiency, energy conservation, environmental protection, flexibility, reliability and the like of an automatic material aligning system are realized.

2. The automatic discharging device is convenient to operate and maintain, accurate discharging of each partition can be achieved, discharging efficiency is improved, and cost is reduced.

The details of the present invention can be obtained from the following description and the attached drawings.

Drawings

Fig. 1 shows a front view of the sand material storage and taking system of the present invention.

Fig. 2 shows a side view of the present invention.

Fig. 3 shows a top view of the present invention.

Detailed Description

Referring to fig. 1 to 3, the utility model discloses an emery stone material storage system is shown.

The sand and stone storage and taking system comprises a sand and stone material stockpiling region 1, wherein the sand and stone material stockpiling region 1 consists of a plurality of stockpiling partitions 11 which are arranged side by side, each stockpiling partition 11 is separated by a retaining wall, the sand and stone material stockpiling region 1 is arranged on the ground plane, and the top of each stockpiling partition 11 is provided with an opening, so that different sand and stone materials are respectively conveyed into different material pushing partitions 11 from the openings at the tops through other auxiliary conveying devices; be equipped with a plurality of discharge openings 2 and a band conveyer 3 along the length direction interval in the bottom of each windrow subregion 11, band conveyer 3 of each windrow subregion 11 below is located the below of a plurality of discharge openings 2, and all be equipped with unloading opening device 4 in each discharge opening 2, from this, open each discharge opening 2 through controlling in proper order, can discharge the grit material of the different positions of edge length direction in a check windrow subregion 11, collect by band conveyer 3 and rather than each discharge opening 2 exhaust grit material that corresponds and carry it to next link, realize the function of automatic material of getting.

Each discharge opening 2 and the belt conveyor 3 are located below ground level.

The utility model provides an grit material storage mode adopts the pattern in the narrow long windrow district of many forms to carry the grit material to windrow district in through conveyor such as belt feeder, lifting machine, effectively improve the windrow height, increase unit area storage capacity.

Wherein, the discharge opening 2 at the bottom of each windrow subregion 11 is arranged at equal intervals along the length direction of the bottom of the windrow subregion in sequence, so that the material taking is more uniform and thorough.

Wherein each discharge opening device 4 controls the opening and closing state of the discharge opening and adjusts the opening degree of the discharge opening.

Therefore, the utility model has the advantages that:

1. by adopting the structural design of multiple discharge ports, the advantages of simple and reliable structure and low cost of the traditional storage yard are kept, and the characteristics of automatic high efficiency, energy conservation, environmental protection, flexibility, reliability and the like of an automatic material aligning system are realized.

2. The automatic discharging device is convenient to operate and maintain, accurate discharging of each partition can be achieved, discharging efficiency is improved, and cost is reduced.

It is to be understood that the above description and illustrations are exemplary only and are not intended to limit the present disclosure, application, or uses. While embodiments have been described in the embodiments and depicted in the drawings, the present invention is not limited to the particular examples illustrated by the drawings and described in the embodiments as the best mode presently contemplated for carrying out the teachings of the present invention, and the scope of the present invention is intended to include any embodiments that fall within the foregoing description and the appended claims.

Claims (3)

1. The utility model provides a grit material is stored and is taken system, includes grit material windrow district, discharge opening and band conveyer etc. its characterized in that:

the sand and stone material piling region is composed of a plurality of piling subareas which are arranged side by side, each piling subarea is separated by a retaining wall, the sand and stone material piling region is arranged on the ground level, and the top of each piling subarea is provided with an opening so as to respectively send different sand and stone materials into different material pushing subareas from the openings at the top through an auxiliary conveying device;

a plurality of discharge openings are arranged at the bottom of each material piling partition at intervals along the length direction, each discharge opening is provided with a discharge opening device for controlling the opening and closing state of the discharge opening and adjusting the opening size of the discharge opening, and a belt conveyor is arranged below each material piling partition, which is positioned at the plurality of discharge openings, so as to collect sand and stone materials discharged from each discharge opening.

2. The grit material storage and retrieval system of claim 1, wherein: and each discharge opening and the belt conveyor are positioned below the ground level.

3. The grit material storage and retrieval system of claim 1, wherein: the discharge opening at the bottom of each material piling partition is sequentially arranged at equal intervals along the length direction of the bottom of the material piling partition.

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