CN210685077U - Corrugated steel plate bin partition wall assembly of mixing station - Google Patents

Abstract

The application relates to a mixing station construction technical field especially relates to a mixing station corrugated steel plate feed bin partition wall subassembly. The I-steel is driven into the ground, the corrugated steel plates are installed at the bottom of the installed I-steel from bottom to top, and the corrugated steel plates and the I-steel are connected in a detachable connection mode. After the corrugated steel plates are installed, a plurality of I-shaped steels and a plurality of corrugated steel plates form a cuboid with a hollow interior; the sand gravel is filled in the cuboid, and the filling height of each layer of sand gravel is consistent with the height of the cuboid. The cost includes material cost and labour cost, and corrugated steel plate, I-steel, middle packing sand gravel all can be used for next mixing station partition wall construction as the turnover material after the mixing station is demolishd, can solve the low efficiency of feed bin partition wall, not environmental protection, the big just extravagant cost's of the construction degree of difficulty problem.

Description

Corrugated steel plate bin partition wall assembly of mixing station

Technical Field

The application relates to a mixing station construction technical field especially relates to a mixing station corrugated steel plate feed bin partition wall subassembly.

Background

In the engineering construction process, concrete or asphalt mixture is an indispensable key material, and sandstone is one of the most important raw materials in the concrete or the mixture. Generally, in the production process of concrete or mixed materials, the sand and stone materials have certain storage time and are divided into different specifications, so that a plurality of different material areas are required to be arranged at a mixing station, and the material areas must be mutually isolated so as to avoid mixing materials and influence on the performance of each material, thereby causing the problem of engineering quality.

At present, the common partition wall materials in China mainly comprise the following materials: the concrete partition wall has high building speed and stable and safe structure; the standard brick partition wall has lower cost, and can quickly finish construction by increasing personnel investment; the grouted rubble partition wall has good stability and strong anti-sliding capability.

However, the concrete partition wall has high cost, material turnover cannot be carried out, and the concrete partition wall is inconvenient to dismantle at the later stage and is not environment-friendly; the brick height of the standard brick partition wall cannot exceed 2m, otherwise the difficulty is increased, the investment is increased, and the transverse extrusion resistance of the brick partition wall is not strong and the brick partition wall is easy to overturn; the masonry rubble partition wall is with high costs, exceeds the increase of 2m construction degree of difficulty, and is slow, and is unrecoverable, all hardly solves the problem that feed bin partition wall is low efficiency, not environmental protection, the construction degree of difficulty is big and the extravagant cost.

SUMMERY OF THE UTILITY MODEL

The application provides a station ripple steel sheet feed bin partition wall subassembly mixes to solve feed bin partition wall inefficiency, not environmental protection, the big and extravagant problem of cost of the construction degree of difficulty.

In order to achieve the above object, the utility model provides a following technical scheme:

a corrugated steel plate storage bin partition wall assembly of a mixing station comprises a plurality of I-shaped steels, a plurality of corrugated steel plates and sand gravel, wherein the I-shaped steels are inserted on the ground according to a preset distance; the corrugated steel plates are arranged on the first side and the second side of the I-shaped steel; a cuboid with a hollow interior is formed by the I-shaped steels and the corrugated steel plates; the sand gravel is filled in the cuboid.

Optionally, a connecting support is arranged between the plurality of I-shaped steel bars.

Optionally, the connecting support is a steel bar or a steel plate.

Optionally, the filling height of the sand gravel is consistent with the height of the cuboid.

Optionally, an overlapping portion is arranged between two adjacent corrugated steel plates.

The technical scheme provided by the application comprises the following beneficial technical effects:

the application provides a mixing station corrugated steel plate feed bin partition wall subassembly, including many I-steel, polylith corrugated steel plate and sand gravel, the I-steel adopts the vibrating insertion method to squeeze into former below ground with small-size pile driver, has installed the I-steel bottom from up installing corrugated steel plate down, overlaps partly between the corrugated steel plate and improves partition wall integral rigidity and stability. Corrugated steel plates are hoisted and fixed by adopting an excavator, and the corrugated steel plates and the I-shaped steel plates are connected in a detachable connection mode. After the corrugated steel plates are installed, a plurality of I-shaped steels and a plurality of corrugated steel plates form a cuboid with a hollow interior; the sand gravel is filled in the cuboid, and the filling height of each layer of sand gravel is consistent with the height of the cuboid. The cost comprises material cost and labor cost, corrugated steel plates, I-shaped steel and sand gravel filled in the middle can be used as turnover materials for construction of a partition wall of a next mixing station after being dismantled in the mixing station, the construction cost is greatly reduced through calculation of the combined partition wall provided by the application, and the turnover utilization efficiency of the materials is improved; compared with the traditional concrete foundation anchoring I-steel, the mode of directly inserting the I-steel into the original ground in a vibrating mode for anchoring is quick and convenient, the construction period is greatly shortened, the traditional concrete partition wall is difficult to dismantle in the later period, more building waste can be generated, and the environment-friendly effect is poor; the mortar rubble partition wall cannot be recycled at the later stage, and the generated building waste influences the environmental quality; adopt the corrugated steel plate feed bin partition wall of this patent, the convenient turnover of materials such as sand gravel of corrugated steel plate, I-steel, middle packing is for recycling, and the later stage is conveniently demolishd, can not produce a large amount of building rubbish such as abandonment concrete to fine protection effect has been played the environment. To sum up, the utility model provides a mix station ripple steel sheet feed bin partition wall subassembly can solve feed bin partition wall inefficiency, not environmental protection, the big and extravagant cost's of the construction degree of difficulty problem.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

Fig. 1 is a schematic structural diagram of a corrugated steel plate storage bin partition wall assembly of a mixing station according to an embodiment of the present application.

Description of reference numerals:

1. i-shaped steel; 2. a corrugated steel plate; 3. sand and gravel.

Detailed Description

In the engineering construction process, concrete or asphalt mixture is an indispensable key material, and sandstone is one of the most important raw materials in the concrete or the mixture. Generally, in the production process of concrete or mixed materials, the sand and stone materials have certain storage time and are divided into different specifications, so that a plurality of different material areas are required to be arranged at a mixing station, and the material areas must be mutually isolated so as to avoid mixing materials and influence on the performance of each material, thereby causing the problem of engineering quality.

At present in the steady mixing station storage silo partition wall work progress of water, concrete mixing station and bituminous mixture mix the big and extravagant cost scheduling problem of the inefficiency that the station feed bin construction exists, not environmental protection, the construction degree of difficulty, for guarantee time limit for a project and engineering quality, this application provides a mix 2 feed bin partition wall subassemblies of station ripple steel sheet, including many I-steel 1, polylith ripple steel sheet 2 and sand gravel 3.

I-steel 1 is the rectangular steel of cross-section for I-shaped shape, and I-steel 1 is selected for use as the skeleton of storehouse partition wall in this application, because I-steel 1 not only can regard as peripheral wall body to use, and its inside girder steel that also can regard as the support, once inserts the effect that just can satisfy wall body and inside support, does not need to lay many times, convenient construction.

In the construction process, firstly, sundries in a field are removed, the field is leveled, the field is compacted to meet the requirement of bearing capacity, the position of a partition wall upright post is determined by measuring and lofting and distance measurement, a lime mark or other marking modes are scattered, the position for inserting the I-steel 1 can be determined, after the position of the I-steel 1 is marked, the I-steel 1 is driven into the position below the original ground by using a small-sized pile driver by adopting a vibration type insertion method, exemplarily, as shown in fig. 1, the I-steel 1 with the model I22 is used, the length of a single I-steel 1 is 4 meters, the I-steel 1 is vertically placed to a preset position, the bottom of the I-steel 1 is driven into the position below the ground by using a vibration type pile driver by 1.4 meters, the using height of the ground is 3.6 meters, the specific depth is adjusted according to the field situation in.

After the pile driver drives one or more I-beams 1 into the ground, in order to keep the stability of the I-beams, a connecting support is arranged between the adjacent I-beams 1, and the connecting support can be detached before the sand gravel 3 is filled or not detached. Illustratively, the connecting supports can be reinforcing steel bars, and the reinforcing steel bars can be arranged in parallel or in a crossed manner.

Optionally, the connecting support is a steel bar or a steel plate.

After the I-beam 1 is installed, corrugated steel plates 2 need to be installed on two sides of the I-beam 1, the corrugated steel plates 2 are installed on the portion, exposed above the ground surface, of the I-beam 1, the other end, installed on the I-beam 1 all the time, of the I-beam 1 is installed from one end close to the ground surface, and in the direction perpendicular to the ground surface, the two adjacent corrugated steel plates 2 are connected together in a detachable connection mode, so that the subsequent disassembly and secondary use are facilitated, and the I-beam 1 can be connected together through bolts for exemplary. The corrugated steel plate 2 needs to be installed on two sides of the I-steel 1, and can be installed on the first side and the second side simultaneously or on one side. The I-shaped steel 1 and the corrugated steel plate 2 are integrally installed to form a cuboid structure with a hollow interior.

The corrugated steel plate 2 and the i-steel 1 also need to be connected together in a detachable connection mode, and bolts or expansion bolts can achieve the purpose, and are not particularly limited herein.

Alternatively, an overlapping portion is provided between two adjacent corrugated steel plates 2. Illustratively, 3 corrugated steel plates 2 with the width of 2.5m and the thickness of 2mm are arranged between two I22I-shaped steel beams 1, the steel plates are overlapped by 55cm, and the purpose of the overlapped part is to improve the rigidity and the stability of the whole partition wall.

Alternatively, the filling height of the sand gravel 3 is in accordance with the height of the rectangular parallelepiped. After the corrugated steel plates 2 are installed, the plurality of I-shaped steel plates 1 and the plurality of corrugated steel plates 2 are surrounded to form a hollow cuboid, sand gravel 3 is filled in the cuboid, the filling height of each layer of the sand gravel 3 is consistent with the height of the cuboid, and the phenomenon that the sand gravel 3 overflows to cause the collapse of a wall body is avoided.

Illustratively, the cost estimate for this application is as follows: the corrugated steel plate 2 is 85.5 yuan/m (the original dimension of the corrugated steel plate 2 is 2.5m wide and 2mm thick), the I22I-shaped steel 1 is 2400 yuan/t, the sand and gravel filling 3 is 25 yuan/m 3, the small machine is 20 yuan/m 3, the labor cost comprises the processing of the I-shaped steel 1, the installation of the corrugated steel plate 2, the installation of a plug plate, the construction of a positioning rib and other operation contents are converted into 300 yuan/m 3, and in the material of the combined partition wall, the corrugated steel plate 2, the I-shaped steel 1 and the sand and gravel filling 3 in the middle can be used as a turnover material for the partition wall construction of the next mixing station after the mixing station is detached, so that the construction cost is greatly reduced, the turnover utilization efficiency of the material is improved, and the construction cost of the combined partition wall. The total cost is 515060 yuan calculated by adopting the traditional concrete partition wall; the total cost of the standard brick partition wall is 423300.08 yuan by calculation; the total cost of the grouted rubble partition wall is 413236.6 yuan, so that the partition wall made of the corrugated steel plate 2 has lower cost compared with the partition walls made of several traditional materials according to specific data analysis.

The corrugated steel plate 2 belongs to a centralized industrialized production product, is intensively purchased and assembled on site in the practical application of engineering, and has light self weight, so the construction is convenient and quick; compare traditional concrete foundation anchor I-steel 1 simultaneously, directly insert the mode of former below ground anchor with I-steel 1 vibrating in this application, it is convenient fast, shortened construction period.

The traditional concrete partition wall is difficult to dismantle in the later period, and can generate more building wastes, so that the environmental protection effect is poor; the mortar rubble partition wall cannot be recycled at the later stage, and the generated building waste influences the environmental quality; adopt the 2 feed bin partition walls of corrugated steel plate that this application provided, materials such as sand gravel 3 of corrugated steel plate 2, I-steel 1, middle packing make things convenient for the turnover to supply recycle, and the later stage is conveniently demolishd, can not produce a large amount of building rubbish such as abandonment concrete to fine protection effect has been played to the environment.

To sum up, the application provides a mixing station corrugated steel plate feed bin partition wall subassembly, including many I-steel, polylith corrugated steel plate and sand gravel, the I-steel adopts the vibrating insertion method to squeeze into former below ground with small-size pile driver, from up installation corrugated steel plate down in installation I-steel bottom, overlaps partly improvement partition wall bulk stiffness and stability between the corrugated steel plate. Corrugated steel plates are hoisted and fixed by adopting an excavator, and the corrugated steel plates and the I-shaped steel plates are connected in a detachable connection mode. After the corrugated steel plates are installed, a plurality of I-shaped steels and a plurality of corrugated steel plates form a cuboid with a hollow interior; the sand gravel is filled in the cuboid, and the filling height of each layer of sand gravel is consistent with the height of the cuboid. The cost comprises material cost and labor cost, corrugated steel plates, I-shaped steel and sand gravel filled in the middle can be used as turnover materials for construction of a partition wall of a next mixing station after being dismantled in the mixing station, the construction cost is greatly reduced through calculation of the combined partition wall provided by the application, and the turnover utilization efficiency of the materials is improved; compared with the traditional concrete foundation anchoring I-steel, the mode of directly inserting the I-steel into the original ground in a vibrating mode for anchoring is quick and convenient, the construction period is greatly shortened, the traditional concrete partition wall is difficult to dismantle in the later period, more building waste can be generated, and the environment-friendly effect is poor; the mortar rubble partition wall cannot be recycled at the later stage, and the generated building waste influences the environmental quality; adopt the corrugated steel plate feed bin partition wall of this patent, the convenient turnover of materials such as sand gravel of corrugated steel plate, I-steel, middle packing is for recycling, and the later stage is conveniently demolishd, can not produce a large amount of building rubbish such as abandonment concrete to fine protection effect has been played the environment. To sum up, the utility model provides a mix station ripple steel sheet feed bin partition wall subassembly can solve feed bin partition wall inefficiency, not environmental protection, the big and extravagant cost's of the construction degree of difficulty problem.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that an article or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The above description is merely exemplary of the present application and is presented to enable those skilled in the art to understand and practice the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

It will be understood that the present application is not limited to what has been described above and shown in the accompanying drawings, and that various modifications and changes can be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (5)

1. A mixing station corrugated steel plate storage bin partition wall assembly comprises a plurality of I-shaped steels (1), a plurality of corrugated steel plates (2) and sand gravel (3), and is characterized in that the I-shaped steels (1) are inserted on the ground at preset distances; the corrugated steel plates (2) are arranged on the first side and the second side of the I-shaped steel (1); a cuboid with a hollow interior is formed by the I-shaped steels (1) and the corrugated steel plates (2); the sand gravel (3) is filled in the rectangular parallelepiped.

2. A mixing station corrugated steel plate silo partition assembly according to claim 1, characterized in that a connecting brace is arranged between the i-beams (1).

3. A mixing station corrugated steel plate silo partition assembly according to claim 2, wherein the tie braces are steel bars or plates.

4. A mixing station corrugated steel plate silo partition assembly according to claim 1, characterized in that the filling height of the sand gravel (3) corresponds to the height of the cuboid.

5. A mixing station deck bellows partition assembly according to claim 1, wherein an overlap is provided between two adjacent deck plates (2).

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