CN214931433U - Steel structure frame integrating production, transportation, storage and transportation of assembled prefabricated parts - Google Patents

Abstract

The utility model belongs to the technical field of the prefabricated construction and specifically relates to an integrated steel structure frame of transportation is deposited in production transportation of assembled prefabricated component, including a lower part storage rack, install respectively in the four corners of lower part storage rack and be provided with a protection fender position structure, each protection fender position structure with lower part storage rack mutually perpendicular and welding link firmly, weld respectively on each protection fender position structure of double-phase offside of lower part storage rack has a hoist plate, all is provided with the hole for hoist on each hoist plate, is located two of opposite side hoist plate symmetry setting, the surface welding seam position of lower part storage rack is the welding seam after grinding flat, when the superimposed sheet transports to the stock ground from the workshop, can carry out disposable handling, and the piling up is neat; a plurality of steel structure frame can four range upon range of add when putting and put, also can divide the floor or deposit according to the loading combination, save more place spaces.

Description

Steel structure frame integrating production, transportation, storage and transportation of assembled prefabricated parts

Technical Field

The utility model belongs to the technical field of the assembly type structure and specifically relates to transportation steel structure frame as an organic whole is deposited in production transportation of assembly type prefabricated component.

Background

In the field of prefabricated construction, the prefabricated laminated slab is the most widely used in practical applications, and the yield of the laminated slab in a prefabricated component factory is relatively large. In the domestic prefabricated building industry, the existing methods for transferring, storing and transporting the laminated slabs all use a mode of stacking single flat slabs, and lift the single flat slabs one by one to perform temporary stacking, loading, unloading and other work, and the number of the layers of the temporarily stacked laminated slabs is generally 12-15, so that the utilization rate of a storage site is greatly limited.

At present, the traditional mode of storing and transporting the laminated plates on the market adopts a single-piece laminating method. The method has the disadvantages of high labor input cost, low equipment utilization rate, large required area of a stacking site, long loading time and unloading time and the like, so that an integrated storage and transportation steel frame for transportation, storage and loading is required to be developed and designed to solve the problems with higher efficiency and lower cost.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve one of the above-mentioned technical problem, the utility model aims to provide an assembly type prefabricated component production is transported, is deposited, transports steel structure frame as an organic whole to solve the various problems of present prefabricated component factory to superimposed sheet finished product later stage work flow that proposes in the above-mentioned background art, the technical scheme who adopts is: collect assembled prefabricated component production transportation and deposit steel structure frame as an organic whole of transportation, including a lower part storage rack the four corners department of lower part storage rack installs respectively and is provided with a protection fender position structure, each protection keep off the position structure with lower part storage rack mutually perpendicular and welding link firmly the double-phase offside of lower part storage rack each protection has a hoist and mount board welded respectively on keeping off the position structure, at each all be provided with the hole for hoist on the hoist and mount board, be located two of opposite side the hoist and mount board symmetry sets up, the weld seam position after the lower part storage rack is for grinding flat.

Preferably, the lower storage rack includes four main through pipes, two end portions of each main through pipe are respectively welded to the lower side wall of the protection gear structure at the corresponding position, the four main through pipes enclose a square space, a plurality of transverse sub pipes and longitudinal sub pipes are arranged in the enclosed square space, the transverse sub pipes and the longitudinal sub pipes which are connected with each other are vertically welded to each other, and the contact portions of the transverse sub pipes and the longitudinal sub pipes with the corresponding main through pipes are vertically welded to each other.

Preferably, the protection keeps off position structure include one with lower part storage rack mutually perpendicular's stand the top welding of stand has a flat steel sheet the two adjacent outside borders in top of stand have welded a steel sheet buckle respectively.

Preferably, the upper part of each steel plate buckle is obliquely arranged outwards.

Preferably, each steel plate buckle is made of a steel plate with the thickness of 10mm and the height of 100 mm.

Preferably, each main through pipe, each transverse auxiliary pipe, each longitudinal auxiliary pipe and each upright post are rectangular pipes.

The beneficial effects of the utility model are embodied in: the utility model provides a steel structure frame, reduction cost of labor that can be very big, improve equipment utilization, reduce and stack place demand area, improve and stack the vertical space utilization in place, improve loading and unload efficiency, reduce shipment error rate, reduce because of too high component fracture problem etc. of depositing and leading to.

1. When the laminated slab is transported from a workshop to a storage yard, the laminated slab can be lifted once and stacked orderly;

2. when the steel structure frames are placed, the steel structure frames can be additionally placed in four layers, and can also be stored in different floors or according to loading combination, so that more field spaces are saved;

3. when the structure is used for transferring the laminated plate, the use pressure and frequency of hoisting equipment can be reduced, and the resource investment is saved;

4. after the superimposed sheet is placed in the steel structure frame, the steel structure frame is directly hoisted and transported, so that the manual operation time of transporting and loading can be reduced, the efficiency is increased, and the labor is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or components are generally identified by like reference numerals. In the drawings, elements or components are not necessarily drawn to scale.

Fig. 1 is a three-dimensional view of the steel structure frame of the present invention.

Fig. 2 is a front view of the steel structure frame of the present invention.

Fig. 3 is a left side view of the steel structure frame of the present invention.

Fig. 4 is a top view of the steel structure frame of the present invention.

Fig. 5 is a top perspective view of the steel structure frame upright of the present invention.

Fig. 6 is a bottom big sample view of the steel structure frame column of the present invention.

In the figure, 1, a steel plate is buckled; 2. a lower storage rack; 201. a main through pipe; 202. a transverse auxiliary pipe; 203. a longitudinal auxiliary pipe; 204. a column; 205. a flat steel plate; 3. hoisting the plate; 4. and (6) hoisting holes.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-6, a steel structure frame integrating production, transportation, storage and transportation of prefabricated components comprises a lower storage frame 2, protective blocking structural members are respectively installed at four corners of the lower storage frame 2, each protective blocking structural member is perpendicular to the lower storage frame 2 and fixedly welded to the lower storage frame, a hoisting plate 3 is respectively welded to each protective blocking structural member on two opposite sides of the lower storage frame 2, each hoisting plate 3 is provided with a hoisting hole 4, the two hoisting plates 3 on the opposite sides are symmetrically arranged, and a weld seam on the surface of the lower storage frame 2 is a welded seam which is ground flat.

When the laminated slabs are stacked on the lower storage rack 2, the four protective gear structural members play a role in circumferential protection, so that the laminated slabs can be effectively placed to fall out from the periphery, and the hoisting and shipping are safer; when hoisting, the whole steel structure frame is directly hoisted through the hoisting holes 4 on the four hoisting plates 3, the steel structure frames can be stacked and placed in four layers when being placed, the bottoms of the stand columns 204 of the steel structure frame on the upper layer after being stacked are respectively limited in clamping through the steel plate buckles 1 on the lower layer, and the stability of clamping is guaranteed to be stacked.

The welding seam position of the surface of the lower storage rack 2 is the welding seam after being ground flat, the parallel and level of the surface of the whole lower storage rack 2 can be guaranteed, the flatness of the stacked plates after the stacked plates are placed is guaranteed, and the stability in the transfer process is improved.

Preferably, the lower storage rack 2 includes four main through pipes 201, two end portions of each main through pipe 201 are respectively welded to the lower side wall of the protection gear structure at the corresponding position, the four main through pipes 201 enclose a square space, a plurality of transverse sub pipes 202 and longitudinal sub pipes 203 are arranged in the enclosed square space, the transverse sub pipes 202 and the longitudinal sub pipes 203 which are connected with each other are vertically welded, and the contact portions of each transverse sub pipe 202 and each longitudinal sub pipe 203 and the corresponding main through pipe 201 are vertically welded.

Preferably, the protective gear structure comprises a vertical column 204 perpendicular to the lower storage rack 2, a flat steel plate 205 is welded to the top of the vertical column 204, and two adjacent outer side edges of the top of the vertical column 204 are respectively welded with a steel plate buckle 1.

When a plurality of steel structure frames are stacked from top to bottom during the main action of the steel plate buckle 1 arranged at the position, the steel plate buckle 1 of the steel structure frame at the lower layer plays a role in limiting the position of the bottom of the upright column 204 of the steel structure frame at the upper part.

Preferably, the upper part of each steel plate buckle 1 is inclined outwards.

The mode of slope is set to on the upper portion of each steel sheet buckle 1, can play certain direction when a plurality of steel structure frame pile up and place and adjust well effect, makes steel sheet buckle 1 of lower floor's steel structure frame like this can make the flat steel sheet 205 position department at each stand 204 top of the quick lower floor's steel structure frame of each stand 204 of upper steel structure frame, efficiency when improving and stacking.

Preferably, each of the steel plate buckles 1 is made of a steel plate with a thickness of 10mm and a height of 100 mm.

Preferably, each main through pipe 201, each transverse sub pipe 202, each longitudinal sub pipe 203 and each upright post 204 are rectangular pipes. The dead weight of the whole steel structure frame can be effectively reduced on the premise of ensuring the strength of the whole structure.

The specific manufacturing steps are as follows:

1. each main through pipe 201 of the outer frame of the lower storage rack 2 is a rectangular through pipe with the thickness of 180mm and 100mm, the wall thickness of the pipe is 6mm, the length of the pipe is 2550mm, 2100mm and 2100mm, the four main through pipes 201 are horizontally welded on the four upright posts 204, and the distance between the bottom of each main through pipe 201 and the bottom of the upright post 204 at the corresponding position is 200 mm.

2. At two trisection points on two 2550mm main through pipes 201, 4 transverse and auxiliary pipes 202 with the length of 400mm are welded together, the transverse and auxiliary pipes 202 are rectangular through pipes, the specification is 140 mm-80 mm, the pipe wall thickness is 5mm, and the transverse and auxiliary pipes 20280mm are horizontal in the length direction during welding.

3. The lower storage rack 2 is internally provided with a 'well' -shaped structure through each transverse auxiliary pipe 202 and each longitudinal auxiliary pipe 203, the longitudinal auxiliary pipe 203 is a rectangular through pipe with the thickness of 140mm x 80mm, and the pipe wall is 5 mm.

4. The 4 upright columns 204 are hollow, rectangular through pipes of 200mm x 150mm x 8mm are used, and the included angles between the four upright columns 204 and the lower storage rack 2 are 90 degrees.

5. The hoisting plate 3 needs to be welded at the welding position of the four upright columns 204 and the lower storage rack 2, a hole is formed in the middle of the hoisting plate 3 to form a hoisting hole 4, and the hoisting plate 3 is welded after being preheated during construction.

6. The steel plate buckles 1 with the thickness of 10mm and the height of 100mm are welded on the outer sides of the tops of the four upright columns 204 respectively.

According to the actual use effect and data statistics of our company, compared with the traditional structure frame, the steel structure frame can save labor cost benefit (25.84 ten thousand yuan per year), equipment power and electricity saving benefit (9.74 ten thousand yuan), site saving benefit (181.13 ten thousand yuan), equipment resource saving benefit (2.45 ten thousand yuan) and benefit generated by construction period promotion (58.97 ten thousand yuan per year), can save about 278.13 ten thousand yuan per year in total, reduce about 80 ten thousand yuan of investment cost, and has the comprehensive optimization benefit of 198.13 ten thousand yuan per year.

When the laminated slabs are transported to a storage yard from a workshop, a plurality of laminated slabs can be effectively stored in each steel structure frame by using the steel structure frame, and the plurality of steel structure frames can be additionally arranged in four layers and clamped and fixed by the steel plate buckles 1 when being arranged, so that the laminated slabs can be lifted at one time and stacked orderly; and the storage can be carried out by floors or according to loading combination, so that more field spaces are saved.

The structure for transferring the laminated plate can reduce the use pressure and frequency of hoisting equipment and save the resource investment; after the superimposed sheet is placed in the steel structure frame, the steel structure frame is directly hoisted and transported, so that the manual operation time of transporting and loading can be reduced, the efficiency is increased, and the labor is saved.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification; to those skilled in the art, any alternative improvements or changes made to the embodiments of the present invention are all within the scope of the present invention.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (6)

1. Collect assembled prefabricated component production transportation and deposit steel structure frame of transportation as an organic whole, its characterized in that: the device comprises a lower storage rack, wherein protective blocking structure members are respectively arranged at four corners of the lower storage rack, each protective blocking structure member is perpendicular to the lower storage rack and fixedly connected with the lower storage rack in a welding mode, a hoisting plate is respectively welded on each protective blocking structure member on two opposite sides of the lower storage rack, hoisting holes are formed in each hoisting plate, the two hoisting plates on the opposite sides are symmetrically arranged, and a welding seam on the surface of the lower storage rack is a welding seam after being ground flat.

2. The integrated steel structure frame for production, transportation, storage and transportation of the assembled prefabricated parts according to claim 1, wherein the steel structure frame comprises: the lower storage rack comprises four main through pipes, two end parts of each main through pipe are respectively welded with the lower side wall of the protection gear structure at the corresponding position, the four main through pipes form a square space, a plurality of transverse auxiliary pipes and longitudinal auxiliary pipes are arranged in the square space, the transverse auxiliary pipes and the longitudinal auxiliary pipes which are mutually connected are vertically welded, and the contact parts of the transverse auxiliary pipes and the longitudinal auxiliary pipes and the corresponding main through pipes are vertically welded.

3. The integrated steel structure frame for production, transportation, storage and transportation of the assembled prefabricated parts according to claim 2, wherein: the protection keeps off position structure include one with lower part storage rack mutually perpendicular's stand the top welding of stand has a flat steel sheet the two adjacent outside borders in top of stand have welded a steel sheet buckle respectively.

4. The integrated steel structure frame for production, transportation, storage and transportation of the assembled prefabricated parts according to claim 3, wherein: the upper parts of the steel plate buckles are all obliquely arranged outwards.

5. The integrated steel structure frame for production, transportation, storage and transportation of the assembled prefabricated parts according to claim 4, wherein the steel structure frame comprises: each steel plate buckle is made of a steel plate with the thickness of 10mm and the height of 100 mm.

6. The integrated steel structure frame for production, transportation, storage and transportation of the assembled prefabricated parts according to claim 5, wherein: each main through pipe, each transverse auxiliary pipe, each longitudinal auxiliary pipe and each upright post are rectangular pipes.

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