CN210708727U - External wall panel stacking frame device for assembly type building construction - Google Patents

Abstract

The utility model relates to an assembly type is side fascia piling bin device for construction. The device comprises two end part supports which are oppositely arranged, a plurality of top supporting components are arranged between the tops of the two end part supports in parallel, and a left sleeper component and a right sleeper component are respectively arranged on two sides of each end part support; the top support assembly comprises a shell, a left end plate is arranged at the left end of the shell, a right end plate is arranged at the right end of the shell, a front sleeve and a rear sleeve are further arranged in the shell, the left ends of the left end plate and the right end plate penetrate out of the left end plate, and the right ends of the left end plate and the right end plate penetrate out of the right end plate; the left ends of the front sleeve and the rear sleeve are respectively provided with a left telescopic rod in an inserting manner, and the right ends of the front sleeve and the rear sleeve are respectively provided with a right telescopic rod in an inserting manner; the shells of two adjacent top supporting assemblies are fixedly connected through a connecting block, and the shells of the two top supporting assemblies positioned on the outer sides are fixedly connected with the two end part supports respectively. The utility model discloses simple structure, simple operation, support firm, be difficult for producing the destruction to the component.

Description

External wall panel stacking frame device for assembly type building construction

Technical Field

The utility model belongs to the technical field of the assembly type structure construction, especially, relate to an assembly type is side fascia piling bin device for construction.

Background

Buildings assembled from prefabricated parts at the site are called fabricated buildings. In recent years, with the progress of building technology and the development of building concepts, the fabricated building has been popularized with its many advantages. The advantages are reflected in: 1. a large number of building parts are produced and processed in a workshop, and a large number of assembly operations are performed on site, so that the number of the assembly operations is greatly reduced compared with the original cast-in-place operation; 2. the building and decoration integrated design and construction are adopted, and the ideal state is that decoration can be synchronously carried out along with the main body construction; 3. standardization of design and informatization of management, the more standard the component is, the higher the production efficiency is, the lower the corresponding component cost will be, and the cost performance of the whole fabricated building is higher and higher in cooperation with digital management of a factory; 4. the requirement of green buildings is met; 5. energy conservation and environmental protection.

With the deepening of the technology and the environmental protection concept, the assembled building has wider development prospect. The side fascia component need be transported the job site and stack after prefabricated machine-shaping of prefabrication factory, and along with going on of engineering progress, the side fascia component is constantly transported to the job site and is stacked and also constantly obtain taking, is a dynamic change's process, and this in-process involves frequently stacking and the operation of taking to the side fascia component, and itself is exactly an operation process that wastes time and energy. The existing stacking mode is generally a vertical stacking mode, namely, the last external wall panel component is positioned above the next external wall panel component, and in order to avoid collision damage caused by contact of the two external wall panel components, a sleeper is arranged between the two adjacent components. The above stacking method has the following defects: (1) the operation is complicated, and sleepers need to be arranged at every other layer; (2) the components are easy to be collided and damaged; (3) the multi-layer stacking manner is easy to pour. Therefore, the structure of the stacker device needs to be optimally designed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical problem that exists among the known art and provide a simple structure, simple operation, support firm, be difficult for producing the external wall panel piling bin device for the construction of destruction to the component.

The utility model discloses a solve the technical scheme that technical problem that exists among the well-known technique took and be: an external wall panel stacking rack device for assembly type building construction comprises two end supports which are oppositely arranged, a plurality of top supporting assemblies are arranged between the tops of the two end supports in parallel, and a left sleeper assembly and a right sleeper assembly are respectively arranged on two sides of each end support; the top support assembly comprises a shell, a left end plate is arranged at the left end of the shell, a right end plate is arranged at the right end of the shell, a front sleeve and a rear sleeve are further arranged in the shell, the left ends of the left end plate and the right end plate penetrate out of the left end plate, and the right ends of the left end plate and the right end plate penetrate out of the right end plate; the left ends of the front sleeve and the rear sleeve are respectively provided with a left telescopic rod in an inserting manner, and the right ends of the front sleeve and the rear sleeve are respectively provided with a right telescopic rod in an inserting manner; a radially through threaded hole is formed in the side wall of the middle part of the front sleeve, a first middle limiting screw is arranged in the threaded hole, a radially through threaded hole is formed in the side wall of the middle part of the rear sleeve, and a second middle limiting screw is arranged in the threaded hole; the shells of two adjacent top supporting assemblies are fixedly connected by a connecting block, and the shells of the two top supporting assemblies positioned on the outer sides are respectively and fixedly connected with the two end part brackets; the left sleeper component comprises two left side grooves which are parallel, and left sleepers are arranged in the two left side grooves; the right sleeper component comprises two right side grooves which are parallel, and right sleepers are arranged in the two right side grooves.

The utility model has the advantages that: the utility model provides an assembly type is side fascia piling bin device for construction that structural design is simple reasonable compares with current mode of stacking, through setting up tip support and a plurality of top supporting component side by side among this technical scheme, has realized transversely piling up in order of external wall board component, compares with the mode of piling up the piling up and putting, and the mode of transversely piling up in order has easy operation, is difficult for taking place to empty, the difficult production of component advantage such as collide with. Through set up left side telescopic link and right side telescopic link in top supporting component's both sides, make the well upper portion position of side fascia component by the centre gripping between the telescopic link, it is fixed firm reliable. Under the non-use condition, the telescopic link can fully retract, avoids the occupation to the space. Through all setting up the sleeper subassembly on left side and right side subaerial, make the bottom edge of each side fascia component support by the sleeper, both avoided pollution, the damage of colliding with that component bottom and ground direct contact lead to, make again be convenient for get the component such as transportation facilities such as fork truck and put and remove. On the other hand, the mode of transversely piling up in order is favorable to placing and tak away from this piling bin device on the side fascia component is to this piling bin device, the simple operation.

Preferably: the end part support comprises two upright posts which are oppositely arranged, and a cross support is arranged between the two upright posts; the lower ends of the stand columns are provided with bases, and the bases are fixedly connected with the ground through ground anchor bolts.

Preferably: the shell of the top supporting component comprises a shell with a U-shaped longitudinal section, and a cover plate is welded and fixed at the top of the shell.

Preferably: the connecting blocks are metal blocks and are respectively positioned on the outer sides of four corners of the shell of each top supporting component, and the connecting blocks and the shell of the top supporting component are fixedly welded.

Preferably: the longitudinal section of the left groove is T-shaped, the longitudinal section of the left sleeper is rectangular, the width of a surface groove of the left groove positioned at the upper part is equal to the length of the left sleeper, the height of the surface groove is equal to the width of the left sleeper, the width of a bottom groove of the left groove positioned at the upper part is equal to the width of the left sleeper, and the sum of the heights of the surface groove and the bottom groove is less than the length of the left sleeper; the longitudinal section of the right groove is T-shaped, the longitudinal section of the right sleeper is rectangular, the width of a surface groove of the right groove on the upper portion is equal to the length of the right sleeper, the height of the surface groove is equal to the width of the right sleeper, the width of a bottom groove of the right groove on the upper portion is equal to the width of the right sleeper, and the sum of the heights of the surface groove and the bottom groove is smaller than the length of the right sleeper.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic top view of the present invention;

FIG. 3 is a top partially cross-sectional structural schematic view of the top support assembly of FIG. 2;

FIG. 4 is a schematic view of the structure of the utility model in the use state;

fig. 5 is a schematic top view of the present invention in use.

In the figure: 1. a top support assembly; 1-1, a cover plate; 1-2, a shell; 1-3, left end plate; 1-4, right end plate; 1-5, a rear sleeve; 1-6, front sleeve; 1-7, a left telescopic rod; 1-8, a right telescopic rod; 1-9, a second middle limit screw; 1-10, a first middle limit screw; 2. an end bracket; 2-1, upright columns; 2-2, cross bracing; 2-3, a base; 3. a ground anchor bolt; 4. left side crosstie; 5. a left groove; 6. a ground surface; 7. a right side sleeper; 8. a right groove; 9. connecting blocks; 10. an exterior wall panel member.

Detailed Description

In order to further understand the contents, features and effects of the present invention, the following embodiments are described in detail:

referring to fig. 1 and 2, the external wall panel stacking rack device for assembly type building construction of the present invention includes two end brackets 2 disposed oppositely, a plurality of top support assemblies 1 are disposed between the tops of the two end brackets 2, and a left sleeper assembly and a right sleeper assembly are disposed on both sides of the end brackets 2, respectively.

Wherein, tip support 2 is as the support frame of whole piling bin device, and top supporting component 1 is used for fixing the well upper portion of the side fascia component 10 of putting into, and left sleeper subassembly and right sleeper subassembly both are used for supporting the lower part edge of the side fascia component 10 of both sides, can prevent to pollute and collide with, and the right side can be with side fascia component 10 pad certain height so that get of transportation facilities such as fork truck and put to side fascia component 10.

In the embodiment, the end part bracket 2 comprises two upright posts 2-1 which are oppositely arranged, and a cross support 2-2 is arranged between the two upright posts 2-1; the lower ends of the upright columns 2-1 are respectively provided with a base 2-3, and the bases 2-3 are fixedly connected with the ground 6 through anchor bolts 3. The upright post 2-1 and the cross support 2-2 are both made of metal pipe sectional materials and are welded and fixed at the contact position. As shown in the figure, in order to make the piling device stand more stably, the surface of the ground 6 should be hardened, for example, a layer of concrete is poured, and the anchor bolts 3 are integrally poured and formed in the concrete layer.

Referring to fig. 3, it can be seen that: the top supporting component 1 comprises a shell, wherein a left end plate 1-3 is arranged at the left end of the shell, a right end plate 1-3 is arranged at the right end of the shell, a front sleeve 1-6 and a rear sleeve 1-5 are further arranged in the shell, the left ends of the left end plate 1-3 and the right end plate 1-4 penetrate out respectively. In this embodiment, the housing of the top support assembly 1 includes a housing 1-2 having a U-shaped longitudinal section, and a cover plate 1-1 is welded and fixed to the top of the housing 1-2. The left end plate 1-3 is welded and fixed with the left end of the shell 1-2, and the right end plate 1-4 is welded and fixed with the right end of the shell 1-2.

Two through holes are respectively arranged on the left end plate 1-3 and the right end plate 1-4, the front sleeve 1-6 and the rear sleeve 1-5 are respectively inserted into a group of transversely aligned through holes, and the front sleeve 1-6 and the rear sleeve 1-5 are welded and fixed with the left end plate 1-3 and the right end plate 1-4 at the contact positions.

The left ends of the front sleeve 1-6 and the rear sleeve 1-5 are respectively provided with a left telescopic rod 1-7 in an inserting way, and the right ends of the front sleeve 1-6 and the rear sleeve 1-5 are respectively provided with a right telescopic rod 1-8 in an inserting way. In order to limit the retraction position of each telescopic rod, in the embodiment, a threaded hole which is radially penetrated is arranged on the side wall of the middle part of the front sleeve 1-6, a first middle limiting screw 1-10 is arranged in the threaded hole, a threaded hole which is radially penetrated is arranged on the side wall of the middle part of the rear sleeve 1-5, and a second middle limiting screw 1-9 is arranged in the threaded hole.

The shells of two adjacent top supporting assemblies 1 are fixedly connected through a connecting block 9, and the shells of the two top supporting assemblies 1 positioned on the outer side are fixedly connected with the two end part supports 2 respectively. In this embodiment, the connection blocks 9 are metal blocks and are respectively located at the outer sides of the four corners of the outer shell (i.e., the shell 1-2) of each top support assembly 1, and the connection blocks 9 are welded and fixed with the outer shell (i.e., the shell 1-2) of the top support assembly 1.

The left sleeper component comprises two left side grooves 5 which are parallel, and left sleepers 4 are arranged in the two left side grooves 5; the right sleeper component comprises two right side grooves 8 which are parallel, and right sleepers 7 are arranged in the two right side grooves 8.

In this embodiment, the longitudinal section of the left groove 5 is T-shaped, the longitudinal section of the left sleeper 4 is rectangular, the width of the surface groove of the left groove 5 located at the upper part is equal to the length of the left sleeper 4, the height is equal to the width of the left sleeper 4, the width of the bottom groove of the left groove 5 located at the upper part is equal to the width of the left sleeper 4, and the sum of the heights of the surface groove and the bottom groove is less than the length of the left sleeper 4; the longitudinal section of the right groove 8 is T-shaped, the longitudinal section of the right sleeper 7 is rectangular, the width of a surface groove of the right groove 8 on the upper portion is equal to the length of the right sleeper 7, the height of the surface groove is equal to the width of the right sleeper 7, the width of a bottom groove of the right groove 8 on the upper portion is equal to the width of the right sleeper 7, and the sum of the heights of the surface groove and the bottom groove is smaller than the length of the right sleeper 7.

The function of adopting above-mentioned structure is: the left side sleeper 4 and the right side sleeper 7 can be horizontally arranged under the non-use state, so that the left side sleeper 4 and the right side sleeper 7 respectively fall into the surface grooves of the left side groove 5 and the right side groove 8 and form a surface which is parallel and level to the surrounding ground 6, and the left sleeper component and the right sleeper component are integrated with the ground 6; when the left side sleeper 4 and the right side sleeper 7 are in a use state, the left side sleeper 4 and the right side sleeper 7 rotate by 90 degrees respectively, the lower ends of the left side sleeper and the right side sleeper are inserted into the bottom grooves of the left side groove 5 and the right side groove 8, and the upper ends of the left side groove 5 and the right side groove 8 penetrate out of the left side groove 5 and the right side groove 8, so that when the bottom edge of the external wall panel component 10 is transversely arranged between the two left side sleepers 4/right side sleepers 7 on each side, a certain gap exists between the bottom edge of the external wall panel component 10 and the ground 6, and the gap can enable a front fork of a forklift to penetrate through the gap, so that.

The utility model discloses a working process:

under the initial condition, the left telescopic rods 1-7 and the right telescopic rods 1-8 of the top supporting assemblies 1 are fully retracted into the shells 1-2, the left sleepers 4 fall into the left grooves 5, and the right sleepers 7 fall into the right grooves 8; when a plurality of external wall panel components 10 are required to be placed on the stacking rack device, the left side sleepers 4 and the right side sleepers 7 on two sides are turned by 90 degrees to be in a use state, a left side telescopic rod 1-7 is pulled out from a top supporting component 1 at one end, one external wall panel component 10 is moved by a forklift and other equipment, the middle upper part of the external wall panel component is leaned on the left side telescopic rod 1-7, the external wall panel component 10 is placed downwards to enable the bottom edge of the external wall panel component to be positioned on the two left side sleepers 4, the forklift withdraws, the other left side telescopic rod 1-7 of the top supporting component 1 is pulled out, and then the placement of one external wall panel component 10 is completed;

repeating the above process until the external wall panel members 10 are placed on both sides of each top support assembly 1;

when the external wall panel component 10 is taken out, starting from one end, firstly retracting the left telescopic rod 1-7 or the right telescopic rod 1-8 of the top supporting component 1, pulling the external wall panel component 10 away by adopting equipment such as a forklift and the like, and then retracting the other left telescopic rod 1-7 or the right telescopic rod 1-8 of the top supporting component 1; the above process is repeated until all of the exterior wall panel members 10 are removed.

Claims (5)

1. The utility model provides an assembly type is side fascia piling bin device for construction, characterized by: the device comprises two end part supports (2) which are oppositely arranged, a plurality of top support assemblies (1) are arranged between the tops of the two end part supports (2) in parallel, and a left sleeper assembly and a right sleeper assembly are respectively arranged on two sides of each end part support (2);

the top supporting assembly (1) comprises a shell, wherein a left end plate (1-3) is arranged at the left end of the shell, a right end plate (1-4) is arranged at the right end of the shell, a front sleeve (1-6) and a rear sleeve (1-5) are further arranged in the shell, the left ends of the left end plate and the right end plate penetrate out of the left end plate (1-3), and the right ends of the left end plate and the right end plate penetrate out of the right end plate (1-4); the left ends of the front sleeve (1-6) and the rear sleeve (1-5) are respectively provided with a left telescopic rod (1-7) in an inserting way, and the right ends of the front sleeve and the rear sleeve are respectively provided with a right telescopic rod (1-8) in an inserting way; a radial through threaded hole is formed in the side wall of the middle part of the front sleeve (1-6), a first middle limiting screw (1-10) is arranged in the threaded hole, a radial through threaded hole is formed in the side wall of the middle part of the rear sleeve (1-5), and a second middle limiting screw (1-9) is arranged in the threaded hole; the shells of two adjacent top supporting assemblies (1) are fixedly connected by a connecting block (9), and the shells of the two top supporting assemblies (1) positioned at the outer sides are respectively and fixedly connected with the two end part brackets (2);

the left sleeper component comprises two left side grooves (5) which are parallel, and left sleepers (4) are arranged in the two left side grooves (5); the right sleeper component comprises two right side grooves (8) which are parallel, and right sleepers (7) are arranged in the two right side grooves (8).

2. The external wall panel stacking rack device for assembly type building construction as claimed in claim 1, wherein: the end part support (2) comprises two upright posts (2-1) which are oppositely arranged, and a cross support (2-2) is arranged between the two upright posts (2-1); the lower ends of the upright posts (2-1) are respectively provided with a base (2-3), and the bases (2-3) are fixedly connected with the ground (6) through anchor bolts (3).

3. The external wall panel stacking rack device for assembly type building construction as claimed in claim 1, wherein: the shell of the top supporting component (1) comprises a shell (1-2) with a U-shaped longitudinal section, and a cover plate (1-1) is welded and fixed on the top of the shell (1-2).

4. The external wall panel stacking rack device for assembly type building construction as claimed in claim 1, wherein: the connecting blocks (9) are metal blocks and are respectively positioned on the outer sides of four corners of the shell of each top supporting component (1), and the connecting blocks (9) are fixedly welded with the shell of the top supporting component (1) where the connecting blocks are positioned.

5. The external wall panel stacking rack device for assembly type building construction as claimed in claim 1, wherein: the longitudinal section of the left groove (5) is T-shaped, the longitudinal section of the left sleeper (4) is rectangular, the width of a surface groove of the left groove (5) at the upper part is equal to the length of the left sleeper (4), the height of the surface groove is equal to the width of the left sleeper (4), the width of a bottom groove of the left groove (5) at the upper part is equal to the width of the left sleeper (4), and the sum of the heights of the surface groove and the bottom groove is less than the length of the left sleeper (4); the longitudinal section of the right groove (8) is T-shaped, the longitudinal section of the right sleeper (7) is rectangular, the width of a surface groove of the right groove (8) on the upper portion is equal to the length of the right sleeper (7), the height of the surface groove is equal to the width of the right sleeper (7), the width of a bottom groove of the right groove (8) on the upper portion is equal to the width of the right sleeper (7), and the sum of the heights of the surface groove and the bottom groove is smaller than the length of the right sleeper (7).

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