CN211949920U - Prefabricated enclosure - Google Patents
Prefabricated enclosure Download PDFInfo
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- CN211949920U CN211949920U CN202020532093.3U CN202020532093U CN211949920U CN 211949920 U CN211949920 U CN 211949920U CN 202020532093 U CN202020532093 U CN 202020532093U CN 211949920 U CN211949920 U CN 211949920U
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- wall
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Abstract
The utility model discloses a prefabricated assembled enclosure, including prefabricated post module, prefabricated back timber module, prefabricated floorbar module, prefabricated wall body module, a plurality of prefabricated post module detachable assemble prefabricated post, a plurality of prefabricated back timber module detachable assemble the back timber, a plurality of prefabricated floorbar module detachable assemble the floorbar, a plurality of prefabricated wall body module detachable assemble the wall body, the back timber sets up in wall body top side surface, the floorbar sets up in the wall body bottom side, prefabricated post sets up in the wall body both sides, connect through the locating part between the adjacent prefabricated wall body module. The utility model discloses a modular design according to design enclosure size and shape, with a plurality of prefabricated post modules, prefabricated back timber module, prefabricated floorbar module, prefabricated wall body module according to order modulization equipment together can. It is whole firm, stable in structure, each part can be dismantled the connection, and the installation is convenient with the dismantlement, and the surface decoration form of expression is various, can full topography, reuse, reduces labour cost, reduces environmental pollution.
Description
Technical Field
The utility model belongs to the technical field of the assembly type structure, specifically speaking, the utility model relates to a prefabricated assembled enclosure.
Background
In the building construction process, need enclose the construction of covering to the building site, the enclosure among the prior art mainly divide into two main categories of traditional enclosure and assembled enclosure. A conventional fence includes: using a color steel sandwich plate (sandwich structure, sheet iron at two sides and foam in the middle) as a wallboard; and bricking the fence. The color steel plate enclosing wall is not firm enough, the installation labor cost is high, and the deformation is difficult to be reused. The installation rate of brick enclosure is slow, and is with high costs, inconvenient reuse, and the work load of later stage demolishd the enclosure is big, and the building rubbish that produces is many, and produced dust has the pollution to the environment when just demolising. The prefabricated component of domestic assembled enclosure mainly includes prefabricated post, prefabricated wallboard and attaches the accessory, and wherein prefabricated wall body face is bigger and heavy, for whole stride according to high layering face, and between board and the board, mostly be the wet seam of mortar between board and the post, and base beam, post and wall body surface decoration are the wet operation in scene to can not dismantle the cycle after the installation and use, and take up an area of temporarily more, the installation is inconvenient, the many degrees of difficulty of construction process is big, the cycle length of operation, it is many to produce the waste material, environmental pollution is big.
In summary, it is highly desirable to provide a new prefabricated enclosure, which can be installed conveniently and quickly, is constructed quickly, has low labor cost, can finish surface decoration at one time through a mold in a factory, reduces the secondary surface decoration construction process at the installation site of the enclosure, is convenient to disassemble and can be reused, so as to solve the problems in the prior art.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is: the utility model provides a prefabricated enclosure, can realize that the installation is convenient, the construction is rapid, the installation cost of labor is lower, and convenient dismantlement just can used repeatedly to solve the problem that exists among the prior art.
In order to realize the purpose, the utility model discloses the technical scheme who takes does:
the utility model provides a prefabricated enclosure, includes prefabricated post module, prefabricated back timber module, prefabricated floorbar module, prefabricated wall body module, and is a plurality of prefabricated post module detachable assembly forms prefabricated post, and is a plurality of prefabricated back timber module detachable assembly forms the back timber, and is a plurality of prefabricated floorbar module detachable assembly forms the floorbar, and is a plurality of prefabricated wall body module detachable assembly forms the wall body, the back timber set up in the top surface of wall body, the floorbar set up in the bottom surface of wall body, prefabricated post set up in the both sides of wall body, adjacent link together through the locating part between the prefabricated wall body module.
In another preferred embodiment, the precast column module is a hollow module made of high-strength concrete, the precast top beam module, the precast bottom beam module and the precast wall body module are sandwich modules made of high-strength concrete composite light materials, and the light materials filled in the sandwich modules are foamed concrete or honeycomb paper or XPS or EPS or plastic PP. The weight of the prefabricated enclosure wall is reduced, and the purposes of light weight and high strength are achieved.
In another preferred embodiment, the limiting members are grooves and ribs, two adjacent side surfaces of the prefabricated wall modules are provided with grooves, the other two adjacent side surfaces of the prefabricated wall modules are provided with ribs, the grooves and the ribs on the adjacent side surfaces of the two prefabricated wall modules are opposite, and the ribs are embedded into the grooves to realize the connection between the two adjacent prefabricated wall modules.
In another preferred embodiment, the limiting member is a clamping strip, two opposite side surfaces of the prefabricated wall modules are provided with grooves, and two sides of the clamping strip are clamped in the grooves adjacent to the two prefabricated wall modules at the same time, so as to connect the two adjacent prefabricated wall modules together.
In another preferred embodiment, grooves and ribs are arranged on two adjacent side surfaces or two opposite side surfaces of the prefabricated column module, the ribs on the side surfaces of the prefabricated wall module, the prefabricated top beam module and the prefabricated bottom beam module are inserted into the grooves of the prefabricated column module, or the grooves on the side surfaces of the prefabricated wall module, the prefabricated top beam module and the prefabricated bottom beam module are embedded into the ribs of the prefabricated column module, so that the prefabricated wall module, the prefabricated top beam module and the prefabricated bottom beam module are connected together.
In another preferred embodiment, the prefabricated column module comprises a base, a square column and a column cap, wherein the bottom sides of the square column and the column cap are respectively provided with a modeling step plug, the modeling step plug at the bottom side of the square column is inserted into the cavity at the top side of the base, and the modeling step plug at the bottom side of the column cap is inserted into the cavity at the top side of the square column.
On the basis of the above embodiment, in another improved embodiment, a hole is reserved on the prefabricated column cap, and the prefabricated column cap can be used for threading a lamp wire and a cable and spraying a dust-fall water pipeline; a water dripping line is reserved on the lower edge of the column cap during prefabrication, so that the prefabricated square column is protected from being drenched; the base is provided with a reserved screw hole and is fixedly connected with the foundation through a bolt.
In another preferred embodiment, the prefabricated top beam module is provided with pre-embedded bolt holes, and the top beam module is fixed on the top surface of the prefabricated wall body module at the topmost side through a bolt assembly and a pressing bar; and a water dripping line is reserved when the edge of the lower side surface of the prefabricated top beam module is prefabricated, so that the prefabricated wall body is protected from being drenched.
In another preferred embodiment, the top surface of the prefabricated bottom beam module is provided with a convex strip, and the two side surfaces are respectively provided with a groove and a convex strip; the convex strips on the top sides of the prefabricated bottom beam modules are inserted into the grooves on the bottom sides of the prefabricated wall body modules, and two adjacent prefabricated bottom beam modules are connected together through the grooves and the convex strips on the surfaces of two sides.
In another preferred embodiment, the prefabricated wall modules have a size of 700mm x 700mm, 350mm x 700mm, the prefabricated top beam modules have a size of 100mm x 700mm, and the prefabricated bottom beam modules have a size of 300mm x 700 mm.
In another preferred embodiment, the vertical splices between the prefabricated wall modules of different horizontal layers are staggered.
In another preferred embodiment, the clip strip is made of high-strength engineering plastic.
In another preferred embodiment, the surface of the wall body is prefabricated with decorative modeling of clear water, dry sticky stone, texture, light shadow imaging or image etching in a factory.
The base is provided with a reserved screw hole and is fixedly connected with the foundation through a bolt.
The technical scheme of the utility model the beneficial technological effect who gains is:
the utility model discloses a prefabricated enclosure adopts the modularized design, according to the enclosure size that designs, with a plurality of prefabricated post modules, prefabricated back timber module, prefabricated floorbar module, prefabricated wall body module according to the order equipment together can. It is whole firm, have stability strong, stable in structure's characteristics. The prefabricated enclosure wall has the advantages of no reinforcement, high compactness, high strength, good toughness, no water absorption, difficult deformation and no color change. Structural design is ingenious, and damage appears in one of them prefabricated wall body module, can not influence the holistic structural security of prefabricated assembled enclosure yet. The high-strength concrete material and the high-strength concrete composite light material are adopted to prepare each module, the high-strength concrete composite light material is not easy to crack, the compression resistance is strong, the light high-strength concrete composite light material has the characteristics of light weight and high strength, and the mortise and tenon structure is utilized to connect the modules together, so that the wind pressure can be effectively resisted, and the safety is high.
Because the modules are connected in a non-fixed manner, slight swinging can occur within a certain range, and the wind resistance of the whole prefabricated enclosure wall is improved. And can dismantle the connection between each part, it is all very convenient to install and dismantle, can reuse, has reduced labour cost, has reduced environmental pollution, and the efficiency of construction is high, and the construction degree of difficulty is little, and construction cycle is short, and the subassembly is few, and installation use cost is low, and green can dismantle back manifold cycles and utilize, reduces the wasting of resources, avoids the pollution and the destruction to the environment when brick enclosure demolishs.
The utility model discloses an assembled enclosure wall body surface can accomplish expression forms such as the clear water face of various colours, surface feel texture molding, shadow formation of image, image display, from the area decoration, accomplishes in the mill, and the on-the-spot assembly can. The prefabricated enclosure wall can be assembled in a modular mode and constructed in a full-terrain mode.
Drawings
The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation.
FIG. 1 is an assembly view of the prefabricated enclosure of the present invention;
FIG. 2 is a schematic perspective view of the precast column of the present invention;
fig. 3 is a schematic perspective view of the prefabricated top beam module of the present invention;
FIG. 4 is a schematic perspective view of the connection between the precast bottom beam module and the base according to the present invention;
FIG. 5 is a schematic view of the assembly of the square column and the column cap of the present invention;
fig. 6 is a schematic perspective view of the prefabricated wall module of the present invention;
fig. 7 is the utility model discloses prefabricated back timber module, prefabricated wall body module and prefabricated roof timber module's assembled schematic diagram.
Reference numerals:
1-prefabricated column module 2-prefabricated top beam module 3-prefabricated wall body module
4-prefabricated bottom beam module 5-groove 6-convex strip
7-base 8-square column 9-column cap
10-embedded bolt hole 11-shaped step plug
Detailed Description
The present invention will be described in detail with reference to the drawings, which are provided for illustrative and explanatory purposes only and should not be construed as limiting the scope of the present invention in any way. Furthermore, features from embodiments in this document and from different embodiments may be combined accordingly by a person skilled in the art from the description in this document.
Referring to fig. 1, the prefabricated enclosure in the embodiment includes prefabricated column modules 1, prefabricated top beam modules 2, prefabricated bottom beam modules 4 and prefabricated wall body modules 3, a plurality of prefabricated column modules 1 are detachably assembled to form prefabricated columns, a plurality of prefabricated top beam modules 2 are detachably assembled to form top beams, a plurality of prefabricated bottom beam modules 4 are detachably assembled to form bottom beams, a plurality of prefabricated wall body modules 3 are detachably assembled to form a wall body, the top beams are arranged on the top side surface of the wall body, the bottom beams are arranged on the bottom side surface of the wall body, the prefabricated columns are arranged on two sides of the wall body, and adjacent prefabricated wall body modules 3 are connected together through limiting parts. Wherein, the vertical piece joints between the prefabricated wall body modules of different horizontal layers are staggered. Also, the vertical joints between the prefabricated wall modules on the upper layer and the vertical joints between the prefabricated wall modules on the lower layer are staggered mutually and are not positioned on the same vertical straight line, and the structural design can avoid the situation that the prefabricated wall modules on the upper layer and the lower layer move or slide after one prefabricated wall module is damaged, so that the safety of the wall body is ensured.
Because prefabricated wall body module 3 is together through the non-fixed connection of locating part, also there is the swing space of minizone between the prefabricated wall body module 3 adjacent, can effectively reduce the harm of wind pressure. In another preferred embodiment, in order to improve the overall ventilation performance of the prefabricated enclosure, a plurality of ventilation holes are designed on the prefabricated wall module 3, so that the ventilation capability of the prefabricated enclosure in a strong wind environment is improved, and the harm of wind pressure is reduced.
Referring to fig. 2 and 6, in the present embodiment, the precast column module 1 is a hollow module made of high-strength concrete UHPC, and the precast top beam module 2, the precast wall module 3, and the precast bottom beam module 4 are made of high-strength concrete composite lightweight material. Because the precast column module 1 adopts high-strength concrete and is formed by extrusion or pouredThe building block is made by building, the thickness of the building block can be 10mm, the material is saved, and the stress performance is strong; and has good crack resistance and pressure resistance. In order to improve the pressure resistance of the prefabricated column module 1, in another preferred embodiment, foamed concrete or other filling materials and the like can be poured into the hollow interior of the prefabricated column module 1, so that the bending resistance of the prefabricated column module 1 can be further improved, and the overall safety of the prefabricated enclosure wall can be improved. The prefabricated top beam module 2, the prefabricated wall body module 3 and the prefabricated bottom beam module 4 are made of high-strength concrete composite light materials, and the integral volume weight of the composite materials can reach 800kg/m3The light-weight high-strength concrete block is light in weight and high in strength, field construction is facilitated, an operator can move the module for assembly, and construction efficiency is improved. The surface of the prefabricated wall body module 3 of the prefabricated wall can be decorated with various patterns and shapes, various color combinations are designed and allocated, the attractiveness of the prefabricated wall is improved, the prefabricated wall body modules 3 with different colors and shapes can be matched and combined as required in the construction site, and the prefabricated wall body module has the advantages of large selectivity, multiple changes and strong practicability.
Referring to fig. 6, the limiting members in this embodiment are a groove 5 and a rib 6, two adjacent side surfaces of the prefabricated wall modules 3 are provided with the groove 5, the other two adjacent side surfaces are provided with the rib 6, the groove 5 and the rib 6 on the adjacent side surfaces of the two prefabricated wall modules 3 are opposite, and the connection between the two adjacent prefabricated wall modules 3 is realized by embedding the rib 6 in the groove 5. Therefore, the connection between the adjacent prefabricated wall body modules 3 is limited, and slight swinging is allowed to occur within a certain range at the same time, so that flexible connection is formed, and the wind resistance of the whole prefabricated enclosure is improved.
In another improved embodiment, the limiting members are clamping strips, grooves 5 are formed in four side surfaces of the prefabricated wall modules 3, and two sides of each clamping strip are clamped in the grooves 5 adjacent to two prefabricated wall modules 3 at the same time so as to connect two adjacent prefabricated wall modules 3 together. The clamping strips are made of high-strength engineering plastics, the ends clamped in the grooves 5 of the two adjacent prefabricated wall modules 3 have certain elasticity, and the clamping parts of the clamping strips are slightly larger than the width of the grooves 5 in size, so that the clamping strips cannot be easily popped out when clamped in the grooves 5, and the connection reliability is ensured. Because flexible connection is formed between two adjacent prefabricated wall body modules 3 through the clamping strip, the clamping strip limits the prefabricated wall body modules 3 and allows the wall body modules to swing within a small range, and the damage of wind pressure is reduced.
Referring to fig. 1, 2 and 7, in this embodiment, grooves 5 and ribs 6 are formed on two adjacent side surfaces or two opposite side surfaces of the prefabricated column module 1, and the ribs 6 of the prefabricated wall module 3 are inserted into the grooves 5 of the prefabricated column module 1 or the ribs 6 of the prefabricated column module 1 are inserted into the grooves 5 of the prefabricated wall module 3, so as to connect the prefabricated wall module 3 and the prefabricated column module 1 together.
Referring to fig. 2 and 5, the prefabricated column module 1 in this embodiment includes a base 7, a square column 8 and a column cap 9, wherein the bottom sides of the square column 8 and the column cap 9 are respectively provided with a shaped step plug 11, the shaped step plug 11 at the bottom side of the square column 8 is inserted into the cavity at the top side of the base 7, and the shaped step plug 11 at the bottom side of the column cap 9 is inserted into the cavity at the top side of the square column 8. The square column 8 and the column cap 9 are refined through the modeling step plug 11, so that the square column is very convenient and efficient to assemble on the design site, and is very convenient to disassemble.
Referring to fig. 3, in the present embodiment, the prefabricated top beam module 2 is provided with pre-buried bolt holes 10, and after the prefabricated top beam module 2 is installed on the top side of the prefabricated wall body module 3, the top beam module is fixed on the top surface of the prefabricated wall body module 3 on the topmost side through bolt assemblies and battens. In another modified embodiment, the top side of the column cap 9 is also provided with pre-embedded bolt holes 10, after the prefabricated assembly type enclosure wall is installed, pressing strips are placed on the prefabricated columns and the prefabricated top beam, and the prefabricated columns and the prefabricated top beam are fixed through bolt assemblies.
Referring to fig. 4, the top surface of the prefabricated bottom beam module 4 is provided with a convex strip 6, and the two side surfaces are respectively provided with a groove 5 and a convex strip 6; the convex strips 6 on the top sides of the prefabricated bottom beam modules 4 are inserted into the grooves 5 on the bottom sides of the prefabricated wall body modules 3, and two adjacent prefabricated bottom beam modules 4 are connected together through the grooves 5 and the convex strips 6 on the surfaces of two sides.
In this 2.5 meter high-fabricated enclosure embodiment, the prefabricated wall modules 3 are 700mm x 700mm and 350mm x 700mm in size, the prefabricated top beam modules 2 are 100mm x 700mm in size, and the prefabricated bottom beam modules 4 are 300mm x 700mm in size. And each module can be designed into other specification sizes according to actual requirements. By designing each part module into a uniform size, the production efficiency and the construction efficiency are improved, and the waste of materials is avoided.
The construction process of the prefabricated enclosure wall in the embodiment is briefly described with reference to the accompanying drawings 1 to 7:
firstly, 2 prefabricated columns are installed according to preset positions, and a base 7 and a square column 8 of the prefabricated columns are sequentially placed;
then, connecting the prefabricated bottom beam module 4 with a base 7 of the prefabricated column, placing the prefabricated wall body module 3 on the top side of the prefabricated bottom beam module 4, and sequentially assembling until all the prefabricated wall body modules are assembled;
and finally, mounting the prefabricated top beam module 2 on the top side of the prefabricated wall body module 3 on the uppermost layer, inserting the column cap 9 into the cavity of the square column 8 on the uppermost layer, placing a pressing strip on the prefabricated top beam, and connecting and fixing 2 adjacent prefabricated top beams through bolt assemblies.
In another improved embodiment, the prefabricated bottom beam module further comprises a steel pipe, wherein the steel pipe is placed on the top side of the prefabricated bottom beam module, and the steel pipe and the prefabricated bottom beam module can be connected together through shape fitting or bolt connection. The prefabricated wall body module is placed on the prefabricated bottom beam, so that the prefabricated wall body module can adapt to all-terrain construction, and the structural safety performance of the prefabricated wall body when local foundation settlement occurs is guaranteed.
As an improvement of this embodiment, in another embodiment, the precast bottom beam module 4 is a whole high-strength square pipe or steel, and both ends of the high-strength square pipe or steel are placed and fixed on the bases 7 of the two precast columns. Prefabricated wall body module 3 places the top side surface at high-strength square pipe or shaped steel. The prefabricated enclosure wall is arranged in such a way, the integrity of the prefabricated enclosure wall is improved, and the defects that the foundation at the construction position of the prefabricated enclosure wall is uneven or local settlement occurs, and the construction is complex and the engineering installation quality is hidden danger are avoided. On the basis of the embodiment, in another embodiment, the base 7 structure of the prefabricated column is a flat plate with the bottom symmetrically provided with the spiral positioning piece, two ends of the high-strength square tube or the section steel can be fixed on the flat plate through bolt assemblies, and the square column 8 module of the prefabricated column is placed on the top side surface of the flat plate. Because the bottom of the flat plate is provided with the spiral positioning piece, such as a screw with a shape similar to that of a spring, the screw can be directly screwed into soil to be constructed during construction, and the construction convenience is further improved.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (10)
1. The utility model provides a prefabricated enclosure, its characterized in that, includes prefabricated post module, prefabricated back timber module, prefabricated floorbar module, prefabricated wall body module, and is a plurality of prefabricated post module detachable assembly forms prefabricated post, and is a plurality of prefabricated back timber module detachable assembly forms the back timber, and is a plurality of prefabricated floorbar module detachable assembly forms the floorbar, and is a plurality of prefabricated wall body module detachable assembly forms the wall body, the back timber set up in the top surface of wall body, the floorbar set up in the bottom surface of wall body, prefabricated post set up in the both sides of wall body, it is adjacent link together through the locating part between the prefabricated wall body module.
2. The prefabricated assembly type enclosure wall of claim 1, wherein the prefabricated column modules are hollow modules made of high-strength concrete, and the prefabricated top beam modules, the prefabricated bottom beam modules and the prefabricated wall body modules are all sandwich modules made of high-strength concrete composite light materials.
3. The prefabricated wall of claim 2, wherein the retaining members are grooves and ribs, two adjacent side surfaces of the prefabricated wall modules are provided with grooves, the other two adjacent side surfaces are provided with ribs, the grooves and ribs on the adjacent side surfaces of the two prefabricated wall modules are opposite, and the connection between the two adjacent prefabricated wall modules is realized by embedding the ribs in the grooves.
4. The prefabricated wall panel as claimed in claim 2, wherein the retaining member is a locking strip, and two opposite side surfaces of the prefabricated wall modules are provided with grooves, and two sides of the locking strip are simultaneously locked in the grooves adjacent to the two prefabricated wall modules, so as to connect the two adjacent prefabricated wall modules together.
5. The prefabricated wall panel of claim 3 or 4, wherein grooves and ribs are formed on two adjacent side surfaces or two opposite side surfaces of the prefabricated column modules, and the ribs on the side surfaces of the prefabricated wall modules, the prefabricated top beam modules and the prefabricated bottom beam modules are inserted into the grooves of the prefabricated column modules or the grooves on the side surfaces of the prefabricated wall modules, the prefabricated top beam modules and the prefabricated bottom beam modules are embedded into the ribs of the prefabricated column modules, so that the prefabricated wall modules, the prefabricated top beam modules and the prefabricated bottom beam modules are connected together.
6. The prefabricated assembly type enclosure wall of claim 5, wherein the prefabricated column module comprises a base, a square column and a column cap, wherein the bottom sides of the square column and the column cap are respectively provided with a molded step plug, the molded step plug at the bottom side of the square column is inserted into the cavity at the top side of the base, and the molded step plug at the bottom side of the column cap is inserted into the cavity at the top side of the square column.
7. The prefabricated assembly type enclosure wall as claimed in claim 6, wherein the prefabricated top beam module is provided with pre-embedded bolt holes, and the top beam module is fixed on the prefabricated wall body module at the top side through bolt assemblies and pressing strips; the base is provided with a reserved screw hole and is fixedly connected with the foundation through a bolt.
8. The prefabricated assembly type enclosure wall as claimed in claim 5, wherein the top surface of the prefabricated bottom beam module is provided with a convex strip, and the two side surfaces are respectively provided with a groove and a convex strip; the convex strips on the top sides of the prefabricated bottom beam modules are inserted into the grooves on the bottom sides of the prefabricated wall body modules, and two adjacent prefabricated bottom beam modules are connected together through the grooves and the convex strips on the surfaces of two sides.
9. The prefabricated wall panel of claim 8, wherein vertical splices between prefabricated wall modules of different horizontal layers are staggered with respect to each other.
10. The prefabricated enclosure of claim 6, wherein the surface of the wall body is prefabricated with decorative patterns of clear water, dry clay, texture, shadow imaging or image etching in a factory.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020532093.3U CN211949920U (en) | 2020-04-12 | 2020-04-12 | Prefabricated enclosure |
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CN202020532093.3U CN211949920U (en) | 2020-04-12 | 2020-04-12 | Prefabricated enclosure |
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CN202020532093.3U Expired - Fee Related CN211949920U (en) | 2020-04-12 | 2020-04-12 | Prefabricated enclosure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113653177A (en) * | 2021-08-26 | 2021-11-16 | 刘钦 | Building preassembling structure and mounting method thereof |
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2020
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113653177A (en) * | 2021-08-26 | 2021-11-16 | 刘钦 | Building preassembling structure and mounting method thereof |
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