CN109723149B - Sliding type connecting device - Google Patents
Sliding type connecting device Download PDFInfo
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- CN109723149B CN109723149B CN201910110294.6A CN201910110294A CN109723149B CN 109723149 B CN109723149 B CN 109723149B CN 201910110294 A CN201910110294 A CN 201910110294A CN 109723149 B CN109723149 B CN 109723149B
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- sliding rail
- wall body
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- 239000011810 insulating material Substances 0.000 claims description 7
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- 238000005452 bending Methods 0.000 claims description 4
- 230000000903 blocking effect Effects 0.000 claims description 4
- 238000005098 hot rolling Methods 0.000 claims description 4
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- 238000010276 construction Methods 0.000 description 12
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- 238000005187 foaming Methods 0.000 description 4
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- 239000004917 carbon fiber Substances 0.000 description 1
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Abstract
The invention provides a sliding type connecting device, which comprises a sliding rail connecting piece arranged on a wall body and a floor connecting piece arranged on a floor; in the sliding rail connecting piece, a first connecting plate is fixedly connected with an opening sliding rail piece, the first connecting plate is fixedly connected with a wall body, the opening sliding rail piece is a U-shaped rail, one end of the opening sliding rail piece is closed, and the other end of the opening sliding rail piece is open; in the floor connecting piece, a floor connecting plate is fixedly connected with a connecting lug plate; the floor connecting plate is used for connecting the floor, and the end of connecting the otic placode is equipped with the sliding pin, and sliding pin slidable mounting is in opening slide rail spare. Through adopting above structure, can make the floor slide a section distance along the wall body when folding, overcome among the prior art floor among the folding house and cause the problem of interference to whole beta structure. The house is especially suitable for hotel houses, park management houses, civil special travel houses, special village buildings, disaster relief houses and exhibition and sales venues in all scenic spots.
Description
Technical Field
The present invention relates to the field of modular buildings and in particular to a connector for, but not limited to, wallboard or roofing to floor connections in a collapsible building.
Background
The assembly type building technology can meet the requirements of safety, functionality and durability of the building, namely the requirements of wind pressure resistance, earthquake resistance, impact resistance, fireproof performance, watertight performance, airtight performance, sound insulation performance, thermal performance, durability and the like; the unit modules (or single-board blocks) forming the assembled building are all prefabricated by factory integration, and the factory folding modules are simply hoisted and unfolded on site; the construction site can be completely dry, and the construction site has no influence on the site environment; the field operation time is greatly reduced compared with the traditional house construction time, and the house can be carried and wrapped only in one day; the requirements for site constructors and management staff are low, the requirements are all standardized operation, and the construction cost can be greatly reduced.
Traditional fabricated structures have low levels of integration or are limited to the integration of only a certain portion (structure or wall). The technology integrates the building (structure) structure integrally in a factory through the key part connecting pieces, and comprises structural member walls, floors, roofs and the like, which is a fundamental innovation for the traditional integrated building, and greatly improves the integration degree of the factory and the field construction efficiency.
Chinese patent document CN 603594149A describes a "modular living unit" that improves the installation efficiency by folding. In the connection structure of the wall panel and the floor slab, as shown in fig. 6, the size of the wall panel and the floor slab is greatly limited due to the need of adapting to the folding structure, specifically, the width of the floor slab is greatly limited, so that the two floor slabs can be designed to have a small included angle. This affects the space above the floor, and it is difficult to keep the floor dimensions from interfering with other panels during the folding process.
Disclosure of Invention
The invention aims to solve the technical problem of providing the sliding type connecting device, which can solve the problem that the floor slab in the folding house interferes with the whole folding structure in the prior art, so that the folding house can have larger design space, and in the preferred scheme, the connecting piece can be ensured to be arranged on the same surface with the rear outer skin and the wall surface or the roof outer skin, and the factory assembly rate can be greatly improved, the field construction difficulty can be greatly reduced, and the overall construction efficiency of the house can be improved.
In order to solve the technical problems, the invention adopts the following technical scheme: a sliding type connecting device comprises a sliding rail connecting piece arranged on a wall body and a floor slab connecting piece arranged on a floor slab;
in the sliding rail connecting piece, a first connecting plate is fixedly connected with an opening sliding rail piece, the first connecting plate is fixedly connected with a wall body, the opening sliding rail piece is a U-shaped rail, one end of the opening sliding rail piece is closed, and the other end of the opening sliding rail piece is open;
in the floor connecting piece, a floor connecting plate is fixedly connected with a connecting lug plate; the floor connecting plate is used for connecting the floor, and the end of connecting the otic placode is equipped with the sliding pin, and sliding pin slidable mounting is in opening slide rail spare.
In a preferred scheme, in the floor connecting piece, the cross section of the floor connecting plate is in a shape of C or L, and a plurality of connecting holes for penetrating screws are formed in the floor connecting plate.
In the preferred scheme, connect the otic placode and incline to be connected between the floor connecting plate, when floor connecting plate and wall body contact, connect the otic placode to stretch into in the wall body.
In the preferred scheme, the wall body be equipped with the groove, the slide rail connecting piece is installed in the groove.
In the preferred scheme, an end limiting piece is fixedly arranged at a position close to the open end of the opening sliding rail piece, and in the end limiting piece, a second connecting plate is fixedly connected with a limiting plate, the second connecting plate is fixedly connected with a wall body, and the limiting plate is used for blocking the sliding pin.
In the preferred scheme, a position close to the closed end of the opening sliding rail piece is fixedly provided with a stop piece, a third connecting plate in the stop piece is fixedly connected with a stop plate, the third connecting plate is fixedly connected with a wall body, and the stop plate is used for limiting the sliding position of the sliding pin.
In the preferred scheme, the wall body and the floor slab are of a multi-layer structure, wherein one layer is a steel keel layer filled with heat insulation and sound insulation materials.
In the preferred scheme, the wall body and the floor slab are of a multi-layer structure and sequentially comprise an outer decoration layer, a dampproof breathable layer, a first structural base layer, a profile steel keel layer filled with heat insulation and sound insulation materials, a second structural base layer and an inner decoration layer.
In the preferred scheme, the steel keel layer filled with the heat insulation and sound insulation materials has the structure that: the thin-wall plate is formed into a rod through cold bending or hot rolling, a plurality of rods are fixedly connected to form a truss, and a plurality of trusses 1042) and a plurality of rods form a frame structure;
the connecting positions between the rod pieces and the trusses are riveted, screwed, bolted or welded;
the heat insulating and sound insulating material is filled in the gaps.
In the preferred scheme, trusses are positioned at two sides of the composite board, and rods which are connected in a crisscross manner are arranged between the trusses; or the trusses are positioned on two sides of the composite board, and truss diagonal braces and rod pieces are arranged between the trusses;
the cross section of the rod piece is in a C shape without a curled edge, a C shape with an inward curled edge, an L shape, an H shape, an I shape, a U shape or a mouth shape.
According to the sliding type connecting device provided by the invention, by adopting the structure, the floor slab can slide along the wall body for a certain distance when being folded, so that the problem that the floor slab in the folding house interferes with the whole folding structure in the prior art is solved, the folding house can have a larger design space, namely, two roofs serving as the wall bodies can be designed into a larger included angle, and therefore, the upper layer of the folding house as shown in fig. 6 has a larger space. In the preferred scheme, the end limiting piece that sets up can avoid the floor to deviate from in the opening slide rail spare of slide rail connecting piece, causes the floor to damage. The position of the floor can be conveniently limited after the installation is completed by the arranged position stop piece. The adopted composite board can be completed in a factory assembly line, and high-precision factory manufacturing is realized. Then hoisting and assembling on site, greatly improving the production efficiency of factories and the construction efficiency on site, shortening the construction period, reducing the labor, greatly reducing the transportation and hoisting cost of the lightweight structure, and further reducing the comprehensive cost. Various pipeline and pipeline systems can be arranged in the composite board serving as a wall body, so that the effective use area of a house is increased; the high-efficiency heat-insulating and sound-insulating material is adopted, and the cold-formed steel keel layer is adopted as a measure for blocking the sound bridge, so that the sound insulation, heat insulation and energy conservation effects of the wall are remarkably improved. Through the scheme that adopts multilayer composite board, owing to the cold-formed steel dragon bone layer structure of setting, can avoid the deformation of panel to the influence of collapsible modularization building (structure) on-the-spot assembly, the decorative layer of setting can customize various patterns and materials as required, satisfies the demand of customer customization according to function and hobby, and has realized the mill integration of interior decoration and external decoration. The cold-formed steel keel layer also greatly reduces the weight on the basis of ensuring the structural strength, and is convenient for transportation and on-site construction. The water supply and drainage pipeline, the low-voltage and microcircuit are preset in the composite board in a factory, so that the efficiency of on-site assembly construction is further improved.
The invention is especially suitable for hotel rooms, park management rooms, resident special travel rooms, special village buildings, disaster relief rooms, exhibition and sales venues, gathering and activity rooms, health care projects and the like in all scenic spots, has wide application and wide market prospect.
Drawings
The invention is further illustrated by the following examples in conjunction with the accompanying drawings:
fig. 1 is a schematic structural view of a wall and a floor slab connected by a sliding connection device according to the present invention.
Fig. 2 is a schematic structural view of a sliding rail connector according to the present invention.
Fig. 3 is a schematic structural view of the end stop in the present invention.
FIG. 4 is a schematic view of the stop member of the present invention.
Fig. 5 is a schematic structural view of a floor slab connector according to the present invention.
Fig. 6 is a schematic view of the overall structure of a folding house employing the present invention.
Fig. 7 is a schematic structural view of a wall according to the present invention.
Fig. 8 is a schematic structural view of a floor slab according to the present invention.
Fig. 9 is a schematic structural view of a cold-formed steel keel layer according to the invention.
FIG. 10 is a schematic view of another alternative cold-formed steel keel layer according to the invention.
FIG. 11 is a schematic view of another alternative cold-formed steel keel layer according to the invention.
In the figure: wall 1, slide rail connector 11, first connector 111, open slide rail 112, end stopper 12, second connector 121, stopper 122, stopper groove 123, stopper 13, third connector 131, stopper 132, stopper groove 133, side stopper 134, floor connector 14, connecting lug 141, floor connector 142, sliding pin 143, decorative layer 101, moisture-proof breathable layer 102, first structural base layer 103, cold-formed steel keel layer 104, rod 1041, truss 1042, truss diagonal brace 1043, support column 1044, second structural base layer 105, decorative plate 106, floor 2.
Detailed Description
As shown in fig. 1 to 5, a sliding type connecting device comprises a sliding rail connecting piece 11 installed on a wall 1 and a floor connecting piece 14 installed on a floor 2;
in the sliding rail connecting piece 11, a first connecting plate 111 is fixedly connected with an opening sliding rail piece 112, the first connecting plate 111 is fixedly connected with the wall body 1, the opening sliding rail piece 112 is a U-shaped rail, one end of the opening sliding rail piece 112 is closed, and the other end of the opening sliding rail piece 112 is open;
in the floor connecting piece 14, a floor connecting plate 142 is fixedly connected with a connecting lug plate 141; the floor connection plate 142 is used for connecting the floor 2, and the end of the connection lug plate 141 is provided with a sliding pin 143, preferably, the connection lug plate 141 in this example is in the structure of a double-lug plate, and the sliding pin 143 is located between the double-lug plate. The slide pin 143 is slidably mounted within the split rail member 112. With this structure, under the folding structure, the floor slab 2 can slide along the wall body 1 for a certain distance, so that the floor slab 2 can be designed to be wider, so that the roof boards as the wall body have a larger included angle, as shown in fig. 6, so that the second floor of the folding house can have a larger area.
In the preferred embodiment shown in fig. 5, in the floor connecting member 14, the cross section of the floor connecting plate 142 is in a shape of "C" or "L", and a plurality of connecting holes for passing screws are formed in the floor connecting plate 142. With this structure, it is used for reliable connection with the floor slab 2 and ensures reliable stress.
In the preferred embodiment, as shown in fig. 5, the connection lugs 141 are connected with the floor connection plates 142 in an inclined manner, and when the floor connection plates 142 are in contact with the wall body 1, the connection lugs 141 extend into the wall body 1. With this structure, the whole sliding connection device can be hidden in the wall body 1. The surface decoration of the wall body 1 is facilitated.
In a preferred embodiment, the wall 1 is provided with a slot, the slide rail connector 11 is mounted in the slot, the connecting lug 141 extends into the slot, and the sliding pin 143 slides and rotates in the split slide rail 112. So that the entire sliding connection can be hidden inside the wall 1. The surface decoration of the wall body 1 is facilitated.
In the preferred scheme, as shown in fig. 1 and 3, an end limiting piece 12 is fixedly arranged at a position close to the open end of the opening sliding rail piece 112, and in the end limiting piece 12, a second connecting plate 121 is fixedly connected with a limiting plate 122, the second connecting plate 121 is fixedly connected with the wall 1, and the limiting plate 122 is used for blocking the sliding pin 143. With this construction, the floor slab 2 is prevented from coming out of the opening rail member 112 during the field installation. In this embodiment, the open end of the open sliding rail 112 is located at the bottom, and the position of the limiting plate 122 near the open end is further provided with a limiting slot 123 for fixing the sliding pin 143, and making the sliding pin 143 rotate in the limiting slot 123.
In a preferred embodiment, as shown in fig. 1 and 4, a stop member 13 is further fixed at a position close to the closed end of the opening slide rail member 112, a third connecting plate 131 in the stop member 13 is fixedly connected with a stop plate 132, the third connecting plate 131 is fixedly connected with the wall 1, and the stop plate 132 is used for limiting the sliding position of the sliding pin 143. The stop plate 132 is reinstalled throughout the deployment of the folding house.
In the preferred embodiments 7-11, the wall 1 and the floor slab 2 have a multi-layer structure, wherein one layer is a steel keel layer 104 filled with heat-insulating and sound-insulating materials. The steel keel layer 104 filled with the heat and sound insulation materials is a stressed structural member formed by cold bending or hot rolling and fixedly connecting thin-wall plates.
In the preferred embodiments shown in fig. 7 and 8, the wall 1 and the floor slab 2 have a multi-layer structure, and are sequentially an outer decoration layer 101, a moisture-proof breathable layer 102, a first structural base layer 103, a steel keel layer 104 filled with heat-insulating and sound-insulating materials, a second structural base layer 105 and an inner decoration layer. The interior decoration layer in this example includes an interior wall veneer or a ceiling decoration layer. The moisture-proof and breathable layer 102 in this example is made of a foaming material such as polyurethane foaming material, foaming gypsum board, foaming cement board, etc. The foam layer is adhered to the inorganic fiber felt or the moisture-proof polypropylene film for building.
The outer decoration layer comprises a roof heat-insulating and decorating integrated plate, a ceiling heat-insulating and decorating integrated plate, an outer wall heat-insulating and decorating integrated plate, a ground heat-insulating and decorating integrated plate, a metal decorative external wall plate, a PVC wall plate, an aluminum-plastic plate, an artificial quartz plate, a mosaic-like plate, wallpaper, a flexible ceramic-like plate, a carbon fiber plate, a cement fiber hanging plate and a glass curtain wall;
the first structural base layer and the second structural base layer comprise one or a combination of more of wood, plastic, gypsum board, foamed cement board, wood-plastic composite board, metal board or metal composite board;
in a preferred embodiment, as shown in fig. 9 to 11, the steel keel layer 104 filled with the heat insulation and sound insulation material has the following structure: the thin-wall plate is formed into a rod 1041 by cold bending or hot rolling, a plurality of rods 1041 are fixedly connected to form a truss 1042, and the trusses 1042 and the rods 1041 form a frame structure;
the rod pieces 1041, the rod pieces 1041 and the trusses 1042, and the connection positions between the trusses 1042 are riveted, screwed, bolted or welded;
the heat insulating and sound insulating material is filled in the gaps.
In a preferred embodiment, as shown in fig. 10, trusses 1042 are located at two sides of the composite board, and rods 1041 connected in a crisscross manner are arranged between the trusses 1042; or as shown in fig. 11, trusses 1042 are positioned at two sides of the composite board, and truss diagonal braces 1043 and rod members 1041 are arranged between the trusses 1042;
the thickness of the whole wall body 1 and the thickness of the floor slab 2 are 50-350 mm.
The cross section of the rod 1041 is in a shape of a C without curled edge, a shape of a C with an inward curled edge, a shape of an L, a shape of an H, a shape of an I, a shape of a U or a shape of a mouth.
In use, in factory assembly, the slide pins 143 of the floor slab connector 14 of the floor slab 2 slide over the bottom ends of the open rail members 112, and then the floor slab 2 is folded upwardly. At the time of on-site deployment, the slide pins 143 slide up to the top ends of the open rail members 112, and then the fixedly mounted stopper 13 restricts the sliding positions of the slide pins 143, thereby achieving reliable positioning of the floor slab 2.
The foregoing embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without collision. The protection scope of the present invention is defined by the claims, and the protection scope includes equivalent alternatives to the technical features of the claims. I.e., equivalent replacement modifications within the scope of this invention are also within the scope of the invention. Because of limited space, it is difficult to record all the combined structures of the technical features in this example, so that the technical features can be combined with each other on the premise of not conflicting with each other, so as to obtain more combined structures.
Claims (8)
1. A sliding connection device, characterized by: comprises a sliding rail connecting piece (11) arranged on a wall body (1) and a floor connecting piece (14) arranged on a floor (2);
in the sliding rail connecting piece (11), a first connecting plate (111) is fixedly connected with an opening sliding rail piece (112), the first connecting plate (111) is fixedly connected with the wall body (1), the opening sliding rail piece (112) is a U-shaped rail, one end of the opening sliding rail piece (112) is closed, and the other end of the opening sliding rail piece is open;
in the floor connecting piece (14), a floor connecting plate (142) is fixedly connected with the connecting lug plate (141); the floor connecting plate (142) is used for connecting the floor (2), the end head of the connecting lug plate (141) is provided with a sliding pin (143), and the sliding pin (143) is slidably arranged in the opening sliding rail piece (112);
in the floor connecting piece (14), the cross section of the floor connecting plate (142) is in a C shape or an L shape, and a plurality of connecting holes for passing through screws are formed in the floor connecting plate (142);
the position close to the open end of the opening sliding rail piece (112) is fixedly provided with an end limiting piece (12), a second connecting plate (121) is fixedly connected with a limiting plate (122), the second connecting plate (121) is fixedly connected with the wall body (1), and the limiting plate (122) is used for blocking the sliding pin (143).
2. A sliding connection according to claim 1, characterized in that: the connecting lug plates (141) are obliquely connected with the floor connecting plates (142), and when the floor connecting plates (142) are in contact with the wall body (1), the connecting lug plates (141) extend into the wall body (1).
3. A sliding connection according to claim 2, characterized in that: the wall body (1) is provided with a groove, and the sliding rail connecting piece (11) is arranged in the groove.
4. A sliding connection according to claim 1, characterized in that: and a stop piece (13) is fixedly arranged at a position close to the closed end of the opening sliding rail piece (112), a third connecting plate (131) in the stop piece (13) is fixedly connected with a stop plate (132), the third connecting plate (131) is fixedly connected with the wall body (1), and the stop plate (132) is used for limiting the sliding position of the sliding pin (143).
5. A sliding connection according to claim 1, characterized in that: the wall body (1) and the floor slab (2) are of a multi-layer structure, wherein one layer is a steel keel layer (104) filled with heat insulation and sound insulation materials.
6. A sliding connection according to claim 1, characterized in that: the wall body (1) and the floor slab (2) are of a multi-layer structure, and are sequentially provided with an outer decoration layer (101), a dampproof breathable layer (102), a first structure base layer (103), a profile steel keel layer (104) filled with heat insulation and sound insulation materials, a second structure base layer (105) and an inner decoration layer.
7. A sliding connection apparatus according to claim 6, wherein: the steel keel layer (104) filled with the heat-insulating and sound-insulating material has the structure that: the thin-wall plate is formed into a rod (1041) by cold bending or hot rolling, a plurality of rods (1041) are fixedly connected to form a truss (1042), and the trusses (1042) and the rods (1041) form a frame structure;
the rod pieces (1041), the rod pieces (1041) and the trusses (1042), and the connecting positions of the trusses (1042) are riveted, connected by screws, connected by bolts or welded;
the heat insulating and sound insulating material is filled in the gaps.
8. A sliding connection according to claim 7, wherein: truss (1042) are positioned at two sides of the composite board, bar members (1041) which are connected in a criss-cross manner are arranged between the truss (1042); or, the trusses (1042) are positioned at two sides of the composite board, and truss diagonal braces (1043) and rod pieces (1041) are arranged between the trusses (1042);
the cross section of the rod piece (1041) is in a non-hemmed C shape, a C shape with inward hemming, an L shape, an H shape, an I shape, a U shape or a mouth shape.
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CN201910110294.6A CN109723149B (en) | 2019-02-11 | 2019-02-11 | Sliding type connecting device |
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CN201910110294.6A CN109723149B (en) | 2019-02-11 | 2019-02-11 | Sliding type connecting device |
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CN109723149A CN109723149A (en) | 2019-05-07 |
CN109723149B true CN109723149B (en) | 2024-02-20 |
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WO1981000424A1 (en) * | 1979-08-10 | 1981-02-19 | G Serneblad | Erection method and means relating to buildings |
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