CN217352895U - Acrylic building capable of deforming in self-adaption mode - Google Patents

Abstract

The utility model relates to an acrylic building of self-adaptation deformation, include: the installation foundation is arranged on the ground; the installation base is fixedly arranged on the installation base; the building main body comprises an acrylic inner wallboard, an acrylic outer wallboard and an acrylic top plate which are integrally formed, wherein the roots of the acrylic inner wallboard and the acrylic outer wallboard are inserted into the corresponding mounting bases; the pair of lateral push rods are in threaded connection with the mounting base, and can clamp the corresponding acrylic inner wall plate and acrylic outer wall plate by adjusting the positions of the lateral push rods; the first flexible plate is arranged between the side push rod and the corresponding acrylic inner wall plate and acrylic outer wall plate. The utility model discloses have high luminousness, and the printing opacity is even, does not have the concatenation seam to the waterproof difficult problem of building piece department has been solved. The first flexible board that sets up can the deformation of self-adaptation ya keli building, ensures the structural safety and the structural stability of building.

Description

Acrylic building capable of deforming in self-adaption mode

Technical Field

The utility model relates to a building construction engineering field refers in particular to an adaptive deformation's ya keli building.

Background

With the development of the building industry, people have more and more diversified requirements on buildings, for example, the buildings are required to have high light transmittance. The existing high-light-transmittance building is built by adopting glass, glass plates are installed through the transverse and longitudinal keels, but the transverse and longitudinal keels have certain shielding effect, so that the light transmittance of the building is reduced, the glass plates need to be connected by means of glue (such as silicone glue), the number of abutted seams is large, the building attractiveness is reduced, the building water resistance is large, and the problems that the glass has the hidden danger of spontaneous explosion, the dead weight is large, the lower part structural design is unfavorable and the like are solved. The application of the yakeli force in the prior art is generally applied to venues such as a marine museum and the like, and the deformation is large under the action of temperature due to the characteristic of large linear expansion coefficient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide an acrylic building that self-adaptation warp, solve the building of the high luminousness that current glass was built because of the fossil fragments shelter from the problem that influences the waterproof difficult assurance of the piece department between luminousness and the glass board, provide building pleasing to the eye degree, can solve the structural stability problem under the acrylic building warp moreover.

The technical scheme for realizing the purpose is as follows:

the utility model provides an acrylic building of self-adaptation deformation, include:

the installation foundation is arranged on the ground;

the mounting base is fixedly arranged on the mounting base;

the building main body comprises an acrylic inner wallboard, an acrylic outer wallboard and an acrylic top plate which are integrally formed through bulk polymerization, wherein the roots of the acrylic inner wallboard and the acrylic outer wallboard are inserted into the corresponding mounting bases and are connected with the bottoms of the mounting bases;

the pair of side push rods are in threaded connection with the mounting base and are arranged on two sides of the corresponding acrylic inner wall plate and acrylic outer wall plate, and the pair of side push rods can clamp the corresponding acrylic inner wall plate and acrylic outer wall plate by adjusting the positions of the side push rods; and

the first flexible plate is arranged between the side push rod and the corresponding acrylic inner wall plate and the corresponding acrylic outer wall plate.

The utility model provides a self-adaptation acrylic building that warp, its main part be integrated into one piece's acrylic interior wallboard, acrylic side fascia and acrylic roof, have high luminousness, and the printing opacity is even, in addition, integrated into one piece's acrylic building does not have the concatenation seam for glass plate building to the waterproof difficult problem of building piece department has been solved. The utility model discloses an inferior gram force building only need through the installation base with in the ya keli wallboard and yakeli side fascia fix can, and the lateral part of wallboard and yakeli side fascia in yakeli is equipped with first flexonics board, this first flexonics board has certain elastic deformation ability, can the deformation of self-adaptation yakeli building, ensure the structural safety and the structural stability of building.

The utility model discloses a further improvement of the self-adaptive deformation acrylic building is that the two sides of the acrylic inner wall plate and the acrylic outer wall plate correspond to the mounting base and are provided with acrylic supports;

the lateral part push rod corresponds the ya keli support sets up, just first flexplate pad is established the lateral part push rod with between the ya keli support.

The utility model discloses a further improvement of the self-adaptive deformation acrylic building lies in that the side surface of the acrylic support is provided with a first convex strip corresponding to the first flexible plate;

first slotted hole has been seted up to first flexonics board corresponding first sand grip, first flexonics board pastes and locates the side of ya keli support, just first sand grip is inserted and is arranged in corresponding first slotted hole.

The utility model discloses the further improvement of the ya keli building of self-adaptation deformation lies in, the end connection of lateral part push rod has a pressure strip, the pressure strip with first flexographic plate is hugged closely mutually.

The utility model discloses the further improvement of the ya keli building of self-adaptation deformation lies in, threaded connection has the roof pressure pole on the installation base, the roof pressure pole is located the top of ya keli support is through adjusting the position of roof pressure pole can be so that the bottom of roof pressure pole sticiss the ya keli support.

The utility model discloses the further improvement of the ya keli building of self-adaptation deformation lies in, yakeli support with it is equipped with the second flexplate to fill up between the roof pressure pole.

The utility model discloses a further improvement of the self-adaptive deformation acrylic building lies in that the top surface of the acrylic support is provided with a second convex strip corresponding to the second flexible plate;

the second flexible board corresponds the second slotted hole has been seted up to the second sand grip, the subsides of second flexible board are located the top surface of ya keli support, just the second sand grip is inserted and is arranged in the second slotted hole that corresponds.

The utility model discloses the further improvement of the ya keli building of self-adaptation deformation lies in, the end connection of roof pressure pole has a roof pressure board, the roof pressure board with the second flexonics board is hugged closely mutually.

The utility model discloses the further improvement of the ya keli building that self-adaptation warp lies in, wallboard reaches in the ya keli the both sides of ya keli side fascia correspond the installation base is equipped with waterproof baffle, waterproof baffle is located the top of installation base.

The utility model discloses the further improvement of the ya keli building that self-adaptation warp lies in, wallboard reaches in the ya keli side fascia is the arc.

Drawings

Fig. 1 is the structural schematic diagram of the self-adaptive deformable acrylic building of the present invention.

Fig. 2 is the top view of the self-adaptive deformable acrylic building of the present invention.

Fig. 3 is the utility model discloses the arrangement structure sketch map of installation base in the ya keli building of self-adaptation deformation.

Figure 4 is the utility model discloses wallboard expansion state's in the ya keli building of self-adaptation deformation structural schematic diagram.

Figure 5 is the utility model discloses the structural schematic diagram of ya keli side fascia expansion state in the ya keli building of self-adaptation deformation.

FIG. 6 is a cross-sectional view A1-A1 of FIG. 2.

Fig. 7 is a partially enlarged schematic view at a2 in fig. 6.

Fig. 8 is a cross-sectional view of an installation base in the self-adaptive deformable acrylic building of the present invention.

Fig. 9 is the connecting structure diagram of the root of the acrylic external wall panel in the acrylic building with adaptive deformation of the utility model.

FIG. 10 is a cross-sectional view A3-A3 of FIG. 9.

Fig. 11 is a cross-sectional view a4-a4 of fig. 9.

Figure 12 is the cross-sectional view of the utility model discloses installation base in the ya keli building of self-adaptation deformation.

Figure 13 is the utility model discloses side view of acrylic support in adaptive deformation's acrylic building.

Fig. 14 is a side view of the first flexible board in the self-adaptive deformable acrylic building of the present invention.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1, the utility model provides an acrylic building of self-adaptation deformation for satisfy the building requirement of high luminousness, the building subject includes wallboard, acrylic side fascia and acrylic roof in the acrylic through body polymerization integrated into one piece, makes the building have the characteristic of complete printing opacity, does not have any structure to shelter from, and the luminousness is high. The building main body is integrally formed by adopting a body polymerization method, no splicing seam exists, and the problem that the existing glass building splicing seam is difficult to prevent water can be solved. The utility model discloses an inferior gram force building has that light transmission performance is good, and the printing opacity is even, panel thickness is unified, levels, smooth, and the weatherability is good, and impact resistance is good, difficult catalysis, fade, long service life, the dead weight is light, and self-cleaning power is strong, compares and can reduce light pollution in glass. The following describes the adaptive deformable acrylic building of the present invention with reference to the accompanying drawings.

Referring to fig. 1, a schematic structural diagram of the adaptive deformable acrylic building of the present invention is shown. Referring to fig. 8, a cross-sectional view of an installation base in the self-adaptive deformable acrylic building of the present invention is shown. The following describes the adaptive deformation acrylic building of the present invention with reference to fig. 1 and 8.

As shown in fig. 1 and fig. 8, the self-adaptive deformable acrylic building of the present invention includes an installation foundation 21, an installation base 22, a building main body 23, a side push rod 24 and a first flexible plate 25, wherein the installation foundation 21 is disposed on the ground, and the installation foundation 21 is disposed at a design position of the acrylic building; the installation base 22 is fixedly arranged on the installation base 21; the building main body 23 comprises an acrylic inner wall plate 231, an acrylic outer wall plate 232 and an acrylic top plate 233 which are integrally formed by bulk polymerization, the acrylic inner wall plate 231 and the acrylic outer wall plate 232 are oppositely arranged, the acrylic top plate 233 is arranged at the tops of the acrylic inner wall plate 231 and the acrylic outer wall plate 232, and the roots of the acrylic inner wall plate 231 and the acrylic outer wall plate 232 are inserted into the corresponding mounting bases 22 and connected with the bottoms of the mounting bases 22; the side push rods 24 are in threaded connection with the mounting base 22, a pair of the side push rods 24 are arranged on two sides of the corresponding acrylic inner wall plate 231 and acrylic outer wall plate 232, and the position of the side push rods 24 can be adjusted to enable the pair of the side push rods 24 to clamp the corresponding acrylic inner wall plate 231 and acrylic outer wall plate 232; wallboard 231 and ya keli side fascia 232 support in lateral part push rod 24 and the ya keli that corresponds are established to first flexplate 25 pad, and this first flexplate 25 has certain elastic deformation ability, and wallboard 231 and ya keli side fascia 232's deformation in can the self-adaptation ya keli improves building subject's safety and stability.

The utility model discloses an in the concrete implementation mode, as shown in fig. 1 and fig. 2, the utility model discloses an interior wallboard 231 and ya keli side fascia 232 are the arc, enclose between interior wallboard 231 of ya keli and the ya keli side fascia 232 and close the inner space that forms building subject 23. An end sealing plate 234 is disposed at one end side of the acrylic inner wall plate 231, and the end sealing plate 234 is correspondingly connected to the acrylic outer wall plate 232. In a top view, the acrylic exterior wall panel 232 is circular, and an opening is formed thereon to serve as a door, so as to be conveniently inserted into the building body 23. The acrylic inner wall plate 231 has a semicircular shape.

Further, as shown in fig. 3, the mounting base 22 is multiple, and the mounting base 22 is disposed along the edge of the acrylic inner wall plate 231 and the acrylic outer wall plate 232 at intervals, and the acrylic inner wall plate 231 and the acrylic outer wall plate 232 are mounted and fixed by the mounting base 22.

Further, as shown in fig. 4 and 5, the heights of the acrylic inner wall plate 231 and the acrylic outer wall plate 232 are different, so that the acrylic top plate 233 is inclined, the heights of the acrylic inner wall plate 231 and the acrylic outer wall plate 232 are different, the height of the acrylic inner wall plate 231 is gradually reduced from one end to the other end, and the height of the acrylic outer wall plate 232 is fluctuated, and the height of the acrylic outer wall plate 232 is gradually increased from one end, gradually reduced and then gradually increased. Therefore, the formed building main body is in a perfect arc shape and attractive in shape, and is particularly suitable for being used as an ornamental room, an indoor flower nursery and the like.

The utility model discloses an in a concrete implementation way, as shown in FIG. 9 to FIG. 11, the both sides of wallboard 231 and ya keli side fascia 232 correspond installation base 22 in the ya keli are equipped with ya keli support 235, and lateral part push rod 24 corresponds ya keli support 235 setting, and first flexor plate 25 pad is established between lateral part push rod 24 and ya keli support 235.

When inserting wallboard 231 and ya keli side fascia 232 in the ya keli into the installation base 22 that corresponds, ya keli support 235 on wallboard and the ya keli side fascia in the ya keli is arranged in installation base 22, then twist the lateral part push rod 24 that corresponds soon, let lateral part push rod 24 sticiss first flexonics board 25, make lateral part push rod 24 sticis on wallboard 231 and the yakeli side fascia 232 in the yakeli that corresponds through first flexonics board 25, realized wallboard 231 and yakeli side fascia 232's fixed mounting in the yakeli. Because first flexiplane 25 has certain elastic deformation ability, it can be the acrylic interior wallboard of self-adaptation and acrylic side fascia produce because of temperature variation warp, ensures building subject's safety.

Preferably, the acrylic support 235 is an arc-shaped block, the acrylic support 235 is disposed on the corresponding acrylic inner wall plate 231 and the corresponding acrylic outer wall plate 232 at intervals, and the acrylic support 235 is fixed on the corresponding acrylic inner wall plate 231 and the corresponding acrylic outer wall plate 232 by epoxy resin.

Further, as shown in fig. 13 and 14, a first protruding strip 2351 is disposed on the side surface of the acrylic support 235 corresponding to the first flexible board 25; the first flexible plate 25 has a first slot 251 corresponding to the first protruding strip 2351, the first flexible plate 25 is attached to the side of the acrylic support 235, and the first protruding strip 2351 is inserted into the corresponding first slot 251. Through the arrangement of the first protruding strip 2351 and the first slot 251, the connection between the first flexible board 25 and the acrylic support 235 is more secure and reliable.

Preferably, the depth of the first slot 251 is smaller than the thickness of the first flexible board 25.

Preferably, the first flexible board 25 is fixed on the side of the acryl support 235 by epoxy.

Still further, as shown in fig. 9 to 11, a pressing plate 241 is connected to an end of the side push rod 24, and the pressing plate 241 is closely attached to the first flexible plate 25. Preferably, the compression plate 241 is adapted to the dimensions of the first flexible plate 25. The pushing force of the side push rod 24 is uniformly transmitted to the first flexible board 25 through the pressing board 241.

In a preferred embodiment, the shape of the pressing plate 241 and the first flexible plate 25 is matched with the shape of the acrylic support 235, and the pressing plate 251 and the first flexible plate 25 are arc-shaped plates. U-shaped pieces are arranged at the back of the pressing plate 241, and the end parts of the side push rods 24 are clamped on the corresponding U-shaped pieces. Preferably, two side push rods 24 are provided corresponding to one acryl support 235. The pressing plate 241 and the first flexible board 25 are fixed by epoxy resin.

In a specific embodiment of the present invention, as shown in fig. 8 and 9, a top pressure rod 26 is screwed on the mounting base 22, the top pressure rod 26 is located above the acrylic support 235, and the bottom of the top pressure rod 26 can be pressed against the acrylic support 235 by adjusting the position of the top pressure rod 26.

When the building main body is installed, the jacking rod 26 is screwed to enable the jacking rod 26 to tightly press the acrylic support 235, and the firm and reliable installation of the acrylic support 235 is ensured.

Further, a second flexible cushion 27 is arranged between the top pressure rod 26 and the acrylic support 235, and the second flexible cushion 27 has certain elastic deformation capacity and can adapt to the deformation of the building body under the influence of temperature.

Furthermore, the top surface of the acrylic support 235 is provided with a second protruding strip corresponding to the second flexible board 27; the second flexible board 27 has a second slot corresponding to the second protruding strip, the second flexible board 27 is attached to the top surface of the acrylic support 235, and the second protruding strip is inserted into the corresponding second slot. Preferably, the second protruding strip and the second slot are both provided in plurality.

In a preferred embodiment, the second flexible board 27 is fixed on the top surface of the acrylic support 235 by epoxy resin.

Still further, a pressing plate 261 is connected to an end of the pressing rod 26, and the pressing plate 261 is closely attached to the second flexible plate 27. Preferably, the pressing plate 261 and the second flexible board 27 are fixed by epoxy resin.

In a specific embodiment of the present invention, as shown in fig. 12, the mounting base 22 includes a bottom plate 221, a pair of side plates 222 erected on the bottom plate 221, a rib plate 223 fixedly connecting the outer side surface of the side plate 222 and the bottom plate 221, and a pair of mounting plates 224 fixedly connected to the inner side surface of the side plate 222 and located at the top of the side plate 222, a through hole is opened on the mounting plate 224 corresponding to the top pressure bar 26, a nut screwed with the top pressure bar 26 is fixedly arranged at the top of the mounting plate 224, so that the top pressure bar 26 can be adjusted by being screwed up and down. The side plate 222 is provided with a threaded hole 2221, and the side push rod 24 is screwed into the threaded hole 2221. A space for receiving the root of the acrylic inner wall panel or the acrylic outer wall panel is formed between the two side panels 222. Be equipped with two screw holes 2211 on bottom plate 221, wallboard or ya keli side fascia in these two screw holes 2211 are used for the erection joint ya keli, combine fig. 6 and fig. 9 to show, the bottom of wallboard or ya keli side fascia in the ya keli is equipped with the base, is connected with fastening screw on the base, and wallboard and yakeli side fascia in wallboard and the corresponding ya keli of this fastening screw and the screw hole 2211 threaded connection on the bottom plate 221 have realized fixed connection installation base. The reinforcing rib 223 is provided in plurality for reinforcing the structural strength of the side plate 222.

Further, as shown in fig. 9, the bottom plate of the installation base 22 is fixedly connected to the installation base 21 through the ground anchor bolt, the installation base 21 is a concrete cushion, as shown in fig. 10, a strip-shaped hole is formed in the bottom plate 221 corresponding to the ground anchor bolt, and the installation position of the installation base 22 can be adjusted through the strip-shaped hole, so that the installation accuracy of the building main body is improved.

The utility model discloses an in a specific embodiment, as shown in FIG. 6 to FIG. 8, the both sides correspondence installation base 22 of wallboard and ya keli side fascia in the ya keli are equipped with waterproof baffle 236, and this waterproof baffle 236 is located installation base 22's top. Preferably, the waterproof baffle 236 is fixed on the acrylic inner wall plate and the acrylic outer wall plate by epoxy resin. The waterproof baffle 236 is arranged above the mounting base 22, and the end of the waterproof baffle 236 is provided with a downward bent shielding part.

The bottom of the building body is provided with a floor 31, the floor 31 shields the installation base 22, the floor 31 is erected on the installation base 21, the installation base 21 is further provided with a parapet 32, one side of the parapet 32, which is far away from the installation base 22, is provided with a drainage ditch 34, the top of the parapet 32 is connected to a water guide plate 33, the water guide plate 33 is fixedly connected with the top of the parapet 32, transversely extends and shields the parapet above the installation base 22, is adhered to a corresponding acrylic inner wall plate and an acrylic outer wall plate, and is inspected and bent at a gap between the acrylic inner wall plate and the acrylic outer wall plate and the floor 31 to be adhered to a waterproof baffle 236. So that the water on the surface of the floor 31 can be guided to the drainage ditch through the water guide plate 33 to be drained.

The utility model discloses an in a concrete implementation, as shown in FIG. 9 and FIG. 12, because the setting of mounting panel 224 on the installation base 22 for wallboard and ya keli side fascia can not correspond in the ya keli of building subject inserts between two curb plates 222, can collide with mounting panel 224 because of the ya keli support 235 that sets up on wallboard and the ya keli side fascia in the ya keli. When the installation is carried out, the installation base 22 and the acrylic support 235 can be sleeved together in a staggered manner, and then the installation base 22 is fixed. The installation base 22 can be positioned and fixed, the building body is inserted on the installation base 22, and then the installation plate 224 is welded and fixed on the installation base 22.

Preferably, the mounting base 22, the top pressure plate 261 and the pressing plate 241 of the present invention are steel members. The first flexible sheet 25 and the second flexible sheet 27 are made of teflon sheets.

The present invention has been described in detail with reference to the embodiments shown in the drawings, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which are intended to be covered by the following claims.

Claims (10)

1. An adaptive deformation acrylic building, comprising:

the installation foundation is arranged on the ground;

the mounting base is fixedly arranged on the mounting base;

the building main body comprises an acrylic inner wallboard, an acrylic outer wallboard and an acrylic top plate which are integrally formed through bulk polymerization, wherein the roots of the acrylic inner wallboard and the acrylic outer wallboard are inserted into the corresponding mounting bases and are connected with the bottoms of the mounting bases;

the pair of side push rods are in threaded connection with the mounting base and are arranged on two sides of the corresponding acrylic inner wall plate and acrylic outer wall plate, and the pair of side push rods can clamp the corresponding acrylic inner wall plate and acrylic outer wall plate by adjusting the positions of the side push rods; and

the first flexible plate is arranged between the side push rod and the corresponding acrylic inner wall plate and the corresponding acrylic outer wall plate.

2. The self-adaptive deformation acrylic building as claimed in claim 1, wherein acrylic supports are provided on both sides of the acrylic inner wall panel and the acrylic outer wall panel corresponding to the mounting bases;

the lateral part push rod corresponds the ya keli support sets up, just first flexplate pad is established the lateral part push rod with between the ya keli support.

3. The self-adaptive deformation acrylic building as claimed in claim 2, wherein the side surface of the acrylic support is provided with a first convex strip corresponding to the first flexible plate;

first slotted hole has been seted up to first flexonics board corresponding first sand grip, first flexonics board pastes and locates the side of ya keli support, just first sand grip is inserted and is arranged in corresponding first slotted hole.

4. The adaptive-deformation acrylic building as claimed in claim 2, wherein a pressing plate is connected to the end of the side pushing rod, and the pressing plate is closely attached to the first flexible plate.

5. The self-adaptive deformation acrylic building as claimed in claim 2, wherein a top pressure bar is connected to the mounting base in a threaded manner, the top pressure bar is located above the acrylic support, and the bottom of the top pressure bar can be pressed against the acrylic support by adjusting the position of the top pressure bar.

6. The self-adaptive deformation acrylic building as claimed in claim 5, wherein a second flexible plate is arranged between the acrylic support and the top pressure rod.

7. The self-adaptive deformation acrylic building as claimed in claim 6, wherein the top surface of the acrylic support is provided with a second convex strip corresponding to the second flexible plate;

the second flexible board corresponds the second slotted hole has been seted up to the second sand grip, the subsides of second flexible board are located the top surface of ya keli support, just the second sand grip is inserted and is arranged in the second slotted hole that corresponds.

8. The self-adaptive deformation acrylic building as claimed in claim 6, wherein the end of the top pressure rod is connected with a top pressure plate, and the top pressure plate is tightly attached to the second flexible plate.

9. The self-adaptive deformation acrylic building as claimed in claim 1, wherein two sides of the acrylic inner wall plate and the acrylic outer wall plate are provided with waterproof baffles corresponding to the mounting bases, and the waterproof baffles are positioned above the mounting bases.

10. The adaptive-deformation acrylic building of claim 1 wherein the acrylic inner wall panel and the acrylic outer wall panel are curved panels.

Images