Assembly type building structure system and assembly type building butt joint pipe body connecting device thereof
Technical Field
The utility model relates to an assembly type structure field, in particular to assembly type building structure system and assembly type structure butt joint body connecting device thereof.
Background
The aluminum type assembly building is simple and easy to assemble, light in structure, high in strength, various in shape and more comfortable in touch compared with other metal buildings, and is widely accepted by the public. At present, because the length of an aluminum pipe used in an aluminum type assembly building cannot meet the building requirement generally due to the limitation of a processing technology, two aluminum pipes need to be spliced to prolong the length of the aluminum pipe. The aluminum pipes are generally connected in a welding mode at present, a heat affected zone exists in aluminum alloy welding, the strength of a component can be reduced, the component is easy to deform, the coaxiality of the two aluminum pipes after being spliced cannot be guaranteed, the mounting process is complex, the working efficiency is low, and the aluminum pipes are not favorable for recycling.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an assembly type building structure system and assembly type building butt joint body connecting device thereof can be convenient for install, improves assembly speed, still does benefit to the used repeatedly of body.
For realizing the purpose of the utility model, the technical proposal adopted is that:
the connecting device comprises a first locking device, a second locking device, a third locking device and a snap ring with an opening, wherein a first locking edge and a second locking edge which are oppositely arranged extend outwards from the opening end of the snap ring, the first locking edge and the second locking edge are respectively provided with a through hole which is matched and connected with the first locking device, one end of the first pipe body inserted into the snap ring is provided with a first mounting hole, the snap ring is provided with a first positioning hole which is matched with the first mounting hole, the first pipe body and the snap ring are matched and connected through the first mounting hole, the first positioning hole and the second locking device, one end of the second pipe body inserted into the snap ring is provided with a second mounting hole, the snap ring is provided with a second positioning hole which is matched with the second mounting hole, and the second pipe body and the snap ring are connected through the second mounting hole, The second positioning hole is connected with the third locking device in a matching mode.
During installation, one end of the first pipe body is inserted into the snap ring, positioning is carried out through the first installation hole and the first positioning hole, and the first pipe body and the snap ring are fixed through the second locking device; inserting one end of the second pipe body into the snap ring, positioning through the second mounting hole and the second positioning hole, and fixing the second pipe body and the snap ring through the third locking device; and finally, the clamping ring is locked by the first locking device, so that the two pipe bodies are butted and fixed. The whole process is simple to install, the assembly speed is increased, the pipe bodies are convenient to locate, the butt joint of the two pipe bodies is more accurate, the detachable connection of the two pipe bodies is realized through the connecting device, and the pipe bodies can be reused in the future.
The technical scheme is further explained as follows:
further, first mounting hole is the perforating hole that runs through first body, and first locating hole has two, and two first locating holes set up relatively and cooperate with first mounting hole, and second locking device is bolt and nut. During the installation, the bolt passes first locating hole, first mounting hole and another one first locating hole in proper order after fixed through the nut, makes first body fix on the snap ring, and through this kind of connected mode, makes the connection more stable, is difficult for droing under frequent dynamic load, makes overall structure more firm.
Further, the first positioning hole is a kidney-shaped hole. The installation location of the first body of being more convenient for and snap ring makes the installation effectiveness higher.
Furthermore, the second mounting holes are through holes penetrating through the second pipe body, the number of the second positioning holes is two, the two second positioning holes are oppositely arranged and matched with the second mounting holes, and the third locking device is a bolt and a nut. During the installation, the bolt passes second locating hole, second mounting hole and another second locating hole in proper order after fixed through the nut, makes the second body fix on the snap ring, and through this kind of connected mode, makes the connection more stable, is difficult for droing under frequent dynamic load, makes overall structure more firm.
Further, the second positioning hole is a kidney-shaped hole. The installation location of second body and snap ring of being more convenient for makes the installation effectiveness higher.
Furthermore, the snap ring is made of stainless steel. Prevent that the snap ring from rustting, prolong this connecting device's life, guarantee the intensity of structure.
Further, the ring body of the snap ring is a circular ring. Making the connecting device suitable for the connection of two pipes.
Furthermore, the ring body of the snap ring is a square ring. The connecting device is suitable for connecting two square pipes.
The utility model also provides an assembly type structure system, including first body, second body and foretell assembly type structure butt joint body connecting device, the one end of first body embolias the snap ring in, and the one end of second body embolias the one side of the first body of snap ring dorsad, and first body and second body are connected fixedly through assembly type structure butt joint body connecting device. The detachable connection of the two pipes is realized through the connecting device, so that the two pipes can be conveniently installed and butted, the installation efficiency is improved, and the later use of the pipes is facilitated.
Furthermore, the length of the first pipe body and the length of the second pipe body inserted into the snap ring are both half of the height of the snap ring.
Compared with the prior art, the utility model discloses following beneficial effect has:
the utility model inserts one end of the first pipe body into the snap ring through the connecting device, carries out positioning through the first mounting hole and the first positioning hole, and fixes the first pipe body and the snap ring through the second locking device; inserting one end of the second pipe body into the snap ring, positioning through the second mounting hole and the second positioning hole, and fixing the second pipe body and the snap ring through the third locking device; and finally, the clamping ring is locked by the first locking device, so that the two pipe bodies are butted and fixed. The whole process is simple to install, the assembly speed is increased, the pipe bodies are convenient to locate, the butt joint of the two pipe bodies is more accurate, the detachable connection of the two pipe bodies is realized through the connecting device, and the pipe bodies can be reused in the future.
Drawings
FIG. 1 is a schematic structural view of the fabricated building structure system of the present invention;
fig. 2 is an exploded schematic view of the fabricated building structure system of the present invention.
Description of reference numerals:
10. the locking device comprises a first pipe body, a first mounting hole, a second mounting hole, a connecting device, a second locking device, a third locking device, a clamping ring, an opening 331, an opening 332, a first locking edge, a second locking edge 333, a through hole 334, a first positioning hole 335, a second positioning hole 336, a ring body 337.
Detailed Description
The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:
as shown in fig. 1 and 2, a fabricated building structure system comprises a first pipe 10, a second pipe 20 and a fabricated building butt pipe connecting device 30 for butt-jointing the first pipe 10 and the second pipe 20, wherein the connecting device 30 comprises a first locking device (not shown in the figures), a second locking device 310, a third locking device 320, and a snap ring 330 having an opening 331, one end of the first pipe 10 is inserted into the snap ring 330, one end of the second pipe 20 is inserted into a side of the snap ring 330 opposite to the first pipe 10, the end of the opening 331 of the snap ring 330 extends outwards to form a first locking edge and a second locking edge 333 which are oppositely arranged, the first locking edge 332 and the second locking edge 333 are both provided with a through hole 334 which is cooperatively connected with the first locking device, one end of the first pipe 10 inserted into the snap ring 330 is provided with a first mounting hole 110, the snap ring 330 is provided with a first positioning hole 335 which is cooperatively connected with the first mounting hole 110, the first pipe 10 is connected with the snap ring 330 by the first mounting hole 110, the first positioning hole 335 and the second locking device 310, the second mounting hole 210 is provided at the end of the second pipe 20 inserted into the snap ring 330, the second positioning hole 336 matched with the second mounting hole 210 is provided on the snap ring 330, and the second pipe 20 is connected with the snap ring 330 by the second mounting hole 210, the second positioning hole 336 and the third locking device 320.
When the pipe is installed, one end of the first pipe 10 is inserted into a half of the height of the snap ring 330, and is positioned through the first installation hole 110 and the first positioning hole 335, and the first pipe 10 and the snap ring 330 are fixed by the second locking device 310; inserting one end of the second tube 20 into the other half of the height of the snap ring 330, positioning the second tube 20 through the second mounting hole 210 and the second positioning hole 336, and fixing the second tube 20 and the snap ring 330 through the third locking device 320; finally, the snap ring 330 is locked by the first locking device, so that the two pipe bodies are butted and fixed. The whole process is simple to install, the assembly speed is increased, the pipe bodies can be positioned conveniently, the butt joint of the two pipe bodies is more accurate, the detachable connection of the two pipe bodies is realized through the connecting device 30, and the pipe bodies can be reused in the future.
In this embodiment, as shown in fig. 2, the first locking device, the second locking device 310, and the third locking device 320 are all bolts and nuts, and the first locking device, the second locking device 310, and the third locking device 320 may also be configured in other forms such as screws and nuts according to actual needs.
As shown in fig. 2, the first mounting hole 110 is a through hole penetrating through the first pipe 10, and there are two first positioning holes 335, and the two first positioning holes 335 are disposed opposite to each other and are engaged with the first mounting hole 110. The second mounting holes 210 are through holes penetrating through the second tube 20, and there are two second positioning holes 336, and the two second positioning holes 336 are disposed opposite to each other and are matched with the second mounting holes 210. When the first pipe 10 is installed, the bolt sequentially passes through the first positioning hole 335, the first installation hole 110 and the other first positioning hole 335 and then is fixed by the nut, so that the first pipe 10 is fixed on the snap ring 330; when the second pipe 20 is installed, the bolt passes through the second positioning hole 336, the second installation hole 210 and the other second positioning hole 336 in sequence and then is fixed by the nut, so that the second pipe 20 is fixed on the snap ring 330. The first pipe 10 and the snap ring 330, and the second pipe 20 and the snap ring 330 are connected in such a way that the connection is more stable, and the connection is not easy to fall off under frequent dynamic load, so that the overall structure is more stable.
In this embodiment, the first positioning hole 335 and the second positioning hole 336 are round holes, and the first positioning hole 335 and the second positioning hole 336 can also be arranged as waist-shaped holes according to actual needs, so that the first pipe 10 and the snap ring 330, and the second pipe 20 and the snap ring 330 can be more conveniently mounted and positioned, and the mounting efficiency is higher. At least one pair of the first positioning holes 335 and the second positioning holes 336 can be provided according to actual needs.
As shown in fig. 1 and 2, the ring body 337 of the snap ring 330 is a circular ring, so that the connecting device 30 is suitable for connecting two circular pipes. The ring body 337 of the snap ring 330 can also be configured as a square ring according to actual needs, so that the connecting device 30 is suitable for connecting two square pipes. The ring body 337 of the snap ring 330 may be provided in other forms according to the shape of the pipe body.
In this embodiment, the snap ring 330 is made of stainless steel, which prevents the snap ring 330 from rusting, prolongs the service life of the connecting device 30, and ensures the strength of the structure. The snap ring 330 may be made of other materials according to actual needs.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.