CN105369940A - Long-span aluminium alloy grid mounting structure - Google Patents

Abstract

The invention discloses a long-span aluminium alloy grid mounting structure which comprises a first hanging weight piece, a rotating shaft, a second hanging weight piece and an aluminium alloy grid, wherein the cross section of the first hanging weight piece is U-shaped; the first hanging weight piece is transversely arranged, and is mounted with an opening facing outwards; the bottom of the first hanging weight piece is fixedly connected with a wall; the rotating shaft is placed in the first hanging weight piece; the cross section of the second hanging weight piece is arc; the second hanging weight piece is tangent with the rotating shaft, a tangent point between the second hanging weight piece and the rotating shaft is connected with the rotating shaft through a fastener; a long hole is formed in the second hanging weight piece in the length direction of the second hanging weight piece; the fastener slides in the long hole back and forth; and the aluminium alloy grid is connected with the rotating shaft and the second hanging weight piece through the fasteners. Compared with the prior art, the connecting firmness and safety of the long-span aluminium alloy grid can be improved effectively.

Description

Large span screen aluminum alloy mounting structure

Technical field

The present invention relates to a kind of screen aluminum alloy mounting structure, be specifically related to a kind of large span screen aluminum alloy mounting structure.

Background technology

Current along with science and technology constantly progress, improving constantly of the level of the productive forces, and the develop rapidly of processing manufacturing industry, the pursuit that people are higher to good life.Outer curtain wall large span screen aluminum alloy decoration air is solemn, applies more and more extensive.Tradition screen aluminum alloy is all the connection adopting aluminium corner code and CARBURIZING FURNACE FOR STAINLESS FASTENER.Due to this kind of connected mode, to be limited to extraneous factor more, and workmanship cannot be guaranteed.Large span screen aluminum alloy build is very large, and therefore safety problem is particularly severe.

Be embodied in, at present domestic and international screen aluminum alloy is generally adopted be aluminium square tube, grid specification is less.Normally adopt the mode of mechanical connection when mounted, namely adopt aluminium corner code as the parts of fixing screen aluminum alloy.If therefore screen aluminum alloy sectional dimension is less, safety is slightly careless will cause dew nail, affects attractive in appearance.Namely conventional processing mode is polished and is repaiied look with patch, and while aluminum alloy materials injury, finishing effect quality also can not get effective guarantee.The mode that domestic technique after improving namely locally adopts nothing but aluminium to weld, also cannot overcome the safety problem existed in construction completely and construction cost will significantly increase.

Summary of the invention

In order to solve the problems of the technologies described above, the invention provides a kind of large span screen aluminum alloy mounting structure that can improve stable connection and safety.

In order to achieve the above object, technical scheme of the present invention is as follows:

Large span screen aluminum alloy mounting structure, it comprises:

First link code part, its cross section is in " U " font, and the first link code part horizontally set and opening are installed outwardly, and the bottom of the first link code part is fixedly connected with body of wall;

Rotating shaft, it is positioned in the first link code part;

Second link code part, its cross section is curved, and the second link code part is tangential on rotating shaft and arranges, and points of tangency is by securing member connection rotating shaft, and the second link code part also offers elongated hole along its length, and securing member slidably reciprocates in elongated hole;

Screen aluminum alloy, it is connected on rotating shaft and the second link code part by securing member.

Further, the two ends of the second above-mentioned link code part have bending part, and bending part is parallel to the two side of the first link code part.

Further, the joint between the second above-mentioned link code part and the first link code part is provided with spring.

Further, the second above-mentioned link code part is connected by bent axle with the joint between the first link code part.

Further, axially cavity is offered along it in above-mentioned rotating shaft.

Further, foamed material is provided with in above-mentioned cavity.

Further, bottom the inwall of the first above-mentioned link code part, be provided with cambered surface, itself and shaft contacts.

Further, the bottom of the first above-mentioned link code part is cambered surface.

Further, connected by shaft coupling between above-mentioned often adjacent two rotating shafts.

The present invention adopts the beneficial effect of above technical scheme to be: utilize the rotating shaft in the first link code part of U-shaped and the first link code part, screen aluminum alloy is fixedly connected in rotating shaft by the second link code part of arc simultaneously, in use procedure, during as caused screen aluminum alloy to occur displacement because of body of wall deformation or outside force, screen aluminum alloy promptly can be deacclimatized this change by rotating characteristic by the second link code part and rotating shaft, and also can the adjustment of screen aluminum alloy position be returned easily.

Therefore, the present invention compared with prior art, utilize the adaptive characteristic of screen aluminum alloy, effectively can prevent the safety problems such as missing nail, and the first link code part of U-shaped and the combination of rotating shaft also can ensure the steadiness be connected, thus effectively can improve steadiness and the safety of the connection of large span screen aluminum alloy.

Accompanying drawing explanation

Fig. 1 is the structural representation of large span screen aluminum alloy mounting structure of the present invention.

Fig. 2 is the enlarged drawing in A portion in Fig. 1.

Fig. 3 is the connection diagram between two adjacent rotating shafts involved in large span screen aluminum alloy mounting structure of the present invention.

Label declaration:

Label	Component names
		1	Body of wall
2	First link code part
		21	Cambered surface
3	Second link code part
		31	Elongated hole
32	Bending part
		33	Spring
34	Bent axle
		4	Rotating shaft
41	Securing member
		42	Cavity
43	Foamed material
		5	Screen aluminum alloy
6	Shaft coupling

Detailed description of the invention

The preferred embodiment of the present invention is described in detail below in conjunction with accompanying drawing.

In order to reach object of the present invention, as shown in Figure 1-2, in the some of them embodiment of large span screen aluminum alloy mounting structure of the present invention, it comprises: the first link code part 2, its cross section is in " U " font, first link code part 2 horizontally set and opening are installed outwardly, and the bottom of the first link code part 2 is fixedly connected with body of wall 1 by expansion bolt etc.; Rotating shaft 4, it is positioned in the first link code part 2; Second link code part 3, its cross section is curved, and the second link code part 3 is tangential on rotating shaft 4 and arranges, and points of tangency is by securing member 41 (can be bolt etc.) connection rotating shaft 4, second link code part 3 also offers elongated hole 31 along its length, and securing member 41 slidably reciprocates in elongated hole 31; Screen aluminum alloy 5, it is connected on rotating shaft 4 and the second link code part 3 by securing member 41.

Utilize the rotating shaft in the first link code part of U-shaped and the first link code part, screen aluminum alloy is fixedly connected in rotating shaft by the second link code part of arc simultaneously, in use procedure, during as caused screen aluminum alloy to occur displacement because of body of wall deformation or outside force, screen aluminum alloy promptly can be deacclimatized this change by rotating characteristic by the second link code part and rotating shaft, and also can the adjustment of screen aluminum alloy position be returned easily.Therefore, compared with prior art, utilize the adaptive characteristic of screen aluminum alloy, effectively can prevent the safety problems such as missing nail, and the first link code part of U-shaped and the combination of rotating shaft also can ensure the steadiness be connected, thus effectively can improve steadiness and the safety of the connection of large span screen aluminum alloy.

As shown in Figure 1-2, the two ends of the second above-mentioned link code part 3 have bending part 32, bending part 32 is parallel to the two side of the first link code part 2, junction vertically between the first link code part 2 and the second link code part 3 can be formed, upper and lower two ends and left and right are all fixed, obtain more firm connection effect.The joint that bending part 32 is formed is provided with spring 33, can form the floating connection between the first link code part 2 and the second link code part 3, be convenient to automatically complete reset after screen aluminum alloy displacement.

As shown in Figure 1-2, the second above-mentioned link code part 3 is connected by bent axle 34 with the joint between the first link code part 2, bent axle is adopted to be different from its traditional effect herein, mainly in order to keep the accurate contraposition of the second link code part 3 and the first link code part 2, because in deformation process, the situation that contraposition is inaccurate is there will be unavoidably between second link code part and the first link code part, deformation will be adapted to like this and displacement impacts to enamelled pressed steel, bent axle can utilize himself many bending and can adapt to the feature of torsion, step by step the contraposition between the second link code part and the first link code part is adjusted to accurately on position.

As shown in Figure 1, axially cavity 41 is offered along it in above-mentioned rotating shaft 4, and be provided with foamed material 42 in this cavity 41, cavity is set rotating shaft 4 can be made also can to adapt to certain deformation, and foamed material 42 also can adapt to deformation and rotating shaft 4 is reset to original shape and position.

As shown in Figure 1, be provided with cambered surface 21 bottom the inwall of the first above-mentioned link code part 2, it contacts with rotating shaft 4, adapts to this deformation equally when deformation appears in rotating shaft 4.As alternative mode, also the bottom of the first link code part 2 can be arranged in cambered surface.

As shown in Figure 3, connected by shaft coupling 6 between above-mentioned often adjacent two rotating shafts 4, deformation and synchronism when resetting between adjacent screen aluminum alloy can be kept.

Above-described is only the preferred embodiment of the present invention, it should be pointed out that for the person of ordinary skill of the art, and without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.

Claims (9)

1. large span screen aluminum alloy mounting structure, is characterized in that, comprising:

First link code part, its cross section is in " U " font, and described first link code part horizontally set and opening are installed outwardly, and the bottom of described first link code part is fixedly connected with body of wall;

Rotating shaft, it is positioned in described first link code part;

Second link code part, its cross section is curved, and described second link code part is tangential on described rotating shaft and arranges, and points of tangency connects described rotating shaft by securing member, described second link code part also offers elongated hole along its length, and described securing member slidably reciprocates in described elongated hole;

Screen aluminum alloy, it is connected on described rotating shaft and described second link code part by described securing member.

2. large span screen aluminum alloy mounting structure according to claim 1, is characterized in that, the two ends of described second link code part have bending part, and described bending part is parallel to the two side of described first link code part.

3. large span screen aluminum alloy mounting structure according to claim 2, is characterized in that, the joint between described second link code part and described first link code part is provided with spring.

4. the large span screen aluminum alloy mounting structure according to Claims 2 or 3, is characterized in that, the joint between described second link code part with described first link code part is connected by bent axle.

5. large span screen aluminum alloy mounting structure according to claim 1, is characterized in that, axially offers cavity in described rotating shaft along it.

6. large span screen aluminum alloy mounting structure according to claim 5, is characterized in that, be provided with foamed material in described cavity.

7. large span screen aluminum alloy mounting structure according to claim 1, is characterized in that, is provided with cambered surface bottom the inwall of described first link code part, itself and described shaft contacts.

8. large span screen aluminum alloy mounting structure according to claim 1, is characterized in that, the bottom of described first link code part is cambered surface.

9. large span screen aluminum alloy mounting structure according to claim 1, is characterized in that, is often connected by shaft coupling between adjacent two rotating shafts.