CN219033710U - Reinforcing code piece with positioning function - Google Patents

Abstract

The utility model relates to the technical field of building installation and discloses a reinforcing code piece with positioning, wherein two groups of middle aluminum profiles are symmetrically clamped at the tops of two groups of lower aluminum profiles, upper aluminum profiles are embedded and clamped at the tops of two groups of middle aluminum profiles, and the lower aluminum profiles, the middle aluminum profiles and the upper aluminum profiles are assembled and fixed through a code piece mechanism. The utility model replaces the traditional mode of strengthening the supporting strength by increasing the thickness of the building structure, and the combination of the first code piece and the second code piece in the code piece mechanism is used for directly splicing and installing the lower aluminum profile, the middle aluminum profile and the upper aluminum profile, so that the utility model has the advantages of simple and convenient assembly efficiency on one hand, and can improve the installation efficiency, and on the other hand, compared with the method of strengthening the compressive capacity by thickening the building structure, the utility model can effectively reduce the cost and save the material cost and the die opening cost by splicing the first code piece and the second code piece in the code piece mechanism.

Description

Reinforcing code piece with positioning function

Technical Field

The utility model relates to the technical field of building installation, in particular to a reinforcing code with positioning function.

Background

The utility model provides a building curtain etc. articulates parts and is become by panel and bearing structure, has certain displacement ability for the main part structure, except transmitting self load to main part structure, still surrounds at main part structure's periphery and makes whole building reach pleasing to the eye effect, and assembly fields such as current building curtain mostly adopts the form of perpendicular installation, installs building curtain and bearing structure with perpendicular form for carrying thing or bearing pressure, nevertheless want to increase bearing structure's compressive capacity, the common practice is the thickness of increase building structure, and the increase of thickness often means the increase of cost. Accordingly, one skilled in the art would provide a reinforcement with positioning to solve the above-mentioned problems with the background art.

Disclosure of Invention

The present utility model is directed to a reinforcement code with positioning function, which solves the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the reinforcing code piece with the positioning function comprises two groups of lower aluminum profiles, two groups of middle aluminum profiles and an upper aluminum profile, wherein the two groups of middle aluminum profiles are symmetrically clamped at the top of the lower aluminum profiles, the upper aluminum profiles are embedded and clamped at the top of the two groups of middle aluminum profiles, and the lower aluminum profiles, the middle aluminum profiles and the upper aluminum profiles are assembled and fixed through a code piece mechanism;

the first code piece mechanism comprises two groups of first code pieces, the two groups of first code pieces are arranged in a positive and reverse symmetrical mode, the tops of the two groups of first code pieces are respectively provided with a second code piece, the two groups of first code pieces are respectively screwed and fixedly connected with the two groups of lower aluminum profiles through two groups of fastening bolts, the two groups of second code pieces respectively penetrate through the two groups of middle aluminum profiles and extend to the inside of a cavity of the upper aluminum profile, and the two groups of second code pieces are fixedly penetrated through by tightening pin rods.

As still further aspects of the utility model: two groups of box frame face top symmetry of lower part aluminium alloy has seted up first fastening screw, two groups of the seat face middle part symmetry of first sign indicating number spare has seted up two sets of second fastening screw with two sets of first fastening screw alignments, and runs through between first fastening screw and the second fastening screw and twist and connect fastening bolt.

As still further aspects of the utility model: two groups of first guide slots corresponding to two groups of second stacking pieces are respectively and thoroughly formed in the box frame plate surfaces of the middle aluminum profile, and two groups of second inserting holes corresponding to the two groups of second stacking pieces are symmetrically formed in the box frame plate surfaces of the upper aluminum profile by taking the central axis as a boundary.

As still further aspects of the utility model: the inner box frame plate surface of the upper aluminum profile is provided with a first inserting hole, the middle parts of the seat surfaces of the two groups of second code pieces are respectively provided with a third inserting hole corresponding to the first inserting hole, and a tightening pin rod is inserted between the first inserting hole and the third inserting hole.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model replaces the traditional mode of strengthening the supporting strength by increasing the thickness of the building structure, and the combination of the first code piece and the second code piece in the code piece mechanism is used for directly splicing and installing the lower aluminum profile, the middle aluminum profile and the upper aluminum profile, so that the utility model has the advantages of simple and convenient assembly efficiency on one hand, and can improve the installation efficiency, and on the other hand, compared with the method of strengthening the compressive capacity by thickening the building structure, the utility model can effectively reduce the cost, save the material cost and the die opening cost by splicing the first code piece and the second code piece in the code piece mechanism, and ensure the stress requirement of the building structure.

Drawings

FIG. 1 is a schematic view of a reinforcement structure with positioning;

FIG. 2 is an exploded view of a reinforcement brace with positioning;

FIG. 3 is a schematic view of an upper aluminum profile in a reinforcement brace with positioning;

FIG. 4 is a schematic diagram of a stacking mechanism with a positioning reinforcement stack.

In the figure: 1. a lower aluminum profile; 2. a middle aluminum profile; 3. a stacking mechanism; 31. a first code; 32. a second code; 33. a second fastening screw hole; 34. a fastening bolt; 35. tightening the pin rod; 36. a third plug hole; 4. an upper aluminum profile; 5. a first fastening screw hole; 6. a first guide slot; 7. a second plug hole; 8. and the first plug hole.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, in the embodiment of the present utility model, a reinforcement brace with positioning includes two sets of lower aluminum profiles 1, two sets of middle aluminum profiles 2, and an upper aluminum profile 4, wherein the two sets of middle aluminum profiles 2 are symmetrically clamped at the top of the two sets of lower aluminum profiles 1, the two sets of first brace 31 are respectively screwed and connected with the two sets of lower aluminum profiles 1 through two sets of fastening bolts 34, two sets of first fastening screw holes 5 are symmetrically formed at the top of the box frame surface of the two sets of lower aluminum profiles 1, two sets of second fastening screw holes 33 aligned with the two sets of first fastening screw holes 5 are symmetrically formed at the middle of the seat surface of the two sets of first brace 31, and fastening bolts 34 are penetrated and screwed between the first fastening screw holes 5 and the second fastening screw holes 33, when the reinforcement brace is used to mount a building structure, the second fastening screw holes 33 of the first brace 31 are aligned with the first fastening screw holes 5, and after the alignment is completed, the matched fastening bolts 34 are penetrated and screwed into the second fastening screw holes 33 and the first fastening screw holes 5, so that the first brace 31 is assembled with the lower aluminum profile 1.

The top embedding block of two sets of middle part aluminium alloy 2 has upper portion aluminium alloy 4, lower part aluminium alloy 1, middle part aluminium alloy 2, be fixed through the assembly of sign indicating number spare mechanism 3 between the upper portion aluminium alloy 4, sign indicating number spare mechanism 3 includes two sets of first sign indicating number spare 31, two sets of first sign indicating number spare 31 are the forward, reverse symmetry arranges, and the top of two sets of first sign indicating number spare 31 all is provided with second sign indicating number spare 32, two sets of first guide slot 6 corresponding with two sets of second sign indicating number spare 32 have been seted up respectively to the box frame face of two sets of middle part aluminium alloy 2, two sets of second spliced eyes 7 corresponding with two sets of second sign indicating number spare 32 have been seted up with the axis symmetry as the middle axis, when utilizing the enhancement sign indicating number spare to carry out the installation work to building structure, utilize second sign indicating number spare 32 and first guide slot 6, the second spliced eyes 7 correspond, with middle part aluminium alloy 2, upper portion aluminium alloy 4 pile up each other and install on lower part aluminium alloy 1 in proper order, make it has the mode of direct splice installation mutually to assemble, it has simple efficiency, and can improve the efficiency, and can be through the second sign indicating number spare 31, and can reduce the cost of each other by the second and can be compared with the second and the second sign indicating number spare 32, can be more effective through the second demand the second 3, the assembly efficiency of the second is compared with the second 3, can be compared with the second 3, and the improvement cost can be compared with the profile can be more convenient to the improvement through the second 3.

The two groups of second code pieces 32 penetrate through the two groups of middle aluminum profiles 2 and extend to the inside of the cavity of the upper aluminum profile 4 respectively, the two groups of second code pieces 32 are penetrated and fixed through tightening pins 35, the first inserting holes 8 are formed in the inner box frame surface of the upper aluminum profile 4, the third inserting holes 36 corresponding to the first inserting holes 8 are formed in the middle of the seat surface of the two groups of second code pieces 32, tightening pins 35 are penetrated and inserted between the first inserting holes 8 and the third inserting holes 36, after the three groups of profiles are assembled in sequence, the first inserting holes 8 of the upper aluminum profile 4 are aligned with the second inserting holes 36 of the second code pieces 32, and then the matched tightening pins 35 are penetrated and inserted into the first inserting holes 8 and the third inserting holes 36, so that the upper aluminum profile 4 and the second code pieces 32 are assembled and fixed with each other.

The working principle of the utility model is as follows: when the reinforcing code piece is used for mounting a building structure, the second fastening screw hole 33 of the first code piece 31 is aligned with the first fastening screw hole 5 of the lower aluminum profile 1, after the alignment is finished, the matched fastening bolt 34 is penetrated and screwed into the second fastening screw hole 33 and the first fastening screw hole 5, so that the first code piece 31 and the lower aluminum profile 1 are mutually assembled and fixed, then the second code piece 32 is utilized to correspond to the first guide slot 6 and the insertion of the second insertion hole 7, the middle aluminum profile 2 and the upper aluminum profile 4 are mutually stacked and mounted on the lower aluminum profile 1 in sequence, after the three-group profile is sequentially assembled, the first insertion hole 8 of the upper aluminum profile 4 is aligned with the second insertion hole 36 of the second code piece 32, then the matched fastening pin 35 is penetrated and inserted into the first insertion hole 8 and the third insertion hole 36, the upper aluminum profile 4 and the second code piece 32 are mutually assembled and fixed, the first code piece 31, the second code piece 32 and the lower aluminum profile 1 and the lower aluminum profile 4 are mutually assembled and fixed by the aid of the second code piece mechanism 3, the first code piece 31 and the second code piece 32 can be directly assembled and the second code piece can be directly assembled and the force-transmitting mechanism is reduced, the cost is improved compared with the first code piece and the second code piece is required to be directly assembled and the second code piece 32, and the second code piece is more convenient to be assembled and the assembly and the second 3.

Claims (4)

1. The utility model provides a strengthening code piece with location, includes two sets of lower part aluminium alloy (1), two sets of middle part aluminium alloy (2), upper portion aluminium alloy (4), its characterized in that, two sets of the top symmetry block of lower part aluminium alloy (1) has two sets of middle part aluminium alloy (2), two sets of the top embedding block of middle part aluminium alloy (2) has upper portion aluminium alloy (4), assemble fixedly through code piece mechanism (3) between lower part aluminium alloy (1), middle part aluminium alloy (2), upper portion aluminium alloy (4);

the utility model provides a sign indicating number spare mechanism (3) is including two sets of first sign indicating number spare (31), two sets of first sign indicating number spare (31) are forward, reverse symmetry arrangement, and the top of two sets of first sign indicating number spare (31) all is provided with second sign indicating number spare (32), two sets of first sign indicating number spare (31) are screwed down with two sets of lower part aluminium alloy (1) respectively through two sets of fastening bolt (34) and are connected, two sets of second sign indicating number spare (32) run through two sets of middle part aluminium alloy (2) and extend to the cavity inside of upper portion aluminium alloy (4) respectively, and link up fixedly through tightening pin pole (35) between two sets of second sign indicating number spare (32).

2. The reinforcement code with positioning according to claim 1, wherein two groups of first fastening screw holes (5) are symmetrically formed at the top of the box frame plate surface of the two groups of lower aluminum profiles (1), two groups of second fastening screw holes (33) aligned with the two groups of first fastening screw holes (5) are symmetrically formed at the middle part of the seat surface of the two groups of first code pieces (31), and fastening bolts (34) are penetrated and screwed between the first fastening screw holes (5) and the second fastening screw holes (33).

3. The reinforcing code with positioning according to claim 1, wherein two groups of first guiding slots (6) corresponding to two groups of second code pieces (32) are respectively and penetratingly arranged on the box frame plate surfaces of the two groups of middle aluminum profiles (2), and two groups of second inserting holes (7) corresponding to two groups of second code pieces (32) are symmetrically arranged on the box frame plate surfaces of the upper aluminum profiles (4) by taking a central axis as a boundary.

4. The reinforcement code with positioning according to claim 1, wherein the inner box frame plate surface of the upper aluminum profile (4) is provided with a first inserting hole (8), the middle parts of the seat surfaces of the two groups of the second code pieces (32) are respectively provided with a third inserting hole (36) corresponding to the first inserting hole (8), and a tightening pin rod (35) is inserted between the first inserting hole (8) and the third inserting hole (36).

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