CN217603845U - Combined laser welding thin-wall aluminum alloy plate - Google Patents

Abstract

The application discloses a combined laser welding thin-wall aluminum alloy plate, which belongs to the technical field of aluminum alloy plates and comprises an aluminum plate main body, wherein the upper surface of the aluminum plate main body sinks inwards to form a positioning displacement groove, and a positioning bulge matched with the positioning displacement groove is arranged at the bottom of the aluminum plate main body in a protruding mode; a plurality of groups of combined splicing holes are formed in one side wall of the aluminum plate main body, the plurality of groups of combined splicing holes are distributed at equal intervals, and a plurality of groups of combined locking mechanisms are arranged on one side of the aluminum plate main body, which is far away from the combined splicing holes; the combined locking mechanism comprises an outer frame, a lifting plate and a stress rod, wherein the outer frame is fixed on the inner wall of the aluminum plate main body, the inner part of the outer frame is arranged in a hollow mode, sealing plates are fixed on two sides of the outer frame, and the lifting plate is vertically arranged inside the outer frame. This combination formula laser welding thin wall aluminum alloy plate, the location is convenient, relies on the setting of combination locking mechanism and combination concatenation hole, can be fixed with the multiunit aluminum plate main part that distributes side by side, and whole combination assembly process is succinct, and is efficient.

Description

Combined laser welding thin-wall aluminum alloy plate

Technical Field

The application belongs to the technical field of aluminum alloy plate, especially, relate to a modular laser welding thin wall aluminum alloy plate.

Background

The aluminum alloy plate is an industrial building material, is used in various industries according to different materials, can be divided into two categories of non-painting products and painting products according to surface treatment modes, and has the industries of airplane structures, rivets, missile components, truck hubs, packaging and heat insulation aluminum foils, heat exchangers, bulkheads, wing ribs, wing spars and the like.

In the process of implementing the application, the inventor finds that at least the following problems exist in the technology: the aluminum alloy plate produced by bending is gradually replaced by the existing laser-welded thin-wall aluminum alloy plate due to excellent smoothness and attractiveness, the aluminum alloy plate is mostly installed on buildings and doors in a splicing assembly mode in the application of the building field to achieve the decoration effect, the existing construction mode needs to position the thin-wall aluminum alloy plates one by one and then bind the thin-wall aluminum alloy plates one by one, the construction efficiency is low, and therefore, the combined laser-welded thin-wall aluminum alloy plate solves the problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aim at in order to solve prior art, current construction method need fix a position thin wall aluminum alloy plate one by one and bind one by one afterwards for the efficiency of construction is lower, for this reason, we propose a modular laser welding thin wall aluminum alloy plate and solve above-mentioned problem.

In order to achieve the purpose, the following technical scheme is adopted in the application:

a combined laser welding thin-wall aluminum alloy plate comprises an aluminum plate main body, wherein the upper surface of the aluminum plate main body sinks inwards to form a positioning displacement groove, and a positioning bulge matched with the positioning displacement groove is arranged at the bottom of the aluminum plate main body in a protruding mode;

a plurality of groups of combined splicing holes are formed in one side wall of the aluminum plate main body, the plurality of groups of combined splicing holes are distributed at equal intervals, and a plurality of groups of combined locking mechanisms are arranged on one side of the aluminum plate main body, which is far away from the combined splicing holes;

make up locking mechanism and include frame, lifter plate and atress pole, the frame is fixed in on the inner wall of aluminum plate main part, and the inside of frame sets up for cavity, and both sides all are fixed with the shrouding, the vertical setting of lifter plate is inside the frame, the atress pole is in lifter plate side equidistance distributes and has the multiunit, and all sets up flutedly on the outer wall of multiunit atress pole, the lifter plate is equipped with the tooth piece with the recess adaptation towards the protruding on the face of atress pole, the tip fixedly connected with bolt of atress pole.

Benefit from and decide the bellied cooperation of displacement groove and location, can fix a position the aluminum plate main part when the installation, when the protruding end that slides to the groove is moved in the location, be the state of two aluminum plate main parts parallel and level that parallel promptly, the location is convenient.

Preferably, the aluminum plate main part is close to one side protrusion that makes up locking mechanism and is equipped with the binding off sand grip, the aluminum plate main part deviates from one side of binding off sand grip has the gomphosis breach of adaptation binding off sand grip, binding off sand grip sets up with aluminum plate main part integrated into one piece.

Benefit from the fracture that the combination of binding off sand grip and gomphosis breach formed can shelter from the aluminum plate main part, promote the aesthetic property.

Preferably, the upper surface of frame is equipped with the adjusting knob, the bottom end face fixed connection of adjusting knob has adjusting screw, adjusting screw is vertical to be set up and the screw thread runs through the frame, adjusting screw rotates the upper surface of connecting the lifter plate, the lifter plate is for invering L shape structure. And a plurality of groups of threaded holes for bolts to pass are formed on the sealing plate close to the inner wall of the aluminum plate main body, and the threaded holes correspond to the combined splicing holes.

Benefiting from the cooperation of adjusting knob and adjusting screw for the lifter plate can remain stable vertical removal, and then drives the atress pole and rotates and make the bolt fixed between the aluminum plate main part.

Preferably, the positions of the multiple groups of combined locking mechanisms correspond to the multiple groups of combined splicing holes.

Benefit from the setting of combination concatenation hole, the locking bull stick is at rotatory in-process, connects the binding face of two aluminum plate main parts, accomplishes fixedly.

To sum up, the technical effect and the advantage of this application: this combination formula laser welding thin wall aluminum alloy plate, through deciding the bellied cooperation in displacement groove and location, can fix a position just to the aluminum plate main part when the installation, the protruding end that slides to the groove that moves in location is fixed a position when, be the state of two aluminum plate main part parallel and level that parallel promptly, the location is convenient, and rely on the setting of combination locking mechanism and combination concatenation hole, can be with the multiunit aluminum plate main part quick fixation who distributes side by side, and by lifter vertical removal, drive multiunit atress pole synchronous rotation, and then can rotate multiunit bolt simultaneously, reach the effect of quick installation, whole combination assembly process is succinct, high efficiency, and convenient operation.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

FIG. 5 is a schematic structural view of the combination locking mechanism;

fig. 6 is a structural schematic diagram of the force-bearing rod and the bolt.

In the figure: 1. an aluminum plate main body; 2. combining the splicing holes; 3. a combined locking mechanism; 4. closing plates; 5. a fixed displacement slot; 6. a fitting notch; 7. positioning the projection; 8. closing up convex strips; 9. adjusting the screw rod; 10. an adjusting knob; 11. a lifting plate; 12. a stress beam; 13. a tooth block; 14. an outer frame; 15. a groove; 16. and (4) bolts.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

Referring to fig. 1, fig. 2, fig. 3, a modular laser welding thin wall aluminum alloy plate, including aluminum plate main part 1, the upper surface of aluminum plate main part 1 sinks inwards to be formed with the location and moves groove 5, and aluminum plate main part 1's bottom protrusion is equipped with the location arch 7 that the displacement groove 5 was decided to the adaptation, has seted up multiunit combination concatenation hole 2 on one side wall of aluminum plate main part 1, and multiunit combination concatenation hole 2 equidistance interval distribution, and one side that aluminum plate main part 1 deviates from combination concatenation hole 2 is equipped with multiunit combination locking mechanism 3. The positions of the multi-group combined locking mechanism 3 correspond to the multi-group combined splicing holes 2. The combined splicing holes 2 are threaded holes and are used for threaded connection among the multiple groups of aluminum plate main bodies 1.

Referring to fig. 1, 2 and 4, a closing convex strip 8 is convexly arranged on one side of the aluminum plate main body 1 close to the combined locking mechanism 3. One side of the aluminum plate body 1 departing from the closing-up convex strip 8 is provided with an embedded notch 6 matched with the closing-up convex strip 8. The closing-up convex strip 8 and the aluminum plate main body 1 are integrally formed. The close-up convex strip 8 and the jogged notch 6 are jogged with each other to improve the beauty.

Refer to fig. 1, fig. 5, fig. 6, combination locking mechanism 3 includes frame 14, lifter plate 11 and atress pole 12, frame 14 is fixed in on the inner wall of aluminum plate main part 1, and the inside of frame 14 is the cavity setting, and both sides all are fixed with shrouding 4, 11 vertical settings of lifter plate are inside frame 14, atress pole 12 has the multiunit at 11 side equidistance distributions of lifter plate, and all seted up recess 15 on the outer wall of multiunit atress pole 12, lifter plate 11 is equipped with the tooth piece 13 with recess 15 adaptation towards protruding on the face of atress pole 12, tooth piece 13 has the multiunit along the direction of height equidistance array distribution of lifter plate 11. The end of the stress rod 12 is fixedly connected with a bolt 16. When the stress rod 12 is rotated, the multiple groups of grooves 15 on the outer wall synchronously move along the tooth blocks 13 along with the rotation, the upper surface of the outer frame 14 is provided with the adjusting button 10, the bottom end surface of the adjusting button 10 is fixedly connected with the adjusting screw rod 9, the adjusting screw rod 9 is vertically arranged and penetrates through the outer frame 14 in a threaded manner, the adjusting screw rod 9 is rotatably connected with the upper surface of the lifting plate 11, and the lifting plate 11 is of an inverted L-shaped structure. A plurality of groups of threaded holes for the bolts 16 to pass are formed in the sealing plate 4 close to the inner wall of the aluminum plate main body 1, and the threaded holes correspond to the combined splicing holes 2. The stress rod 12 drives the bolt 16 to rotate, the bolt 16 penetrates through the outer frame 14 and the aluminum plate main body 1 and rotates towards the inner spiral of the combined splicing hole 2, and therefore the two aluminum plate main bodies 1 which are arranged side by side are fixed.

The working principle is as follows: when using, aluminum plate main part 1 carries out laser welding according to the demand size in the mill and forms required shape, selects to punch according to decorating the molding demand afterwards, and aluminum plate main part 1 at first corresponds the below right angle department of installation wall body and fixed with the wall body when the installation, and aluminum plate main part 1 of first piece installation is as the benchmark board. Then another aluminum plate main part 1 is slidably mounted above the aluminum plate main part, the positioning protrusion 7 at the bottom of the aluminum plate main part 1 above the aluminum plate main part is pushed in along the positioning moving groove 5 on the upper surface of the aluminum plate main part 1 below the aluminum plate main part, so that the two aluminum plate main parts 1 automatically complete positioning when the positioning protrusion 7 moves to the end of the positioning moving groove 5, and a row of positioning reference consisting of a plurality of vertical aluminum plate main parts 1 is formed when the aluminum plate main parts 1 are vertically assembled in sequence.

And then, continuously installing the aluminum plate main body 1, arranging and installing the aluminum plate main body 1 in the horizontal direction, and directly fixing the horizontally installed aluminum plate main body 1 through the combined splicing hole 2 and the combined locking mechanism 3 in a threaded connection manner. After two aluminum plate main parts 1 laminate side by side, rotate adjusting knob 10, adjusting knob 10 drives adjusting screw 9 and rotates, adjusting screw 9 descends the height along frame 14, it moves down to drive lifter 11, because be equipped with tooth piece 13 on lifter 11, so when tooth piece 13 descends along with lifter 11, can cooperate with the recess 15 of atress pole 12 outer wall, it rotates simultaneously to drive atress pole 12, atress pole 12 drives bolt 16 and rotates, bolt 16 passes frame 14, aluminum plate main part 1, the inside spiral of face combination joggle hole 2 rotates, and bolt 16 is in spiral shifting, atress pole 12 synchronous revolution, multiunit recess 15 is along with rotating synchronous along tooth piece 13 horizontal migration, make two aluminum plate main parts 1 side by side fixed, only need to rotate adjusting knob 10 can drive the rotation simultaneously of multiunit bolt 16 and make up joggle hole 2 threaded connection, effectively promote the installation effectiveness, install surplus aluminum plate main part 1 again in proper order afterwards, continue the installation of second row after one row of installation finishes.

The above description is only for the preferred embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art should be considered to be within the scope of the present application, and all equivalent substitutions and changes according to the technical solutions and the inventive concepts of the present application should be covered by the scope of the present application.

Claims (8)

1. A combined laser welding thin-wall aluminum alloy plate comprises an aluminum plate main body (1) and is characterized in that the upper surface of the aluminum plate main body (1) is inwards collapsed to form a positioning displacement groove (5), and a positioning protrusion (7) matched with the positioning displacement groove (5) is convexly arranged at the bottom of the aluminum plate main body (1);

a plurality of groups of combined splicing holes (2) are formed in the side wall of one side of the aluminum plate main body (1), the plurality of groups of combined splicing holes (2) are distributed at equal intervals, and a plurality of groups of combined locking mechanisms (3) are arranged on one side of the aluminum plate main body (1) away from the combined splicing holes (2);

combination locking mechanism (3) are including frame (14), lifter plate (11) and atress pole (12), frame (14) are fixed in on the inner wall of aluminum plate main part (1), and the inside of frame (14) sets up for cavity, and both sides all are fixed with shrouding (4), lifter plate (11) vertical setting is inside frame (14), atress pole (12) lifter plate (11) side equidistance distributes and has the multiunit, and all sets up fluted (15) on the outer wall of multiunit atress pole (12), lifter plate (11) are equipped with tooth piece (13) with recess (15) adaptation towards the face epirelief of atress pole (12), the tip fixedly connected with bolt (16) of atress pole (12).

2. The combined laser welding thin-wall aluminum alloy plate as recited in claim 1, characterized in that a closing-up convex strip (8) is convexly arranged on one side of the aluminum plate main body (1) close to the combined locking mechanism (3).

3. The combined laser welding thin-wall aluminum alloy plate as recited in claim 2, wherein one side of the aluminum plate main body (1) facing away from the closing-up convex strip (8) is provided with a tabling notch (6) matched with the closing-up convex strip (8).

4. The combined laser welding thin-wall aluminum alloy plate as recited in claim 1, wherein an adjusting button (10) is arranged on the upper surface of the outer frame (14), an adjusting screw (9) is fixedly connected to the bottom end surface of the adjusting button (10), the adjusting screw (9) is vertically arranged and penetrates through the outer frame (14) in a threaded manner, the adjusting screw (9) is rotatably connected with the upper surface of the lifting plate (11), and the lifting plate (11) is of an inverted L-shaped structure.

5. The combined laser welding thin-wall aluminum alloy plate as claimed in claim 1, wherein a plurality of groups of threaded holes for bolts (16) to pass through are formed in the sealing plate (4) close to the inner wall of the aluminum plate main body (1), and the threaded holes correspond to the combined splicing holes (2).

6. A combined laser welding thin-wall aluminum alloy plate according to claim 1, characterized in that a plurality of groups of combined locking mechanisms (3) correspond to a plurality of groups of combined splicing holes (2) in position.

7. The combined laser welding thin-wall aluminum alloy plate as recited in claim 3, wherein the closing-up convex strip (8) is integrally formed with the aluminum plate body (1).

8. The combined laser welding thin-wall aluminum alloy plate as recited in claim 4, wherein the tooth blocks (13) are distributed in a plurality of groups in an equidistant array along the height direction of the lifting plate (11).

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