CN215155471U - Be used for ligature bridge shear force wall to inlay mechanism - Google Patents

Abstract

The utility model discloses a shear wall embedding mechanism for a binding bridge, which comprises a binding bridge body and a shear wall body, wherein a plurality of embedding grooves are arranged on a stand column, a plurality of limiting clamping blocks are connected on the groove wall of the embedding groove, an embedding block is arranged at the embedding groove, a convex groove is arranged at the bottom of the embedding block, an adjusting part is connected at one side of the embedding block, the adjusting part is connected with the shear wall body and is used for adjusting the convex groove on the embedding block to be clamped with the position of the limiting clamping block, the two sides of the top of the embedding block are respectively connected with an installing part corresponding to the position of an installing hole, the shear wall embedding mechanism for the binding bridge utilizes the adjusting part to adjust the embedding position of the embedding block at the embedding groove, when the position of the embedding block at the embedding groove is adjusted by the adjusting part, one end of the adjusting part is mutually connected with the shear wall body, thereby adjusting the installing position of the shear wall body at the binding bridge body, the adjusting efficiency of the mounting position of the shear wall body is improved.

Description

Be used for ligature bridge shear force wall to inlay mechanism

Technical Field

The utility model relates to a ligature bridge technical field specifically is a be used for ligature bridge shear force wall to inlay mechanism.

Background

Along with the increase of the number of the layers of the containers on the container ship, the containers stacked on the deck are subjected to larger external loads such as inertial force generated by wind, wave and ship movement, and the like, so that the containers are in danger of overturning, the binding bridge ensures the stability of goods on the container ship in the transportation process, the binding bridge mainly bears the transverse inertial load of the ship, and the transverse load is mainly borne by the shear wall.

The existing shear wall is arranged at the position of a binding bridge, the shear wall is aligned at the installation position of the binding bridge, because the shear wall and the binding bridge have certain height sizes, the shear wall is aligned at the installation position of the binding bridge, the shear wall and the binding bridge are pre-fixed by fixing connecting pieces such as bolts for fixing, and then corresponding adjustment is carried out at the position of the binding bridge according to the shear wall.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a be used for ligature bridge shear force wall to inlay mechanism to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a shear wall embedding mechanism for a binding bridge comprises a binding bridge body and a shear wall body, wherein a plurality of upright posts are connected to the binding bridge body, and the upright posts are provided with a plurality of mounting holes, the shear wall body is arranged between the two mutually symmetrical upright posts, a plurality of embedded grooves are arranged on the upright post, a plurality of limiting clamping blocks are connected on the wall of each embedded groove, an embedded block is arranged at the embedded groove, and the bottom of the mosaic block is provided with a convex groove which is corresponding to the limiting clamping block, one side of the mosaic block is connected with an adjusting piece, the adjusting piece is connected with the shear wall body and used for adjusting the position of the convex groove on the embedding block to be clamped with the position of the limiting clamping block, the mosaic block top both sides are connected with the installed part that corresponds each other with the mounting hole position respectively, are favorable to adjusting the mounted position of shear force wall and ligature bridge in the shear force wall installation.

Preferably, the adjustment piece is including connecting the spliced pole in mosaic piece one side, shear force wall body both sides wall is equipped with a plurality of adjustment grooves respectively, and every adjustment groove position and mosaic piece correspond to each other, two lateral wall departments of adjustment inslot portion are equipped with the spacing groove respectively, and spacing groove department is connected with the stopper, the stopper is connected with the spliced pole, adjustment groove top is equipped with the slide rail, the stopper top is connected with the slide bar that passes the slide rail, the slide bar top is connected with promotes the piece, thereby adjusts the position of inlaying of mosaic piece through the position of adjustment spliced pole.

Preferably, the inside reset spring that is equipped with of adjustment groove, reset spring one end is connected with the stopper, and the reset spring other end and the interior wall connection of adjustment groove, and reset spring is favorable to the adjustment that resets to the mosaic block adjustment in-process.

Preferably, the installed part is including connecting the adjustment post at the mosaic block top, and has cup jointed the mounting panel in the adjustment post outside, mounting panel one end is located mounting hole department, and the one end that the mounting panel is located the mounting hole is equipped with the guiding hole, and the mounting panel is convenient for be connected mosaic block and ligature bridge body.

Preferably, the cross-section of inlaying recess and mosaic block is triangle-shaped, and mosaic block inclination is less than the inclination of inlaying the recess, and the inclination of mosaic block is little is convenient for more stable card inside inlaying the recess.

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

1. the utility model discloses, when the shear force wall is installed to ligature bridge body department, utilize the position of inlaying of the adjustment piece adjustment mosaic piece of establishing inlaying groove, because inlaying the mutual joint of protruding groove on groove through spacing fixture block and mosaic piece of groove, when the position of inlaying the groove is being adjusted to the adjustment piece, because adjustment piece one end and shear force wall body interconnect, thereby adjustment shear force wall body is at the mounted position of ligature bridge body, the trouble that personnel in the mounting shear force wall body in-process dismouting was fixing bolt in advance has been reduced, the adjustment efficiency of the mounted position of shear force wall body has been improved.

2. The utility model discloses, be favorable to the mosaic block adjustment through be connected reset spring between stopper and adjustment groove.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the lashing bridge body of the present invention;

fig. 3 is a schematic structural view of the shear wall body of the present invention;

FIG. 4 is a schematic view of a partially cut-away structure of the adjusting member of the present invention;

fig. 5 is another angle structure diagram of fig. 4.

In the figure: 1-binding a bridge body; 2-a shear wall body; 3-upright column; 4-mounting holes; 5-embedding the groove; 6-limiting a fixture block; 7-mosaic blocks; 8-an adjusting part; 9-a mounting member; 71-raised grooves; 81-connecting column; 82-an adjustment groove; 83-a limiting groove; 84-a limiting block; 85-a slide rail; 86-a slide bar; 87-a push block; 88-a return spring; 91-adjusting the column; 92-a mounting plate; 93-guide holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a shear wall inlaying mechanism for a binding bridge solves the problem that the existing shear wall body 2 needs to be adjusted in the installation process of the binding bridge body 1, but because the shear wall body 2 is fixedly connected with the binding bridge body 1 in advance through fixing parts such as bolts and the like, the bolts need to be disassembled and assembled when the position of the shear wall body 2 is adjusted, which brings trouble to the installation of the shear wall body 2, and comprises the binding bridge body 1 and the shear wall body 2, wherein a plurality of stand columns 3 are connected on the binding bridge body 1, a plurality of installation holes 4 are arranged on the stand columns 3, the shear wall body 2 is arranged between two stand columns 3 which are mutually symmetrical, a plurality of inlaying grooves 5 are arranged on the stand columns 3, a plurality of limiting fixture blocks 6 are connected on the groove walls where the inlaying grooves 5 are inlaid, inlaid blocks 7 are arranged at the positions of the inlaying grooves 5, and the bottoms of the inlaid blocks 7 are provided with protruding grooves 71 which correspond to the limiting fixture blocks 6, mosaic 7 one side is connected with adjusting part 8, and adjusting part 8 is connected with shear force wall body 2, adjusting part 8 is used for adjusting protruding groove 71 and the spacing fixture block 6 position on mosaic 7 and carries out the joint, mosaic 7 top both sides are connected with respectively and install the piece 9 with 4 mutual correspondences in position of mounting hole.

When installing shear force wall body 2 at ligature bridge body 1, through placing shear force wall body 2 between two adjacent stands 3, this moment according to the position of shear force wall body 2, inlay the position of piece 7 through adjusting part 8 adjustment relevant position, for example, when shear force wall body 2 left side is close to stand 3 on the ligature bridge body 1, need remove shear force wall body 2 to the right side this moment, adjust left side inlay the position between piece 7 and the inlay recess 5 through adjusting part 8 this moment, thereby make shear force wall body 2 to the right side be close to, simultaneously because the protruding groove 71 of inlaying 7 bottom connection and the spacing fixture block 6 of inlaying the recess 5 on connecting match the joint each other, be convenient for at shear force wall body 2 before installing with ligature bridge body 1 in advance fixed.

In the scheme, the adjusting part 8 comprises a connecting post 81 connected to one side of the mosaic block 7, two side walls of the shear wall body 2 are respectively provided with a plurality of adjusting grooves 82, the position of each adjusting groove 82 corresponds to the mosaic block 7, two side walls inside the adjusting grooves 82 are respectively provided with a limiting groove 83, the limiting groove 83 is connected with a limiting block 84, the limiting block 84 is connected with the connecting post 81, the top of the adjusting groove 82 is provided with a slide rail 85, the top of the limiting block 84 is connected with a slide rod 86 penetrating through the slide rail 85, the top of the slide rod 86 is connected with a pushing block 87, the shear wall body 2 is placed between two upright posts 3, the length of the two upright posts 3 designed in the scheme is smaller than that of the upright posts 3 on two sides, before the shear wall body 2 is installed, the shear wall body 2 needs to be stabilized at four corners of the shear wall body 2, so that the shear wall body 2 and the binding bridge body 1 can be installed and fixed, after the shear wall body 2 is placed between the two columns 3, at this time, an installer needs to move the shear wall body 2 to the left side by pushing the pushing block 87 to make the limiting block 84 slide along the limiting groove 83, for example, after the right side of the shear wall body 2 is too close to the position of the column 3, at this time, the installer can push the two pushing blocks 87 to simultaneously break the mosaic block 7 on the left side and the mosaic groove 5, so that the limiting block 84 can push the fixedly connected mosaic block 7 to move conveniently, because the cross section of the mosaic block 7 in the scheme is triangular, when the mosaic block 7 is pushed forwards, the contact area between the mosaic block 7 and the mosaic groove 5 is increased, and because the bottom of the mosaic block 7 is fixed with the protruding groove 71, the bottom of the mosaic groove 5 is fixedly connected with the limiting block 6, and through the mutual matching of the limiting block 6 and the protruding groove 71, the mosaic blocks 7 and the mosaic grooves 5 are clamped with each other conveniently, so that the shear wall body 2 is close to the left side.

Adjusting groove 82 is inside to be equipped with reset spring 88, reset spring 88 one end is connected with stopper 84, and reset spring 88 other end and adjusting groove 82's inner wall connection, when adjusting mosaic 7, utilizes the elasticity of reset spring 88 to the position of stopper 84.

Further installed part 9 is including connecting at the adjustment post 91 at mosaic block 7 top, and has cup jointed mounting panel 92 in the adjustment post 91 outside, mounting panel 92 one end is located mounting hole 4 department, and the one end that mounting panel 92 is located mounting hole 4 is equipped with guiding hole 93, after mosaic block 7 and 5 position adjustment of inlay groove confirm, utilize the bolt to pass guiding hole 93 and peg graft in 4 position departments of mounting hole this moment, be convenient for will stabilize mosaic block 7 in ligature bridge body 1 position department through mounting panel 92, simultaneously because mounting panel 92 and adjustment post 91 are the rotation connection, consequently when adjustment mosaic block 7 and 5 positions of inlay groove, be convenient for adjust the position of mounting panel 92.

The cross-section of inlaying recess 5 and mosaic 7 is triangle-shaped, and mosaic 7 inclination is less than the inclination of inlaying recess 5, utilizes mosaic 7 area urine to be in pegging graft inside inlaying recess 5.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a be used for ligature bridge shear force wall to inlay mechanism, includes ligature bridge body (1) and shear force wall body (2), its characterized in that: a plurality of upright posts (3) are connected on the binding bridge body (1), a plurality of mounting holes (4) are arranged on the upright posts (3), the shear wall body (2) is arranged between two mutually symmetrical upright posts (3), a plurality of embedded grooves (5) are arranged on the upright post (3), a plurality of limiting clamping blocks (6) are connected on the groove wall of each embedded groove (5), an embedded block (7) is arranged at the position of each embedded groove (5), and the bottom of the mosaic block (7) is provided with a convex groove (71) which is corresponding to the limiting clamping block (6), one side of the mosaic block (7) is connected with an adjusting piece (8), the adjusting piece (8) is connected with the shear wall body (2), the adjusting piece (8) is used for adjusting the position of the convex groove (71) on the mosaic block (7) to be clamped with the position of the limiting clamping block (6), and mounting pieces (9) corresponding to the mounting holes (4) in position are respectively connected to two sides of the top of the mosaic block (7).

2. The shear wall embedding mechanism for the lashing bridge of claim 1, wherein: adjusting part (8) is including connecting spliced pole (81) in mosaic piece (7) one side, shear force wall body (2) both sides wall is equipped with a plurality of adjustment grooves (82) respectively, and every adjustment groove (82) position corresponds each other with mosaic piece (7), two inside lateral walls departments of adjustment groove (82) are equipped with spacing groove (83) respectively, and spacing groove (83) department is connected with stopper (84), stopper (84) are connected with spliced pole (81), adjustment groove (82) top is equipped with slide rail (85), stopper (84) top is connected with slide bar (86) that pass slide rail (85), slide bar (86) top is connected with and promotes piece (87).

3. The shear wall embedding mechanism for the lashing bridge of claim 2, wherein: adjusting groove (82) inside reset spring (88) that is equipped with, reset spring (88) one end is connected with stopper (84), and the inner wall connection of reset spring (88) other end and adjusting groove (82).

4. The shear wall embedding mechanism for the lashing bridge of claim 1, wherein: installation part (9) including connecting adjustment post (91) at mosaic block (7) top, and adjusted post (91) outside and cup jointed mounting panel (92), mounting panel (92) one end is located mounting hole (4) department, and the one end that mounting panel (92) are located mounting hole (4) is equipped with guiding hole (93).

5. The shear wall embedding mechanism for the lashing bridge of claim 1, wherein: the cross sections of the embedding grooves (5) and the embedding blocks (7) are triangular, and the inclination angles of the embedding blocks (7) are smaller than that of the embedding grooves (5).

Images