CN220868597U - Reinforcing steel bar connection structure - Google Patents

Abstract

The application relates to a steel bar connecting structure which comprises a plurality of vertical bars, wherein a plurality of transverse bars are arranged between the vertical bars, an auxiliary leveling and aligning device is detachably arranged at the bottom of each transverse bar, and comprises a plurality of clamping components used for clamping the vertical bars, a plurality of bearing components arranged between the clamping components and used for bearing the transverse bars, and a bubble level used for judging the levelness of the bearing components. The application has the effect of improving the problem that the whole steel bars formed by connecting and reinforcing the transverse bars and the vertical bars are inclined due to the fact that the levelness of the transverse bars is judged through vision by building workers frequently based on experience in the related art, so that the bearing requirement of the shear wall cannot be met.

Description

Reinforcing steel bar connection structure

Technical Field

The application relates to the field of building construction, in particular to a steel bar connecting structure.

Background

Shear walls, also known as wind resistant walls, shock resistant walls or structural walls. The shear wall is a wall body which mainly bears horizontal load and vertical load caused by wind load or earthquake action in houses or structures, can prevent the shearing damage of the structures, and is generally made of reinforced concrete.

In the related art, a great number of steel bars are required to be arranged in the construction process of the shear wall, and the steel bars are required to be connected and reinforced to form a whole so as to meet the bearing requirement of the shear wall. At present, the connection reinforcing mode between reinforcing steel bars is: fixing the position of the vertical ribs, bending the transverse ribs into a certain shape, connecting the transverse ribs between the vertical ribs which are required to be connected and reinforced, and binding and fixing the staggered nodes of the transverse ribs and the vertical ribs which are required to be reinforced through steel wires.

However, in the related art, when the transverse ribs are connected, a construction worker often judges the levelness of the transverse ribs through experience, and because the experience of the construction worker is different, the construction level of the construction worker is uneven, and the transverse ribs connected by the construction worker are inclined, the whole reinforcing steel bars formed by connecting and reinforcing the transverse ribs with the vertical ribs are inclined, so that the bearing requirement of the shear wall cannot be met.

Disclosure of utility model

In order to solve the problem that in the related art, as construction workers often experience, the levelness of the transverse ribs is judged visually, the whole steel bars formed by connecting and reinforcing the transverse ribs with the vertical ribs are inclined, and further the bearing requirement of the shear wall cannot be met, the application provides a steel bar connecting structure.

The application provides a steel bar connecting structure which adopts the following technical scheme:

The utility model provides a steel bar connection structure, includes a plurality of perpendicular muscle, a plurality of be provided with a plurality of horizontal muscle between the perpendicular muscle, horizontal muscle bottom can be dismantled and be provided with supplementary leveling counterpoint device, supplementary leveling counterpoint device is including a plurality of clamping components that are used for a plurality of perpendicular muscle of centre gripping, set up a plurality of bearing components that are used for bearing the weight of horizontal muscle and be used for judging the bubble spirit level that bears the weight of the component levelness between a plurality of clamping components, when connecting horizontal muscle, makes the position level of horizontal muscle through supplementary leveling counterpoint device.

Through adopting above-mentioned technical scheme, after fixing the position of erecting the muscle, buckle into certain shape reserve with horizontal muscle, use a plurality of clamping assembly centre gripping to erect the muscle, judge the levelness that bears the subassembly through bubble spirit level, adjust the height that clamping assembly centre gripping erected the muscle for bubble spirit level shows the level, and then makes to bear subassembly position level. The bearing assembly is used for bearing the bent transverse ribs, the bent transverse ribs are fixed by steel wires, the positions of the connected transverse ribs are horizontal, the alignment of the transverse ribs is realized, and the problem that the bearing requirement of the shear wall cannot be met due to the fact that in the related art, a construction worker frequently judges the levelness of the transverse ribs through experience, the transverse ribs are possibly caused to be connected with vertical ribs, and the reinforcing bars formed by reinforcement are wholly inclined is solved.

Optionally, the bearing assembly comprises a telescopic bearing rod and a bearing seat for bearing the transverse ribs.

By adopting the technical scheme, the bearing seat can bear the transverse ribs, the telescopic bearing rod can be suitable for bearing the transverse ribs among the vertical ribs with different intervals, and the application range of the auxiliary leveling alignment device is enlarged.

Optionally, the tip of flexible carrier bar can be dismantled and be provided with the adaptor, when needs connect the horizontal muscle that middle part was buckled between a plurality of perpendicular muscle, the adaptor can link up a plurality of groups and assist leveling counterpoint device.

Through adopting above-mentioned technical scheme, when needs connect the horizontal muscle that middle part was buckled between a plurality of perpendicular muscle, the adaptor can link up a plurality of groups of auxiliary leveling counterpoint devices, and a plurality of groups of auxiliary leveling counterpoint devices that are connected through the adaptor can be applicable to the horizontal muscle that middle part was buckled, for example: the stirrup further expands the application scope of auxiliary leveling alignment device, moreover, the adaptor can be detached from the end of the telescopic carrier rod, and the auxiliary leveling alignment device is also applicable to the transverse bars with no bending at the middle part.

Optionally, the adaptor adopts a two-way 90-degree elbow joint.

Through adopting above-mentioned technical scheme, two ends that two lead to 90 elbow joints respectively can connect a set of auxiliary leveling counterpoint device, in the horizontal muscle of shear force wall, the angle of buckling in horizontal muscle middle part is 90 usually, therefore the adaptor adopts 90 elbow joints to be applicable to the horizontal muscle connection of shear force wall.

Optionally, the flexible carrier bar includes the slide bar, slides respectively and sets up in two sets of sleeves at slide bar both ends and sets up the locking piece that is used for fixed sleeve position in sleeve one end that is close to the slide bar.

Through adopting above-mentioned technical scheme, the sleeve at slide bar both ends slides along the slide bar and then extends or shortens the length of flexible carrier bar, and the telescopic position of locking piece can be fixed and then the length of fixed flexible carrier bar.

Optionally, the locking piece adopts a hoop.

By adopting the technical scheme, the locking effect of the anchor ear is good, the sleeve position can be stably fixed, and moreover, the anchor ear technology is mature and the cost is lower.

Optionally, the centre gripping subassembly includes the armature seat, sets up in the centre gripping shell fragment of armature seat, the centre gripping shell fragment is including the clamping part that is used for the centre gripping to erect the muscle, the both ends portion that the armature seat was kept away from to the neck that the orientation extension formed of keeping away from the armature seat was kept away from to the centre of clamping part was kept away from to the neck, the tip that the neck was kept away from the armature seat extends the turn-ups portion that forms to the orientation of keeping away from the centre of clamping part.

Through adopting above-mentioned technical scheme, through turn-ups portion, erect the muscle and can be fast with the centre gripping shell fragment counterpoint, erect the muscle in the neck entering clamping part of muscle through the centre gripping shell fragment, erect the muscle through clamping part centre gripping, under the condition that does not have external force, the neck has reduced the possibility of erecting the muscle from clamping part roll-off, moreover, has improved the centre gripping through the centre gripping shell fragment and has dismantled the convenience of erecting the muscle.

Optionally, the neck is provided with the through-hole, the through-hole can dismantle and wear to be equipped with first bolt.

Through adopting above-mentioned technical scheme, when the elasticity that the centre gripping shell fragment leads to the centre gripping shell fragment reduces, the clamping force weakens because of long-time use, the fixed clamping part of centre gripping shell fragment of accessible first bolt, and then make the centre gripping shell fragment stably centre gripping erect the muscle.

Optionally, the clamping part is provided with an anti-slip raised strip.

Through adopting above-mentioned technical scheme, the anti-skidding sand grip has increased the frictional force between the clamping part of perpendicular muscle and centre gripping shell fragment to having reduced and having erect the gliding possibility of muscle in the clamping part, and then having made the centre gripping shell fragment more stably centre gripping erect the muscle.

Optionally, the engagement seat is detachably connected with the sleeve.

Through adopting above-mentioned technical scheme, link up seat and sleeve and can dismantle and be connected, and then make clamping component can follow auxiliary leveling counterpoint device and dismantle, when a plurality of auxiliary leveling counterpoint devices that are connected through the adaptor are because of clamping component centre gripping same erects the muscle and produce when interfering, can dismantle unnecessary clamping component, only leave a set of and add and hold this piece of muscle that erects of subassembly centre gripping and then reduce the possibility that produces the interference.

In summary, the application has the following beneficial technical effects:

1. According to the application, the auxiliary leveling alignment device is arranged, the position of the bearing assembly is horizontal through the bubble level meter, the bearing assembly is used for bearing the well-bent transverse ribs, and the well-bent transverse ribs are fixed through steel wires, so that the connected transverse ribs can be horizontal, and the problem that the whole steel bars formed by connecting and reinforcing the transverse ribs with the vertical ribs are inclined due to the fact that the levelness of the transverse ribs is judged through vision by building workers frequently according to experience in the related art, so that the bearing requirement of the shear wall cannot be met is solved;

2. According to the application, the clamping elastic piece is arranged, so that the convenience of clamping and disassembling the vertical rib is improved, the vertical rib can be aligned with the clamping elastic piece rapidly through the flanging part, the vertical rib enters the clamping part through the neck part of the clamping elastic piece, the vertical rib is clamped through the clamping part, and the possibility that the vertical rib slides out of the clamping part is reduced through the neck part under the condition of no external force.

3. The neck of the clamping elastic piece is provided with the through hole, the through hole is detachably penetrated with the first bolt, and when the elasticity of the clamping elastic piece is reduced and the clamping force is weakened due to long-time use of the clamping elastic piece, the clamping part of the clamping elastic piece can be fixed through the first bolt, so that the clamping elastic piece can stably clamp the vertical ribs.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present application.

Fig. 2 is a schematic structural view of the auxiliary leveling alignment device in fig. 1.

Fig. 3 is an exploded view of fig. 2.

Fig. 4 is a schematic structural diagram of one set of auxiliary leveling alignment devices in fig. 3.

Fig. 5 is an enlarged schematic view of a in fig. 4.

Fig. 6 is an enlarged schematic view of B in fig. 4.

Fig. 7 is an enlarged schematic view of C in fig. 4.

Fig. 8 is an exploded view of fig. 7 exploded along the centerline of the mounting block.

Fig. 9 is a schematic view of the auxiliary leveling and aligning device of fig. 1 removed.

Reference numerals illustrate:

1. Vertical ribs; 2. transverse ribs; 3. auxiliary leveling alignment device; 4. a clamping assembly; 41. a connecting seat; 411. a second mounting hole; 412. a second bolt; 42. clamping the spring plate; 421. a clamping part; 4211. an anti-slip raised line; 422. a neck; 4221. a through hole; 4222. a first bolt; 423. a burring part; 5. a carrier assembly; 51. a telescopic carrying rod; 511. a slide bar; 512. a sleeve; 5121. an elastic groove; 5122. a joint block; 5123. a mounting block; 5124. a first mounting hole; 513. a locking member; 52. a bearing seat; 521. a fixing part; 522. a carrying part; 53. an adapter; 6. bubble level.

Detailed Description

The present application will be described in further detail below.

The embodiment of the application discloses a steel bar connecting structure, which comprises a plurality of vertical bars 1, wherein the vertical bars 1 are divided into a plurality of rows and a plurality of columns which are uniformly arranged, referring to fig. 1. A plurality of transverse ribs 2 are arranged among the plurality of vertical ribs 1, and an auxiliary leveling and aligning device 3 is detachably arranged at the bottom of the transverse ribs 2. When the transverse bar 2 is connected to the vertical bar 1, the position of the transverse bar 2 is leveled by the auxiliary leveling and aligning device 3.

Referring to fig. 2, the auxiliary leveling and aligning device 3 includes a plurality of clamping assemblies 4 for clamping a plurality of vertical ribs 1, a plurality of bearing assemblies 5 installed between the clamping members for bearing the horizontal ribs 2, and a bubble level 6 for judging the levelness of the bearing assemblies 5.

Referring to fig. 4, the carrying assembly 5 includes a telescopic carrying rod 51 and a carrying seat 52 for carrying the cross bar 2. The telescopic carrier rod 51 includes a sliding rod 511, two sets of sleeves 512 slidably mounted on both ends of the sliding rod 511, and a locking member 513 mounted on one end of the sleeve 512 near the sliding rod 511 for fixing the position of the sleeve 512. The sliding rod 511 is in a round rod shape, the sleeve 512 is in a section of open cylinder shape, and the sliding rod 511 is in sliding fit with the inner wall of the sleeve 512. Referring to fig. 5, the sleeve 512 is provided with a loosening groove 5121 at the opening, and the loosening groove 5121 is disposed along the length direction of the sleeve 512. In the embodiment of the present application, the locking member 513 is a hoop, and the locking member 513 is fixedly installed at the opening of the sleeve 512. The sleeves 512 at two ends of the sliding rod 511 slide along the sliding rod 511 to further extend or shorten the length of the telescopic bearing rod 51, and the locking piece 513 can fix the position of the sleeve 512 to further fix the length of the telescopic bearing rod 51, so that the telescopic bearing rod 51 can be suitable for bearing the transverse ribs 2 between the vertical ribs 1 with different distances, and the application range of the auxiliary leveling alignment device 3 is enlarged.

Referring to fig. 7, the carrier 52 includes a fixing portion 521 and a carrier portion 522. The fixing portion 521 has an L-shape, and has one end fixedly connected to the outer sidewall of the sleeve 512 and the other end fixedly connected to the bottom of the carrying portion 522. The bearing part 522 is arc-shaped, and the bearing plate adopts a rubber arc-shaped plate, and the rubber arc-shaped plate has elasticity and flexibility and can deform according to transverse ribs 2 with different specifications, so that the application range of the auxiliary leveling alignment device 3 is further enlarged.

Referring to fig. 3, the end of the telescopic supporting rod 51, that is, the end of the sleeve 512 away from the sliding rod 511, is detachably provided with the adapter 53, when the middle bending transverse bar 2 needs to be connected between the vertical bars 1, the adapter 53 may be connected with several groups of auxiliary leveling alignment devices 3, and several groups of auxiliary leveling alignment devices 3 connected by the adapter 53 may be applicable to the middle bending transverse bar 2, for example: the stirrup further expands the application scope of the auxiliary leveling alignment device 3, and furthermore, the adapter 53 can be detached from the end of the telescopic bearing rod 51, and the auxiliary leveling alignment device 3 is also applicable to the transverse stirrup 2 with no bending at the middle part. In the embodiment of the present application, the adaptor 53 adopts a two-way 90 ° elbow joint, one end of the sleeve 512 away from the sliding rod 511 is fixedly connected with a connecting block 5122 (refer to fig. 7) corresponding to the two-way 90 ° elbow joint, and the connecting block 5122 is in a round block shape. Two ends of the two-way 90-degree elbow joint can be connected with a group of auxiliary leveling alignment devices 3 respectively, and in the transverse rib 2 of the shear wall, the bending angle of the middle part of the transverse rib 2 is usually 90 degrees, so that the adapter 53 adopts the 90-degree elbow joint to be suitable for the connection of the transverse rib 2 of the shear wall.

Referring to fig. 7, the clamping assembly 4 includes an engagement seat 41, and a clamping spring 42 fixedly mounted to the engagement seat 41. The connecting seat 41 is in a block shape with a U-shaped groove, the outer side wall of the sleeve 512 is provided with a mounting block 5123 corresponding to the U-shaped groove, and in combination with fig. 8, the mounting block 5123 is penetrated and provided with a first mounting hole 5124, the mounting hole is a round hole, the connecting seat 41 is penetrated and provided with a second mounting hole 411 corresponding to the first mounting hole 5124, the connecting seat 41 and the mounting block 5123 penetrate through the first mounting hole 5124 and the second mounting hole 411 through a second bolt 412 to be detachably connected, and then the connecting seat 41 and the sleeve 512 are detachably connected, so that the clamping assembly 4 can be detached from the auxiliary leveling alignment device 3, when a plurality of auxiliary leveling alignment devices 3 connected through the connecting piece 53 are interfered by the clamping assembly 4 due to the clamping of the same vertical rib 1, the redundant clamping assembly 4 can be detached, and only one group of clamping assemblies are left to clamp the vertical rib 1, so that the possibility of interference is reduced.

Referring to fig. 7, the grip elastic piece 42 includes a grip portion 421 for gripping the vertical bar 1, a neck portion 422 formed by extending the grip arc portion away from both end portions of the joint base 41 in a direction away from the joint base 41, and a burring portion 423 formed by extending the end portion of the neck portion 422 away from the joint base 41 in a direction away from the center of the grip portion 421. The clamping portion 421 is circular arc, the caliber of the neck 422 is smaller than the diameter of the clamping portion 421, the clamping portion 421 is fixedly provided with an anti-slip raised line 4211, and the anti-slip raised line 4211 increases the friction force between the vertical rib 1 and the clamping portion 421 of the clamping elastic piece 42, so that the possibility that the vertical rib 1 slides in the clamping portion 421 is reduced, and the clamping elastic piece 42 clamps the vertical rib 1 more stably. Through turn-ups portion 423, erect muscle 1 can be fast with centre gripping shell fragment 42 counterpoint, erect muscle 1 and get into clamping part 421 through the neck 422 of centre gripping shell fragment 42, erect muscle 1 through clamping part 421 centre gripping, under the condition that does not have external force, neck 422 has reduced the possibility that erects muscle 1 from clamping part 421 roll-off, moreover, has improved the centre gripping through centre gripping shell fragment 42 and has dismantled the convenience of erecting muscle 1. The clamping spring 42 is made of elastic metal spring and is integrally formed. The clamping part 421 can clamp the vertical bars 1 with different specifications, so that the application range of the auxiliary leveling and aligning device 3 is further widened.

Referring to fig. 7, the neck 422 further has a through hole 4221 formed therethrough, and the through hole 4221 is detachably penetrated by a first bolt 4222. When the elasticity of the clamping elastic piece 42 is reduced and the clamping force is weakened due to long-time use of the clamping elastic piece 42, the clamping portion 421 of the clamping elastic piece 42 can be fixed by the first bolt 4222, so that the clamping elastic piece 42 stably clamps the vertical rib 1.

Referring to fig. 6, the bubble level 6 is fixedly connected with the outer side wall of the sleeve 512, the levelness of the sleeve 512 can be judged by the bubble level 6, so that the levelness of the bearing component 5 is judged, when the position of the bearing component 5 is horizontal, the position of the transverse bar 2 is also horizontal, and the well-folded transverse bar 2 is fixed by a steel wire, so that the position of the connected transverse bar 2 is horizontal.

The implementation principle of the steel bar connecting structure of the embodiment of the application is as follows: referring to fig. 1, after fixing the positions of the vertical ribs 1, bending the transverse ribs 2 into a certain shape for standby, if the middle bending transverse ribs 2 need to be connected between the vertical ribs 1, installing a plurality of auxiliary leveling alignment devices 3 through the adapter 53, and disassembling the redundant clamping assemblies 4 to adapt to the connection of the middle bending transverse ribs 2. According to the length of the telescopic bearing rod 51 in the bearing assembly 5 of the distance adjustment between a plurality of vertical ribs 1, after adjustment, a plurality of clamping assemblies 4 are used for clamping the vertical ribs 1, the levelness of the bearing assembly 5 is judged through the bubble level 6, the height of the vertical ribs 1 is adjusted by the clamping assemblies 4, the bubble level 6 is enabled to display the level, and then the position of the bearing assembly 5 is enabled to be horizontal. The bearing assembly 5 is used for bearing the bent transverse bar 2, and then the bent transverse bar 2 is fixed by steel wires, so that the position of the connected transverse bar 2 is horizontal, the alignment of the transverse bar 2 is realized, and the problem that the bearing requirement of a shear wall cannot be met because the levelness of the transverse bar 2 is judged by vision due to frequent experience of a building worker in the related art, the transverse bar 2 is possibly inclined integrally with the vertical bar 1, and reinforcing formed steel bars are possibly caused. Referring to fig. 9, after the transverse ribs 2 are connected between the vertical ribs 1, the auxiliary leveling alignment device 3 is detached, and the auxiliary leveling alignment device 3 is stored for recycling.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. A steel bar connection structure, characterized in that: including a plurality of perpendicular muscle (1), a plurality of be provided with a plurality of horizontal muscle (2) between perpendicular muscle (1), horizontal muscle (2) bottom can be dismantled and be provided with supplementary leveling counterpoint device (3), supplementary leveling counterpoint device (3) are including a plurality of clamping components (4) that are used for a plurality of perpendicular muscle (1) of centre gripping, set up a plurality of bearing components (5) that are used for bearing horizontal muscle (2) between a plurality of clamping pieces and be used for judging bubble spirit level (6) of bearing components (5) levelness, when connecting horizontal muscle (2), make the position level of horizontal muscle (2) through supplementary leveling counterpoint device (3).

2. A reinforcing bar coupler structure according to claim 1, wherein: the bearing assembly (5) comprises a telescopic bearing rod (51) and a bearing seat (52) for bearing the transverse ribs (2).

3. A reinforcing bar coupler structure according to claim 2, wherein: the end part of the telescopic bearing rod (51) is detachably provided with an adapter (53), and when the transverse ribs (2) bent at the middle part are required to be connected between the vertical ribs (1), the adapter (53) can be connected with the auxiliary leveling alignment devices (3).

4. A reinforcing bar coupler structure according to claim 3, wherein: the adapter (53) adopts a two-way 90-degree elbow joint.

5. A reinforcing bar coupler structure according to claim 2, wherein: the telescopic bearing rod (51) comprises a sliding rod (511), two groups of sleeves (512) which are respectively arranged at two ends of the sliding rod (511) in a sliding mode, and a locking piece (513) which is arranged at one end, close to the sliding rod (511), of the sleeve (512) and used for fixing the position of the sleeve (512).

6. The reinforcing bar coupler structure according to claim 5, wherein: the locking piece (513) adopts a hoop.

7. The reinforcing bar coupler structure according to claim 5, wherein: the clamping assembly (4) comprises a connecting seat (41) and a clamping elastic piece (42) arranged on the connecting seat (41), wherein the clamping elastic piece (42) comprises a clamping portion (421) used for clamping a vertical rib (1), a neck portion (422) formed by extending two end portions of the clamping arc portion away from the connecting seat (41) in a direction away from the connecting seat (41), and a flanging portion (423) formed by extending the end portion of the neck portion (422) away from the connecting seat (41) in a direction away from the center of the clamping portion (421).

8. The reinforcing bar coupler structure according to claim 7, wherein: the neck (422) is provided with a through hole (4221), and the through hole (4221) is detachably provided with a first bolt (4222) in a penetrating manner.

9. The reinforcing bar coupler structure according to claim 7, wherein: the clamping part (421) is provided with an anti-slip raised line (4211).

10. The reinforcing bar coupler structure according to claim 7, wherein: the connecting seat (41) is detachably connected with the sleeve (512).