CN217925035U - A antidetonation reinforced structure for building heel post - Google Patents

Abstract

The application relates to the field of reinforcing of bearing columns, and particularly discloses an anti-seismic reinforcing structure for a building bearing column, which comprises an angle plate, a first connecting rod, a second connecting rod and a connecting assembly, wherein the connecting assembly is used for connecting the first connecting rod and the second connecting rod together; the first connecting rods and the second connecting rods are respectively provided with four groups, the four groups of the first connecting rods respectively correspond to the four surfaces of the bearing column, and the four groups of the second connecting rods respectively correspond to the four groups of the first connecting rods; each group of first connecting rods and each group of second connecting rods are arranged in a plurality at intervals along the vertical direction, the first connecting rods and the second connecting rods correspond to each other one by one, one side of each first connecting rod is connected to one corner plate in a clamped mode, and one side, far away from the first connecting rods, of each second connecting rod is connected to one adjacent corner plate in a clamped mode. This application has the more convenient effect of installation that makes heel post reinforced structure.

Description

A antidetonation reinforced structure for building heel post

Technical Field

The application relates to the field of reinforcement of heel post, especially relates to an antidetonation reinforced structure for building heel post.

Background

At present, for some old buildings in cities, the bearing capacity and the seismic capacity of a bearing column of the building gradually become worse along with the time, and when the building is transformed, the bearing column of the building needs to be reinforced by using a reinforcing structure.

In the related art, the reinforcing structure of the bearing column comprises four corner plates and four connecting plates, wherein the four corner plates are respectively bonded at four corners of the bearing column; the connecting plate is provided with four groups, and every face of every group connecting plate and heel post corresponds, and every group connecting plate is provided with a plurality ofly along vertical direction interval, and one side welding of connecting plate is on one of them scute, and the welding of the other side of connecting plate is on adjacent scute.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when constructor welded the connecting plate on the scute, on the one hand, it is difficult to the connecting plate weldment work operation of high higher position department, and on the other hand, the time that welding operation need consume at every turn is longer, and on the whole for the reinforced structure of spandrel column installs comparatively inconveniently.

SUMMERY OF THE UTILITY MODEL

In order to facilitate the installation of the load-bearing column reinforcing structure, the application provides an antidetonation reinforced structure for building heel post.

The application provides a antidetonation reinforced structure for building bearing post adopts following technical scheme:

an earthquake-resistant reinforced structure for a building bearing column comprises an angle plate, a first connecting rod, a second connecting rod and a connecting assembly for connecting the first connecting rod and the second connecting rod together; four groups of first connecting rods and four groups of second connecting rods are arranged, the four groups of first connecting rods respectively correspond to four surfaces of the bearing column, and the four groups of second connecting rods respectively correspond to the four groups of first connecting rods; each group of first connecting rods and each group of second connecting rods are arranged in a plurality at intervals along the vertical direction, the first connecting rods and the second connecting rods correspond to each other one by one, one side of each first connecting rod is connected to one corner plate in a clamped mode, and one side, far away from the first connecting rods, of each second connecting rod is connected to one adjacent corner plate in a clamped mode.

By adopting the technical scheme, after four corner plates are respectively bonded at four corners of the bearing column, a constructor clamps the first connecting rod on one corner plate, clamps the second connecting rod on the other corner plate positioned on the same surface of the bearing column, and then connects the first connecting rod and the second connecting rod together by using the connecting assembly; when the constructor connects two adjacent angle plates, welding operation is not needed, operation difficulty and operation time are reduced, and the bearing column reinforcing structure is more convenient to install.

Optionally, the connecting assembly includes a connecting strip, the connecting strip is fixedly connected to one of the first connecting rod and the second connecting rod, and a connecting groove corresponding to the connecting strip is opened on the other one of the first connecting rod and the second connecting rod; the connecting assembly further comprises a locking member for locking the connecting strip to the connecting groove side wall.

Through adopting above-mentioned technical scheme, when constructor used coupling assembling to link together head rod and second connecting rod, pegged graft the connecting strip earlier in the spread groove, then used locking part to lock the connecting strip on the lateral wall of spread groove, the length after head rod and second connecting rod are connected can be adjusted in the cooperation of spread groove and connecting strip for coupling assembling can adapt to not unidimensional heel post.

Optionally, the locking component includes a connecting plate, a locking strip and a screw; the connecting plate is positioned between two opposite side walls of the connecting groove, two locking strips are arranged and are respectively fixedly connected to two opposite sides of the connecting plate, and one side of each locking strip, which is far away from the connecting plate, is attached to the side wall of the connecting groove; the locking strip is obliquely arranged on one side far away from the side wall of the connecting groove, the cross sectional area of one side of the locking strip far away from the bearing column is smaller than that of one side of the locking strip close to the bearing column, and two opposite sides of the connecting strip are respectively abutted against the inclined surfaces of the two locking strips; the free end of the screw penetrates through the connecting strip and is in threaded connection with the connecting plate, and the head of the screw abuts against the connecting strip.

Through adopting above-mentioned technical scheme, when constructor used locking part to connect the connecting strip on the spread groove, place two locking strips between two lateral walls of spread groove, then run through connecting strip and threaded connection with the free end of screw on the connecting plate, twist the screw again, make the connecting strip be close to the connecting plate, the both sides that the connecting strip is relative carry out the butt to the inclined plane of locking strip, the locking strip expands towards the lateral wall of spread groove, the locking strip supports tightly on the lateral wall of spread groove, under the effect of frictional force, the connecting strip locking is on the lateral wall of spread groove.

Optionally, two opposite sides of the connecting strip are respectively attached to the inclined surface of the locking strip.

Through adopting above-mentioned technical scheme, connecting strip and locking strip face contact, it is more smooth and easy during connecting strip and locking strip relative motion.

Optionally, one side of the locking strip and the side wall of the connecting groove are attached to each other and provided with anti-slip lines.

By adopting the technical scheme, under the action of the anti-skid lines, the friction of locking strip and spread groove lateral wall has been increased, the joint strength of connecting strip has been improved.

Optionally, the side wall of the connecting groove far away from the bearing column is chamfered.

By adopting the technical scheme, under the guiding action of the chamfer, the connecting strip can be more smoothly put into the connecting groove.

Optionally, the locking component comprises a baffle and a screw; the baffle plate corresponds to the connecting groove, the baffle plate is abutted against the inner side of one of the first connecting rod and the second connecting rod, which is provided with the connecting groove, the connecting strip and the side face corresponding to the side wall of the connecting groove are obliquely arranged, the cross sectional area of the inner side of the connecting strip is larger than that of the outer side of the connecting strip, and the side wall of the connecting groove is attached to the oblique side face of the connecting strip; the free end of the screw penetrates through the connecting strip and is in threaded connection with the baffle.

By adopting the technical scheme, when a constructor locks the connecting strip on the side wall of the connecting groove by using the locking component, the side surface of the connecting strip is attached to the side wall of the connecting groove, then the free end of the screw penetrates through the connecting strip and is in threaded connection with the baffle plate, the screw is screwed to enable the baffle plate to be close to the connecting strip, the abutting force between the inclined surface of the connecting strip and the side wall of the connecting groove is enhanced, meanwhile, the baffle plate forms abutting force for one of the first connecting rod and the second connecting rod, which is provided with the connecting groove, and the connecting strip is locked on the side wall of the connecting groove; the locking of the locking component to the connecting strip is reliable due to the double abutting force.

In the alternative, the head of the screw is hidden in the connecting strip.

Through adopting above-mentioned technical scheme, the head and the connecting strip parallel and level of screw have strengthened the holistic aesthetic feeling of reinforced structure.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the first connecting rod, the second connecting rod and the connecting assembly between the two angle plates corresponding to the same surface of the bearing column, a constructor does not need to perform welding operation when connecting the two adjacent angle plates, so that the operation difficulty and the operation time are reduced, and the bearing column reinforcing structure is more convenient to install;

2. the anti-slip grains are arranged on one side, attached to the side wall of the locking strip and the side wall of the connecting groove, so that the friction force between the locking strip and the side wall of the connecting groove is increased, and the connecting strength of the connecting strip is improved;

3. the head of the screw is hidden in the connecting strip, so that the integral aesthetic feeling of the reinforcing structure is enhanced.

Drawings

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

fig. 2 is a schematic structural diagram of the fit among the first connecting rod, the second connecting rod and the connecting assembly in embodiment 1 of the present application;

fig. 3 is a schematic structural diagram of the cooperation between the first connecting rod, the second connecting rod and the connecting assembly in embodiment 2 of the present application.

Reference numerals: 1. a gusset; 2. a first connecting rod; 21. a clamping block; 3. a second connecting rod; 31. connecting grooves; 4. a connecting assembly; 41. a connecting strip; 42. a locking member; 421. a connecting plate; 422. a locking bar; 423. a screw; 424. a baffle plate; 5. and (4) anti-skid lines.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses an antidetonation reinforced structure for building heel post.

Example 1:

referring to fig. 1, the earthquake-resistant reinforcing structure for the building load-bearing column includes a corner plate 1, a first connecting rod 2, a second connecting rod 3 and a connecting assembly 4; first connecting rod 2 joint is on one of them scute 1, and the joint of second connecting rod 3 is on another scute 1 on the same face of heel post, and coupling assembling 4 sets up between first connecting rod 2 and second connecting rod 3 and is connected first connecting rod 2 and second connecting rod 3.

Referring to fig. 1, four corner plates 1 are arranged along a vertical direction, the four corner plates 1 are respectively adhered to four corners of a bearing column, four groups of first connecting rods 2 and four groups of second connecting rods 3 are respectively arranged, the four groups of first connecting rods 2 respectively correspond to four surfaces of the bearing column, and the four groups of second connecting rods 3 respectively correspond to the four groups of first connecting rods 2; every group head rod 2 and every group second connecting rod 3 all are provided with a plurality ofly along vertical direction interval, a plurality of head rods 2 and a plurality of second connecting rod 3 one-to-one.

Referring to fig. 1, one side fixedly connected with joint piece 21 that head rod 2 is close to scute 1, joint piece 21 is whole to be dovetail shape and the tip is close to head rod 2, the joint groove has been seted up to scute 1 corresponding joint piece 21's position department, head rod 2 passes through the cooperation joint in joint piece 21 and joint groove on scute 1, and in the same way, one side fixedly connected with joint piece 21 that head rod 2 was kept away from to second connecting rod 3, the joint groove has been seted up to adjacent scute 1 corresponding joint piece 21's position department.

With reference to fig. 1 and fig. 2, the connecting assembly 4 includes a connecting bar 41 and a locking component 42, the connecting bar 41 is fixedly connected to one side of the first connecting bar 2 close to the second connecting bar 3, and a connecting groove 31 corresponding to the connecting bar 41 is formed at a position of the second connecting bar 3 corresponding to the connecting bar 41; a locking member 42 is provided on the connecting bar 41 for connecting the connecting bar 41 to the side wall of the connecting groove 31.

In other embodiments, the connecting bar 41 can also be fixedly connected to the second connecting rod 3, and the connecting slot 31 is opened on the first connecting rod 2.

Referring to fig. 1 and 2, the locking member 42 includes a connection plate 421, a locking bar 422, and a screw 423; the connection plate 421 is rectangular as a whole, and the connection plate 421 is located between two opposite side walls of the connection groove 31; two locking strips 422 are arranged and are respectively fixedly connected to two opposite sides of the connecting plate 421, the connecting plate 421 and the two locking strips 422 are combined to be U-shaped, and the three are integrally formed; the whole locking strip 422 is wedge-shaped, the small end of the locking strip 422 is close to the outer side, the inclined surface of the locking strip 422 is close to the connecting strip 41, and one side of the locking strip 422, which is far away from the connecting plate 421, is attached to the side wall of the connecting groove 31; the two opposite sides of the connecting strip 41 are respectively abutted against the inclined surfaces of the two locking strips 422; the free end of the screw 423 penetrates the connecting bar 41 and is screwed to the connecting plate 421, and the head of the screw 423 abuts against the connecting bar 41.

A constructor clamps the first connecting rod 2 on the corresponding angle plate 1, clamps the second connecting rod 3 on the corresponding angle plate 1, then supports the inclined surfaces of the two locking strips 422 on the two opposite sides of the connecting strip 41, and then connects the screw 423 on the connecting plate 421 through the connecting strip 41 by screw thread, so that the two locking strips 422 are pre-connected on the connecting strip 41; next, the two locking strips 422 are inserted into the connecting groove 31, the screw 423 is screwed to make the connecting plate 421 approach to the connecting strip 41, the two opposite sides of the connecting strip 41 abut against the inclined surfaces of the locking strips 422, the locking strip 422 expands towards the side wall of the connecting groove 31, the locking strip 422 abuts against the side wall of the connecting groove 31, and the connecting strip 41 is locked on the side wall of the connecting groove 31 under the action of friction force.

In order to make the relative movement between the connecting bar 41 and the locking bar 422 smoother, referring to fig. 2, the corresponding sides of the connecting bar 41 and the locking bar 422 are obliquely arranged and the locking bar 422 is inclined.

Referring to fig. 2, the side wall of the connecting groove 31 away from the bearing column is chamfered, and the connecting bar 41 can be more smoothly placed into the connecting groove 31 under the guiding action of the chamfer.

In order to increase the friction force between the locking strip 422 and the side wall of the connecting groove 31, referring to fig. 2, the side where the locking strip 422 and the side wall of the connecting groove 31 are attached is fixedly connected with the anti-slip pattern 5.

The implementation principle of the embodiment 1 of the application is as follows: after respectively bonding four corner plates 1 to four corners of a bearing column, a constructor clamps a first connecting rod 2 to one corner plate 1, pre-connects a locking strip 422 and a connecting plate 421 to a connecting strip 41 by using a screw 423, clamps a second connecting rod to the other corner plate 1 on the same surface of the bearing column, extends the two locking strips 422 into a connecting groove 31, and screws the screw 423 to lock the locking strip 422 to the second connecting rod 3; when the constructor connects two adjacent angle plates 1, the welding operation is not needed, the operation difficulty and the operation time are reduced, and the installation of the bearing column reinforcing structure is more convenient.

Example 2:

referring to fig. 3, embodiment 2 of the present application differs from embodiment 1 in that the locking member 42 includes a stopper 424 and a screw 423; the baffle 424 corresponds to the connecting groove 31, the baffle 424 abuts against the inner side of the second connecting rod 3, the side faces corresponding to the side walls of the connecting strip 41 and the connecting groove 31 are obliquely arranged, the small end of the connecting strip 41 is close to the second connecting rod 3, and the side wall of the connecting groove 31 is attached to the oblique side face of the connecting strip 41; the free end of the screw 423 extends through the connecting bar 41 and is screwed to the baffle 424.

In order to make the reinforcing structure more aesthetic overall, with reference to figure 3, the connecting bar 41 is provided with a countersunk hole at a position corresponding to the screw 423, and the head of the screw 423 is hidden in the countersunk hole.

The implementation principle of embodiment 2 of the present application is as follows: when the constructor uses the locking part 42 to lock the connecting bar 41 on the side wall of the connecting groove 31, the side surface of the connecting bar 41 is attached to the side wall of the connecting groove 31, then the free end of the screw 423 penetrates through the connecting bar 41 and is in threaded connection with the baffle 424, the screw 423 is screwed to enable the baffle 424 to be close to the connecting bar 41, the abutting force between the inclined surface of the connecting bar 41 and the side wall of the connecting groove 31 is enhanced, meanwhile, the baffle 424 forms abutting force for one of the first connecting rod 2 and the second connecting rod 3, which is provided with the connecting groove 31, and the connecting bar 41 is locked on the side wall of the connecting groove 31.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An anti-seismic reinforcing structure for building bearing columns, which comprises angle plates (1) and is characterized in that: the connecting device also comprises a first connecting rod (2), a second connecting rod (3) and a connecting assembly (4) for connecting the first connecting rod (2) and the second connecting rod (3) together;

the first connecting rods (2) and the second connecting rods (3) are respectively provided with four groups, the four groups of first connecting rods (2) respectively correspond to four surfaces of the bearing column, and the four groups of second connecting rods (3) respectively correspond to the four groups of first connecting rods (2);

every group head rod (2) and every group second connecting rod (3) all are provided with a plurality ofly along vertical direction interval, and are a plurality of head rod (2) and a plurality of second connecting rod (3) one-to-one, one side joint of head rod (2) is in on scute (1), one side joint that second connecting rod (3) kept away from head rod (2) is in adjacent one on scute (1).

2. An earthquake-resistant reinforcing structure for building load-bearing columns according to claim 1, characterized in that: the connecting assembly (4) comprises a connecting strip (41), the connecting strip (41) is fixedly connected to one of the first connecting rod (2) and the second connecting rod (3), and the other of the first connecting rod (2) and the second connecting rod (3) is provided with a connecting groove (31) corresponding to the connecting strip (41);

the connecting assembly (4) further comprises a locking part (42) for locking the connecting strip (41) on the side wall of the connecting groove (31).

3. An earthquake-resistant reinforcing structure for building bearing columns according to claim 2, characterized in that: the locking component (42) comprises a connecting plate (421), a locking strip (422) and a screw (423);

the connecting plate (421) is positioned between two opposite side walls of the connecting groove (31), two locking strips (422) are arranged and fixedly connected to two opposite sides of the connecting plate (421), and one side, far away from the connecting plate (421), of each locking strip (422) is attached to one side wall of the connecting groove (31);

one side, far away from the side wall of the connecting groove (31), of the locking strip (422) is obliquely arranged, the cross sectional area, far away from the bearing column, of the locking strip (422) is smaller than that of one side, close to the bearing column, of the locking strip (422), and two opposite sides of the connecting strip (41) are respectively abutted to inclined planes of the two locking strips (422);

the free end of the screw (423) penetrates through the connecting strip (41) and is in threaded connection with the connecting plate (421), and the head of the screw (423) is abutted against the connecting strip (41).

4. An earthquake-resistant reinforcing structure for building bearing columns according to claim 3, characterized in that: the two opposite sides of the connecting strip (41) are respectively attached to the inclined surfaces of the locking strips (422).

5. An earthquake-resistant reinforcing structure for building bearing columns according to claim 4, characterized in that: and anti-skid grains (5) are arranged on one side, attached to the side wall of the connecting groove (31), of the locking strip (422).

6. An earthquake-resistant reinforcing structure for building bearing columns according to claim 2, characterized in that: and the side wall of the connecting groove (31) is chamfered at the side far away from the bearing column.

7. An earthquake-resistant reinforcing structure for building bearing columns according to claim 2, characterized in that: the locking component (42) comprises a baffle plate (424) and a screw (423);

the baffle (424) corresponds to the connecting groove (31), the baffle (424) abuts against the inner side of one of the first connecting rod (2) and the second connecting rod (3) which is provided with the connecting groove (31), the side face corresponding to the side wall of the connecting strip (41) and the connecting groove (31) is obliquely arranged, the cross sectional area of the inner side of the connecting strip (41) is larger than that of the outer side of the connecting strip (41), and the side wall of the connecting groove (31) is attached to the oblique side face of the connecting strip (41);

the free end of the screw (423) penetrates the connection the strip (41) is screwed on the baffle (424).

8. An earthquake-resistant reinforcing structure for building bearing columns according to claim 7, characterized in that: the head of the screw (423) is hidden in the connecting bar (41).

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