CN219316493U - Reinforced beam structure - Google Patents

Abstract

The utility model relates to a building engineering field especially relates to a reinforcing beam structure, and it includes the U type fixed bolster that the level set up and slides the U type movable bolster on the U type fixed bolster, the mounting groove has been seted up to one side that the U type movable bolster is close to the roof beam, the mounting groove sets up along the length direction of roof beam, be provided with a plurality of inside lining subassemblies in the mounting groove, a plurality of inside lining subassemblies set up along the length of roof beam, inside lining subassemblies is including setting up the shell fragment that resets on the mounting groove inner wall and installing the welt on the shell fragment that resets, the shell fragment that resets promotes the interior sliding of welt mounting groove, and is used for making welt upper surface and U type fixed bolster be close to the surface parallel and level of roof beam one side, and adjacent two welt side butt each other. This application has the effect that makes the roof beam lower surface parallel and level after the reinforcement.

Description

Reinforced beam structure

Technical Field

The application relates to the technical field of constructional engineering, in particular to a reinforced beam structure.

Background

When the roof beam of old house appears the crack scheduling problem, need consolidate the roof beam, at first need set up a plurality of mounting holes on the beam column, then pour into in the mounting hole and plant the muscle glue, insert the mounting hole in to fix, then place the stirrup around the roof beam and tie up, the template of scene preparation and roof beam length matching, install the template outside the roof beam through the bolt after tying up, splice through the template wraps up the reinforcement cage of tying up, pour the concrete to the clearance between template and the roof beam at last, thereby increase the cross-sectional area of roof beam, improve the intensity of roof beam.

In order to enable the templates to be applied to house beams with different lengths, a mode of fixing templates with U-shaped sections and moving templates with U-shaped sections is adopted; specifically, a moving groove is formed in the fixed template, so that the moving template slides on the fixed template, and the length of the whole template is adjusted. When reinforcing the house beams with different lengths, a worker slides the movable plate to enable the movable plate to slide on the fixed plate, so that the length between the fixed plate and the movable plate is the same as the length of the house beam, then the movable plate is covered on the house beam, and finally concrete is poured between the house beam and the template; however, as the movable template slides on the fixed template, the inner bottom surface of the movable template and the inner bottom surface of the fixed template are not on the same plane, so that the lower surface of the solidified roof beam is uneven.

Disclosure of Invention

In order to make the lower surface of the reinforced roof beam flush, the application provides a reinforced beam structure.

The application provides a reinforcing beam structure adopts following technical scheme:

the utility model provides a reinforcing beam structure, includes the U type fixed bolster that the level set up and slides the U type movable bolster on the U type fixed bolster, the mounting groove has been seted up to one side that the U type movable bolster is close to the roof beam, the mounting groove sets up along the length direction of roof beam, be provided with a plurality of inside lining subassemblies in the mounting groove, a plurality of inside lining subassemblies set up along the length of roof beam, inside lining subassemblies is including setting up the shell fragment that resets on the mounting groove inner wall and installing the welt on the shell fragment that resets, the shell fragment that resets promotes the interior slip of welt mounting groove, and is used for making welt upper surface and U type fixed bolster be close to the surface parallel and level of roof beam one side, and adjacent two welt side butt each other.

Through adopting above-mentioned technical scheme, when needs roof beam consolidates, according to the length of roof beam, then pulling U type movable mould board, make U type movable mould board slide on U type fixed mould board along the length of roof beam, then make U type movable mould board stretch out the length of U type fixed mould board and add U type fixed mould board length and roof beam length the same, when pulling U type movable mould board and remove, U type movable mould board stretches out U type fixed mould board, reset the shell fragment simultaneously and promote the welt and remove, make welt upper surface and U type fixed mould board be close to the surface parallel and level of roof beam one side, can make the concrete lower surface parallel and level of pouring at last.

Optionally, two medial surfaces of U type movable mould board all are provided with the mounting groove, also be provided with the inside lining subassembly that is used for making roof beam side parallel and level in the mounting groove.

Through adopting above-mentioned technical scheme, when U type movable mould board moves to keeping away from U type fixed mould board, the inboard subassembly on two medial surfaces of U type movable mould board is used for with two medial surfaces parallel and level of U type fixed mould board to make two side parallel and level of roof beam after pouring.

Optionally, the one end that U type movable mould board kept away from U type fixed mould board is provided with first fixed plate, the one end that U type movable mould board was kept away from to U type fixed mould board is provided with the second fixed plate, be provided with drive assembly between first fixed plate and the second fixed plate, drive assembly is used for driving first fixed plate and second fixed plate and is close to or keep away from each other.

Through adopting above-mentioned technical scheme, when needs U type movable mould board removes, directly makes drive assembly drive first fixed plate and first fixed plate keep away from each other, when first fixed plate surface and stand surface butt, when second fixed plate surface also with stand surface butt simultaneously, U type fixed mould board and U type movable mould board position are fixed, then to the gap pouring concrete between U type fixed mould board and U type movable mould board and the roof beam to fixed U type fixed mould board and U type movable mould board are more convenient.

Optionally, the drive assembly includes a rotation section of thick bamboo, threaded connection first screw rod and threaded connection second screw rod on a rotation section of thick bamboo, first screw rod and second screw rod symmetry set up in a rotation section of thick bamboo relative both sides, the one end that a rotation section of thick bamboo was kept away from to first screw rod sets up on first fixed plate, the one end that a rotation section of thick bamboo was kept away from to the second screw rod sets up on the second fixed plate.

Through adopting above-mentioned technical scheme, when the removal of needs drive U type movable mould board, rotate and rotate a section of thick bamboo and make and rotate a section of thick bamboo drive first screw rod and second screw rod and rotate simultaneously to it is more convenient when using.

Optionally, a first clamping groove is formed in the first fixing plate, and a first clamping block used for being clamped in the first clamping groove is arranged at one end, away from the rotating cylinder, of the first screw rod; the second fixing plate is provided with a second clamping groove, and one end of the second screw, which is far away from the rotating cylinder, is provided with a second clamping block used for being clamped in the second clamping groove.

Through adopting above-mentioned technical scheme, when needs remove U type movable mould board, make joint piece joint in the joint groove, in the joint groove on the second fixed plate is connected to second joint piece joint, then rotate the rotary drum, simultaneously because the setting in first joint groove and second joint groove can play the purpose of conveniently dismantling drive assembly to realize conveniently carrying.

Optionally, an anti-skid pattern is arranged on one side of the first fixed plate, which is away from the rotating cylinder; and the side of the second fixing plate, which is away from the rotating cylinder, is also provided with anti-skid patterns.

Through adopting above-mentioned technical scheme, owing to all be provided with anti-skidding line on first fixed plate and the second fixed plate to can increase the frictional force with between the stand surface, make U type fixed bolster and U type movable mould board fixed effect more stable.

Optionally, an anti-slip sleeve is sleeved on the rotating cylinder.

Through adopting above-mentioned technical scheme, under the effect of anti-skidding cover, more convenient rotation rotates the cover.

Optionally, a graduated scale is arranged on the outer side face of the U-shaped movable template.

Through adopting above-mentioned technical scheme, under the effect of scale, can conveniently observe the distance that U type movable mould board stretches out U type fixed mould board.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic connection diagram of the first clamping groove and the first clamping block in the embodiment of the application.

FIG. 3 is a schematic illustration of a liner assembly connection according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a guide surface of an embodiment of the present application.

Reference numerals: 1. u-shaped fixed templates; 11. a U-shaped movable template; 12. a U-shaped moving groove; 13. a first fixing plate; 14. a second fixing plate; 2. a drive assembly; 21. a rotating cylinder; 22. a first screw; 23. a second screw; 3. a first clamping block; 31. a first clamping groove; 32. a second clamping block; 33. a second clamping groove; 34. a mounting groove; 4. a liner assembly; 41. a lining plate; 42. resetting the spring plate; 5. a guide surface; 6. a graduated scale; 7. anti-skid lines; 8. an anti-skid sleeve.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The roof beam sets up in the house, and the both ends of roof beam are supported through the stand, need consolidate the roof beam through reinforced concrete and supporting form when the roof beam appears the crack.

The embodiment of the application discloses a reinforcing beam structure. Referring to fig. 1, a reinforcing beam structure comprises a U-shaped fixed die plate 1 and a U-shaped movable die plate 11, wherein the cross sections of the U-shaped fixed die plate 1 and the U-shaped movable die plate 11 are all in a U shape and are vertically arranged, and an opening of the reinforcing beam structure faces upwards; the U-shaped movable groove 12 is formed in the U-shaped fixed template 1, the U-shaped movable groove 12 is formed in the length direction of the U-shaped fixed template 1, an opening is formed in one end of the U-shaped movable groove 12, the U-shaped movable template 11 is inserted into the U-shaped fixed template 1 through the opening and slides along the length direction of the U-shaped fixed template 1, and therefore the U-shaped movable template can be used on house beams with different lengths.

Referring to fig. 1 and 2, a first fixing plate 13 is disposed at one end of a U-shaped moving die plate 11 far from a U-shaped fixed die plate 1, a second fixing plate 14 is welded at one end of the U-shaped moving die plate 1 far from the U-shaped moving die plate 11, and a driving assembly 2 is disposed between the first fixing plate 13 and the second fixing plate 14, wherein the driving assembly 2 is used for driving the first fixing plate 13 and the second fixing plate 14 to approach or separate from each other; when fixing the positions of the U-shaped movable template 11 and the U-shaped fixed template 1, the driving assembly 2 enables the first fixed plate 13 and the second fixed plate 14 to be far away from each other, so that the second fixed plate 14 and the first fixed plate 13 are both abutted on the surface of the upright, and further the position fixing of the U-shaped movable template 11 and the U-shaped fixed template 1 is realized.

Referring to fig. 1 and 2, the driving assembly 2 includes a rotating cylinder 21, a first screw 22 and a second screw 23, the first screw 22 is threaded in the rotating cylinder 21 and is in threaded connection with the rotating cylinder 21, and the second screw 23 is also threaded in the rotating cylinder 21 and is also in threaded connection with the rotating cylinder 21, and the first screw 22 and the second screw 23 are disposed on opposite sides of the rotating cylinder 21.

Referring to fig. 1 and 2, a first clamping block 3 is welded at one end of the first screw 22 far away from the rotary cylinder 21, a first clamping groove 31 with an opening is formed in the first fixed plate 13, the opening of the first clamping groove 31 is horizontally arranged, and the first clamping block 3 can conveniently move into the first clamping groove 31 through the opening horizontally arranged in the first clamping groove 31; meanwhile, one end of the second screw rod 23 far away from the rotating cylinder 21 is welded with a second clamping block 32, a second clamping groove 33 with an opening is formed in the second fixing plate 14, the opening of the second clamping groove 33 is also horizontally arranged, the second clamping block 32 is conveniently moved into the second clamping groove 33 through the opening horizontally arranged in the second clamping groove 33, when a house beam needs to be reinforced, the first clamping block 3 is moved into the first clamping groove 31, the second clamping block 32 is moved into the second clamping groove 33, the rotating cylinder 21 is rotated, the first screw rod 22 and the second screw rod 23 cannot rotate and can only move, and accordingly the first fixing plate 13 and the second fixing plate 14 are driven to be far away from each other.

Referring to fig. 1 and 3, an installation groove 34 is formed in the inner bottom wall of the U-shaped moving die plate 11, the installation groove 34 is formed along the length direction of the U-shaped fixed die plate 1, a plurality of lining components 4 are arranged in the installation groove 34, and the lining components 4 are used for enabling the inner bottom surface of the U-shaped moving die plate 11 extending out of the U-shaped moving die plate 12 and the inner bottom surface of the U-shaped fixed die plate 1 to be on the same plane, so that the lower surface of a poured roof beam is flush.

Referring to fig. 1 and 3, the liner assembly 4 includes a liner 41 and a reset spring 42, the reset spring 42 is an arc steel sheet, and an opening of the reset spring 42 faces upwards, both ends of the reset spring 42 are fixed on the liner 41 through bolts, a middle part is welded on an inner bottom wall of the mounting groove 34 at a protruding position, and the liner 41 moves along a vertical direction under the action of the reset spring 42. In this embodiment, the side surfaces of two adjacent lining boards 41 are abutted against each other, and when the lining boards 41 are located in the U-shaped moving groove 12, the reset elastic piece 42 is in a compressed state, and when the lining boards 41 are moved out of the U-shaped moving groove 12, the reset elastic piece 42 pushes the lining boards 41 to move, so that the upper surface of the lining boards 41 and the inner bottom surface of the U-shaped fixed template 1 are on the same plane.

Referring to fig. 1 and 4,U, the side of the fixed die plate 1 is provided with a guide surface 5, the guide surface 5 is positioned at one side of the U-shaped moving groove 12 where the opening is arranged, and the arrangement of the guide surface 5 enlarges the opening of the U-shaped moving groove 12, so that the guide surface 5 is convenient for pushing the lining plate 41 to move into the mounting groove 34; when the U-shaped movable template 11 is required to move into the U-shaped movable groove 12, the U-shaped fixed template 1 is directly pushed, the side face of the lining plate 41 is abutted on the guide surface 5, and the lining plate 41 is moved into the mounting groove 34 along with the movement of the U-shaped fixed template 1, and at the moment, the reset elastic piece 42 is compressed.

Referring to fig. 1 and fig. 3, the mounting groove 34 is also formed in two opposite sides of the U-shaped moving template 11, a plurality of lining components 4 are disposed in the mounting groove 34, and through the arrangement of the plurality of lining components 4, the reinforced side faces of the roof beam are flush, in this embodiment, the lining components 4 disposed on two inner sides of the U-shaped moving template 11 and the lining components 4 disposed on the inner bottom of the U-shaped moving template 11 have the same structure, so in this embodiment, detailed description of the specific structure of the lining components 4 disposed on the inner side of the U-shaped moving template 11 is omitted.

Referring to fig. 1 and 2, a scale 6 is installed on the outer side surface of the U-shaped moving die plate 11, and the length of the U-shaped moving die plate 11 extending out of the U-shaped fixed die plate 1 can be conveniently observed through the scale 6; simultaneously, the anti-skid patterns 7 are arranged on one side, deviating from the rotary cylinder 21, of the first fixing plate 13, the anti-skid patterns 7 are also arranged on the side, deviating from the rotary cylinder 21, of the second fixing plate 14, and friction force between the anti-skid patterns 7 and the surface of the upright post can be increased. The anti-skid sleeve 8 is sleeved on the rotating cylinder 21, and the rotating cylinder 21 can be conveniently rotated through the arrangement of the anti-skid sleeve 8.

The implementation principle of the reinforcing beam structure in the embodiment of the application is as follows: when reinforcing the house beam, a plurality of mounting holes are formed in the upright post, then the mounting holes are filled with bar planting glue, bar planting is inserted into the mounting holes for fixing, and stirrups are placed around the house beam for bundling; the house beam is placed in the U-shaped groove on the U-shaped fixed template 1, then the first clamping block 3 is inserted into the first clamping groove 31, the second clamping block 32 is inserted into the second clamping groove 33, the rotary cylinder 21 is rotated, the rotary cylinder 21 drives the first screw 22 and the second screw 23 to move, thereby driving the first fixing plate 13 and the second fixing plate 14 to be respectively abutted against the surface of the upright post, when the U-shaped movable template 11 moves, the lining plate 41 in the U-shaped movable groove 12 is separated, then the reset spring piece 42 pushes the lining plate 41 to move, the upper surface of the lining plate 41 is flush with the inner surface of the U-shaped fixed template 1, and finally the surface of the house beam after pouring can be flush.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a reinforcement beam structure, includes U type fixed bolster (1) and the U type movable bolster (11) of slip on U type fixed bolster (1) that the level set up, its characterized in that: a mounting groove (34) is formed in one side, close to the house beam, of the U-shaped movable template (11), the mounting groove (34) is formed in the length direction of the house beam, a plurality of lining components (4) are arranged in the mounting groove (34), and a plurality of lining components (4) are arranged along the length of the house beam; the lining component (4) comprises a reset elastic piece (42) arranged on the inner wall of the mounting groove (34) and a lining plate (41) arranged on the reset elastic piece (42), the reset elastic piece (42) pushes the lining plate (41) to slide in the mounting groove (34), the lining plate (41) is used for enabling the upper surface of the lining plate (41) and the U-shaped fixed template (1) to be close to the surface flush at one side of a house beam, and the side surfaces of the two adjacent lining plates (41) are mutually abutted.

2. A reinforcing beam structure according to claim 1, wherein: the two inner sides of the U-shaped movable template (11) are respectively provided with a mounting groove (34), and a lining component (4) used for enabling the side surfaces of the reinforced house beam to be flush is also arranged in the mounting grooves (34).

3. A reinforcing beam structure according to claim 1, wherein: the U-shaped movable template (11) is kept away from one end of U-shaped fixed template (1) and is provided with first fixed plate (13), one end that U-shaped movable template (11) was kept away from to U-shaped fixed template (1) is provided with second fixed plate (14), be provided with drive assembly (2) between first fixed plate (13) and second fixed plate (14), drive assembly (2) are used for driving first fixed plate (13) and second fixed plate (14) and are close to or keep away from each other.

4. A reinforcing beam structure according to claim 3, wherein: the driving assembly (2) comprises a rotating cylinder (21), a first screw (22) in threaded connection with the rotating cylinder (21) and a second screw (23) in threaded connection with the rotating cylinder (21), wherein the first screw (22) and the second screw (23) are symmetrically arranged on two opposite sides of the rotating cylinder (21), one end, far away from the rotating cylinder (21), of the first screw (22) is arranged on the first fixing plate (13), and one end, far away from the rotating cylinder (21), of the second screw (23) is arranged on the second fixing plate (14).

5. A reinforcing beam structure as set forth in claim 4, wherein: a first clamping groove (31) is formed in the first fixing plate (13), and a first clamping block (3) used for being clamped in the first clamping groove (31) is arranged at one end, away from the rotating cylinder (21), of the first screw rod (22); a second clamping groove (33) is formed in the second fixing plate (14), and a second clamping block (32) used for being clamped in the second clamping groove (33) is arranged at one end, away from the rotating cylinder (21), of the second screw rod (23).

6. A reinforcing beam structure according to claim 5, wherein: one side of the first fixed plate (13) deviating from the rotary cylinder (21) is provided with anti-skid patterns (7); and an anti-skid pattern (7) is arranged on one side of the second fixing plate (14) away from the rotating cylinder (21).

7. A reinforcing beam structure as set forth in claim 4, wherein: an anti-skid sleeve (8) is sleeved on the rotating cylinder (21).

8. A reinforcing beam structure according to claim 1, wherein: the outer side surface of the U-shaped movable template (11) is provided with a graduated scale (6).

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