CN117888739B

CN117888739B - Reinforcing apparatus based on building structure crossbeam

Info

Publication number: CN117888739B
Application number: CN202410288018.XA
Authority: CN
Inventors: 何荣菊; 王灿风; 代岩岩; 王利; 刘明科
Original assignee: Henan Jiangren Construction Engineering Co ltd
Current assignee: Henan Jiangren Construction Engineering Co ltd
Priority date: 2024-03-14
Filing date: 2024-03-14
Publication date: 2024-05-24
Anticipated expiration: 2044-03-14
Also published as: CN117888739A

Abstract

The invention discloses a reinforcing device based on a building structure beam, relates to the field of beam reinforcement, solves the problem that the existing reinforcing device and the beam are easy to fall off, and comprises: the device comprises a beam body and a device bottom plate arranged below the beam body, wherein a plurality of clamping plates which are distributed at equal intervals are arranged on two sides of the beam body, and the clamping plates on two sides of the beam body are symmetrically distributed; further comprises: the fixed plate mechanism is used for enabling the clamping plates to be attached to the beam body, the fixed plate mechanism is arranged at the top of the device bottom plate, and the fixed plate mechanism is positioned under the two corresponding clamping plates; according to the invention, the clamping force of the clamping plate on the beam body is improved through the plate fixing mechanism, the anti-falling effect is realized, the expansion of the beam body after being heated can be buffered, the bonding degree of the clamping plate and the beam body is improved, and the effect of improving the reinforcing durability of the beam is achieved.

Description

Reinforcing apparatus based on building structure crossbeam

Technical Field

The invention relates to the field of beam reinforcement, in particular to a reinforcing device based on a building structure beam.

Background

The building beam refers to a member which is arranged in the horizontal direction in a building and bears vertical loads such as a floor slab, a roof slab and the like, and is mainly used for bearing the vertical loads and transmitting the vertical loads to a supporting structure of the building, such as a column or a wall body, and the member is helpful for dispersing the loads, ensuring that the building is stable when bearing weight.

Beam reinforcement is an important task in building construction engineering, and aims to enhance the bearing capacity and stability of the beam and ensure safe use of a building. Beam reinforcement is typically performed due to damage, aging, or insufficient load carrying capacity of the beam.

The existing beam reinforcing device is formed by installing steel plates and other materials on the outer side of a beam for auxiliary reinforcement, but after the actual installation is completed, gaps are formed between the reinforcing device and the beam due to expansion caused by heat and contraction caused by cold, the problem that the reinforcing device falls off easily occurs, and the beam is inconvenient to repair in the later stage.

Disclosure of Invention

The invention aims to provide a reinforcing device based on a building structure beam, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The reinforcing device based on the building structure beam comprises a device bottom plate arranged below a beam body, wherein a plurality of clamping plates which are distributed at equal intervals are arranged on two sides of the beam body, the beam body is reinforced by the clamping plates, and the clamping plates on two sides of the beam body are symmetrically distributed; further comprises: the fixed plate mechanism is used for enabling the clamping plates to be attached to the beam body, the fixed plate mechanism is arranged at the top of the device bottom plate, and the fixed plate mechanism is positioned under the two corresponding clamping plates; the plate adjusting mechanism is used for synchronously installing a plurality of clamping plates and is arranged at the bottom of the device bottom plate; and the side support mechanism is used for fixing the device bottom plate to the side wall and is arranged at the bottom of the device bottom plate.

Preferably, the plate fixing mechanism comprises a mounting box fixedly mounted at the top of the bottom plate of the device, two symmetrically distributed beam plates are arranged at the top of the mounting box, the top of each beam plate is contacted with the bottom of the beam body, the two beam plates are mutually contacted, two clamping plates are respectively fixedly mounted at the tops of the two beam plates, two ends of each beam plate are fixedly connected with sliding plates, the width of each sliding plate is the sum of the widths of the two beam plates, a sliding rod I is fixedly connected between the two sliding plates on each beam plate, a sliding hole for limiting sliding of the sliding rod I is formed in the surface of each sliding plate close to the mounting box, a rotating rod is rotatably mounted in the mounting box, a gear I is fixedly connected at the outer side of each rotating rod, a rack plate I matched with the gear I is fixedly connected at the bottom of each beam plate, so that the two beam plates can move in different directions, the surface of the sliding plate is provided with a sliding cavity for limiting sliding of the rack plate I, a coil spring is fixedly connected between one end of the rotating rod, which is far away from the gear I, and the inside of the mounting box, the clamping plate is convenient to prop against the outer side of the beam body by utilizing the elasticity of the coil spring, one surface of the clamping plate, which is close to the beam body, is provided with a contact plate, the contact plate and the clamping plate are both in steel structures, one surface of the contact plate, which is close to the clamping plate, is fixedly connected with a plurality of mounting rods which are distributed at equal intervals, the mounting rods slide through the surface of the clamping plate, springs I corresponding to the mounting rods are fixedly connected between the clamping plate and the contact plate, the rotating rod can move in opposite directions through the first two rack plates of the gear I, so that the sliding plate on the beam plate moves along the outer side of the sliding rod I, and the contact plate on the clamping plate is close to the beam body, the reinforcement of the beam body is realized, the tooth grooves of the first gear and the first rack plate are fastened by utilizing the elasticity of the coil spring, the clamping force of the contact plate on the beam body is improved, and the anti-falling effect is realized.

Preferably, the plate adjusting mechanism comprises two L-shaped brackets fixedly mounted at two ends of the bottom plate of the device respectively, two guide strips which are symmetrically distributed are fixedly connected between the two L-shaped brackets, a rack plate II is fixedly connected to the bottoms of the guide strips, the rack plate II is sleeved on the outer sides of the guide strips in a hollow structure, the rack plate II is convenient to move, the outer sides of the rotating rods are fixedly connected with a gear II matched with the rack plate II, the gear II is positioned below the gear I, one end of the rack plate II is fixedly connected with a guide sliding frame, two sides of the bottom plate of the device are provided with strip sliding holes for limiting sliding of the guide sliding frame, the guide sliding frame passes through the strip sliding holes on the bottom plate of the device, the bottoms of the guide sliding frame extend to the bottoms of the bottom plate of the device, a moving block I is fixedly connected to the bottoms of the guide sliding frame, two mounting seats which are symmetrically distributed are fixedly connected to the bottoms of the bottom plate of the device, the two mounting seats are rotatably mounted with adjusting rods, two ends of the adjusting rods are fixedly connected with two corresponding screw rods, two screw rods are correspondingly arranged at two ends of the adjusting rods are rotatably mounted on the two sides of the mounting blocks, two screw rods are rotatably mounted on the two corresponding screw rods are rotatably mounted on the two side frames, two side frames are rotatably mounted on the two side frames are rotatably and are correspondingly provided with two screw rods respectively, two side frames are rotatably mounted on the two side frames are rotatably and are fixedly connected with two side frames, and are respectively, and are far away from each other, and are fixedly connected with two through screws, the inside of the fixed seat is provided with a mounting cavity for limiting and sliding the mounting cylinder and the sliding strips, one surface of the guide sliding rack, which is close to the L-shaped bracket, is fixedly connected with two inserting rods which are respectively arranged on a horizontal line with the two sliding strips, the L-shaped bracket and the surface of the fixed seat are provided with inserting holes for limiting and inserting the inserting rods, one end of the inserting rods, which is far away from the guide sliding rack, is of an inclined plane structure, the outer side of the sliding strip is provided with a chute for limiting and inserting the inserting rods, one surface of the sliding strip, which is far away from the inserting rods, is fixedly connected with a sleeve block, the inside of the fixed seat is provided with a mounting groove for limiting and sliding the sleeve block, the inner wall of the mounting groove is fixedly connected with a supporting rod which slides to penetrate through the sleeve block, a second spring is fixedly connected between the sleeve block and the inner wall of the bottom of the mounting groove, a reinforcing screw in the mounting cylinder is inserted into the beam body by utilizing the resilience force of the second spring, the supporting rod is positioned at the inner side of the second spring, the device bottom plate can be propped against the bottom of the beam body through two L-shaped brackets, and the first movable blocks corresponding to the two bidirectional screws can be mutually close to or mutually far away from each other by rotating the adjusting rods, so that synchronous operation is facilitated, the second movable blocks can synchronously move the rack plates through the guide sliding frame, a plurality of rotating rods can synchronously rotate, the cross beam body can be quickly reinforced by a plurality of clamping plates, and the guide bars can provide guide limiting and stability improvement for the movement of the guide sliding frame.

Preferably, the side bracing mechanism includes install in moving block two on the bidirectional screw rod, moving block two with bidirectional screw rod is kept away from the screw thread of moving block one-to-one end cooperatees, and moving block one is opposite with moving block two's removal direction, the mount pad with fixedly connected with is run through between the locating piece moving block one with moving block two's slide bar, for moving block two's removal provides direction and spacing, moving block two's outside rotate install two be symmetrical distribution in the installation piece of bidirectional screw rod both sides, the outside fixedly connected with elasticity telescopic link of installation piece, elasticity telescopic link is kept away from the one end rotation of installation piece is installed the roller, two install the backup pad between the roller, the backup pad can turn to through the roller, the surface four corners of backup pad all has offered the mounting hole that is used for the bolt installation, and the regulation pole can make moving block two on the bidirectional screw rod make with moving block two opposite direction remove, and the elasticity telescopic link and the side wall on the installation piece are close to each other through the backup pad to can utilize elasticity telescopic link to support the elasticity telescopic link in the elasticity telescopic link of installation device can be fast and convenient for install the flexible crossbeam under the quick installation.

Preferably, the mounting rod is of a T-shaped structure, and a groove for limiting and sliding of the mounting rod is formed in one surface, away from the contact plate, of the clamping plate, so that the contact plate is prevented from falling off from the clamping plate.

Preferably, a plurality of glue injection grooves which are distributed at equal intervals are formed in the surface of the contact plate, so that the contact plate and the beam body are convenient to be reinforced by glue injection.

Preferably, the outer side of the first sliding rod is sleeved with a sleeve seat in a sliding manner, and the sleeve seat is fixedly arranged at the top of the bottom plate of the device to prevent the first sliding rod from being inclined.

Preferably, a plurality of annular equidistant anti-skid patterns are arranged on the outer side of the adjusting rod, so that a user can hold the adjusting rod for rotation.

Preferably, the outside fixedly connected with sliding sleeve of direction balladeur train, the sliding sleeve activity cup joint in the outside of gib block improves the stationarity that the direction balladeur train removed.

Preferably, a magnet sleeve is installed in the middle of the bidirectional screw rod, and the magnet sleeve is fixedly installed at the bottom of the device bottom plate and used for absorbing the elastic telescopic rod for storage.

Compared with the prior art, the invention has the beneficial effects that:

According to the invention, through the plate fixing mechanism, the rotating rod can drive the first rack plates to move in opposite directions through the first gear, so that the sliding plate on the beam plates moves along the first sliding rod, the contact plate on the clamping plate and the beam body are mutually close to each other, the reinforcement of the beam body is realized, the clamping force of the contact plate on the beam body is improved by utilizing the elasticity of the coil spring, the anti-falling effect is realized, and the first spring can buffer the expansion of the beam body after being heated, so that the effect of improving the reinforcement durability of the beam is achieved.

According to the invention, through the plate adjusting mechanism, the bottom plate of the device can be abutted against the bottom of the beam body through the two L-shaped brackets, the first moving blocks corresponding to the two bidirectional screw rods can be close to or far away from each other by rotating the adjusting rods, so that a user can conveniently and rapidly operate the device, the second moving blocks can synchronously move the rack plates through the guide sliding frame, a plurality of clamping plates can rapidly reinforce the beam body, and the guide bars can provide guide limiting and stability for the movement of the guide sliding frame, so that the rapid and stable reinforcing effect is achieved.

According to the invention, the side support mechanism is adopted, the second moving block on the bidirectional screw rod can move in the opposite direction to the first moving block, the second moving block enables the elastic telescopic rod on the mounting block to prop against the side wall through the supporting plate, the elastic force of the elastic telescopic rod can be utilized to firmly mount the device bottom plate below the beam body, and the elastic telescopic rod can be inclined by rotating the mounting block, so that the effect of improving the mounting convenience is achieved.

Drawings

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

FIG. 2 is a schematic view of the structure of the device bottom plate and beam plate in the present invention;

FIG. 3 is a schematic view of a plate fixing mechanism according to the present invention;

FIG. 4 is a schematic view of the structure of the contact plate and clamping plate according to the present invention;

FIG. 5 is a schematic view of the structure of the guide bar and the L-shaped bracket according to the present invention;

FIG. 6 is an enlarged schematic view of the area A in FIG. 5;

FIG. 7 is a schematic view of a structure of an adjusting lever and a moving block according to the present invention;

FIG. 8 is a schematic view of the structure of the elastic telescopic rod and the supporting plate according to the present invention;

FIG. 9 is a schematic diagram of a first gear and a first rack plate according to the present invention;

FIG. 10 is a schematic view of the structure of the fixing base and the mounting cylinder according to the present invention.

In the figure: 1. a beam body; 2. a device base plate; 3. a fixed plate mechanism; 301. a mounting box; 302. a beam plate; 303. a slide plate; 304. a first slide bar; 305. a rotating rod; 306. a first gear; 307. rack plate I; 308. a coil spring; 309. a contact plate; 310. a mounting rod; 311. a first spring; 4. a board adjusting mechanism; 401. an L-shaped bracket; 402. a guide bar; 403. rack plate II; 404. a second gear; 405. a guide carriage; 406. a first moving block; 407. a mounting base; 408. an adjusting rod; 409. a bidirectional screw; 410. a positioning block; 411. a fixing seat; 412. a mounting cylinder; 413. reinforcing screws; 414. a slide bar; 415. a rod; 416. sleeving blocks; 417. a support rod; 418. a second spring; 5. a side support mechanism; 501. a second moving block; 502. a second slide bar; 503. a mounting block; 504. an elastic telescopic rod; 505. a roll shaft; 506. a support plate; 6. a clamping plate; 7. a sleeve seat; 8. a sliding sleeve; 9. a magnet sleeve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art without inventive faculty, are intended to fall within the scope of the present invention, based on the embodiments of the present invention.

Example 1

Referring to fig. 1 and 2, a reinforcing device based on a beam of a building structure in the drawings comprises a device bottom plate 2 arranged below a beam body 1, wherein a plurality of clamping plates 6 distributed at equal intervals are arranged on two sides of the beam body 1, the beam body 1 is reinforced by the clamping plates 6, and the clamping plates 6 on two sides of the beam body 1 are symmetrically distributed; further comprises: the plate fixing mechanism 3 is used for enabling the clamping plates 6 to be attached to the beam body 1, the plate fixing mechanism 3 is arranged at the top of the device bottom plate 2, and the plate fixing mechanism 3 is positioned under the two corresponding clamping plates 6; the plate adjusting mechanism 4 is used for synchronously installing a plurality of clamping plates 6, and the plate adjusting mechanism 4 is arranged at the bottom of the device bottom plate 2; and a side support mechanism 5 for fixing the device bottom plate 2 to the side wall, the side support mechanism 5 being mounted to the bottom of the device bottom plate 2.

Referring to fig. 2-9, the fixed plate mechanism 3 in the drawings comprises a mounting box 301 fixedly mounted on the top of a device bottom plate 2, two symmetrically distributed beam plates 302 are arranged on the top of the mounting box 301, the top of the beam plates 302 is contacted with the bottom of a beam body 1, the two beam plates 302 are mutually contacted, two clamping plates 6 are respectively fixedly mounted on the tops of the two beam plates 302, sliding plates 303 are fixedly connected to two ends of the beam plates 302, the width of each sliding plate 303 is the sum of the widths of the two beam plates 302, a slide bar 304 is fixedly connected between the two sliding plates 303 on the beam plates 302, a rotating rod 305 is rotatably mounted in the mounting box 301, a gear 306 is fixedly connected to the outer side of the rotating rod 305, a rack plate 307 matched with the gear 306 is fixedly connected to the bottom of the beam plates 302, a sliding cavity for limiting sliding of the rack plate 307 is formed on the surface of each sliding plate 303, one end of the rotating rod 305, which is far away from the mounting box 306, is in the sum of the widths of the two beam plates 302, a sliding hole for limiting sliding movement is formed between the sliding plates 308 and the inner side of the clamping plates 6, a spring 309 is fixedly connected to the side of the spring body 309 which is in contact with the side of the spring 6, and is in contact with the side of the spring plate 6, the spring 309 is fixedly connected to the side of the spring body 309, and is in contact with the side 6, and is in contact with the side of the spring plate 6, and is in contact with the side 309, and is connected with the side 6, and is in the side with the spring 309;

The user rotates the bull stick 305 and makes gear one 306 drive two rack boards one 307 make the counter-current movement, rack board one 307 drives the slide 303 on the beam board 302 and moves along the outside of slide bar one 304, can promote two beam board 302 punch holder 6 and keep away from each other, make the distance between two punch holder 6 be greater than the width of crossbeam body 1, then the user supports beam board 302 in the bottom of crossbeam body 1, loosen bull stick 305, utilize coil spring 308's resilience force, make bull stick 305 rotate reset, make contact plate 309 on punch holder 6 contact with crossbeam body 1, consolidate crossbeam body 1, when crossbeam body 1 along with the temperature variation, utilize spring one 311 and coil spring 308's resilience force, make contact plate 309 hug closely on crossbeam body 1, realize the effect of anti-drop.

Referring to fig. 3-10, the plate adjusting mechanism 4 in the drawings includes two L-shaped brackets 401 respectively fixedly mounted at two ends of the device bottom plate 2 for supporting against the bottom of the beam body 1, two symmetrically distributed guide strips 402 are fixedly connected between the two L-shaped brackets 401, a rack plate two 403 is slidably mounted on the outer side of the guide strip 402, a gear two 404 is located below the gear one 306, the rack plate two 403 is sleeved on the outer side of the guide strip 402 in a hollow structure, so as to facilitate the movement of the rack plate two 403, a gear two 404 matched with the rack plate two 403 is fixedly connected on the outer side of the rotating rod 305, one end of the rack plate two 403 is fixedly connected with a guide sliding frame 405, two sides of the device bottom plate 2 are provided with strip sliding holes for limiting sliding of the guide sliding frame 405, the guide sliding frame 405 passes through the strip sliding holes on the device bottom plate 2, so that the bottom of the guide sliding frame 405 extends to the bottom of the device bottom plate 2, the bottom of the guide sliding frame 405 is fixedly connected with a first moving block 406, the bottom of the device bottom plate 2 is fixedly connected with two symmetrically distributed installation seats 407, the two installation seats 407 are rotatably provided with adjusting rods 408, two ends of each adjusting rod 408 are respectively connected with two symmetrically distributed bidirectional screws 409, the first moving block 406 is matched with threads of one end of each bidirectional screw 409 far away from the installation seat 407, which is far away from each other, the corresponding first moving block 406 can be driven by the two bidirectional screws 409 respectively through the rotating adjusting rods 408, the bottom of the device bottom plate 2 is provided with a positioning block 410 for the rotation installation of the bidirectional screws 409, one end of each bidirectional screw 409 is supported, the outer side of the L-shaped bracket 401 is fixedly connected with a fixed seat 411, the inside of the fixed seat 411 is provided with an installation cylinder 412, the inside of the installation cylinder 412 is provided with a reinforcing screw 413 for being inserted into the cross beam body 1 for auxiliary reinforcement, the two sides of the mounting barrel 412 are fixedly connected with sliding bars 414, a mounting cavity for limiting sliding of the mounting barrel 412 and the sliding bars 414 is formed in the fixing base 411, two inserting bars 415 which are respectively connected with the two sliding bars 414 on a horizontal line are fixedly connected to one surface of the guide sliding frame 405, inserting holes for limiting inserting of the inserting bars 415 are formed in the surfaces of the L-shaped bracket 401 and the fixing base 411, one end of each inserting bar 415, which is far away from the guide sliding frame 405, is of an inclined plane structure, a chute for limiting inserting of the inserting bars 415 is formed in the outer side of each sliding bar 414, the sliding bars 414 are pushed to move downwards through the inclined plane of each sliding bar 414, a sleeve block 416 is fixedly connected to one surface of each sliding bar 414, which is far away from each inserting bar 415, a mounting groove for limiting sliding of the sleeve blocks 416 is formed in the fixing base 411, a supporting bar 417 which penetrates through the sleeve blocks 416 in a sliding mode is fixedly connected to the inner wall of each mounting groove, a second spring 418 is fixedly connected between each sleeve block 416 and the inner wall of the bottom of each mounting groove, the second spring 418 is utilized to enable a reinforcing bolt 413 in each mounting barrel 412 to be inserted into a beam body 1 through the second spring 418, and the second spring 418 is located inside the second spring 418;

The user holds the regulation pole 408 and supports two L-shaped brackets 401 on the device bottom plate 2 at the bottom of the crossbeam body 1, and rotates the regulation pole 408 to drive two bidirectional screws 409 to synchronously rotate, so that two first moving blocks 406 are close to each other or far away from each other, the first moving blocks 406 drive the rack plate II 403 to move along the outer side of the guide bar 402 through the guide carriage 405, the rack plate II 403 can drive the gear II 404 to rotate, synchronous rotation of a plurality of rotating rods 305 is achieved, a plurality of clamping plates 6 can quickly reinforce the crossbeam body 1, thereby achieving the effect of being convenient for quick installation, when the guide carriage 405 moves towards the L-shaped brackets 401, the inserting rod 415 is driven to be inserted into the chute of the sliding bar 414, the sliding bar 414 is driven to move downwards through the inclined plane of the sliding bar 414, so that the sliding bar 414 drives the sleeve block 416 to move to compress the second spring 418 along the outer side of the supporting bar 417, the mounting cylinder 412 is pulled out of the mounting cavity of the fixing seat 411, when the guide carriage 405 is far away from the L-shaped brackets 401, the inserting rod 415 is pulled out from the interior of the sliding bar 414, the resilience force of the second spring 418 is utilized, the mounting cylinder 413 is enabled to strengthen the body, the preset reinforcing cylinder 413 is enabled to be inserted into the chute 1, the bottom plate 1 is convenient for being convenient for the installation of the crossbeam body to rotate, the crossbeam body 1 is convenient for the supporting device bottom plate 1, the device is fixed, and the effect of the bolt 1 is improved, and the bottom plate 1 is convenient for be convenient to rotate and placed in the bottom plate 1 is convenient to be inserted into the fixing groove 1.

Referring to fig. 2, 7 and 8, the side supporting mechanism 5 in the drawings includes a second moving block 501 mounted on a bidirectional screw 409, the second moving block 501 is matched with threads of one end of the bidirectional screw 409 far away from the first moving block 406, the first moving block 406 and the second moving block 501 move in opposite directions, two sliding rods 502 which slide through the first moving block 406 and the second moving block 501 are fixedly connected between a mounting seat 407 and a positioning block 410, guiding and limiting are provided for the movement of the second moving block 501, two mounting blocks 503 symmetrically distributed on two sides of the bidirectional screw 409 are rotatably mounted on the outer side of the second moving block 501, an elastic telescopic rod 504 is fixedly connected on the outer side of the mounting block 503, a roll shaft 505 is rotatably mounted between one ends of the elastic telescopic rod 504 far away from the mounting block 503, a support plate 506 is mounted between the two roll shafts 505, and the support plate 506 can turn through the roll shaft 505, and mounting holes for bolt mounting are formed in four corners of the surface of the support plate 506;

when the user rotates the adjusting rod 408, the second moving block 501 on the bidirectional screw 409 can be driven to move in the opposite direction to the first moving block 406, the second moving block 501 enables the elastic telescopic rod 504 on the mounting block 503 and the side wall to approach each other, the supporting plate 506 abuts against the side wall, the device bottom plate 2 is firmly mounted below the beam body 1 by utilizing the elasticity of the elastic telescopic rod 504, and the user can rotate the mounting block 503 and the roller shaft 505 according to the requirement, so that the elastic telescopic rod 504 is inclined, and the mounting convenience is improved.

Work principle convenient to install fast beam body 1: firstly, a user rotates the adjusting rod 408 to drive the two bidirectional screws 409 to synchronously rotate, so that the two first moving blocks 406 are far away from each other, the first moving blocks 406 move towards the direction of the L-shaped bracket 401 through the guide sliding frame 405 and drive the rack plate two 403 to move along the outer side of the guide strip 402, so that the rack plate two 403 can drive the gear two 404 to rotate, the gear two 404 can drive the rotating rod 305 to rotate, the rotating rod 305 drives the two rack plates one 307 to move in opposite directions through the gear one 306, so that the rack plate one 307 drives the sliding plate 303 on the beam plate 302 to move along the outer side of the sliding rod one 304, so that the clamping plates 6 on the two beam plates 302 can be pushed away from each other, the distance between the two clamping plates 6 is larger than the width of the beam body 1, meanwhile, the guide sliding frame 405 inserts the inserting rod 415 into the chute of the sliding rod 414, pushes the sliding rod 414 to move downwards through the inclined plane of the sliding rod 414, so that the sliding rod 414 drives the sleeve block 416 to move the compressing the spring two 418 along the outer side of the supporting rod 417, the mounting cylinder 412 is retracted into the mounting cavity of the fixing seat 411, then, the user pushes the device bottom plate 2 to move upwards, so that the two L-shaped brackets 401 and the beam plate 302 are abutted against the bottom of the beam body 1, then, the adjusting rod 408 is reversely rotated again, the guide carriage 405 is far away from the L-shaped brackets 401, the inserting rod 415 is pulled out from the chute of the sliding strip 414, the reinforcing screw 413 in the mounting cylinder 412 is knocked on the beam body 1 by the resilience of the spring II 418 to form a preset groove, the user rotates the reinforcing screw 413 to insert into the beam body 1, the device bottom plate 2 is fixed on the bottom of the beam body 1, the contact plate 309 on the clamping plate 6 is contacted with the beam body 1 at the same time, the resilience of the coil spring 308 is utilized to provide pressure for the rotating rod 305, the thrust of the beam body 1 to the clamping plate 6 is reduced, the contact plate 309 on the clamping plate 6 is tightly attached to the beam body 1, and adjust pole 408 drives the movable block two 501 on the bi-directional screw 409 and makes the direction that is opposite to movable block one 406 and remove, movable block two 501 is close to each other with the elastic telescopic link 504 and the side wall on the installation piece 503 to make backup pad 506 support the side wall, utilize the elasticity of elastic telescopic link 504, install the firm below of device bottom plate 2 in crossbeam body 1, when crossbeam body 1 along with the temperature variation, utilize the elasticity of spring one 311 and coil spring 308, make contact plate 309 hug closely on crossbeam body 1, realize the effect of anti-drop, thereby reached quick installation reinforcement and convenient to detach's effect, improve reinforcing apparatus's durability, and overall structure is less, be convenient for the fitment.

Example two

Referring to fig. 4-6, in this embodiment, for further explanation of the embodiment, the mounting rod 310 is in a T-shaped structure in the drawing, a groove for limiting sliding of the mounting rod 310 is provided on a surface of the clamping plate 6 away from the contact plate 309, so as to prevent the contact plate 309 from falling off from the clamping plate 6, a plurality of glue injection grooves distributed at equal intervals are provided on a surface of the contact plate 309, so that the contact plate 309 and the beam body 1 are conveniently reinforced by glue injection, a sleeve seat 7 is sleeved on an outer side of the first slide rod 304 in a sliding manner, and the sleeve seat 7 is fixedly mounted on the top of the bottom plate 2 of the device, so as to prevent the first slide rod 304 from being skewed.

In this embodiment: when the contact plate 309 contacts with the outside of the beam body 1, the user can inject glue between the contact plate 309 and the beam body 1 along the glue injection groove, so that the glue can be quickly injected between the contact plate 309 and the beam body 1, and the effect of reinforcing the glue can be conveniently injected.

Example III

Referring to fig. 7 and 8, in this embodiment, for further explanation of other examples, a plurality of annular equidistant anti-slip patterns are formed on the outer side of the adjusting rod 408 in the illustration, so that a user can hold the adjusting rod to rotate, the outer side of the guiding carriage 405 is fixedly connected with the sliding sleeve 8, the sliding sleeve 8 is movably sleeved on the outer side of the guiding strip 402, the moving stability of the guiding carriage 405 is improved, the middle of the bidirectional screw 409 is provided with the magnet sleeve 9, and the magnet sleeve 9 is fixedly mounted on the bottom of the device bottom plate 2 and is used for absorbing the supporting plate 506 to store the adjusting rod.

In this embodiment: the anti-skidding lines on the surface of the adjusting rod 408 can be convenient for a user to hold, rotate and carry, when the user rotates the adjusting rod 408 to move the moving block II 501 towards the direction of the mounting seat 407, the moving block II 501 drives the elastic telescopic rod 504 on the mounting block 503 to move synchronously, the elastic telescopic rod 504 is rotated by taking the mounting block 503 as a fulcrum, the outer side of the elastic telescopic rod 504 is contacted with the outer side of the magnet sleeve 9, the elastic telescopic rod 504 is absorbed and stored, and the effect of convenient carrying and carrying is achieved.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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 understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A building structure beam-based reinforcement device, comprising: the device comprises a device bottom plate (2) arranged below a beam body (1), wherein a plurality of clamping plates (6) which are distributed at equal intervals are arranged on two sides of the beam body (1), and the clamping plates (6) on two sides of the beam body (1) are symmetrically distributed;

Further comprises:

The fixed plate mechanism (3) is used for enabling the clamping plates (6) and the cross beam body (1) to be mounted in an attached mode, the fixed plate mechanism (3) is mounted at the top of the device bottom plate (2), the fixed plate mechanism (3) is located under the two corresponding clamping plates (6), the fixed plate mechanism (3) comprises a mounting box (301) fixedly mounted at the top of the device bottom plate (2), two symmetrically distributed beam plates (302) are arranged at the top of the mounting box (301), the two clamping plates (6) are respectively fixedly mounted at the tops of the two beam plates (302), sliding plates (303) are fixedly connected to two ends of the beam plates (302), a sliding rod one (304) is fixedly connected between the two sliding plates (303) on the beam plates (302), sliding holes for limiting sliding of the one sliding rod (304) are formed in the surface of the sliding plate (303) close to the mounting box (301), two sliding rods (305) are rotatably mounted in the inside of the mounting box (301), a gear (307) is fixedly connected with the outer side of the sliding plate (307), a rack (306) is fixedly connected with the sliding plate (307), the bottom of the sliding plate (307) is fixedly connected with the rack (306), a coil spring (308) is fixedly connected between one end, far away from the first gear (306), of the rotating rod (305) and the inside of the mounting box (301), a contact plate (309) is arranged on one surface, close to the beam body (1), of the clamping plate (6), a plurality of mounting rods (310) which are distributed at equal intervals are fixedly connected on one surface, close to the clamping plate (6), of the contact plate (309), the mounting rods (310) penetrate through the surface of the clamping plate (6) in a sliding mode, and first springs (311) with the number corresponding to that of the mounting rods (310) are fixedly connected between the clamping plate (6) and the contact plate (309);

The adjusting plate mechanism (4) is used for synchronously installing a plurality of clamping plates (6), the adjusting plate mechanism (4) is installed at the bottom of the device bottom plate (2), the adjusting plate mechanism (4) comprises two L-shaped brackets (401) which are respectively and fixedly installed at two ends of the device bottom plate (2), two guide strips (402) which are symmetrically distributed are fixedly connected between the two L-shaped brackets (401), a rack plate II (403) is slidably installed at the outer side of the guide strips (402), a gear II (404) matched with the rack plate II (403) is fixedly connected at the outer side of the rotating rod (305), the gear II (404) is positioned below the gear I (306), one end of the rack plate II (403) is fixedly connected with a guide sliding frame (405), two sides of the device bottom plate (2) are provided with strip sliding holes for limiting sliding of the guide sliding frame (405), the guide sliding frame (405) penetrates through the strip sliding holes on the device bottom plate (2), the bottom of the guide sliding frame (405) is fixedly connected with a moving block I (406), the bottom of the device bottom plate (2) is fixedly connected with two symmetrically distributed mounting seats (407), the two mounting seats (407) are rotatably provided with adjusting rods (408), two ends of each adjusting rod (408) are respectively connected with two symmetrically distributed bidirectional screws (409), the first moving block (406) is matched with threads of one end of the bidirectional screw rod (409) far away from the mounting seat (407), a positioning block (410) for the rotation and mounting of the bidirectional screw rod (409) is arranged at the bottom of the device bottom plate (2), a fixed seat (411) is fixedly connected to the outer side of the L-shaped bracket (401), a mounting barrel (412) is arranged in the fixed seat (411), a reinforcing screw (413) is arranged in the mounting barrel (412), sliding strips (414) are fixedly connected to two sides of the mounting barrel (412), a mounting cavity for limiting and sliding of the mounting barrel (412) and the sliding strips (414) is arranged in the fixed seat (411), two inserting rods (415) which are respectively connected with two sliding strips (414) on a horizontal line are fixedly connected to one surface of the guide sliding frame (405) close to the L-shaped bracket (401), inserting holes for limiting and inserting the inserting rods (415) are formed in the surfaces of the L-shaped bracket (401) and the fixed seat (411), one end, far away from the guide sliding frame (405), of the inserting rods (415) is of an inclined surface structure, inclined grooves for limiting and inserting the inserting rods (415) are formed in the outer side of the sliding strips (414), sleeve blocks (416) are fixedly connected to one surface, far away from the inserting rods (415), of the sliding strips (414), an installation groove for limiting sliding of the sleeve block (416) is formed in the fixing seat (411), a supporting rod (417) penetrating through the sleeve block (416) in a sliding mode is fixedly connected to the inner wall of the installation groove, a second spring (418) is fixedly connected between the sleeve block (416) and the inner wall of the bottom of the installation groove, and the supporting rod (417) is located at the inner side of the second spring (418);

The device comprises a device bottom plate (2), a side support mechanism (5) and a support block (410), wherein the device bottom plate (2) is fixed to a side wall, the side support mechanism (5) is installed at the bottom of the device bottom plate (2), the side support mechanism (5) comprises a second movable block (501) installed on a bidirectional screw (409), the second movable block (501) is matched with threads at one end of a first movable block (406) far away from the bidirectional screw (409), two sliding penetrating holes are fixedly connected between a mounting seat (407) and a positioning block (410) through the first movable block (406) and a second sliding rod (502) of the second movable block (501), two mounting blocks (503) symmetrically distributed at two sides of the bidirectional screw (409) are rotatably installed at the outer side of the second movable block (501), an elastic telescopic rod (504) is fixedly connected at the outer side of the second movable block (503), one end of the second movable block (409) far away from the mounting block (503) is rotatably provided with a roll shaft (505), two support plates (506) are fixedly connected between the second movable block (505), and the second movable block (501) is provided with four-corner mounting bolts (506).

2. A building structure beam-based reinforcement device according to claim 1, wherein: the mounting rod (310) is of a T-shaped structure, and a groove for limiting sliding of the mounting rod (310) is formed in one surface, away from the contact plate (309), of the clamping plate (6).

3. A building structure beam-based reinforcement device according to claim 1, wherein: the surface of the contact plate (309) is provided with a plurality of glue injection grooves which are distributed at equal intervals.

4. A building structure beam-based reinforcement device according to claim 1, wherein: the outer side of the first sliding rod (304) is in sliding sleeve connection with a sleeve seat (7), and the sleeve seat (7) is fixedly arranged at the top of the device bottom plate (2).

5. A building structure beam-based reinforcement device according to claim 1, wherein: the outer side of the adjusting rod (408) is provided with a plurality of annular equidistant anti-skid patterns.

6. A building structure beam-based reinforcement device according to claim 1, wherein: the outside fixedly connected with sliding sleeve (8) of direction balladeur train (405), sliding sleeve (8) activity cup joint in the outside of gib block (402).

7. A building structure beam-based reinforcement device according to claim 1, wherein: the middle of the bidirectional screw rod (409) is provided with a magnet sleeve (9), and the magnet sleeve (9) is fixedly arranged at the bottom of the device bottom plate (2).