CN115324375B

CN115324375B - Reinforced structure for building structure design beam

Info

Publication number: CN115324375B
Application number: CN202211034084.1A
Authority: CN
Inventors: 蒋建栋
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-26
Filing date: 2022-08-26
Publication date: 2024-01-19
Anticipated expiration: 2042-08-26
Also published as: CN115324375A

Abstract

The invention belongs to the technical field of building beam reinforcement, in particular to a reinforcing structure for a building structural design beam, which comprises a supporting base, wherein one end of the supporting base is provided with a multidirectional adjusting assembly, the multidirectional adjusting assembly comprises a lifting installation frame, a cross guide frame, a rotating shaft, a first motor, a first screw rod, a main rotating shaft and a first rotating shaft, and one end of the lifting installation frame is fixedly connected with two limiting sliding rails. According to the invention, the fixing assembly is arranged, when the building beam is supported and fixed, the side connecting rods and the top connecting rods positioned at the two sides of the fixing frame can be simultaneously moved through the stretching of the telescopic air cylinders, in the moving process, the side clamping blocks on the side connecting rods are used for fixing the side surfaces of the building beam, the top clamping blocks on the top connecting rods are used for fixing the upper parts of the building beam, and the plurality of sides of the building beam are fixed, so that the building beam is more stable in supporting, and the construction safety is ensured.

Description

Reinforced structure for building structure design beam

Technical Field

The invention relates to the technical field of building beam reinforcement, in particular to a reinforcing structure for a building structure design beam.

Background

Along with the rapid development of the building industry, the construction requirements of buildings are changed due to the acceleration of the urban process, and the stability and the firm effect of the buildings are directly affected by the house frame beams which are main bones of the buildings, so that reinforcing devices are required to be added outside the frame beams, thereby improving the safety and the firmness.

In the construction process of the existing building, the main core of the building is required to support and fix the building beam when the house frame beam is constructed, and the existing reinforcing structure needs a large amount of time to detach and install the reinforcing structure due to the fact that the height and the supporting angle of the building beam are different in the use process, so that the construction efficiency is greatly influenced.

Disclosure of Invention

The invention provides a reinforcing structure for a building structure design beam, which comprises a support base, wherein one end of the support base is provided with a multidirectional adjusting assembly.

Wherein, above-mentioned multidirectional adjusting part includes lift installing frame, cross guide frame, rotation axis, a motor, a lead screw, main pivot and a pivot, the one end fixedly connected with of lift installing frame is two spacing slide rails, two the outside of a lead screw all is through threaded connection has the regulating block, and the equal fixedly connected with ratch of one end of two regulating blocks, the outside fixedly connected with angle adjusting gear of rotation axis, two mounting grooves and No. two mounting grooves have been seted up respectively to the one end of cross guide frame, and No. two mounting grooves's both ends have all been seted up No. two mounting holes, and two relative No. two mounting holes's inside has No. two lead screws through bearing connection, and two No. three mounting holes have all been seted up at No. two mounting grooves's both ends, and the inside of two relative No. three mounting holes is through bearing connection has No. three lead screws, and two No. three lead screws's outside all is through threaded connection has No. one movable block, no. two motor's output end fixedly connected with No. two conical gears, main pivot fixedly connected with the outside of a pivot, no. two conical gear.

Preferably, one end of the rotating seat is provided with a fixing component, and the fixing component comprises a fixing frame.

Preferably, two the equal fixedly connected with locating piece of one end of fixed frame, and the equal fixedly connected with telescopic cylinder of one end of two locating pieces, the equal fixedly connected with installation piece in both ends of two telescopic cylinders, no. four mounting holes have all been seted up at the both ends of two installation pieces, and the inside of two relative No. four mounting holes is connected with No. three pivots through the bearing.

Preferably, the outside fixedly connected with side connecting rod and top connecting rod respectively of No. three pivots that is located the both sides, and No. five mounting holes have been seted up to the one end of side connecting rod, and No. five mounting holes's inside is connected with No. four pivots through the bearing, and No. four pivots's outside fixedly connected with side clamping piece.

Preferably, no. six mounting holes have been seted up to the one end of top connecting rod, and No. five pivots of inside through bearing connection in No. six mounting holes, and No. five pivots's outside fixedly connected with triangle connecting plate, two No. seven mounting holes have been seted up to the one end of triangle connecting plate, and No. two pivots are all connected with No. six pivots through bearing to the inside in two No. seven mounting holes, and two No. six pivots's outside fixedly connected with top presss from both sides tight piece.

Preferably, two equal fixedly connected with No. two installation pieces in both ends of fixed frame, and No. seven mounting holes have all been seted up to the one end of every No. two installation pieces, and the inside of every No. seven mounting holes all has the connecting axle through bearing connection, no. eight mounting holes have all been seted up to the one end of side connecting rod and top connecting rod, and the inside of No. eight mounting holes that is located on the side connecting rod has No. two round bars through bearing connection, and the inside of No. eight mounting holes that is located on the top connecting rod has No. one round bar through bearing connection.

Preferably, the connecting shaft on one side is fixedly connected with a second limiting rod with the outer part of the second round rod, the connecting shaft on one side is fixedly connected with a first limiting rod with the outer part of the first round rod, and one ends of the two fixing frames are fixedly connected with rubber pads at equal distances.

Preferably, one end of the lifting mounting frame is provided with a dust removing assembly, and the dust removing assembly comprises a fixing plate.

Preferably, two hollow dust collection rods are fixedly connected to the two ends of the lifting installation frame, dust collection holes are formed in the outer portions of the two hollow dust collection rods at equal intervals, a dust collector is fixedly connected to one end of the fixing plate, the dust collection end of the dust collector is connected to the inner portion of the hollow dust collection rod through a two-way dust collection pipe, and a dust collection box is fixedly connected to one end of the fixing plate.

Preferably, one end fixedly connected with adjustment platform of cross guide frame, the one end fixedly connected with driving motor of lift installing frame, the outside sliding connection of two lead screws has same rotation area, the one end fixedly connected with two connecting seats of lift installing frame, the outside equidistance fixedly connected with fixed block of rotation axis, the one end fixedly connected with lifter and No. two lifter respectively of No. one movable block and No. two movable blocks, no. one mounting hole has all been seted up to No. one lifter and No. two lifter's one end, the inside of every No. nine mounting hole all is connected with the axis of rotation through the bearing, the outside of every axis of rotation is equal fixedly connected with connecting block, the one end fixedly connected with mount pad of cross guide frame, the spout has been seted up to one end of arc regulation pole, the inside roll connection of spout has the runner, ten mounting holes have been seted up to one end of runner, the inside of ten mounting holes has No. two pivots through bearing connection, the one end fixedly connected with No. two motors of support base, no. two motor's output outside fixedly connected with rotary rod, no. two lead screws and No. three lead screw's outside are all fixedly connected with linkage gear.

The beneficial effects of the invention are as follows:

1. through being provided with multidirectional adjusting part, when strengthening the building roof beam, to not co-altitude and supporting angle's building roof beam, can at first drive horizontal adjustment gear through the arc regulation pole and make adjustment platform and building roof beam direction unanimous, then according to building roof beam's height, then rotate through the bevel gear, make the bevel gear rotate in-process drive linkage gear, drive a movable block and No. two movable blocks in the cross guide frame through No. two lead screws and No. three lead screws and remove, make the lift installing frame can adjust from top to bottom, then according to building roof beam's supporting angle, drive the regulating block through a lead screw and remove, make the rack drive angle adjustment gear rotate, can adjust reinforced structure's reinforcement direction, through consolidating the building roof beam to not co-altitude and supporting angle, the reinforced structure is dismantled and is installed to the reduction, and construction efficiency has been promoted.

2. Through being provided with fixed subassembly, when supporting fixedly to the building roof beam, can stretch through telescopic cylinder for side connecting rod and top connecting rod that is located the fixed frame both sides remove simultaneously, the in-process of removal, make the side clamp block on the side connecting rod fix the building roof beam side, the top clamp block on the top connecting rod is fixed building roof beam top, fixes through a plurality of faces of building roof beam, makes it more stable when supporting, guarantees the safety of construction.

3. Through being provided with the dust removal subassembly, when using this reinforced structure to support the building roof beam, can start the dust catcher, absorb the dust in the air above the building roof beam through the cavity dust absorption stick of both sides, then in the unified dust collection box of discharging, prevent that the dust from being stained with for a long time and attaching in the reinforced structure top, cause it to corrode, influence reinforced structure's life.

Drawings

FIG. 1 is a schematic view of the whole structure of a reinforcement structure for a structural beam according to the present invention;

FIG. 2 is a schematic side view of a reinforcement structure for a structural beam of a building according to the present invention;

FIG. 3 is a schematic view of a portion of a multi-directional adjusting assembly of a reinforcement structure for a structural beam according to the present invention;

FIG. 4 is a schematic view of a portion of a multi-directional adjusting assembly of a reinforcement structure for a structural beam according to the present invention;

FIG. 5 is an enlarged schematic view of the portion A of FIG. 3;

FIG. 6 is a schematic view of a fastening assembly of a reinforcing structure for a structural beam according to the present invention;

fig. 7 is a schematic structural diagram of a dust removing assembly of a reinforcing structure for a structural beam according to the present invention.

In the figure: 1. a support base; 2. adjusting a platform; 3. a multi-directional adjustment assembly; 301. lifting the mounting frame; 302. a limit sliding rail; 303. a first screw rod; 304. an adjusting block; 305. a toothed bar; 306. a driving motor; 307. rotating the belt; 308. a connecting seat; 309. a rotation shaft; 310. an angle adjusting gear; 311. a fixed block; 312. a cross guide frame; 313. a second screw rod; 314. a first moving block; 315. a second moving block; 316. a lifting rod I; 317. a lifting rod II; 318. a rotating shaft; 319. a connecting block; 320. a third screw rod; 321. a mounting base; 322. a motor I; 323. a bevel gear; 324. a linkage gear; 325. a main rotating shaft; 326. a horizontal adjustment gear; 327. a first rotating shaft; 328. an arc-shaped adjusting rod; 329. a rotating wheel; 330. a motor II; 331. a rotating rod; 332. a second rotating shaft; 333. a rotating seat; 4. a fixing assembly; 401. a fixed frame; 402. a rubber pad; 403. a positioning block; 404. a telescopic cylinder; 405. a first mounting block; 406. a third rotating shaft; 407. a side connecting rod; 408. a top connecting rod; 409. a fourth rotating shaft; 410. a side clamping block; 411. a fifth rotating shaft; 412. a triangular connecting plate; 413. a sixth rotating shaft; 414. a top clamping block; 415. a second mounting block; 416. a connecting shaft; 417. a first limit rod; 418. a round bar I; 419. a second limit rod; 420. a second round bar; 5. a dust removal assembly; 501. a fixing plate; 502. a hollow dust collection rod; 503. a dust collector; 504. a two-way dust collection pipe; 505. a dust collection box.

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.

Referring to fig. 1, 2, 3, 4 and 5, a reinforcing structure for a structural design beam of a building includes a support base 1, and a multidirectional adjusting assembly 3 is provided at one end of the support base 1.

Wherein, above-mentioned multidirectional adjusting part 3 includes lift installing frame 301, cross guide frame 312, rotation axis 309, motor 322, lead screw 303, main pivot 325 and pivot 327, the one end fixedly connected with two spacing slide rails 302 of lift installing frame 301, the outside of two lead screws 303 all has regulating block 304 through threaded connection, and the equal fixedly connected with rack 305 of one end of two regulating blocks 304, two angle adjusting gear 310 of the outside fixedly connected with of rotation axis 309, two mounting grooves and No. two mounting grooves have been seted up respectively to the one end of cross guide frame 312, and No. two mounting grooves's both ends have all been seted up No. two mounting holes, and the inside of two relative No. two mounting holes has lead screws 313 through the bearing connection, and No. two outside equal threaded connection of two No. two lead screws 313 has No. two movable blocks 315, no. three lead screws 320 are all seted up through the bearing connection to the both ends of two relative No. three mounting holes, and No. 320's outside has a conical gear 322 through the one motor connection No. 326, no. one output shaft 328 of a fixed connection of pivot 323 has a fixed connection of pivot 328.

In the invention, when the multi-directional adjusting assembly 3 is arranged to reinforce the building beam, the horizontal adjusting gear 326 can be driven by the arc adjusting rod 328 to enable the adjusting platform 2 to be consistent with the direction of the building beam, then the linkage gear 324 is driven by the bevel gear 323 in the rotation process according to the height of the building beam, the first moving block 314 and the second moving block 315 are driven by the second screw 313 and the third screw 320 to move in the cross guide frame 312, the lifting mounting frame 301 can be adjusted up and down, then the adjusting block 304 is driven by the first screw 303 to move according to the supporting angle of the building beam, the toothed bar 305 can drive the angle adjusting gear 310 to rotate, the reinforcing direction of the reinforcing structure can be adjusted, the dismounting and mounting of the reinforcing structure are reduced, and the construction efficiency is improved.

Referring to fig. 1 and 6, one end of the swivel base 333 is provided with a fixing assembly 4, and the fixing assembly 4 includes a fixing frame 401, through being provided with the fixing assembly 4, a plurality of faces of the building beam can be fixed, so that it is more stable when supported, and the safety of construction is ensured.

Referring to fig. 1 and 6, one ends of two fixed frames 401 are fixedly connected with locating blocks 403, one ends of two locating blocks 403 are fixedly connected with telescopic cylinders 404, two ends of two telescopic cylinders 404 are fixedly connected with first installation blocks 405, four installation holes are formed in two ends of two first installation blocks 405, three rotating shafts 406 are connected to the inner portions of the two opposite fourth installation holes through bearings, and two side first installation blocks 405 can horizontally move through the telescopic cylinders 404.

Referring to fig. 6, the outer parts of the three rotating shafts 406 at both sides are fixedly connected with a side connecting rod 407 and a top connecting rod 408, and one end of the side connecting rod 407 is provided with a five-number mounting hole, the inner part of the five-number mounting hole is connected with a four-number rotating shaft 409 through a bearing, the outer part of the four-number rotating shaft 409 is fixedly connected with a side clamping block 410, and the side of the building beam is fixed through the side clamping block 410.

Referring to fig. 6, a sixth mounting hole is formed at one end of the top connecting rod 408, a fifth rotating shaft 411 is connected to the inside of the sixth mounting hole through a bearing, a triangle connecting plate 412 is fixedly connected to the outside of the fifth rotating shaft 411, two seventh mounting holes are formed at one end of the triangle connecting plate 412, a sixth rotating shaft 413 is connected to the inside of the two seventh mounting holes through bearings, a top clamping block 414 is fixedly connected to the outside of the two sixth rotating shafts 413, and the top of the building beam can be fixed through the top clamping block 414.

Referring to fig. 1 and 6, two ends of two fixing frames 401 are fixedly connected with second mounting blocks 415, a seventh mounting hole is formed in one end of each second mounting block 415, a connecting shaft 416 is connected to the inside of each seventh mounting hole through a bearing, an eighth mounting hole is formed in one end of each side connecting rod 407 and one end of each top connecting rod 408, a second round rod 420 is connected to the inside of each eighth mounting hole located on each side connecting rod 407 through a bearing, and a first round rod 418 is connected to the inside of each eighth mounting hole located on each top connecting rod 408 through a bearing.

Referring to fig. 1 and 6, a second limiting rod 419 is fixedly connected to the outside of the first round rod 420 and the connecting shaft 416 on one side, a first limiting rod 417 is fixedly connected to the outside of the first round rod 418 and the connecting shaft 416 on one side, a rubber pad 402 is fixedly connected to one end of the two fixing frames 401 at equal distances, and friction to the building beam is reduced by the rubber pad 402.

Referring to fig. 1 and 7, one end of the lifting mounting frame 301 is provided with a dust removing assembly 5, and the dust removing assembly 5 comprises a fixing plate 501, so that dust can be sucked through being provided with the dust removing assembly 5, the dust is prevented from being attached to the upper portion of the reinforcing structure for a long time, corrosion is caused to the dust, and the service life of the reinforcing structure is affected.

Referring to fig. 1 and 7, two hollow dust collection rods 502 are fixedly connected to two ends of the lifting mounting frame 301, dust collection holes are formed in the two hollow dust collection rods 502 at equal intervals, a dust collector 503 is fixedly connected to one end of the fixing plate 501, a dust collection end of the dust collector 503 is connected to the inside of the hollow dust collection rod 502 through a bidirectional dust collection pipe 504, a dust collection box 505 is fixedly connected to one end of the fixing plate 501, and dust is collected through the hollow dust collection rods 502.

Referring to fig. 1, fig. 3 and fig. 4, one end fixedly connected with adjustment platform 2 of cross guide frame 312, the one end fixedly connected with driving motor 306 of lift mounting frame 301, the outside sliding connection of two first lead screws 303 has the same rotation area 307, the one end fixedly connected with two connecting seats 308 of lift mounting frame 301, the outside equidistance fixedly connected with fixed block 311 of rotation axis 309, the one end fixedly connected with lifter 316 and lifter 317 respectively of first movable block 314 and second movable block 315, nine mounting holes have all been seted up to the one end of lifter 316 and lifter 317, the inside of every nine mounting holes all is connected with axis of rotation 318 through the bearing, the outside of every axis of rotation 318 all is fixedly connected with connecting block 319, the one end fixedly connected with mount pad 321 of cross guide frame 312, the one end of arc regulation pole 328 has the spout, the inside rolling connection of spout has runner 329, the one end of runner has seted up ten mounting holes, the inside through the bearing connection No. 2 pivot 332, the one end fixedly connected with motor 330 of second support base 1, the output end of No. 330 has the outside of No. 313 is fixedly connected with screw rod 320 and No. 320.

When in use, for building beams with different heights and supporting angles, the horizontal adjusting gear 326 can be driven by the arc adjusting rod 328 to enable the adjusting platform 2 to be consistent with the direction of the building beam, then the conical gear 323 is rotated according to the height of the building beam, the linkage gear 324 is driven in the rotation process of the conical gear 323, the first moving block 314 and the second moving block 315 are driven by the second screw 313 and the third screw 320 to move in the cross guide frame 312, the lifting mounting frame 301 can be adjusted up and down, then the adjusting block 304 is driven by the first screw 303 to move according to the supporting angle of the building beam, the toothed bar 305 is driven by the angle adjusting gear 310 to rotate, the reinforcing direction of the reinforcing structure can be adjusted, the building beams with different heights and supporting angles are reinforced, the disassembly and the mounting of the reinforcing structure are reduced, the construction efficiency is improved, then the stretching through telescopic cylinder 404, the side connecting rod 407 and the top connecting rod 408 that are located the fixed frame 401 both sides remove simultaneously, the in-process of removal, make the side clamping block 410 on the side connecting rod 407 fix the building roof beam side, the top clamping block 414 on the top connecting rod 408 is fixed to the building roof beam top, fix through a plurality of faces of building roof beam, make it more stable when supporting, guarantee the safety of construction, simultaneously, when using this reinforced structure to support the building roof beam, can start dust catcher 503, draw the dust in the air above the building roof beam through the cavity dust absorption stick 502 of both sides, then in unified the emission dust collection box 505, prevent that the dust from being stained with in the reinforced structure top for a long time, cause the corruption to it, influence reinforced structure's service life.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The reinforcing structure for the building structure design beam comprises a supporting base (1), and is characterized in that one end of the supporting base (1) is provided with a multidirectional adjusting assembly (3);

wherein the multidirectional adjusting assembly (3) comprises a lifting mounting frame (301), a cross guide frame (312), a rotating shaft (309), a motor (322), a first screw rod (303), a main rotating shaft (325) and a first rotating shaft (327), one end of the lifting mounting frame (301) is fixedly connected with two limit sliding rails (302), two outside of the first screw rod (303) is respectively connected with an adjusting block (304) through threads, one end of the two adjusting blocks (304) is respectively fixedly connected with a toothed bar (305), the outside of the rotating shaft (309) is fixedly connected with two angle adjusting gears (310), one end of the cross guide frame (312) is respectively provided with two first mounting grooves and two second mounting grooves, two ends of the two first mounting grooves are respectively provided with two second mounting holes, the inside of the two second mounting holes are connected with second screw rods (313) through bearings, the outside of the two second screw rods (313) is respectively connected with two moving blocks (305), two ends of the two second mounting grooves are respectively provided with three motor ends, three ends of the two mounting grooves are respectively provided with three conical screw rods (320) are respectively connected with one end of the first screw rod (320), the outer part of the main rotating shaft (325) is fixedly connected with a horizontal adjusting gear (326), and the outer part of the first rotating shaft (327) is fixedly connected with an arc-shaped adjusting rod (328);

one end of the rotating seat (333) is provided with a fixed component (4), and the fixed component (4) comprises a fixed frame (401);

one end of each of the two fixing frames (401) is fixedly connected with a locating block (403), one end of each of the two locating blocks (403) is fixedly connected with a telescopic cylinder (404), two ends of each of the two telescopic cylinders (404) are fixedly connected with a first mounting block (405), two ends of each of the two first mounting blocks (405) are provided with a fourth mounting hole, and the interiors of the two opposite fourth mounting holes are connected with a third rotating shaft (406) through bearings;

the outer parts of the third rotating shafts (406) positioned on the two sides are fixedly connected with a side connecting rod (407) and a top connecting rod (408) respectively, a fifth mounting hole is formed in one end of the side connecting rod (407), a fourth rotating shaft (409) is connected in the fifth mounting hole through a bearing, and a side clamping block (410) is fixedly connected to the outer parts of the fourth rotating shafts (409);

one end fixedly connected with adjustment platform (2) of cross guide frame (312), the one end fixedly connected with driving motor (306) of lift installing frame (301), the outside sliding connection of two first lead screws (303) has same rotation area (307), the one end fixedly connected with two connecting seat (308) of lift installing frame (301), the outside equidistance fixedly connected with fixed block (311) of rotation axis (309), the one end fixedly connected with lifter (316) and lifter (317) respectively of first movable block (314) and second movable block (315), nine mounting holes have all been seted up to the one end of lifter (316) and lifter (317), the inside of every nine mounting holes is connected with axis of rotation (318) through the bearing, the outside of every axis of rotation (318) is fixedly connected with connecting block (319), the one end fixedly connected with mount pad (321) of cross guide frame (312), the one end of arc adjusting lever (328) is seted up and is had the spout, the inside rolling connection of spout has runner (329), the one end of runner (314) has been seted up ten mounting holes of motor, the one end of ten motor is connected with the inside rolling connection of pivot (329), the one end of ten motor is connected with the inside rolling connection of pivot (330) through bearing (330), the outsides of the second screw rod (313) and the third screw rod (320) are fixedly connected with a linkage gear (324).

2. The reinforcing structure for the building structural design beam according to claim 1, wherein a six-number mounting hole is formed in one end of the top connecting rod (408), a five-number rotating shaft (411) is connected to the inside of the six-number mounting hole through a bearing, a triangular connecting plate (412) is fixedly connected to the outside of the five-number rotating shaft (411), two seven-number mounting holes are formed in one end of the triangular connecting plate (412), six-number rotating shafts (413) are connected to the inside of the two seven-number mounting holes through bearings, and a top clamping block (414) is fixedly connected to the outside of the two six-number rotating shafts (413).

3. The reinforcing structure for a structural design beam according to claim 2, wherein two ends of the fixing frames (401) are fixedly connected with second mounting blocks (415), a seventh mounting hole is formed in one end of each second mounting block (415), a connecting shaft (416) is connected to the inside of each seventh mounting hole through a bearing, an eighth mounting hole is formed in one end of each side connecting rod (407) and one end of each top connecting rod (408), a second round rod (420) is connected to the inside of each eighth mounting hole on each side connecting rod (407) through a bearing, and a first round rod (418) is connected to the inside of each eighth mounting hole on each top connecting rod (408) through a bearing.

4. A reinforcing structure for a structural beam according to claim 3, wherein the connecting shaft (416) at one side is fixedly connected with a second limit rod (419) with the outer part of the second round rod (420), the connecting shaft (416) at one side is fixedly connected with a first limit rod (417) with the outer part of the first round rod (418), and one ends of the two fixing frames (401) are fixedly connected with rubber pads (402) at equal distances.

5. The reinforcing structure for a structural design beam according to claim 1, wherein one end of the lifting mounting frame (301) is provided with a dust removing assembly (5), and the dust removing assembly (5) comprises a fixing plate (501).

6. The reinforcing structure for a structural design beam of claim 5, wherein two ends of the lifting mounting frame (301) are fixedly connected with two hollow dust collection rods (502), dust collection holes are formed in the outer portions of the two hollow dust collection rods (502) at equal intervals, a dust collector (503) is fixedly connected to one end of the fixing plate (501), a dust collection end of the dust collector (503) is connected to the inner portion of the hollow dust collection rod (502) through a bidirectional dust collection pipe (504), and a dust collection box (505) is fixedly connected to one end of the fixing plate (501).