CN219887659U - Assembled steel braced frame consolidates brickwork bearing wall construction equipment - Google Patents

Abstract

The utility model provides an assembled steel support frame reinforced masonry load-bearing wall construction device, which relates to the technical field of engineering reinforcement and comprises a bottom support steel frame, wherein the bottom support steel frame comprises a second steel frame, a second adjusting slide block is slidably arranged on the second steel frame, a top support steel frame is slidably arranged on the second steel frame, a first adjusting slide block is slidably arranged on the top support steel frame, a plurality of second ratchets are fixedly arranged on the second steel frame, and gear patterns are arranged in the second steel frame; the utility model is provided with the top support steel frame, and the top support steel frame which is slidably arranged on the bottom support steel frame can be adjusted in height according to the requirement, so that the top plate with uneven ground is supported conveniently; the utility model is provided with the first adjusting slide block and the second adjusting slide block, and the first horizontal rod and the second horizontal rod which are connected between the first adjusting slide block and the second adjusting slide block can provide horizontal reference and detect flatness during construction.

Description

Assembled steel braced frame consolidates brickwork bearing wall construction equipment

Technical Field

The utility model relates to the technical field of engineering reinforcement, in particular to a construction device for an assembled steel support frame reinforced masonry load-bearing wall.

Background

The bearing wall is a wall body responsible for supporting the floor weight in a building structure, is planned by professional designers through precise calculation in the building process and is built at a designated position, if the bearing wall is perforated or dug at will after being built, the stability of the whole building can be seriously affected, or the bearing wall is damaged through the influence of wind erosion, rain and natural disasters in the long-term month, the stability of the building can be changed, and then the bearing wall is required to be reinforced, or the original bearing wall is removed and is rebuilt in situ.

When reinforcing or demolishing the bearing wall, need arrange the support frame that supports the roof temporarily around the bearing wall and support the roof, prevent to lead to building structure unstable when demolishing the bearing wall, later consolidate or demolish it again.

When the temporary support is carried out on the top plate, I-steel and a jack are usually adopted, but in the supporting process, if the I-steel is not placed at a proper angle and position, the I-steel is easy to fall off in the supporting stress process, so that the supporting structure is unstable, and when the temporary support is installed, a cushion is required to be added under the condition of uneven ground or insufficient size of the support rod, so that the construction safety is poor.

The utility model provides a underpinning device and a construction method for a bearing wall in a brick-concrete structure, which are disclosed in the Chinese patent application with publication number of CN106245931A, and the underpinning device and the construction method are used for supporting a top plate through two underpinning beams fixedly arranged on supporting columns, so that the problem that a supporting rod structure is unstable and easily falls off when the top plate is supported is effectively avoided, but the problem of inconvenient assembly exists, and meanwhile, the problem that a cushion is needed to be added on the supporting rod when the top plate is supported on uneven ground is not solved.

Disclosure of Invention

The utility model provides an assembled steel support frame reinforced masonry load-bearing wall construction device which comprises a bottom support steel frame, wherein the bottom support steel frame comprises a second steel frame, a second adjusting slide block is slidably arranged on the second steel frame, a top support steel frame is slidably arranged on the second steel frame, a first adjusting slide block is slidably arranged on the top support steel frame, a plurality of second ratchets are fixedly arranged on the second steel frame, and gear patterns are arranged in the second steel frame.

Further, the top support steel frame comprises a first steel frame, and an adjusting knob, a threaded rod and an adjusting gear are rotatably arranged in the first steel frame.

Further, the adjusting knob is provided with threads, the threaded rod is fixedly provided with a gear, the threads on the adjusting knob are matched with a gear worm on the threaded rod, the threaded rod is matched with the adjusting gear worm, and the adjusting gear is meshed with the gear threads in the second steel frame.

Further, first regulation slider includes first hollow slider, first hollow slider slidable mounting is on first steelframe, first regulation button of slidable mounting is equipped with compression spring between first regulation button and the first hollow slider, fixed mounting has first regulation pole on the first regulation button, first limiting plate of slidable mounting is equipped with compression spring between first limiting plate and the first hollow slider in the first hollow slider, be equipped with the pawl on the first limiting plate, be equipped with the spout on the first limiting plate, be fixed with the triangular key on the first regulation pole, the triangular key of first regulation pole and the spout sliding fit on the first limiting plate.

Further, the second adjusting slide block comprises a second hollow slide block, the second hollow slide block is slidably mounted on the second steel frame, a second adjusting button is slidably mounted in the second hollow slide block, a compression spring is mounted between the second adjusting button and the second hollow slide block, a second adjusting rod is fixedly mounted on the second adjusting button, a second limiting plate is mounted in the second hollow slide block, a compression spring is mounted between the second limiting plate and the second hollow slide block, a pawl is arranged on the second limiting plate, a sliding groove is formed in the second limiting plate, a triangular key is fixedly mounted on the second adjusting rod, and the triangular key of the second adjusting rod is in sliding fit with the sliding groove of the second limiting plate.

Further, a first ratchet is fixedly arranged in the first steel frame, and a pawl on the first limiting plate is matched with the first ratchet.

Further, a pawl on the second limiting plate is matched with the second ratchet.

Further, a first horizontal rod is fixedly connected to the first hollow sliding block, and the first horizontal rod is a prefabricated part.

Further, a second horizontal rod is fixedly connected to the second hollow sliding block, and the second horizontal rod is a prefabricated part.

Compared with the prior art, the utility model has the beneficial effects that: (1) The utility model is provided with the top support steel frame, and the top support steel frame which is slidably arranged on the bottom support steel frame can be adjusted in height according to the requirement, so that the top plate with uneven ground is supported conveniently; (2) The utility model is provided with the first adjusting slide block and the second adjusting slide block, and the first horizontal rod and the second horizontal rod which are connected between the first adjusting slide block and the second adjusting slide block can provide horizontal reference and detect flatness during construction; (3) The top support steel frame and the bottom support steel frame are assembled through sliding fit, so that the top support steel frame and the bottom support steel frame are convenient to detach and install before and after construction.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model.

FIG. 2 is a schematic view of the assembly structure of the top support steel frame and the bottom support steel frame of the present utility model.

FIG. 3 is a schematic view of a top support steel frame of the present utility model in partial cross section.

FIG. 4 is a schematic view of the bottom structure of the top support steel frame of the present utility model.

FIG. 5 is a schematic view of a top support steel frame in cross section.

FIG. 6 is a schematic view of the overall structure of the bottom support steel frame of the present utility model.

Fig. 7 is a schematic diagram of a front cut-away structure of a first adjusting slider according to the present utility model.

FIG. 8 is a schematic view of the back cut-away structure of the first slider of the present utility model.

FIG. 9 is a schematic cross-sectional view of a second adjusting slider of the present utility model.

Fig. 10 is an enlarged schematic view of the structure at A1 in fig. 2.

Reference numerals: 1-a top support steel frame; 2-a first adjusting slide block; 3-a bottom support steel frame; 4-a second adjusting slide block; 5-a first horizontal bar; 6-a second horizontal bar; 101-a first steel frame; 102-an adjustment knob; 103-a threaded rod; 104-adjusting gears; 105-first ratchet teeth; 201-a first hollow slider; 202-a first adjusting knob; 203-a first limiting plate; 204-a first adjusting lever; 301-a second steel frame; 302-a second ratchet; 401-a second hollow slider; 402-a second knob; 403-a second limiting plate; 404-a second adjustment lever.

Detailed Description

The technical scheme provided by the utility model is further described below with reference to the accompanying drawings.

As shown in fig. 1 to 10, an assembled steel support frame reinforced masonry load-bearing wall construction device comprises a bottom support steel frame 3, the bottom support steel frame 3 comprises a second steel frame 301, a plurality of second ratchets 302 are fixedly installed on the second steel frame 301, gear lines are arranged in the second steel frame 301, a top support steel frame 1 is slidably installed in the second steel frame 301, the top support steel frame 1 comprises a first steel frame 101, the first steel frame 101 is slidably installed in the second steel frame 301, an adjusting knob 102 and a threaded rod 103 are rotatably installed in the first steel frame 101, threads are arranged on the adjusting knob 102, a gear is installed on the threaded rod 103, the threads of the adjusting knob 102 are matched with the gear worm on the threaded rod 103, an adjusting gear 104 is rotatably installed in the first steel frame 101, the adjusting gear 104 is meshed with the gear line on the second steel frame 301, the threaded rod 103 is matched with the adjusting gear worm 104, the length of the top support steel frame 1 extending on the bottom support steel frame 3 can be adjusted according to the height of the ground and the top plate during use, the adjusting knob 102 is driven to rotate, the adjusting gear 104 is driven to rotate, the second gear line is meshed with the second gear line 301 through the adjusting gear 104, and the first adjusting knob 301 is simultaneously driven to slide on the first adjusting knob 301.

As shown in fig. 1 to 10, a second adjusting slide block 4 is slidably mounted on the bottom supporting steel frame 3, the second adjusting slide block 4 comprises a second hollow slide block 401, a second horizontal rod 6 is fixedly connected between the two second hollow slide blocks 401, and is used for providing horizontal reference for reinforcing a bearing wall or building a new bearing wall, and providing support for a baffle plate when filling is poured, a second adjusting button 402 is slidably mounted on the second hollow slide block 401, a compression spring is mounted between the second adjusting button 402 and the second hollow slide block 401, a second adjusting rod 404 is fixedly mounted on the second adjusting button 402, a triangular key is fixedly mounted on the second adjusting rod 404, a second limiting plate 403 is slidably mounted on the second hollow slide block 401, a pawl is arranged on the second limiting plate 403, the pawl on the second limiting plate 403 is matched with the second ratchet 302, the compression spring is mounted between the second limiting plate 403 and the second hollow slide block 401, the second limiting plate 403 is provided with a chute, the triangular key of the second adjusting rod 404 is in sliding fit with the chute of the second limiting plate 403, the second adjusting button 402 is driven to ascend a certain distance in the second hollow sliding block 401 by the spring between the second adjusting button 402 and the second hollow sliding block 401, the second limiting plate 403 is pushed to slide out a certain distance in the second hollow sliding block 401 by the triangular key on the second adjusting rod 404, the pawl on the second limiting plate 403 is matched with the second ratchet 302, the second adjusting sliding block 4 can be fixed at a certain position on the bottom supporting steel frame 3 without sliding down, when the second adjusting button 402 is pressed down, the triangular key on the second adjusting rod 404 does not push the second limiting plate 403 to slide out any more, the second limiting plate 403 is retracted into the second hollow sliding block 401 by the spring between the second limiting plate 403 and the second hollow sliding block 401, so that the second adjusting slide 4 can be adjusted on the bottom support steel frame 3.

As shown in fig. 1 to 10, a first adjusting slide block 2 is slidably mounted on a top supporting steel frame 1, the first adjusting slide block 2 comprises a first hollow slide block 201, a first horizontal rod 5 is fixedly connected between the two first hollow slide blocks 201, the first hollow slide block 201 is slidably mounted on the first steel frame 101, a first adjusting button 202 is slidably mounted on the first hollow slide block 201, a first adjusting rod 204 is fixedly mounted on the first adjusting button 202, a pawl is fixedly mounted on the first adjusting rod 204, the pawl on the first adjusting rod 204 is matched with a first ratchet 105, a compression spring is mounted between the first adjusting button 202 and the first hollow slide block 201, a first limiting plate 203 is slidably mounted on the first hollow slide block 201, a compression spring is mounted between the first limiting plate 203 and the first hollow slide block 201, a sliding groove is arranged on the first limiting plate 203, a triangular key is fixedly mounted on the first adjusting rod 204, the triangular key on the first adjusting rod 204 is slidably matched with the sliding groove on the first adjusting rod 204, the first adjusting rod 202 is driven by a spring between the first adjusting button 202 and the first hollow slide block 201, the first adjusting rod 202 is pushed by the first adjusting rod 202 on the first hollow slide block 201 to be at the same time, and the first limiting plate 203 is not pushed by the first hollow slide block 201, and the first limiting plate 203 is pushed by the first hollow slide block 201 to be pushed to the first limiting plate 201, and the first limiting plate 201 is pushed to be at the position outside the first limiting plate 201 is not to be capable of being pushed to be pushed by the first limiting slide plate 2, and the first limiting slide block 201 is pushed to the first slide plate 2 and can slide beyond the first limiting slide plate and the first limiting slide plate 201 and is pushed to the first inside the first slide plate 2 and the first limiting slide plate 2 is pushed by the first limiting slide plate and is pushed by the first inside the first limiting slide plate 201 and is a limit plate 2 is arranged to be a slide to be is pushed.

Working principle: when the support device is used, the first horizontal rods 5 and the second horizontal rods 6 are prefabricated according to construction requirements, then the required number of bottom support steel frames 3 are placed at positions required to be supported, then the adjusting knob 102 is rotated, the top support steel frames 1 are controlled to slide in the bottom support steel frames 3, the top support steel frames 1 are adjusted to be at proper heights and the top plate is supported, the work of dismantling the bearing wall or repairing the bearing wall can be carried out, meanwhile, in the construction, the heights of the first horizontal rods 5 and the second horizontal rods 6 can be adjusted according to requirements, the first adjusting knob 202 or the second adjusting knob 402 is pressed, the first limiting plate 203 or the second limiting plate 403 is not matched with the first ratchet teeth 105 or the second ratchet teeth 302 any more, the first adjusting slide blocks 2 and the second adjusting slide blocks 4 can slide on the top support steel frames 1 and the bottom support steel frames 3, the heights of the first horizontal rods 5 and the second horizontal rods 6 are adjusted, flatness detection is convenient in construction, and the filling baffle plate is supported during casting.

Claims (8)

1. The utility model provides an assembled steel braced frame consolidates brickwork bearing wall construction equipment, includes bottom support steelframe (3), its characterized in that, bottom support steelframe (3) include second steelframe (301), slidable mounting has second regulation slider (4) on second steelframe (301), slidable mounting has top support steelframe (1) on second steelframe (301), slidable mounting has first regulation slider (2) on top support steelframe (1), fixed mounting has a plurality of second ratchets (302) on second steelframe (301), is equipped with the gear line in second steelframe (301); the top support steel frame (1) comprises a first steel frame (101), and an adjusting knob (102), a threaded rod (103) and an adjusting gear (104) are rotatably arranged in the first steel frame (101).

2. The construction device for reinforcing masonry load-bearing wall by using the fabricated steel support frame according to claim 1, wherein the adjusting knob (102) is provided with threads, the threaded rod (103) is fixedly provided with gears, the threads on the adjusting knob (102) are matched with the gear worm on the threaded rod (103), the threaded rod (103) is matched with the gear worm of the adjusting gear (104), and the adjusting gear (104) is meshed with the gear threads in the second steel frame (301).

3. The construction device for the reinforced masonry load-bearing wall of the fabricated steel support frame according to claim 1, wherein the first adjusting slide block (2) comprises a first hollow slide block (201), the first hollow slide block (201) is slidably mounted on the first steel frame (101), a first adjusting button (202) is slidably mounted on the first hollow slide block (201), a compression spring is mounted between the first adjusting button (202) and the first hollow slide block (201), a first adjusting rod (204) is fixedly mounted on the first adjusting button (202), a first limiting plate (203) is slidably mounted on the first hollow slide block (201), a compression spring is arranged between the first limiting plate (203) and the first hollow slide block (201), a pawl is arranged on the first limiting plate (203), a triangular key is fixedly mounted on the first adjusting rod (204), and the triangular key of the first adjusting rod (204) is slidably matched with the sliding groove on the first limiting plate (203).

4. The construction device for the reinforced masonry load-bearing wall of the fabricated steel support frame according to claim 1, wherein the second adjusting slide block (4) comprises a second hollow slide block (401), the second hollow slide block (401) is slidably mounted on the second steel frame (301), a second adjusting button (402) is slidably mounted on the second hollow slide block (401), a compression spring is mounted between the second adjusting button (402) and the second hollow slide block (401), a second adjusting rod (404) is fixedly mounted on the second adjusting button (402), a second limiting plate (403) is slidably mounted on the second hollow slide block (401), a compression spring is mounted between the second limiting plate (403) and the second hollow slide block (401), a pawl is arranged on the second limiting plate (403), a triangular key is fixedly mounted on the second adjusting rod (404), and the triangular key of the second adjusting rod (404) is slidably matched with the sliding groove of the second limiting plate (403).

5. The construction device for reinforcing masonry load-bearing wall by using the fabricated steel support frame according to claim 1, wherein the first steel frame (101) is internally and fixedly provided with a first ratchet (105), and a pawl on the first limiting plate (203) is matched with the first ratchet (105).

6. The fabricated steel support frame reinforced masonry load-bearing wall construction device of claim 4, wherein the pawl on the second limiting plate (403) mates with the second ratchet (302).

7. A fabricated steel supporting frame reinforced masonry load-bearing wall construction device according to claim 3, wherein the first hollow slider (201) is fixedly connected with a first horizontal rod (5), and the first horizontal rod (5) is a prefabricated part.

8. The construction device for reinforcing masonry load-bearing wall with the fabricated steel support frame according to claim 4, wherein the second hollow sliding block (401) is fixedly connected with a second horizontal rod (6), and the second horizontal rod (6) is a prefabricated part.