CN220336420U - Adjustable supporting device for building outer elevation frame body - Google Patents

Abstract

The utility model discloses an adjustable supporting device for a building outer elevation frame body, which consists of a device body, wherein the device comprises a base, an auxiliary connecting mechanism and an adjustable supporting mechanism; the bottom end of the inner side of the base is provided with a first chute, and the left side and the right side of the bottom end of the base are respectively provided with a second chute; an auxiliary connecting mechanism is arranged in the first chute; the second sliding chute is fixedly connected with a first adjustable supporting mechanism through a sliding block; the second sliding groove is fixedly connected with a first adjustable supporting mechanism through a sliding block, and the first adjustable supporting mechanism are respectively used for adjusting the height of the auxiliary connecting mechanism through the sliding block.

Description

Adjustable supporting device for building outer elevation frame body

Technical Field

The utility model belongs to auxiliary equipment in the field of buildings, and particularly relates to an adjustable supporting device for an outer facade frame body of a building.

Background

Under the load of the building, the scaffold is a working platform which is erected for ensuring that each construction process is carried out smoothly. The scaffold is divided into an outer scaffold and an inner scaffold according to the set-up positions; the wooden scaffold, the bamboo scaffold and the steel pipe scaffold can be divided according to different materials; the construction forms of the scaffold are upright type scaffold, bridge type scaffold, door type scaffold, suspension type scaffold, hanging type scaffold, picking type scaffold and climbing type scaffold. When carrying out the outer facade transformation of old building, need put up of scaffold frame to come to reform transform outer facade, but the support roof beam of current scaffold frame is general directly fixed with wall or ground, because the outer facade shape of old building hinders the thing numerous, need jump the interval between support roof beam and the wall in the build in-process, need dismantle it after adjusting, thereby influence time limit for a project and efficiency of construction. The prior patent technology mostly adopts transverse and longitudinal brackets to connect and reform the inner wall surface and the outer wall surface of the building, the connection mode is too single, and some defects still exist: (1) The auxiliary connecting mechanism lacks flexibility when being overlapped with the old building, and the distance between the support beam and the wall cannot be freely adjusted; (2) In order to ensure the overall stability of the device, the fixed height of the auxiliary connecting mechanism cannot be adjusted, and the auxiliary connecting mechanism lack of relevance. To this end we provide an old building facade modification structure solving the above problems.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model provides an adjustable supporting device for a building outer elevation frame body, which can quickly and flexibly adjust the distance between a support beam and a wall in a building body when the device is used for supporting and constructing an old building outer elevation during reconstruction, thereby improving the construction period and ensuring the engineering quality.

In order to solve the problems in the prior art, the utility model adopts the following technical scheme:

an adjustable support device for a building facade frame, consisting of a device body, said device comprising a base, an auxiliary connection 201 and an adjustable support 301; a first chute 102 is formed in the bottom end of the inner side of the base 101, and second chutes (103 a,103 b) are formed in the left side and the right side of the bottom end of the base 101; an auxiliary connection mechanism 201 is arranged inside the first chute 102; the second chute 103a is fixedly connected with a first adjustable supporting mechanism 301 through a sliding block 104 a; the second chute 103b is fixedly connected with a first adjustable supporting mechanism 301 through a sliding block 104b, wherein:

the first adjustable support mechanism 301 and the first adjustable support mechanism 301 adjust the height of the auxiliary connection mechanism 201 through the slider 104a and the slider 104b, respectively.

Further, the first adjustable support mechanism 301 includes: an adjusting seat 301a, a limit bolt 301b and a groove 301c; the groove 301c is disposed on the top surface of the adjusting seat 301a, one end of the limit bolt 301b extends into the groove 301c through the adjusting seat 301a by rotating the thread, and the other end of the limit bolt is disposed at the outer end of the adjusting seat 301 a; third sliding grooves 301d are formed in two sides of the inner portion of the groove 301c; the limit bolt 301b is slidably connected with the third chute 301d through a guide wheel;

the second adjustable support mechanism 302 includes: an adjusting seat 302a, a limit bolt 302b and a groove 302c; the groove 302c is arranged on the top surface of the adjusting seat 302a, one end of the limit bolt 302b penetrates through the adjusting seat 302a through threaded rotation to extend into the groove 302c, and the other end of the limit bolt is arranged at the outer end of the adjusting seat 302 a; third sliding grooves 302d are formed in two sides of the inner portion of the groove 302c; the limit bolt 302b is slidably connected to the third chute 302d through a guide wheel.

Further, the auxiliary connection mechanism 201 includes: a connecting post 202 with a through hole 202a, a first support bar 203, a second support bar 204, and a clamping portion 205; the connecting column 202 is disposed inside the second chute 102, and one end of the first supporting bar 203 is connected to the connecting column 202 through a connecting portion 206 a; the other end of the limiting bolt is connected with the limiting bolt 301b; the second support bar 204 is connected with the outer peripheral surface of the connecting column 202 through 206 b; the other end of which is connected to the limit bolt 302 b.

Further, the clamping part is sleeved outside the connecting column; the clamping part is an arc-shaped strip; the clamping portions are fixedly connected by a set of tightening bolts 207.

Further, the sections of the second sliding grooves (103 a,103 b) are T-shaped, and the sliding blocks (104 a,104 b) are T-shaped; the second sliding grooves (103 a,103 b) are matched with the sliding blocks (104 a,104 b), and the first adjustable supporting mechanism 301 and the second adjustable supporting mechanism 302 are respectively connected with the base 1 in a sliding manner through the sliding blocks (104 a,104 b).

Further, the base 101 is L-shaped, and a plurality of connection holes 105 are vertically formed on the vertical side of the L-shaped base 101.

Advantageous effects

Compared with the prior art, the old building facade transformation structure has the following beneficial effects:

1. and an auxiliary connection structure is arranged, so that the use flexibility of the device is enhanced. According to the utility model, the support beam is fixedly connected with the connecting column by using the arranged auxiliary connecting mechanism through screw rotation, and then the detection height of the clamping strip is adjusted, so that the joint of the support beam and the connecting column is clamped at the middle position of the clamping strip, and then the clamping strip is fixed at the position by tightening the bolt through the tool rotating shaft, thereby being beneficial to conveniently adjusting the distance between the support beam and the wall when the support is erected and built when the old building facade is transformed, further enhancing the use flexibility of the utility model, improving the construction period and ensuring the engineering quality.

2. An adjustable supporting structure is arranged, so that the stability of equipment is enhanced. According to the utility model, through the arranged adjustable supporting mechanism, the sliding block is utilized to drive the adjusting seat to slide along with the position of the connecting column, and then the tool shaft is utilized to drive the limit bolt, so that the other end of the limit bolt is propped against the bottom end of the supporting bar in the groove, and the bottom end of the supporting bar slides inwards in the groove; meanwhile, the top ends of the supporting bars push the clamping bars to move upwards, which is beneficial to adjusting the fixed height of the auxiliary connecting mechanism and increasing the overall stability of the utility model.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic top perspective view of the present utility model;

FIG. 3 is a schematic view of a cross-sectional connection structure of a base of the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 3a according to the present utility model.

Reference numerals

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The utility model is further described with reference to FIGS. 1-4:

as shown in fig. 1, 2 and 3, the present utility model provides an adjustable supporting device for an outer facade frame of a building, comprising a base 101, an auxiliary connection mechanism 201 and an adjustable supporting mechanism 301; wherein: the base 101 is L-shaped, a first chute 102 is formed in the bottom end of the inner side of the base 101, and second chutes (103 a and 103 b) are formed in the left side and the right side of the bottom end of the base 101; a plurality of connecting holes 105 are vertically formed on the vertical side of the L-shaped base 101; an auxiliary connection mechanism 201 is arranged inside the first chute 102; the second chute 103a is fixedly connected with a first adjustable supporting mechanism 301 through a sliding block 104 a; the second chute 103b is fixedly connected with a first adjustable supporting mechanism 301 through a sliding block 104 b. The sections of the second sliding grooves (103 a,103 b) are T-shaped, and the sliding blocks (104 a,104 b) are T-shaped; the second sliding grooves (103 a,103 b) are matched with the sliding blocks (104 a,104 b) to ensure that the first adjustable supporting mechanism 301 and the second adjustable supporting mechanism 302 slide along the base 101. Wherein:

as shown in fig. 1 to 4, the first adjustable support mechanism 301 includes: an adjusting seat 301a, a limit bolt 301b and a groove 301c; the groove 301c is disposed on the top surface of the adjusting seat 301a, one end of the limit bolt 301b extends into the groove 301c through the adjusting seat 301a by rotating the thread, and the other end is disposed at the outer end of the adjusting seat; third sliding grooves 301d are formed in two sides of the inner portion of the groove 301c; the limit bolt 301b is slidably connected with the third chute 301d through the guide wheel 301 e;

the second adjustable support mechanism 302 includes: an adjusting seat 302a, a limit bolt 302b and a groove 302c; the groove 302c is arranged on the top surface of the adjusting seat 302a, one end of the limit bolt 302b penetrates through the adjusting seat 302a through threaded rotation to extend into the groove 302c, and the other end of the limit bolt is arranged at the outer end of the adjusting seat; third sliding grooves 302d are formed in two sides of the inner portion of the groove 302c; the limit bolt 302b is slidably connected to the third chute 302d through the guide wheel 302 e.

As shown in fig. 1 to 3, the auxiliary connection mechanism 201 includes: a connecting post 202 with a through hole 202a, a first support bar 203, a second support bar 204, and a clamping portion 205; wherein: the clamping part 205 is sleeved outside the connecting column 202; the clamping part 205 is an arc-shaped strip; the clamping part 205 is fixedly connected through a tightening bolt group 207; the utility model is realized by inserting the support beam in construction into the through hole 206 of the connecting column 202; the clamping part 205 ensures that the connecting part of the support beam and the connecting column 202 is fixedly connected, and the connecting part of the support beam and the connecting column is fixed by the clamping part through the rotating shaft tightening bolt group 207.

As shown in fig. 1 to 3, the connecting post 202 is disposed inside the second chute 102, and one end of the first supporting bar 203 is connected to the connecting post 202 through a connecting portion 206 a; the other end of the limiting bolt is connected with the limiting bolt 301b; the second support bar 204 is connected with the connecting column 202 through a connecting part 206 b; the other end of the limiting bolt is connected with the limiting bolt 302 b; according to the utility model, the support beam is fixedly connected with the connecting column 202 through threaded rotation, and then the other end of the support beam is propped against the bottom ends of the support bars (203, 204) in the grooves (301 c;302 c) through the tool shaft limiting bolts (301 b;302 b), and meanwhile, the bottom ends of the support bars (203, 204) slide inwards to push the clamping bars (205 a,205 b) to move upwards to the top ends, so that the fixed height of the auxiliary connecting mechanism 201 is adjusted, and the overall stability of equipment is improved.

The actual operation process of the utility model comprises the following steps:

according to the on-site situation with the spliced pole slide to suitable position in first spout, the slider drives the regulation seat and slides along spliced pole position simultaneously, rethread screw thread rotation is with the top fixed connection of support roof beam and spliced pole, secondly move limit bolt through the instrument axle, make its other end jack up the bottom of support strip in the recess, simultaneously the bottom of support strip inwards slides, make its top promote clamping strip upward movement, thereby with the junction centre gripping in clamping strip's of support roof beam and spliced pole intermediate position, rethread instrument axis of rotation fastening bolt makes clamping strip be fixed in its position.

Claims (6)

1. An adjustable support device for an outer facade frame body of a building, which consists of a device body and is characterized in that: the device comprises a base (101), an auxiliary connection mechanism (201) and an adjustable support mechanism (301); a first chute (102) is formed in the bottom end of the inner side of the base (101), and second chutes (103 a,103 b) are formed in the left side and the right side of the bottom end of the base (101); an auxiliary connecting mechanism (201) is arranged in the first sliding groove (102); a first adjustable supporting mechanism (301) is fixedly connected to the second chute (103 a) through a sliding block (104 a); the second chute (103 b) is fixedly connected with a first adjustable supporting mechanism (301) through a sliding block (104 b), wherein:

the first adjustable supporting mechanism (301) and the first adjustable supporting mechanism (301) respectively adjust the height of the auxiliary connecting mechanism (201) through a sliding block (104 a) and a sliding block (104 b).

2. An adjustable support device for a building facade frame according to claim 1, characterised in that the first adjustable support means (301) comprises: an adjusting seat (301 a), a limit bolt (301 b) and a groove (301 c); the groove (301 c) is formed in the top end surface of the adjusting seat (301 a), one end of the limiting bolt (301 b) penetrates through the adjusting seat (301 a) through threaded rotation and extends to the inside of the groove (301 c), and the other end of the limiting bolt is arranged at the outer end of the adjusting seat (301 a); third sliding grooves (301 d) are formed in two sides of the inner portion of the groove 301c; the limit bolt (301 b) is in sliding connection with the third chute 301d through a guide wheel 301 e;

the second adjustable support mechanism (302) comprises: an adjusting seat (302 a), a limit bolt (302 b) and a groove (302 c); the groove (302 c) is formed in the top end surface of the adjusting seat (302 a), one end of the limiting bolt (302 b) penetrates through the adjusting seat (302 a) through threaded rotation and extends to the inside of the groove (302 c), and the other end of the limiting bolt is arranged at the outer end of the adjusting seat (302 a); third sliding grooves (302 d) are formed in two sides of the inside of the groove (302 c); the limit bolt (302 b) is connected with the third chute (302 d) in a sliding manner through the guide wheel (302 e).

3. An adjustable support device for a building facade frame according to claim 2, characterised in that the auxiliary connection means (201) comprises: a connecting column (202) with a through hole (202 a), a first supporting bar (203), a second supporting bar (204) and a clamping part (205); the connecting column (202) is arranged inside the second sliding groove (102), and one end of the first supporting bar (203) is connected with the connecting column (202) through a connecting part (206 a); the other end of the locking bolt is connected with the limit bolt (301 b); the second supporting bar (204) is connected with the outer peripheral surface of the connecting column (202) through a connecting column (206 b); the other end of the locking bolt is connected with the limit bolt (302 b).

4. An adjustable support device for a building facade frame according to claim 2, characterised in that the clamping part (205) is sleeved outside the connecting column; the clamping part (205) is an arc-shaped strip; the clamping parts are fixedly connected through a shaft tightening bolt group (207).

5. An adjustable support device for building facade frames according to any of the claims 1-4, characterised in that the cross section of the second runner (103 a,103 b) is T-shaped, the slide (104 a,104 b) being T-shaped; the second sliding grooves (103 a,103 b) are matched with the sliding blocks (104 a,104 b), and the first adjustable supporting mechanism 301 and the second adjustable supporting mechanism 302 are respectively connected with the base 1 in a sliding manner through the sliding blocks (104 a,104 b).

6. The adjustable support device for building facade frames according to claim 5, characterized in that the base (101) is L-shaped, and a plurality of connecting holes (105) are vertically arranged on the vertical side of the L-shaped base (101).