CN220267189U - Scaffold frame even wall structure convenient to adjust - Google Patents

Abstract

The application provides a scaffold frame even wall structure convenient to adjust relates to scaffold frame installation technical field, including shear force wall, scaffold frame and be used for connecting the shear force wall with the wall structure that links of scaffold frame, it includes embedded bar and adjustment member and fastener to link the wall structure: the embedded rod is embedded in the shear wall, and two ends of the embedded rod extend to the outer side of the shear wall; the adjusting member comprises a Z-axis adjusting part connected to one end of the embedded rod, one end of the Z-axis adjusting part is connected with a Y-axis adjusting part, one end of the Y-axis adjusting part is connected with an X-axis adjusting part, the X-axis adjusting part is also connected with the scaffold, and the embedded rod can be connected to the scaffold by virtue of the adjusting member; the fastener is connected to the X-axis adjusting portion and is used for installing the scaffold. The adaptability of the wall connecting structure to various different scaffolds is improved.

Description

Scaffold frame even wall structure convenient to adjust

Technical Field

The application relates to the technical field of scaffold installation, in particular to a scaffold wall connecting structure convenient to adjust.

Background

It is often necessary to employ a wall-to-wall structure between the shear wall and the scaffold to enhance stability of the scaffold during use.

The scaffold wall connecting structure in the related art is an external scaffold wall connecting structure suitable for an aluminum mould, as disclosed in China patent application No. CN202121315895. X. And the Chinese patent application is CN202021006224.0, and discloses a turnover outer scaffold wall connecting structure. The wall connecting structure is composed of a rod or tubular structure which is embedded in the wall and extends towards the inner side and the outer side of the wall and a fastener arranged on the rod or tubular structure, and the installation mode can be used for conveniently fixing the scaffold through the wall connecting, but the applicable scaffold is limited and is applicable only when the rod or tubular structure is close to the corresponding position of the scaffold (for example, the upright rod of the scaffold); when the corresponding position of the selected scaffold is far away from the rod or the tubular structure, the fastener cannot be aligned and engaged with the scaffold well due to the fact that the scheme of the wall connecting structure is inconvenient to adjust the position of the X, Y, Z shaft.

Therefore, the application particularly provides a scaffold wall connecting structure convenient to adjust to solve the problems.

Disclosure of Invention

In order to overcome the defect that the scaffold wall connecting structure in the related art is inconvenient to adjust the position of the X, Y, Z shaft, the embodiment of the application provides the scaffold wall connecting structure convenient to adjust, and the adaptability of the wall connecting structure to various different scaffolds is improved.

The technical scheme adopted by the embodiment of the application for solving the technical problems is as follows: the utility model provides a scaffold frame even wall structure convenient to adjust, includes shear force wall, scaffold frame and is used for connecting the shear force wall with the wall structure that links of scaffold frame, even wall structure includes pre-buried pole and adjustment member and fastener:

the embedded rod is embedded in the shear wall, and two ends of the embedded rod extend to the outer side of the shear wall;

the adjusting member comprises a Z-axis adjusting part connected to one end of the embedded rod, one end of the Z-axis adjusting part is connected with a Y-axis adjusting part, one end of the Y-axis adjusting part is connected with an X-axis adjusting part, the X-axis adjusting part is also connected with the scaffold, and the embedded rod can be connected to the scaffold by virtue of the adjusting member;

the fastener is connected to the X-axis adjusting portion and is used for installing the scaffold.

Preferably, a plugging hole site for butting the Z-axis adjusting part is longitudinally formed in one end, close to the scaffold, of the embedded rod.

Preferably, the Z-axis adjusting part comprises a vertical rod inserted into the embedded rod through the insertion hole site, a locking bolt A extending into the insertion hole site is arranged at one outer end of the embedded rod, and screw holes A matched with the locking bolt A are formed in the vertical rod at equal intervals.

Preferably, the Y-axis adjusting part comprises a sleeve A arranged at the bottom end of the vertical rod, a sleeve rod A is inserted in the sleeve A, a locking bolt B is arranged on the sleeve A, and screw holes B matched with the locking bolt B are formed in the sleeve rod A at equal intervals.

Preferably, the X-axis adjusting part comprises a sleeve B arranged at the outer end of the sleeve rod A, the sleeve B is internally inserted with the sleeve rod B, the sleeve B is provided with a locking bolt C, and the sleeve rod B is provided with screw holes C matched with the locking bolt C at equal intervals.

Preferably, the fastener comprises a connecting plate fixed on the side wall of the loop bar B, and an elastic stainless steel belt is arranged on the connecting plate through a locking bolt D.

Preferably, through holes matched with the locking bolts D are formed in the elastic stainless steel bands at equal intervals.

Preferably, the surface of the connecting plate connected with the loop bar B is designed into an arc shape.

The embodiment of the application has the advantages that:

1. through the design of Z axle adjusting part, Y axle adjusting part and X axle adjusting part among the adjusting member, the concrete position of the adjustment fastener of being convenient for is in order to adapt to the position of scaffold frame corresponding installation department for the buried rod can be indirectly links up fixedly with multiple different scaffold frame, has promoted the adaptability of even wall structure to multiple different scaffold frame promptly.

2. The elastic stainless steel strips with through holes at equal intervals are matched and fixed with the locking bolts D to adapt to the rod structures of scaffolds with different diameters conveniently, so that the inclusion of the fasteners on the scaffolds is improved.

Drawings

Fig. 1 is a schematic structural diagram of a scaffold wall-connecting structure with convenient adjustment according to an embodiment of the present application after installation;

fig. 2 is a schematic structural diagram of a wall-connecting structure according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an embedded rod according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a Z-axis adjusting part according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a Y-axis adjusting part according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an X-axis adjusting part according to an embodiment of the present application;

fig. 7 is a schematic view of a fastener structure according to an embodiment of the present application.

In the figure: 1-a shear wall; 2-scaffold; 3-wall connecting structure; 31-embedding a rod; 311-inserting hole sites; 32-an adjustment member; 321-Z axis adjusting part; 3211-a vertical rod; 32111-screw hole a; 3212-locking bolt a;322-Y axis adjustment section; 3221-sleeve a; 3222-loop bar a; 32221-screw hole B; 3223-locking bolt B;323-X axis adjusting part; 3231-sleeve B; 3232-loop bar B; 32321-screw hole C;3233—a locking bolt C; 33-a fastener; 331-connecting plates; 332-elastic stainless steel band; 3321-through holes; 333-locking bolt D.

Detailed Description

The technical scheme in this application embodiment is for solving the scaffold frame in the correlation technique and even the not enough of being convenient for carry out X, Y, Z axle's position control, and the general thinking is as follows:

example 1:

referring to fig. 1 and 2, a scaffold wall connecting structure convenient to adjust includes a shear wall 1, a scaffold 2, and a wall connecting structure 3 for connecting the shear wall 1 and the scaffold 2, wherein the wall connecting structure 3 includes a pre-buried rod 31, an adjusting member 32, and a fastener 33:

the embedded rod 31 is embedded in the shear wall 1, and two ends of the embedded rod extend to the outer side of the shear wall 1; the embedded bars 31 in the present application are designed as solid rod-like structures.

The adjusting member 32 comprises a Z-axis adjusting part 321 connected to one end of the embedded rod 31, one end of the Z-axis adjusting part 321 is connected with a Y-axis adjusting part 322, one end of the Y-axis adjusting part 322 is connected with an X-axis adjusting part 323, the X-axis adjusting part 323 is also connected with the scaffold 2, and the embedded rod 31 can be connected to the scaffold 2 by means of the adjusting member 32; through the design of Z axle adjusting part 321, Y axle adjusting part 322 and X axle adjusting part 323 in adjusting member 32, the concrete position of the adjustment fastener 33 of being convenient for is in order to adapt to the position of scaffold frame 2 corresponding installation department for embedded bar 31 can link up fixedly with multiple different scaffold frame 2 indirectly, has promoted the adaptability of even wall structure 3 to multiple different scaffold frame 2 promptly.

The present application is to establish a three-dimensional coordinate system of X, Y, Z axis in a plan view.

The fastener 33 is connected to the X-axis adjusting portion 323, and is used to mount the scaffold 2. The fastener 33 can assist in the indirect removable securement of the embedded bar 31 to the scaffold 2.

Referring to fig. 3, a plugging hole 311 for plugging the Z-axis adjusting portion 321 is longitudinally formed on one end of the embedded rod 31 near the scaffold 2.

Referring to fig. 4,Z, the shaft adjusting portion 321 includes a vertical rod 3211 inserted into the embedded rod 31 through an insertion hole 311, a locking bolt a3212 extending into the insertion hole 311 is mounted at an outer end of the embedded rod 31, and screw holes a32111 adapted to the locking bolt a3212 are equidistantly formed in the vertical rod 3211. The vertical rod 3211 is inserted into the inserting hole 311, and the locking bolt A3212 is screwed into the corresponding screw hole A32111 according to the height position of the corresponding installation position rod on the scaffold 2, so that the height position of the fastener 33 is indirectly adjusted.

Referring mainly to fig. 5, the y-axis adjusting portion 322 includes a sleeve a3221 mounted at the bottom end of the vertical rod 3211, a sleeve rod a3222 is inserted into the sleeve a3221, a locking bolt B3223 is mounted on the sleeve a3221, and screw holes B32221 adapted to the locking bolt B3223 are equidistantly formed in the sleeve rod a 3222. As shown in fig. 1, according to the horizontal Y-axis position of the corresponding mounting rod on the scaffold 2, the locking bolt B3223 is unscrewed, after the depth position of the sleeve rod a3222 inserted into the sleeve a3221 is adjusted, the locking bolt B3223 is screwed into the new corresponding screw hole B32221, and the adjustment of the position of the fastener 33 in the Y-axis direction is completed.

Referring to fig. 6, the x-axis adjusting portion 323 includes a sleeve B3231 mounted on an outer end of a sleeve rod a3222, a sleeve rod B3232 inserted into the sleeve B3231, a locking bolt C3233 mounted on the sleeve B3231, and a screw hole C32321 adapted to the locking bolt C3233 formed in the sleeve rod B3232 at equal intervals. According to the horizontal X-axis position of the corresponding installation position rod on the scaffold 2, the locking bolt C3233 is unscrewed, after the depth position of the sleeve rod B3232 inserted into the sleeve B3231 is adjusted, the locking bolt C3233 is screwed into a new corresponding screw hole C32321, and the adjustment of the position of the fastener 33 in the X-axis direction is completed.

Referring mainly to fig. 7, the fastener 33 includes a connecting plate 331 fixed on a side wall of the loop bar B3232, and an elastic stainless steel band 332 is mounted on the connecting plate 331 through a locking bolt D333. The two locking bolts D333 are fixed to the connecting plate 331, so that the fastener 33 and the scaffold 2 can be detachably and fixedly mounted.

Through holes 3321 matched with the locking bolts D333 are equidistantly formed in the elastic stainless steel belt 332. The cooperation of the locking bolt D333 and the through hole 3321 in the resilient stainless steel band 332 is used to accommodate a variety of different diameter rod configurations on the scaffold 2.

The surface of the connection plate 331 connected to the loop bar B3232 is designed in an arc shape. The stability of the connection plate 331 and the loop bar B3232 can be improved by using the arc shape design.

The scheme is applicable to fixing the corresponding vertical rods on the scaffold 2; when the wall connecting structure 3 is selected to be fixed with the cross bar on the scaffold 2, the connecting plate 331 can be selected to be longitudinally connected and installed at the top end of the loop bar B3232.

When the scaffold is used, the vertical rod 3211 is inserted into the inserting hole 311, and the locking bolt A3212 is screwed into the corresponding screw hole A32111 according to the height position of the rod at the corresponding installation position on the scaffold 2, so that the indirect adjustment of the height position of the fastener 33 is realized; as shown in fig. 1, according to the horizontal Y-axis position of the rod at the corresponding installation position on the scaffold 2, the locking bolt B3223 is unscrewed, after the depth position of the sleeve rod a3222 inserted into the sleeve a3221 is adjusted, the locking bolt B3223 is screwed into the new corresponding screw hole B32221, and the adjustment of the position of the fastener 33 in the Y-axis direction is completed; similarly, according to the horizontal X-axis position of the corresponding installation position rod on the scaffold 2, the locking bolt C3233 is unscrewed, after the depth position of the sleeve rod B3232 inserted into the sleeve B3231 is adjusted, the locking bolt C3233 is screwed into a new corresponding screw hole C32321, and the adjustment of the position of the fastener 33 in the X-axis direction is completed; this allows the wall connection 3 to be adapted to the wall connection of a plurality of different scaffolds 2.

Two locking bolts D333 penetrate through corresponding through holes 3321 to be fixed with the connecting plate 331, so that the detachable fixed installation of the fastener 33 and the scaffold 2 can be realized; and the cooperation of the locking bolt D333 and the through hole 3321 in the elastic stainless steel band 332 can be used to adapt to various rod structures with different diameters on the scaffold 2.

Finally, it should be noted that: it is apparent that the above examples are only examples for clearly illustrating the present application and are not limiting to the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are intended to be within the scope of the present application.

Claims (8)

1. Scaffold frame even wall structure convenient to adjust, including shear force wall (1), scaffold frame (2) and be used for connecting shear force wall (1) with wall structure (3) even of scaffold frame (2), its characterized in that, wall structure (3) even includes:

the embedded rod (31) is embedded in the shear wall (1), and two ends of the embedded rod extend to the outer side of the shear wall (1);

the adjusting component (32) comprises a Z-axis adjusting part (321) connected to one end of the embedded rod (31), one end of the Z-axis adjusting part (321) is connected with a Y-axis adjusting part (322), and one end of the Y-axis adjusting part (322) is connected with an X-axis adjusting part (323);

and a fastener (33) which is connected to the X-axis adjusting part (323) and is used for installing the scaffold (2).

2. The scaffold wall connecting structure convenient to adjust according to claim 1, wherein an inserting hole position (311) for abutting the Z-axis adjusting part (321) is longitudinally formed on one end of the embedded rod (31) close to the scaffold (2).

3. The scaffold wall connecting structure convenient to adjust according to claim 2, wherein the Z-axis adjusting portion (321) comprises a vertical rod (3211) which is inserted into the embedded rod (31) through the insertion hole site (311), a locking bolt A (3212) which extends into the insertion hole site (311) is installed at one outer end of the embedded rod (31), and screw holes A (32111) which are matched with the locking bolt A (3212) are formed in the vertical rod (3211) at equal intervals.

4. The scaffold wall connecting structure convenient to adjust according to claim 3, wherein the Y-axis adjusting portion (322) comprises a sleeve a (3221) installed at the bottom end of the vertical rod (3211), a sleeve rod a (3222) is inserted into the sleeve a (3221), a locking bolt B (3223) is installed on the sleeve a (3221), and screw holes B (32221) matched with the locking bolt B (3223) are formed in the sleeve rod a (3222) at equal intervals.

5. The scaffold wall-connecting structure convenient to adjust according to claim 4, wherein the X-axis adjusting portion (323) comprises a sleeve B (3231) installed on the outer end of the sleeve rod a (3222), the sleeve B (3231) is internally inserted with a sleeve rod B (3232), the sleeve B (3231) is provided with a locking bolt C (3233), and the sleeve rod B (3232) is provided with screw holes C (32321) matched with the locking bolt C (3233) at equal intervals.

6. The scaffold wall connection structure convenient to adjust according to claim 5, wherein the fastener (33) comprises a connecting plate (331) fixed on the side wall of the loop bar B (3232), and an elastic stainless steel band (332) is mounted on the connecting plate (331) through a locking bolt D (333).

7. The scaffold wall connecting structure convenient to adjust according to claim 6, wherein through holes (3321) matched with the locking bolts D (333) are formed in the elastic stainless steel belts (332) at equal intervals.

8. The scaffold wall connection structure convenient to adjust according to claim 6, wherein the surface of the connection plate (331) connected with the loop bar B (3232) is designed as an arc shape.