CN222066069U - Disc buckle type scaffold structure capable of adjusting length of cross rod and diagonal rod - Google Patents

Abstract

The utility model relates to the technical field of scaffold structures, in particular to a disc buckle type scaffold structure with adjustable cross bars and diagonal rods, which comprises upright rods, adjustable cross bars and adjustable diagonal rods, wherein the adjustable cross bars are arranged between two upright rods, two ends of each adjustable cross bar are respectively connected with the upright rods through disc buckle connectors, one end of each adjustable cross bar is hinged, and the other end of each adjustable cross bar is fixedly connected; the adjustable diagonal rods are arranged between the two adjustable cross rods at the upper side and the lower side, two ends of the adjustable diagonal rods are respectively connected with the disc buckle connectors in a hinged mode, the other ends of the adjustable diagonal rods are fixedly connected, the adjustable cross rods and the adjustable diagonal rods are respectively provided with telescopic structures, and the adjustable cross rods and the retrospective adjustable diagonal rods can be adjusted in length in a telescopic mode through the telescopic structures. The utility model has the advantages that: simple structure, convenient to use, reuse have increased the adaptability and the life of scaffold frame, have reduced use cost.

Description

Disc buckle type scaffold structure capable of adjusting length of cross rod and diagonal rod

Technical Field

The utility model relates to the technical field of scaffold structures, in particular to a disc buckle type scaffold structure with adjustable cross bars and diagonal bar lengths.

Background

The socket-type disc buckle type steel pipe scaffold has the advantages of high bearing capacity, good space integrity effect, convenience in erection and dismantling and the like, and has been widely used for temporary support of concrete structures such as bridges and house buildings in recent years, and upright rods, cross rods and diagonal rods in the support structures are mainly connected through disc buckle connectors.

At present, the scaffold cross bar on the market is mainly increased by 300mm in modulus, in actual engineering, when meeting the junction of beams, plates and walls or the edge of a structural member, the size of the cross bar cannot meet the requirement of erecting a disc-buckling scaffold, and therefore, the scaffold and a template support frame erected by the clamp are required to be gradually eliminated in municipal engineering of houses by a building department, and meanwhile, the disassembly and assembly construction process of the clamp connection mode is complex, time and labor are consumed, and the workload is increased. Therefore, there is a great need for a length-adjustable scaffolding cross bar and diagonal bar for a scaffolding to overcome the above-mentioned problems.

Disclosure of Invention

According to the defects of the prior art, the utility model provides the disc buckle type scaffold structure with the adjustable cross bars and the adjustable diagonal bars, the adjustable cross bars and the adjustable diagonal bars are erected between the vertical bars, free adjustment of the space between the vertical bars is realized, the integrity and the safety of a disc buckle type scaffold system are ensured, the size expansion of the disc buckle type scaffold structure is realized, and different erection requirements are met.

The utility model is realized by the following technical scheme:

The utility model provides a dish knot formula scaffold structure of adjustable horizontal pole and diagonal bar length which characterized in that: the adjustable transverse rod is arranged between the two upright rods, two ends of the adjustable transverse rod are respectively connected with the upright rods through disc buckle connectors, one end of the adjustable transverse rod is hinged, and the other end of the adjustable transverse rod is fixedly connected; the adjustable diagonal rods are arranged between the two adjustable cross rods at the upper side and the lower side, two ends of the adjustable diagonal rods are respectively connected with the disc buckle connectors in a hinged mode, the other ends of the adjustable diagonal rods are fixedly connected, the adjustable cross rods and the adjustable diagonal rods are respectively provided with telescopic structures, and the adjustable cross rods and the retrospective adjustable diagonal rods can be adjusted in length in a telescopic mode through the telescopic structures.

The adjustable cross rod comprises a riveting joint, an external thread solid screw rod, an internal thread hollow sleeve and a hollow outer sleeve, wherein the external thread solid screw rod penetrates through the internal of the internal thread hollow sleeve and is in threaded fit with the internal thread solid screw rod to form the telescopic structure, the external thread solid screw rod extends out of the extending end of the internal thread hollow sleeve and is hinged with a disc buckle joint on one side through the riveting joint, the hollow outer sleeve is sleeved on the periphery of the internal thread hollow sleeve, and the hollow outer sleeve is welded with the disc buckle joint on the other side compared with the other end of the extending end of the external thread solid screw rod.

The internal thread hollow sleeve and the hollow outer sleeve are concentrically arranged, and the internal thread hollow sleeve and the hollow outer sleeve are welded into a whole through hollow discs at two ends.

And a locking nut is sleeved on the external thread solid screw rod.

The adjustable inclined rod comprises a riveting joint, an external screw thread solid screw rod and an internal screw thread hollow sleeve, wherein the external screw thread solid screw rod penetrates through the internal of the internal screw thread hollow sleeve and is in threaded fit with the internal screw thread hollow sleeve to form the telescopic structure, the external screw thread solid screw rod extends out of the extending end of the internal screw thread hollow sleeve to be hinged with a disc buckle joint on one side through the riveting joint, and the other end of the extending end of the internal screw thread solid screw rod is connected with a disc buckle joint bolt on the other side in comparison with the internal screw thread solid screw rod.

And a locking nut is sleeved on the external thread solid screw rod.

The hinged end of the adjustable cross rod and the hinged end of the adjustable diagonal rod are on the same side.

The utility model has the advantages that: the structure is simple, the design is ingenious, the free rotation of the cross rod and the inclined rod around the axis can be realized through the riveting joint, and the problem that the length cannot be continuously adjusted due to the fact that the adjustment precision of the threaded telescopic rod has the error of the half-circle spiral length is avoided; the length of the cross rod and the length of the inclined rod can be freely adjusted through the combination of the solid screw rod and the hollow sleeve, and the positioning and the locking of the mechanism are realized through the locking nut, so that the mechanism can be finally adapted to the free change of the vertical rod spacing when the scaffold is erected in actual engineering, and meanwhile, the integrity and the completeness of a supporting system are ensured.

Drawings

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

FIG. 2 is a schematic view of the structure of an adjustable cross bar of the present utility model;

FIG. 3 is a schematic cross-sectional view of a hollow internally threaded tubular of the adjustable cross-bar of the present utility model;

FIG. 4 is a schematic view of an adjustable diagonal of the present utility model;

FIG. 5 is a schematic cross-sectional view of a hollow internally threaded round tube of an adjustable diagonal rod in accordance with the present utility model.

Detailed Description

The features of the utility model and other related features are described in further detail below by way of example in conjunction with the following figures to facilitate understanding by those skilled in the art:

As shown in fig. 1-5, the labels 1-11 are shown as: the device comprises an external screw thread solid screw rod 1, an internal screw thread hollow sleeve 2, a hollow outer sleeve 3, a riveting joint 4, a locking nut 5, an external screw thread solid screw rod 6, an internal screw thread hollow sleeve 7, a riveting joint 8, a disc buckle joint 9, a disc buckle joint 10 and a vertical rod 11.

Examples: as shown in fig. 1 to 5, the disc-buckle scaffold structure with adjustable cross bars and diagonal rods in the embodiment provides a disc-buckle scaffold with adjustable size, and particularly relates to a disc-buckle scaffold with freely changeable upright rod spacing to adapt to scaffold erection requirements in practical engineering.

Specifically, as shown in fig. 1, taking a unit node position of a disc-buckle scaffold structure as an example, two adjustable crossbars are arranged between two adjacent upright posts 11, and the two adjustable crossbars are arranged at intervals along the height direction of the upright posts 11; in a specific case, a greater number of adjustable crossbars may be arranged at intervals along the height of the uprights 11, so as to ensure that adjacent uprights 11 can be connected via a number of adjustable crossbars to form a stable overall structure. In this embodiment, the adjustable cross bar is a cross bar having a telescopic structure, so that the length of the adjustable cross bar in the horizontal direction is adjustable, and the column spacing between the columns 11 is adjusted as the length of the adjustable cross bar is adjusted.

Specifically, referring to the illustration of fig. 1, as shown in fig. 1 to 3, the adjustable cross bar in this embodiment includes a riveted joint 4, an externally threaded solid screw 1, a lock nut 5, an internally threaded hollow sleeve 2, and a hollow outer sleeve 3. Wherein, the screw thread of the solid lead screw 1 of external screw thread matches with the hollow sleeve 2 of internal screw thread, this solid lead screw 1 left side of external screw thread realizes effective connection through the riveting joint 4 with the dish knot connects 9, this dish knot connects 9 to install on the stand 11 of left side. The external screw thread solid screw rod 1 can be hinged with the disc buckle joint 9 through the riveting joint 3, so that the external screw thread solid screw rod 1 can freely rotate around the axial direction. The internal thread hollow sleeve 2 and the hollow outer sleeve 3 are welded into a whole through hollow discs at two ends, the right side of the internal thread hollow sleeve is welded into a whole with a disc buckle joint 9, and the disc buckle joint 9 is arranged on a column 11 at the right side. After the external screw thread solid screw rod 1 is screwed into the internal screw thread hollow sleeve 2 through threads, the external screw thread solid screw rod is positioned and screwed through the locking nut 5 so as to be assembled into a whole.

Taking the illustration direction of fig. 1 as an illustration, referring to fig. 1, 4 and 5, the adjustable diagonal rod in this embodiment includes a riveted joint 8, an externally threaded solid screw 6, and an internally threaded hollow sleeve 7. The left lower side of the external screw solid screw rod 6 is connected with a disc buckle joint 10 through a riveting joint 8, the disc buckle joint 10 can freely rotate around the axial direction of the disc buckle joint 10, and the disc buckle joint is arranged on a stand column 11 at the left side; the external thread solid screw rod 6 is matched with the thread arrangement of the internal thread hollow sleeve 7; the right upper end of the internal thread hollow sleeve 7 is connected with a disc buckle joint 10 through a bolt, and the disc buckle joint 10 is arranged on a column 11 on the right side.

In this embodiment, as shown in fig. 1, the lower left disc buckle connector 10 needs to be connected to the left end of the adjustable cross bar and also needs to be connected to the left lower end of the adjustable diagonal bar, so that the disc buckle connector 10 is provided with a connecting part matched with the riveting connector 4 and the riveting connector 8 to realize the simultaneous connection of the adjustable cross bar and the adjustable diagonal bar.

When in use, the embodiment comprises the following procedures:

During specific adjustment, the locking nut 5 is screwed to the left side of the external screw thread solid screw rod 1, then the external screw thread solid screw rod 1 is screwed into the integral sleeve formed by welding the internal screw thread hollow sleeve 2 and the hollow outer sleeve 3, the integral length of the adjustable cross rod is matched with the actual erection space through fine adjustment rotation, then the locking nut 5 is screwed to the right side, the adjustable cross rod is kept integral, and finally effective connection is realized through the disc buckle joints 9 at the two ends and the disc of the upright rod 11. After the adjustable cross rod is adjusted, the locking nut 5 of the adjustable inclined rod is screwed to the left lower side of the external thread solid screw rod 6, then the external thread solid screw rod 6 is screwed into the internal thread hollow sleeve 7, after the length of the adjustable inclined rod is adjusted properly, the locking nut 5 is screwed, and finally the adjustable inclined rod and the bracket structure are connected into a whole through the disc buckle connector 10, so that the whole bracket system is erected.

Although the foregoing embodiments have been described in some detail with reference to the accompanying drawings, it will be appreciated by those skilled in the art that various modifications and changes may be made thereto without departing from the scope of the utility model as defined in the appended claims, and thus are not repeated herein.

Claims (7)

1. The utility model provides a dish knot formula scaffold structure of adjustable horizontal pole and diagonal bar length which characterized in that: the adjustable transverse rod is arranged between the two upright rods, two ends of the adjustable transverse rod are respectively connected with the upright rods through disc buckle connectors, one end of the adjustable transverse rod is hinged, and the other end of the adjustable transverse rod is fixedly connected; the adjustable diagonal rods are arranged between the two adjustable cross rods at the upper side and the lower side, two ends of the adjustable diagonal rods are respectively connected with the disc buckle connectors in a hinged mode, the other ends of the adjustable diagonal rods are fixedly connected, the adjustable cross rods and the adjustable diagonal rods are respectively provided with telescopic structures, and the adjustable cross rods and the adjustable diagonal rods can be adjusted in length in a telescopic mode through the telescopic structures.

2. The disc buckle type scaffold structure capable of adjusting lengths of cross bars and diagonal bars according to claim 1, wherein: the adjustable cross rod comprises a riveting joint, an external thread solid screw rod, an internal thread hollow sleeve and a hollow outer sleeve, wherein the external thread solid screw rod penetrates through the internal of the internal thread hollow sleeve and is in threaded fit with the internal thread solid screw rod to form the telescopic structure, the external thread solid screw rod extends out of the extending end of the internal thread hollow sleeve and is hinged with a disc buckle joint on one side through the riveting joint, the hollow outer sleeve is sleeved on the periphery of the internal thread hollow sleeve, and the hollow outer sleeve is welded with the disc buckle joint on the other side compared with the other end of the extending end of the external thread solid screw rod.

3. The disc buckle type scaffold structure capable of adjusting lengths of cross bars and diagonal bars according to claim 2, wherein: the internal thread hollow sleeve and the hollow outer sleeve are concentrically arranged, and the internal thread hollow sleeve and the hollow outer sleeve are welded into a whole through hollow discs at two ends.

4. The disc buckle type scaffold structure capable of adjusting lengths of cross bars and diagonal bars according to claim 2, wherein: and a locking nut is sleeved on the external thread solid screw rod.

5. The disc buckle type scaffold structure capable of adjusting lengths of cross bars and diagonal bars according to claim 1, wherein: the adjustable inclined rod comprises a riveting joint, an external screw thread solid screw rod and an internal screw thread hollow sleeve, wherein the external screw thread solid screw rod penetrates through the internal of the internal screw thread hollow sleeve and is in threaded fit with the internal screw thread hollow sleeve to form the telescopic structure, the external screw thread solid screw rod extends out of the extending end of the internal screw thread hollow sleeve to be hinged with a disc buckle joint on one side through the riveting joint, and the other end of the extending end of the internal screw thread solid screw rod is connected with a disc buckle joint bolt on the other side in comparison with the internal screw thread solid screw rod.

6. The disc buckle type scaffold structure capable of adjusting lengths of cross bars and diagonal bars according to claim 5, wherein: and a locking nut is sleeved on the external thread solid screw rod.

7. The disc buckle type scaffold structure capable of adjusting lengths of cross bars and diagonal bars according to claim 1, wherein: the hinged end of the adjustable cross rod and the hinged end of the adjustable diagonal rod are on the same side.