CN114059759A

CN114059759A - Adjustable elevation dish of using little bump technique is buckled a circle dish

Info

Publication number: CN114059759A
Application number: CN202111346874.9A
Authority: CN
Inventors: 付建武; 吴佳键; 韩友强; 赵华颖; 陈凯; 李安青; 王英; 高超; 宋春桃; 吴忠阳; 朱伟何; 陈浩
Original assignee: Third Construction Engineering Co Ltd of China Construction Second Engineering Bureau Co Ltd
Current assignee: Third Construction Engineering Co Ltd of China Construction Second Engineering Bureau Co Ltd
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-18

Abstract

The invention discloses an adjustable elevation disc buckle frame disc applying a micro-bump technology, which comprises a disc buckle frame disc, wherein the disc buckle frame disc comprises an upper half disc and a lower half disc, one end of the upper half disc is hinged with one end of the lower half disc, and the other end of the upper half disc is detachably connected with the other end of the lower half disc through a connecting component; and the inner openings of the upper half disc and the lower half disc are formed with cylinder walls, and concave points matched with the convex points on the upright stanchion are arranged on the cylinder walls. This application dish is detained a disc and is matchd with the pole setting of little bump technique, the cooperation of the bump in concave point and the pole setting on the accessible disc makes the disc fix in the pole setting, realizes that the disc height-adjustable in the pole setting to with the support system by the frictional force bearing convert end load into with the frictional force bearing, improve the bearing capacity, have adjustable elevation, the suitability is strong, can match different building structure's advantage, solved traditional dish and detained the fixed, the poor problem of adaptability of a modulus of frame.

Description

Adjustable elevation dish of using little bump technique is buckled a circle dish

Technical Field

The invention relates to the technical field of disk buckle type scaffolds, in particular to an adjustable elevation disk buckle type scaffold disk applying a micro-bump technology.

Background

In recent years, with the development of scaffold technology, scaffolds of different forms are popularized and applied in the engineering construction process, and among the scaffolds, the disk-buckle type scaffold is widely popularized due to reasonable structural stress, safety, reliability and good stability.

The module of the disk-buckle type scaffold is fixed and is difficult to match variable building structures, the disk-buckle type scaffold is limited by the module, and when the length of an engineering structure does not meet the requirement of the module and is in some special parts, the application of the disk-buckle type scaffold is limited. For example, when using two C steel supporting beam, because the modulus mismatch, need to set up the top on two C steel basis and hold in the palm, place the main joist on the top support, can cause the condition of two main joists + top support, extravagant material.

Disclosure of Invention

The invention provides an elevation-adjustable disk buckling frame disk applying a micro-bump technology, which has the advantages of adjustable elevation, strong applicability and capability of being matched with different building structures.

The technical problem to be solved is that: the module of the disk-buckle type scaffold is fixed and is difficult to match variable building structures, the disk-buckle type scaffold is limited by the module, and when the length of an engineering structure does not meet the requirement of the module and is in some special parts, the application of the disk-buckle type scaffold is limited.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention relates to an elevation-adjustable disc buckling frame disc applying a micro-bump technology, which comprises a disc buckling frame disc, wherein the disc buckling frame disc comprises an upper half disc and a lower half disc, one end of the upper half disc is hinged with one end of the lower half disc, and the other end of the upper half disc is detachably connected with the other end of the lower half disc through a connecting component; and the inner openings of the upper half disc and the lower half disc are formed with cylinder walls, and concave points matched with the convex points on the upright stanchion are arranged on the cylinder walls.

The invention relates to an elevation-adjustable disk buckling frame disk applying a micro-bump technology.

The invention relates to an adjustable elevation disc buckling frame disc applying a micro-bump technology, which is characterized in that a connecting assembly comprises small cross rods fixedly arranged on an upper half disc and a lower half disc respectively and deviating from a hinged end, the small cross rods are provided with bolt holes, and the two small cross rods are connected through bolts.

The invention relates to an adjustable elevation disc buckle rack disc applying a micro-convex point technology, and further, a swing bolt is connected to one small cross bar, and a notch for the swing bolt to penetrate is formed in the other small cross bar.

The invention relates to an adjustable elevation disc buckle frame disc applying a micro-convex point technology, and further, a thrust surface is formed at the notch along the outline direction of the notch.

The invention relates to an adjustable elevation disc buckling frame disc applying a micro-bump technology, and further, the thickness of the wall of a cylinder is 1-5mm, and the height of the wall of the cylinder is 20-70 mm.

The invention relates to an adjustable elevation disc buckling frame disc applying a micro-bump technology, and further, the thickness of the wall of the drum is 2mm, and the height of the wall of the drum is 50 mm.

The invention relates to an elevation-adjustable disk buckling frame disk applying a micro-convex point technology, further, a plurality of groups of concave points are arranged on the wall of the cylinder along the height direction of the cylinder, and the distance between every two adjacent groups of concave points is 10 mm.

The invention relates to an adjustable elevation disc buckling frame disc applying a micro-convex point technology.

Compared with the prior art, the invention has the following beneficial effects:

1. the disc buckling frame is matched with the vertical rod of the micro-convex point technology, the concave points on the disc are clamped into the convex points at the corresponding height positions, the disc is fixed on the vertical rod, the disc is adjustable in height on the vertical rod, a supporting system is converted from friction supporting into end bearing force and friction supporting, the bearing capacity is improved, the disc buckling frame has the advantages of being adjustable in elevation, strong in applicability and capable of being matched with different building structures, and the problems that the traditional disc buckling frame is fixed in modulus and poor in adaptability are solved;

2. the two half discs are connected through the swing bolt, so that the operation is convenient, and the bolt is prevented from being lost;

3. the thrust surface is arranged at the notch to limit the end of the bolt;

4. the wall of the cylinder is additionally provided with concave points with the distance of 10mm, so that the height can be finely adjusted, and the accuracy is higher.

The invention will be further explained with reference to the drawings.

Drawings

FIG. 1 is a top view of the present invention;

FIG. 2 is a front view of the upper tray half of the present invention;

fig. 3 is a front view of the lower tray half of the present invention.

Reference numerals:

1. a disc of the disc buckle frame; 2. a notch; 3. an upper half disc; 4. a lower half disc; 5. a rotating shaft; 6. a cylinder wall; 7. concave points; 8. a small cross bar; 9. a bolt; 10. a bevel; 11. opening the gap; 12. a thrust surface.

Detailed Description

As shown in fig. 1-3, the disc of the adjustable elevation disc fastener rack of the invention applying the micro-bump technology comprises a disc fastener rack disc 1, wherein the disc fastener rack disc 1 is provided with a notch 2 for connecting a transverse rod and an inclined rod of the disc fastener rack; the dish is buckled frame disc 1 and is included first dish 3 and second dish 4, first dish 3 and second dish 4 one end are articulated through pivot 5, the other end passes through coupling assembling and can dismantle the connection, first dish 3 and second dish 4 internal orifice department shaping have a section of thick bamboo wall 6, be equipped with round pit 7 on the section of thick bamboo wall 6, match with the pole setting of little bump technique, multiunit along the bump of its length direction interval setting has set firmly in the pole setting, every group bump evenly sets up four along pole setting circumferencial direction interval, during the use, buckle frame disc 7 card on the frame disc 1 on the bump of corresponding height, buckle frame disc 1 with the dish and fix in the pole setting, it is adjustable to realize that the disc is high in the pole setting, and convert the supporting system into end load and frictional force supporting by the frictional force supporting, the bearing capacity is improved, it is fixed to have solved traditional dish and has buckled the frame modulus, the poor problem of adaptability. In addition, the cylinder wall 6 can also be provided with convex points which are matched with concave points 7 on the upright stanchion.

Coupling assembling sets firmly respectively at last half dish 3 and half 4 little horizontal pole 8 that deviate from the hinged end down, has seted up the bolt hole on little horizontal pole 8, and two little horizontal poles 8 pass through bolt 9 and connect.

Further, the bolt 9 is a swing bolt and is connected with one of the small cross bars 8, the other small cross bar 8 is provided with a notch 11 for the swing bolt to pass through, and a thrust surface 12 is formed at the notch 11 along the contour direction of the notch to limit the end of the bolt 9; the bolt 9 is connected to the small cross rod 8 through the movable joint bolt, so that the bolt 9 is prevented from being lost when not used, and the installation is convenient.

Further, the hinged end of the upper half-disc 3 or the lower half-disc 4 is provided with a bevel 10 to facilitate the rotation of the two half-discs around the rotation axis.

The thickness of the cylinder wall 6 is 1-5mm, the height is 20-70mm, and the preferred cylinder wall 6 is 2mm and 50 mm.

Four concave points 7 are formed on the horizontal plane of the cylinder wall 6 and matched with the convex points on the upright stanchion to increase the stability.

The cylinder wall 6 is provided with a plurality of groups of concave points 7 along the height direction, and the distance between two adjacent groups of concave points 7 is 10mm, so that the micro-adjustment effect can be achieved, and the adjustment accuracy is improved.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims

1. The utility model provides an use adjustable elevation dish of little bump technique and detain a disc, detains a disc (1) including the dish, its characterized in that: the disc buckle frame disc (1) comprises an upper half disc (3) and a lower half disc (4), one end of the upper half disc (3) is hinged with one end of the lower half disc (4), and the other end of the upper half disc is detachably connected with the other end of the lower half disc (4) through a connecting assembly; and a cylinder wall (6) is formed at the inner openings of the upper half disc (3) and the lower half disc (4), and concave points (7) matched with the convex points on the upright stanchion are arranged on the cylinder wall (6).

2. The adjustable elevation disc fastener holder disc applying the micro-bump technology as claimed in claim 1, wherein: the upper half disc (3) and the lower half disc (4) are hinged through a rotating shaft (5).

3. The adjustable elevation disc fastener holder disc applying the micro-bump technology as claimed in claim 2, wherein: and an inclined plane (10) is arranged at the hinged end of the upper half disc (3) or the lower half disc (4).

4. The adjustable elevation disc fastener holder disc applying the micro-bump technology as claimed in claim 1, wherein: coupling assembling sets firmly respectively at last half dish (3) and half dish (4) down and deviate from little horizontal pole (8) of hinged end, seted up the bolt hole on little horizontal pole (8), two little horizontal pole (8) are connected through bolt (9).

5. The adjustable elevation disc fastener holder disc applying the micro-bump technology as claimed in claim 4, wherein: one of the small cross bars (8) is connected with a swing bolt, and the other small cross bar (8) is provided with a notch (11) for the swing bolt to penetrate.

6. The adjustable elevation disc fastener holder disc using the micro-bump technology as claimed in claim 5, wherein: a thrust surface (12) is formed at the notch (11) along the contour direction.

7. The adjustable elevation disc fastener holder disc applying the micro-bump technology as claimed in claim 1, wherein: the thickness of the cylinder wall (6) is 1-5mm, and the height is 20-70 mm.

8. The adjustable elevation disc fastener holder disc using the micro-bump technology as claimed in claim 7, wherein: the thickness of the cylinder wall (6) is 2mm, and the height is 50 mm.

9. The adjustable elevation disc fastener holder disc applying the micro-bump technology as claimed in claim 1, wherein: a plurality of groups of concave points (7) are arranged on the cylinder wall (6) along the height direction of the cylinder wall, and the distance between every two adjacent groups of concave points (7) is 10 mm.

10. The adjustable elevation buckling frame disc applying the micro-bump technology as claimed in any one of claims 1 to 9, wherein: the pits (7) are replaced by bumps.