阅读说明：本技术 工程脚架防震动倒塌插接式稳固底座 (Anti-vibration collapse plug-in type stable base for engineering scaffold ) 是由 宋双 张延年 回志峰 韩东 于 2021-08-30 设计创作，主要内容包括：本发明提供了一种工程脚架防震动倒塌插接式稳固底座。本发明属于施工设备技术领域,在整体结构的底部设置底座加固连接板,在底座加固连接板的上部设置插接套管、外包裹固定管圈与其连接,在插接套管、外包裹固定管圈的上部设置顶部板与其连接,在顶部板的中心设置立柱预留穿孔,在底座加固连接板的外圈设置若干连接孔,在插接套管和外包裹固定管圈之间设置若干防震动倾覆加强支撑板,在防震动倾覆加强支撑板上设置若干内置耗能斜孔,在相邻的内置耗能斜孔之间设置耗能肋部,本发明的有益效果是可使用多个本发明分别和工程脚架底部立柱进行插接,能够显著起到增大工程脚架底部稳定性能的作用,有效起到防震动倒塌以及避免其倾倒的效果。(The invention provides an anti-vibration collapse plug-in type stable base for an engineering foot rest. The invention belongs to the technical field of construction equipment, a base reinforcing connecting plate is arranged at the bottom of an integral structure, the upper part of the base reinforcing connecting plate is provided with an inserting sleeve, an outer wrapping fixed pipe ring and a top plate which is connected with the inserting sleeve and the outer wrapping fixed pipe ring, a column reserved through hole is arranged at the center of the top plate, a plurality of connecting holes are arranged on the outer ring of the base reinforcing connecting plate, a plurality of anti-vibration overturning reinforcing support plates are arranged between the inserting sleeve and the outer wrapping fixed pipe ring, a plurality of built-in energy consumption inclined holes are arranged on the anti-vibration overturning reinforcing support plates, the energy dissipation rib parts are arranged between the adjacent built-in energy dissipation inclined holes, and the energy dissipation rib parts have the advantages that a plurality of energy dissipation rib parts can be respectively inserted into the upright columns at the bottom of the engineering foot rest, so that the effect of obviously improving the stability of the bottom of the engineering foot rest can be achieved, and the effects of preventing vibration and collapse and avoiding toppling of the engineering foot rest can be effectively achieved.)

1. The utility model provides an engineering foot rest anti-vibration formula of collapsing firm base, mainly includes engineering scaffold frame bottom stand (1), top plate (2), base reinforcement connecting plate (3), grafting sleeve pipe (4), outer parcel fixed tube circle (5), anti-vibration toppling strengthens backup pad (6), built-in power consumption inclined hole (7), power consumption rib portion (8), inner circle perforation (9), well inner circle perforation (10), well circle perforation (11), well outer circle perforation (12), outer lane perforation (13), bushing end (14), tube circle link (15), outer lane shape memory connects and wears gold (16), reinforcement nut (17), connecting hole (18), ground (19), connecting nail (20), vibrations buffering setting layer (21), stand reservation perforation (22), well outer circle shape memory connects and wears gold (23), well circle shape memory connects and wears gold (24), The shape memory connection gold penetration (25) of the middle inner ring and the shape memory connection gold penetration (26) of the inner ring are characterized in that:

the energy-consumption-prevention anti-overturning reinforcing support plate is characterized in that a base reinforcing connecting plate (3) is arranged at the bottom of the whole structure, an inserting sleeve (4) is arranged on the upper portion of the base reinforcing connecting plate (3), an outer wrapping fixed pipe ring (5) is connected with the inserting sleeve (4), a top plate (2) is arranged on the upper portion of the outer wrapping fixed pipe ring (5) and connected with the outer wrapping fixed pipe ring (4), stand column reserved through holes (22) are formed in the center of the top plate (2), a plurality of connecting holes (18) are formed in the outer ring of the base reinforcing connecting plate (3), a plurality of anti-vibration overturning reinforcing support plates (6) are arranged between the inserting sleeve (4) and the outer wrapping fixed pipe ring (5), a plurality of built-in energy-consumption inclined holes (7) are formed in the anti-vibration overturning reinforcing support plates (6), energy-consumption rib portions (8) are arranged between the adjacent built-in energy-consumption inclined holes (7), and sleeve connecting ends (14) and sleeve connecting ends are arranged at the left end and the right end of the anti-vibration overturning reinforcing support plates (6) respectively, A pipe ring connecting end (15), a plurality of inner ring through holes (9), a middle inner ring through hole (10), a middle ring through hole (11), a middle outer ring through hole (12) and an outer ring through hole (13) are respectively arranged in the anti-vibration overturn strengthening supporting plate (6) from the sleeve connecting end (14) to the pipe ring connecting end (15), the sleeve connecting end (14) of each anti-vibration overturn strengthening supporting plate (6) is fixedly connected with the inserting sleeve (4), the pipe ring connecting end (15) of each anti-vibration overturn strengthening supporting plate (6) is fixedly connected with the outer wrapping fixed pipe ring (5), a plurality of outer ring shape memory connecting penetrating metals (16) are arranged to penetrate through the outer ring through holes (13) which are positioned at the same height on each anti-vibration overturn strengthening supporting plate (6) and are fixed by arranging strengthening screw caps (17) at the positions which are positioned at two sides of the anti-vibration overturn strengthening supporting plates (6) on the outer ring shape memory connecting penetrating metals (16), a plurality of middle and outer circle shape memory connection gold penetrations (23) are arranged to penetrate through middle and outer circle through holes (12) which are positioned at the same height on each anti-vibration overturn-preventing reinforcing support plate (6), reinforcing nuts (17) are arranged at positions which are positioned at two sides of the anti-vibration overturn-preventing reinforcing support plate (6) on the middle and outer circle shape memory connection gold penetrations (23) for fixing, a plurality of middle circle shape memory connection gold penetrations (24) are arranged to penetrate through middle circle through holes (11) which are positioned at the same height on each anti-vibration overturn-preventing reinforcing support plate (6), reinforcing nuts (17) are arranged at positions which are positioned at two sides of the anti-vibration overturn-preventing reinforcing support plate (6) on the middle circle shape memory connection gold penetrations (24) for fixing, a plurality of middle and inner circle shape memory connection gold penetrations (25) are arranged to penetrate through middle and inner circle through holes (10) which are positioned at the same height on each anti-vibration overturn-preventing reinforcing support plate (6), and reinforcing nuts are arranged at positions which are positioned at two sides of the anti-vibration overturn-reinforcing support plate (6) on the middle and inner circle shape memory connection gold penetrations (25) for fixing Nut (17) are fixed, it passes inner circle perforation (9) that lie in the same height on every anti-vibration upset reinforcing support plate (6) and sets up reinforcing nut (17) fixedly to set up a plurality of inner circle shape memory connection metal of wearing (26) and lie in the position of anti-vibration upset reinforcing support plate (6) both sides on inner circle shape memory connection metal of wearing (26), at top plate (2), base reinforcing connecting plate (3), the inside cavity of structure that grafting sleeve pipe (4) and outer parcel fixed tube circle (5) enclose sets up vibrations buffering and sets up layer (21), can pass stand reservation perforation (22) with engineering scaffold bottom stand (1) and insert grafting sleeve pipe (4) when using, can set up a plurality of connecting pins (20) simultaneously and pass connecting hole (18) and fix base reinforcing connecting plate (3) and ground (19).

2. The engineering foot stool anti-vibration collapse plug-in type stable base as claimed in claim 1, characterized in that: the hole diameter of the column reserved through hole (22) is the same as the inner diameter of the inserting sleeve (4) and is set according to the size of the cross section of the column (1) at the bottom of the engineering scaffold.

3. The engineering foot stool anti-vibration collapse plug-in type stable base as claimed in claim 1, characterized in that: the top plate (2), the base reinforcing connecting plate (3), the inserting sleeve (4), the outer wrapping fixed pipe ring (5) and the anti-vibration overturning reinforcing supporting plate (6) adopt anti-corrosion and waterproof treatment.

4. The engineering foot stool anti-vibration collapse plug-in type stable base as claimed in claim 1, characterized in that: the size of the connecting nail (20) is set according to the size standard of the connecting hole (18).

5. The engineering foot stool anti-vibration collapse plug-in type stable base as claimed in claim 1, characterized in that: the vibration buffering setting layer (21) is made of soft elastic substance.

Technical Field

The invention belongs to the technical field of construction equipment, and particularly relates to an anti-vibration collapse plug-in type stable base for an engineering foot rest.

Background

The moving of the scaffold in the construction industry makes an indispensable equipment less expensive than large mechanical equipment, and more flexible and convenient than the large equipment. It can solve the problem of vertical and horizontal transportation for the workman at the job site. It also has the characteristics of simple assembly and disassembly, good bearing performance, safe and reliable use and the like. Therefore, the application of the movable scaffold on a construction site is very extensive, and the fact that the stability of the upright column at the bottom of the rod piece of the formed scaffold is not enough is an important reason for causing the collapse of the scaffold. If the stability of a component is sufficient, the component will not be destroyed, whereas if the stability is insufficient, the component as a whole will be destroyed accordingly. In the above-mentioned serious accident caused by scaffold collapse, some of them are caused by that the support stability of a rod or several rods bearing scaffold load is not enough, but the movable scaffold has many problems in the using process, such as that the base installation is not in accordance with the regulation, the cross brace is not in accordance with the regulation, and the scaffold is easy to overturn, and the problem of easy overturning is particularly obvious. Therefore, the problem of overturn prevention of the movable scaffold needs to be solved urgently, the scaffold in the construction site at the present stage is not required to meet the non-standard requirements, sometimes the scaffold is not subjected to stress checking calculation strictly according to the design scheme in the construction process, the schemes of reinforcing support, anchor point reinforcement and the like are not subjected to strict stress checking calculation, and in addition, sometimes the quality of the used materials of the scaffold is poor, particularly the scaffold is easy to collapse when vibration or strong wind occurs, most conveniently, a plurality of fixing devices can be respectively connected with the stand columns at the bottom of the movable scaffold, so that the supporting points at the bottom of the movable scaffold are increased, the stability of the movable scaffold is increased, the movable scaffold is prevented from being collapsed, the occurrence of the conditions of casualties or engineering disasters and the like caused by the collapse of the scaffold system due to natural disasters or human factors and the like is avoided to the greatest extent, and the occurrence of the disasters such as the damage and the collapse of the scaffold when the vibration or the large wind force is avoided, the scaffold has the advantages that the characteristics of poor lapping and anti-seismic performance of the scaffold are eliminated, the scaffold has enough rigidity to meet the use requirements in the case of small wind or small earthquake, when the scaffold vibrates or has large wind, the structure has certain elastic action to generate larger damping, the vibration or wind vibration energy input into the whole structure of the scaffold can be greatly consumed, the energy such as structural kinetic energy or elastic potential energy is converted into heat energy to be dissipated, and the like, so that the structure is protected from being damaged in strong earthquake or strong wind to meet the use requirements.

Disclosure of Invention

In order to solve the technical problems, the invention provides an anti-vibration collapse plug-in type stabilizing base for an engineering foot rest, which can obviously play a role in improving the stability of the bottom of the engineering foot rest, effectively play the effects of anti-vibration collapse and avoiding the collapse of the anti-vibration collapse plug-in type stabilizing base, so that an upright column at the bottom of the engineering foot rest, the anti-vibration collapse plug-in type stabilizing base and the ground are tightly combined to form a stable supporting structure, the occurrence of collapse accidents of the engineering foot rest easily caused by vibration or strong wind in a construction site of a building industry can be avoided, the damage and collapse situations of the engineering foot rest caused by large vibration or wind power can be avoided, and the integral structure of the engineering foot rest is obviously protected from being damaged in strong earthquake or strong wind to meet the use requirements.

In order to achieve the purpose, the invention adopts the technical scheme that:

an anti-vibration collapse plug-in type stable base of an engineering scaffold mainly comprises a bottom upright post (1) of the engineering scaffold, a top plate (2), a base reinforcing connecting plate (3), a plug-in sleeve (4), an outer wrapping fixed pipe ring (5), an anti-vibration overturn reinforcing supporting plate (6), a built-in energy consumption inclined hole (7), an energy consumption rib part (8), an inner ring perforation (9), a middle inner ring perforation (10), a middle ring perforation (11), a middle outer ring perforation (12) and an outer ring perforation (13), casing connection end (14), tube circle connection end (15), outer lane shape memory connect and wear gold (16), reinforcement nut (17), connecting hole (18), ground (19), connecting nail (20), vibrations buffering setting layer (21), stand reservation perforation (22), well outer lane shape memory connect and wear gold (23), well inner circle shape memory connect and wear gold (24), well inner circle shape memory connect and wear gold (25) and inner circle shape memory connect and wear gold (26):

in the structure of the anti-vibration collapse plug-in type stable base of an engineering foot rest, a base reinforcing connecting plate (3) is arranged at the bottom of the whole structure, a plug-in sleeve (4) is arranged on the upper portion of the base reinforcing connecting plate (3), an outer wrapping fixed pipe ring (5) is connected with the base reinforcing connecting plate, a top plate (2) is arranged on the upper portions of the plug-in sleeve (4) and the outer wrapping fixed pipe ring (5) and connected with the top plate, stand column reserved through holes (22) are formed in the center of the top plate (2), a plurality of connecting holes (18) are formed in the outer ring of the base reinforcing connecting plate (3), a plurality of anti-vibration overturn reinforcing supporting plates (6) are arranged between the plug-in sleeve (4) and the outer wrapping fixed pipe ring (5), a plurality of built-in energy dissipation inclined holes (7) are arranged on the anti-vibration overturn reinforcing supporting plates (6), energy dissipation rib parts (8) are arranged between the adjacent built-in energy dissipation inclined holes (7), sleeve connecting ends (14) are arranged at the left end and the right end of the anti-vibration overturn reinforcing supporting plates (6) respectively, A pipe ring connecting end (15), a plurality of inner ring through holes (9), a middle inner ring through hole (10), a middle ring through hole (11), a middle outer ring through hole (12) and an outer ring through hole (13) are respectively arranged in the anti-vibration overturn strengthening supporting plate (6) from the sleeve connecting end (14) to the pipe ring connecting end (15), the sleeve connecting end (14) of each anti-vibration overturn strengthening supporting plate (6) is fixedly connected with the inserting sleeve (4), the pipe ring connecting end (15) of each anti-vibration overturn strengthening supporting plate (6) is fixedly connected with the outer wrapping fixed pipe ring (5), a plurality of outer ring shape memory connecting penetrating metals (16) are arranged to penetrate through the outer ring through holes (13) which are positioned at the same height on each anti-vibration overturn strengthening supporting plate (6) and are fixed by arranging strengthening screw caps (17) at the positions which are positioned at two sides of the anti-vibration overturn strengthening supporting plates (6) on the outer ring shape memory connecting penetrating metals (16), a plurality of middle and outer circle shape memory connection gold penetrations (23) are arranged to penetrate through middle and outer circle through holes (12) which are positioned at the same height on each anti-vibration overturn-preventing reinforcing support plate (6), reinforcing nuts (17) are arranged at positions which are positioned at two sides of the anti-vibration overturn-preventing reinforcing support plate (6) on the middle and outer circle shape memory connection gold penetrations (23) for fixing, a plurality of middle circle shape memory connection gold penetrations (24) are arranged to penetrate through middle circle through holes (11) which are positioned at the same height on each anti-vibration overturn-preventing reinforcing support plate (6), reinforcing nuts (17) are arranged at positions which are positioned at two sides of the anti-vibration overturn-preventing reinforcing support plate (6) on the middle circle shape memory connection gold penetrations (24) for fixing, a plurality of middle and inner circle shape memory connection gold penetrations (25) are arranged to penetrate through middle and inner circle through holes (10) which are positioned at the same height on each anti-vibration overturn-preventing reinforcing support plate (6), and reinforcing nuts are arranged at positions which are positioned at two sides of the anti-vibration overturn-reinforcing support plate (6) on the middle and inner circle shape memory connection gold penetrations (25) for fixing The anti-vibration and anti-overturning reinforcing support plate is characterized in that nuts (17) are fixed, a plurality of inner ring shape memory connecting penetrations (26) are arranged to penetrate through inner ring through holes (9) in the same height on each anti-vibration and anti-overturning reinforcing support plate (6), reinforcing nuts (17) are arranged at positions, located on the inner ring shape memory connecting penetrations (26), on two sides of each anti-vibration and anti-overturning reinforcing support plate (6) to fix the anti-vibration and anti-overturning reinforcing support plate, and a vibration buffering setting layer (21) is arranged in a structural inner cavity formed by surrounding of the top plate (2), the base reinforcing connection plate (3), the inserting sleeve (4) and the outer wrapping fixing tube ring (5).

Further, the hole diameter of the column reserved through hole (22) and the inner diameter of the inserting sleeve (4) are the same and are arranged according to the size of the cross section of the column (1) at the bottom of the engineering scaffold.

Furthermore, the top plate (2), the base reinforcing connecting plate (3), the inserting sleeve (4), the outer wrapping fixed pipe ring (5) and the anti-vibration overturning reinforcing supporting plate (6) adopt anti-corrosion and waterproof treatment.

Further, the size of the connecting nail (20) is set according to the size standard of the connecting hole (18).

Further, the vibration damping arrangement layer (21) is made of soft elastic substance.

The invention has the advantages that a plurality of the anti-vibration anti-collapse inserting stabilizer bases can be respectively inserted with the upright columns at the bottom of the engineering foot rest, the effect of improving the stability of the bottom of the engineering foot rest can be remarkably played, the anti-vibration anti-collapse effect and the anti-collapse effect can be effectively played, the upright columns at the bottom of the engineering foot rest, the anti-vibration anti-collapse inserting stabilizer bases can be tightly combined with the ground to form a stable supporting structure, the accident that the engineering foot rest collapses easily caused by vibration or strong wind in the construction field of the building industry can be avoided, the use is convenient, safe and reliable, the most convenient effect is that the anti-vibration anti-collapse inserting stabilizer bases can be respectively inserted and connected with the upright columns at the bottom of the engineering foot rest, the condition that the engineering foot rest system is unstable due to natural disasters or human factors and the like to cause casualties or disasters or engineering and the condition that the engineering foot rest is damaged and collapses caused by large vibration or wind force can be avoided to occur, the characteristics that the upright column at the bottom of the engineering foot rest is easy to slide and poor in anti-seismic performance are eliminated, so that the engineering foot rest has enough rigidity to meet the use requirement in the case of small wind or small earthquake, and when the earthquake or strong wind occurs, the structure has a certain elastic action and can generate larger damping, so that the vibration or wind vibration energy input into the whole structure of the engineering foot rest can be greatly consumed, and the whole structure of the engineering foot rest is remarkably protected from being damaged in strong earthquake or strong wind to meet the use requirement.

Drawings

The anti-vibration collapse plug-in type stable base of the engineering scaffold is further described with reference to the attached drawings as follows:

FIG. 1 is a front or side view of the anti-vibration and anti-collapse plug-in type stable base for engineering scaffold.

FIG. 2 is a schematic top view of the anti-vibration and anti-collapse plug-in type stable base for engineering scaffold of the present invention.

Fig. 3 is a schematic view of a top plate according to the present invention.

Fig. 4 is a schematic sectional view taken along line a-a of fig. 2.

Fig. 5 is a schematic position diagram of the arrangement of a bottom upright column, a base reinforcing connecting plate, a splicing sleeve, an outer wrapping fixed pipe ring, an anti-vibration overturn reinforcing supporting plate, an outer ring shape memory connection metal, a reinforcing screw cap, a vibration buffering setting layer, a middle and outer ring shape memory connection metal, a middle inner ring shape memory connection metal and an inner ring shape memory connection metal of the engineering scaffold.

FIG. 6 is a schematic structural view of the anti-vibration collapse plug-in type stabilizing base of the engineering scaffold of the present invention installed on the ground.

FIG. 7 is a schematic view of the anti-vibration overturn strengthening support plate in the anti-vibration collapse plug-in type stable base of the engineering scaffold of the present invention.

In the figure: 1 is a bottom upright post of the engineering scaffold; 2 is a top plate; 3, a base reinforcing connecting plate; 4 is a plug-in sleeve; 5, a fixed pipe ring is wrapped outside; 6 is a vibration-proof overturn-proof reinforced support plate; 7 is a built-in energy consumption inclined hole; 8 is a dissipative rib; 9 is an inner ring through hole; 10 is a middle inner ring through hole; 11 is a middle ring perforation; 12, perforating the middle and outer rings; 13 is an outer ring perforation; 14 is a sleeve connecting end; 15 is a pipe coil connecting end; 16 is an outer ring shape memory connection gold penetration; 17 is a reinforcing nut; 18 is a connecting hole; 19 is the ground; 20 is a connecting nail; 21 is a vibration buffering setting layer; 22, reserving a through hole for the upright post; 23, connecting middle and outer ring shape memory with gold; 24, middle ring shape memory connection gold penetration; 25, connecting the shape memory of the middle inner ring with the metal; 26 inner circle shape memory connection punch-through.

Detailed Description

In order to further illustrate the present invention, the following detailed description of the present invention is given with reference to the accompanying drawings and examples, which should not be construed as limiting the scope of the present invention.

An anti-vibration collapse plug-in type stabilizing base for an engineering scaffold is mainly composed of an engineering scaffold bottom upright post 1, a top plate 2, a base reinforcing connecting plate 3, a plug-in sleeve 4, an outer wrapping fixed pipe ring 5, an anti-vibration collapse reinforcing supporting plate 6, a built-in energy consumption inclined hole 7, an energy consumption rib 8, an inner ring through hole 9, a middle inner ring through hole 10, a middle ring through hole 11, a middle outer ring through hole 12, an outer ring through hole 13, a sleeve connecting end 14, a pipe ring connecting end 15, an outer ring shape memory connecting penetrating metal 16, a reinforcing nut 17, a connecting hole 18, a ground 19, a connecting nail 20, a vibration buffering setting layer 21, an upright post reserved through hole 22, a middle outer ring shape memory connecting penetrating metal 23, a middle ring shape memory connecting penetrating metal 24, a middle inner ring shape memory connecting penetrating metal 25 and an inner ring shape memory connecting vibrating metal 26, as shown in figures 1-7, the bottom of the integral structure is provided with a base reinforcing connecting plate 3, the upper part of the base reinforcing connecting plate 3 is provided with an inserting sleeve 4, an outer wrapping fixed pipe ring 5 is connected with the inserting sleeve 4, the upper part of the outer wrapping fixed pipe ring 5 is provided with a top plate 2, the top plate is connected with the top plate 2, the center of the top plate 2 is provided with a stand column reserved through hole 22, the outer ring of the base reinforcing connecting plate 3 is provided with a plurality of connecting holes 18, a plurality of anti-vibration overturning reinforcing supporting plates 6 are arranged between the inserting sleeve 4 and the outer wrapping fixed pipe ring 5, a plurality of built-in energy consumption inclined holes 7 are arranged on the anti-vibration overturning reinforcing supporting plates 6, energy consumption rib parts 8 are arranged between the adjacent built-in energy consumption inclined holes 7, sleeve connecting ends 14 and pipe ring connecting ends 15 are respectively arranged at the left end and the right end of the anti-vibration overturning reinforcing supporting plates 6, and a plurality of inner ring through holes 9 are respectively arranged in the directions from the sleeve connecting ends 14 to the pipe ring connecting ends 15 in the anti-vibration overturning reinforcing supporting plates 6, A middle inner ring through hole 10, a middle ring through hole 11, a middle outer ring through hole 12 and an outer ring through hole 13, a sleeve connecting end 14 of each anti-vibration overturn-preventing reinforcing support plate 6 is fixedly connected with an inserting sleeve 4, a tube ring connecting end 15 of each anti-vibration overturn-preventing reinforcing support plate 6 is fixedly connected with an outer wrapping fixed tube ring 5, a plurality of outer ring shape memory connecting penetrating metals 16 are arranged to penetrate through the outer ring through hole 13 at the same height on each anti-vibration overturn-preventing reinforcing support plate 6 and are fixed by reinforcing screw caps 17 arranged at the positions on the outer ring shape memory connecting penetrating metals 16 at the two sides of the anti-vibration overturn-preventing reinforcing support plate 6, a plurality of middle outer ring shape memory connecting penetrating metals 23 are arranged to penetrate through the middle outer ring through hole 12 at the same height on each anti-vibration overturn-preventing reinforcing support plate 6 and are fixed by reinforcing screw caps 17 arranged at the positions on the outer ring shape memory connecting penetrating metals 23 at the two sides of the anti-vibration overturn-reinforcing support plate 6, a plurality of middle circle shape memory connection penetrating metals 24 are arranged to penetrate through middle circle through holes 11 at the same height on each anti-vibration overturn strengthening supporting plate 6, reinforcing nuts 17 are arranged at positions on the middle circle shape memory connection penetrating metals 24 at two sides of the anti-vibration overturn strengthening supporting plate 6 to be fixed, a plurality of middle inner circle shape memory connection penetrating metals 25 are arranged to penetrate through middle inner circle through holes 10 at the same height on each anti-vibration overturn strengthening supporting plate 6 and reinforcing nuts 17 are arranged at positions on the middle inner circle shape memory connection penetrating metals 25 at two sides of the anti-vibration overturn strengthening supporting plate 6 to be fixed, a plurality of inner circle shape memory connection penetrating metals 26 are arranged to penetrate through inner circle through holes 9 at the same height on each anti-vibration overturn strengthening supporting plate 6 and reinforcing nuts 17 are arranged at positions on the inner circle shape memory connection penetrating metals 26 at two sides of the anti-vibration overturn strengthening supporting plate 6 to be fixed, a vibration buffering setting layer 21 is arranged in a cavity inside a structure formed by enclosing the top plate 2, the base reinforcing connecting plate 3, the inserting sleeve 4 and the outer wrapping fixed pipe ring 5, when the vibration buffering type scaffold is used, the bottom upright post 1 of the engineering scaffold can penetrate through the upright post reserved through hole 22 to be inserted into the inserting sleeve 4, and meanwhile, a plurality of connecting nails 20 can be arranged to penetrate through the connecting holes 18 to fix the base reinforcing connecting plate 3 and the ground 19.

The hole diameter of the column reserved through hole 22 and the inner diameter of the plugging sleeve 4 are set to be the same and are set according to the size of the cross section of the column 1 at the bottom of the engineering scaffold.

The top plate 2, the base reinforcing connecting plate 3, the inserting sleeve 4, the outer wrapping fixed pipe ring 5 and the anti-vibration overturning reinforcing supporting plate 6 adopt anti-corrosion and waterproof treatment.

The size of the attachment nail 20 is set according to the size standard of the attachment hole 18.

The vibration damping layer 21 is made of a soft elastic substance.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.