阅读说明：本技术 一种建筑工地脚手架搭建系统 (Building site scaffold building system ) 是由 何红蕾 于 2021-09-03 设计创作，主要内容包括：本发明提供一种建筑工地脚手架搭建系统,包括扣件,扣件的两侧螺旋连接有螺丝,扣件的内侧设有可自动加工的传动机构,底座、立杆、水平杆、剪刀撑、斜撑、连墙杆、栏杆和扣件组合呈脚手架搭建系统,该种脚手架搭建系统利用扣件依次将底座、立杆、水平杆、剪刀撑、斜撑、连墙杆和栏杆进行安装固定,滑块通过螺丝挤压呈水平滑动,滑块带动连杆呈水平滑动,同时齿轮通过转轴呈角度摆动,而螺丝外侧螺纹嵌入于滑块的内侧,挡板通过旋转轴承摆动,利用挡板之间形成夹角,螺丝和滑块之间进一步固定,方便在滑块滑动后进一步增加传动机构整体稳定性,齿轮通过齿片带动滑杆呈水平滑动,滑杆带动摆臂呈水平滑动,摆臂带动凸块于套筒的内侧滑动。(The invention provides a scaffold building system for a construction site, which comprises fasteners, wherein screws are spirally connected to two sides of each fastener, a transmission mechanism capable of being automatically processed is arranged on the inner side of each fastener, and a base, a vertical rod, a horizontal rod, a cross brace, an inclined strut, a wall connecting rod, a railing and the fasteners are combined to form the scaffold building system, the scaffold building system sequentially mounts and fixes the base, the vertical rod, the horizontal rod, the cross brace, the inclined strut, the wall connecting rod and the railing by using the fasteners, a sliding block is extruded by the screws to horizontally slide, the sliding block drives a connecting rod to horizontally slide, a gear is angularly swung by a rotating shaft, threads on the outer side of the screw are embedded into the inner side of the sliding block, the baffle is swung by a rotating bearing, an included angle is formed between the baffles, the screw and the sliding block are further fixed, the overall stability of the transmission mechanism is further improved after the sliding of the sliding block is conveniently, the gear drives the sliding rod to horizontally slide by a tooth piece, the slide bar drives the swing arm to slide horizontally, and the swing arm drives the lug to slide on the inner side of the sleeve.)

1. A system for building site scaffold erection, comprising

The transmission mechanism comprises a sliding rod (4), and a tooth piece (401) is embedded at one end of the sliding rod (4);

the side surface of the sliding rod (4) is sequentially provided with a swing arm (402) and a lug (403) in a swinging mode, and the sleeve (5) rotates on the outer side of the lug (403);

sleeve (5), telescopic link (501) threaded connection in one side of sleeve (5), spacing ring (502) rotary motion in one side of telescopic link (501), sucking disc (503) embedding is installed in the inboard of spacing ring (502).

2. A building site scaffold building system according to claim 1, wherein: the swing arm (402) is in two-section sleeve joint, one end of the swing arm (402) and the sliding rod (4) are arranged on the same horizontal plane, and the other end of the swing arm (402) is arranged in an inclined mode.

3. A building site scaffold building system according to claim 1, wherein: the outside embedding of sleeve (5) is fluted, and the recess is the semicircle arcuation setting, and lug (403) slip joint in the recess inside.

4. A building site scaffold building system according to claim 1, wherein: the limiting ring (502) is changed in shape according to the shape of the inner side of the fastener (1), the inner side of the fastener (1) usually penetrates through the circular steel column, therefore, the limiting ring (502) and the fastener (1) are both arranged in a semicircular arc shape, and the limiting ring (502) occupies one third of the position of the inner side of the fastener (1).

5. A building site scaffold building system according to claim 1, wherein: the sleeve (5) is arranged in a hollow shape, and the semi-arc angle of the groove is 25-65 degrees.

6. A building site scaffold building system according to claim 4, wherein: base, pole setting, horizon bar, bridging, bracing, even wall pole, railing and fastener (1) combination are the scaffold puts up the system, and this kind of scaffold puts up the system and utilizes fastener (1) to install base, pole setting, horizon bar, bridging, bracing, even wall pole and railing in proper order and fix.

7. A building site scaffold building system according to claim 1, wherein: the transmission mechanism comprises a sliding block (2), a connecting rod (201), a rotating shaft (3) and a gear (301), the connecting rod (201) slides on one side of the sliding block (2), and the rotating shaft (3) and the gear (301) sequentially swing at one end of the connecting rod (201).

8. A building site scaffold building system according to claim 7, wherein: when the connecting rod (201) slides horizontally, the gear (301) swings at an angle through the rotating shaft (3), and when the connecting rod (201) is static, the gear (301) and the connecting rod (201) are integrally arranged in a T shape.

9. A building site scaffold building system according to claim 1, wherein: the transmission mechanism comprises a rotary bearing (202), a baffle plate (203) and a clamping ring (204), the baffle plate (203) swings at one end of the rotary bearing (202), and the clamping ring (204) is embedded at one side of the baffle plate (203).

10. A building site scaffold building system according to claim 9, wherein: the baffle (203) is made of rubber, the baffle (203) and the rotating bearing (202) swing at an angle of 5-35 degrees, and the snap ring (204) is arranged in a semicircular arc shape.

Technical Field

The invention relates to the technical field of scaffolds, in particular to a building site scaffold building system.

Background

The scaffold erecting process comprises the steps of common cantilever frames, main rod foundations, upright rod intervals, cross rod arrangement, cross bracing, laying requirements, protective railings, wall connecting pieces and frame body inner sealing, all the processes need fasteners for installation and fixation, the fasteners can quickly install and fix the main rods and the upright rods, the fasteners are usually installed through screws, and the screws are easy to loosen after long-time use;

aiming at the technical problems of the scaffold, a retrieval shows that a disc-lock scaffold building system with the patent number of CN201710416690.2 is provided, and a porous connecting disc and a twist lock butt joint system are arranged on a vertical rod of the disc-lock scaffold building system, so that the disc-lock scaffold building system can be assembled with matched cross rods, diagonal rods, tie bars, safety nets and the like to form a stable space structure and has a safety protection function;

the fastener is two-layer installation, uses the screw to run through fixedly between the fastener usually, and the mobile jib runs through the inside formation of fastener simultaneously and fixes, and does not have between screw and the scaffold to be connected, but the screw is in not hard up back, and the fastener is not hard up, and then easily leads to the mobile jib not hard up, leads to inside screw installation screw back of fastener, can't be fixed to further the installation between fastener and the scaffold through the screw, increases simultaneously and is connected between screw and the scaffold.

Disclosure of Invention

In order to solve the technical problems, the invention provides a building site scaffold building system, which solves the problems described in the background technology.

The invention relates to a purpose and an effect of a building site scaffold building system, which are achieved by the following specific technical means: the utility model provides a system is built to building site scaffold, includes the fastener, the both sides screwed connection of fastener has the screw, but the inboard of fastener is equipped with automatic processing's drive mechanism.

Base, pole setting, horizon bar, bridging, bracing, even wall pole, railing and fastener combination are the scaffold puts up the system, and this kind of scaffold puts up the system and utilizes the fastener to install base, pole setting, horizon bar, bridging, bracing, even wall pole and railing in proper order fixedly.

The transmission mechanism comprises a sliding block, a connecting rod, a rotary bearing, a baffle plate, a clamping ring, a rotating shaft and a gear.

The slider slides and runs through in the inside both sides of fastener, and the connecting rod slides in one side of slider, and swivel bearing articulates in the inside upper and lower both ends of slider, and the baffle swings in swivel bearing's one end, and the snap ring is inlayed in one side of baffle, and pivot and gear swing in the one end of connecting rod in proper order.

The side of the sliding block close to the screw is embedded with a groove, the side of the sliding block, provided with the groove, is arranged in a semicircular arc shape, the rotary bearing is hinged to the inner side of the groove, the baffle is made of rubber, the baffle and the rotary bearing swing at an angle of 5-35 degrees, the snap ring is arranged in a semicircular arc shape, the rotating shaft is far away from one side of the sliding block, and the gear is arranged in a triangular shape.

The transmission mechanism comprises a sliding rod, a toothed sheet, a swing arm, a bump, a sleeve, a telescopic rod, a limiting ring and a sucker.

The slide bar slides in the one end of gear, and the pick is inlayed in the one end of slide bar, and swing arm and lug swing in proper order in the side of slide bar, and the sleeve is rotatory in the outside of lug, telescopic link screwed connection in telescopic one side, and the spacing ring rotary motion is in one side of telescopic link, and the sucking disc embedding is installed in the inboard of spacing ring.

The tooth piece and the gear are in sliding embedded connection, the swing arm is in two-section sleeve connection, the outer side of the sleeve is embedded with the groove, the groove is in a semicircular arc shape, the protruding block is in sliding clamping connection inside the groove, the limiting ring slides to penetrate through the inner side of the fastener, and the sucker is installed on the inner side of the limiting ring in a penetrating mode.

Has the advantages that:

1. the sliding block horizontally slides through screw extrusion, the sliding block drives the connecting rod to horizontally slide, the gear swings in an angle through the rotating shaft, the outer side threads of the screw are embedded into the inner side of the sliding block, the baffle swings through the rotating bearing, an included angle is formed between the baffles, the screw and the sliding block are further fixed, and the overall stability of the transmission mechanism is further improved conveniently after the sliding block slides;

2. the gear drives the slide bar through the pick and is the horizontal slip, and the slide bar drives the swing arm and is the horizontal slip, and the swing arm drives the lug and slides in telescopic inboard, because lug and sleeve slip block, so the sleeve wholly is the horizontal rotation, and the sleeve is rotatory to be driven telescopic link and spacing ring and is extended, and the spacing ring can carry out spacing fixed to the steel column of inboard scaffold frame, and then can increase the installation steadiness between screw and the scaffold frame steel column.

Drawings

FIG. 1 is a diagram of the overall system of the present invention.

FIG. 2 is a schematic view of a fastener of the present invention.

FIG. 3 is a cross-sectional view of the fastener of the present invention.

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention.

FIG. 5 is a schematic view of a slider structure according to the present invention.

FIG. 6 is an enlarged view of the structure at B in FIG. 5 according to the present invention.

FIG. 7 is a schematic view of the sleeve assembly of the present invention.

In fig. 1 to 7, the correspondence between the component names and the reference numbers is:

1-fastener, 101-screw, 2-slide block, 201-connecting rod, 202-rotary bearing, 203-baffle, 204-snap ring, 3-rotating shaft, 301-gear, 4-slide rod, 401-tooth sheet, 402-swing arm, 403-lug, 5-sleeve, 501-telescopic rod, 502-limit ring and 503-sucker.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

Example (b):

as shown in figures 1 to 7:

example 1: a scaffold building system for a construction site comprises a fastener 1, wherein screws 101 are spirally connected to two sides of the fastener 1, and a transmission mechanism capable of being automatically processed is arranged on the inner side of the fastener 1;

the scaffold building system is formed by combining a base, vertical rods, horizontal rods, cross braces, inclined struts, wall connecting rods, railings and fasteners 1, and the base, the vertical rods, the horizontal rods, the cross braces, the inclined struts, the wall connecting rods and the railings are sequentially installed and fixed by the aid of the fasteners 1;

wherein: holes are formed in the two sides of the fastener 1 in a penetrating mode, the screw 101 penetrates through the inside of the hole, and after the screw 101 penetrates through the inside of the hole, the screw 101 is extruded to one side of the transmission mechanism, so that the screw and a scaffold can be automatically installed in a reinforcing mode;

the transmission mechanism comprises a sliding block 2, a connecting rod 201, a rotary bearing 202, a baffle plate 203, a clamping ring 204, a rotating shaft 3 and a gear 301, wherein the sliding block 2 penetrates through two sides inside the fastener 1 in a sliding manner, the connecting rod 201 slides on one side of the sliding block 2, the rotary bearing 202 is hinged to the upper end and the lower end inside the sliding block 2, the baffle plate 203 swings at one end of the rotary bearing 202, the clamping ring 204 is embedded at one side of the baffle plate 203, and the rotating shaft 3 and the gear 301 swing at one end of the connecting rod 201 in sequence;

a groove is embedded in one side, close to the screw 101, of the sliding block 2, the side, provided with the groove, of the sliding block 2 is arranged in a semicircular arc shape, the rotary bearing 202 is hinged to the inner side of the groove, the baffle plate 203 is made of rubber, the baffle plate 203 and the rotary bearing 202 swing at an angle of 5-35 degrees, the clamping ring 204 is arranged in a semicircular arc shape, the rotating shaft 3 is far away from one side of the sliding block 2, and the gear 301 is arranged in a triangular shape;

wherein: the sliding block 2 is extruded by the screw 101 to horizontally slide, the sliding block 2 drives the connecting rod 201 to horizontally slide, meanwhile, the gear 301 swings in an angle through the rotating shaft 3, the outer side thread of the screw 101 is embedded into the inner side of the sliding block 2, the baffle plate 203 swings through the rotating bearing 202, an included angle is formed between the baffle plate 203, the screw 101 and the sliding block 2 are further fixed, and the overall stability of the transmission mechanism is further improved after the sliding block 2 slides conveniently;

when the screw 101 penetrates through the hole, the sliding block 2 is extruded by the screw 101 to horizontally slide, the sliding block 2 drives the connecting rod 201 to horizontally slide, meanwhile, the gear 301 swings in an angle through the rotating shaft 3, the outer side thread of the screw 101 is embedded into the inner side of the sliding block 2, the baffle plate 203 swings through the rotating bearing 202, an included angle is formed between the baffle plate 203, and the screw 101 and the sliding block 2 are further fixed;

wherein: the baffle 203, the baffle 203 can be made of rubber or any soft material;

a snap ring 204, wherein the semi-circular arc of the snap ring 204 is arranged at 180 degrees, when the baffle plate 203 swings at an angle, the snap ring 204 is embedded with the outer side thread of the screw 101, and when the baffle plate 203 is static, the snap ring 204 is embedded and installed at the inner side of the slide block 2;

when the gear 301 and the connecting rod 201 slide horizontally, the gear 301 swings angularly through the rotating shaft 3, and when the connecting rod 201 is stationary, the gear 301 and the connecting rod 201 are arranged in a T shape integrally.

Example 2: as can be seen from fig. 4 and 7 in the specification, the difference between the embodiment 2 and the embodiment 1 is that the transmission mechanism includes a sliding rod 4, a tooth piece 401, a swinging arm 402, a bump 403, a sleeve 5, a telescopic rod 501, a limit ring 502 and a suction cup 503, the sliding rod 4 slides at one end of the gear 301, the tooth piece 401 is embedded at one end of the sliding rod 4, the swinging arm 402 and the bump 403 sequentially swing at the side of the sliding rod 4, the sleeve 5 rotates at the outer side of the bump 403, the telescopic rod 501 is spirally connected to one side of the sleeve 5, the limit ring 502 rotates at one side of the telescopic rod 501, and the suction cup 503 is embedded at the inner side of the limit ring 502;

the tooth piece 401 is in sliding embedded with the gear 301, the swing arm 402 is in two-section socket joint, the outer side of the sleeve 5 is embedded with a groove which is in a semicircular arc shape, the lug 403 is in sliding clamping connection in the groove, the limiting ring 502 is in sliding penetrating through the inner side of the fastener 1, and the sucker 503 is in penetrating installation on the inner side of the limiting ring 502;

wherein: the gear 301 drives the sliding rod 4 to horizontally slide through the tooth piece 401, the sliding rod 4 drives the swing arm 402 to horizontally slide, the swing arm 402 drives the projection 403 to slide on the inner side of the sleeve 5, the projection 403 is slidably clamped with the sleeve 5, so that the sleeve 5 integrally horizontally rotates, the sleeve 5 rotates to drive the telescopic rod 501 and the limiting ring 502 to extend, the limiting ring 502 can limit and fix a steel column of an inner scaffold, and the installation stability between the screw 101 and a scaffold steel column can be further improved;

when the gear 301 swings, the gear 301 drives the sliding rod 4 to horizontally slide through the tooth piece 401, the sliding rod 4 drives the swing arm 402 to horizontally slide, the swing arm 402 drives the bump 403 to slide on the inner side of the sleeve 5, the bump 403 is slidably clamped with the sleeve 5, so that the sleeve 5 integrally horizontally rotates, the sleeve 5 rotates to drive the telescopic rod 501 and the limiting ring 502 to extend, and the limiting ring 502 can limit and fix the steel column of the inner scaffold;

wherein: the sleeve 5 is arranged in a hollow manner in the sleeve 5, the semi-arc angle of the groove is 25-65 degrees, and the lug 403 can conveniently drive the sleeve 5 to integrally rotate in the sliding process;

the shape of the limit ring 502 and the limit ring 502 can be changed according to the shape of the inner side of the fastener 1, and the inner side of the fastener 1 usually penetrates through the circular steel column, so that the limit ring 502 and the fastener 1 are both arranged in a semicircular arc shape, and the limit ring 502 occupies one third of the position of the inner side of the fastener 1;

the toothed sheets 401 are horizontally arranged on one side of the sliding rod 4;

in the swing arm 402, one end of the swing arm 402 is disposed on the same horizontal plane as the slide rod 4, and the other end of the swing arm 402 is disposed obliquely, so that the sleeve 5 is rotated when the swing arm 402 slides.