CN112942796A

CN112942796A - Scaffold building device for building construction and building method thereof

Info

Publication number: CN112942796A
Application number: CN202110027125.3A
Authority: CN
Inventors: 刘心勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-25
Filing date: 2021-04-25
Publication date: 2021-06-11

Abstract

The invention provides a scaffold building device for building construction and a building method thereof, wherein a support frame is welded at the upper end of a main frame, a groove is embedded at the upper end of the support frame, an inner groove is embedded at one side inside the groove, a convex strip is installed inside the inner groove, sealing strips are embedded at two sides of the convex strip, a limiting frame is installed at the other side inside the groove, a first clamping block is installed at the lower end of the limiting frame, hooks are installed at the lower ends of two sides of the limiting frame, and the contact area and the friction force between a second clamping block and the limiting frame can be improved because the upper end of the second clamping block is arranged in a, the second clamping block drives the clamping groove to be sequentially butted with the first clamping block, when the first clamping block is embedded in the inner wall of the clamping groove, the clamping plate swings in an angle through the rotary ball body, and can make things convenient for the joint board to imbed inside the draw-in groove through rotatory spheroid, because of the joint board is inclination setting, can further increase the steadiness between first fixture block and the draw-in groove through the joint board.

Description

Scaffold building device for building construction and building method thereof

Technical Field

The invention relates to the field of building construction, in particular to a scaffold building device for building construction and a building method thereof.

Background

The scaffold is a working platform which is erected for ensuring the smooth proceeding of each construction process, the load variation borne by the scaffold is large, the fastener connecting node belongs to semi-rigidity, the rigidity of the node is related to the mass and the installation quality of the fastener, the performance of the node has large variation, and the structure and the component of the scaffold have initial defects, such as initial bending and corrosion of a rod piece, erection dimension error and load eccentricity;

use steel wire or bolt to dock usually between the scaffold frame, because of scaffold installation in the open air, after long-time the use, easily produce between steel wire and the bolt not hard up, to sum up, scaffold puts up the method at present and easily leads to the whole steadiness of scaffold relatively poor, and steel wire and bolt installation dismantlement are convenient inadequately, need adopt installation dismantlement appurtenance.

Disclosure of Invention

The invention aims to provide a scaffold building device for building construction and a building method thereof.

In order to achieve the purpose, the invention provides the following technical scheme:

a scaffold building device for building construction and a building method thereof comprise a main frame, a supporting frame, a groove, an inner groove, a convex strip, a sealing strip, a limiting frame, a first clamping block, a rotary ball body, a clamping plate, a spring, a hook, a pillar, a butt joint block, a second clamping block, a clamping groove, an inclined plate, a hole, a sleeve, a telescopic frame and a scarf joint frame, wherein the supporting frame is welded at the upper end of the main frame, the groove is embedded at the upper end of the supporting frame, the inner groove is embedded in one side inside the groove, the convex strip is installed inside the inner groove, the sealing strip is embedded in two sides of the convex strip, the limiting frame is installed at the other side inside the groove, the hooks are installed at the lower ends of two sides of the limiting frame, the rotary ball body is hinged to two sides of the first clamping block, the clamping plate is swung at one end of the rotary, the upper end of the butt joint block is provided with a pillar, one side of the butt joint block, which is close to the limiting frame, is provided with a second fixture block, the upper end of the second fixture block is embedded with a clamping groove, the two sides of the lower end inside the clamping groove are provided with inclined plates, one end of the second fixture block, which is close to the clamping groove of the inclined plates, is provided with a hole, one side of the butt joint block, which is close to the inner groove, is provided with a sleeve, the inside of the sleeve is connected with an expansion bracket in a movable and nested mode, and one side of the.

As a further scheme of the invention: the telescopic frame is arranged in a transverse T shape, and the inside of the sleeve is arranged in a hollow shape.

As a further scheme of the invention: the butt joint block is arranged between the limiting frame and the inner groove, 4-6 clamping grooves are arranged, and the clamping grooves are sequentially in nested butt joint with the limiting frame.

As a further scheme of the invention: the clamping plate is arranged at an inclined angle of 45-90 degrees, and when the first clamping block is embedded into the clamping groove, the clamping plate and the rotary sphere swing at an inclined angle.

As a further scheme of the invention: when joint board and the slope of rotary sphere swing, the joint board extrudeed to one side of spring to the spring produces bounce, joint board and the inside joint of draw-in groove simultaneously.

As a further scheme of the invention: the limiting frame is arranged in an inverted concave shape, the upper end of the second clamping block is arranged in a V shape, the inner side shape of the limiting frame is arranged in cooperation with the second clamping block, the first clamping block is embedded in the clamping groove, the lower end of the first clamping block is embedded in the hole, when the limiting frame is integrally stretched upwards, the inclined plate is extruded to the upper end of the spring, meanwhile, the spring is embedded with the hook through the inclined plate, and the spring is arranged in a V shape.

As a further scheme of the invention: the sealing strips are arranged in an inclined manner at 15-45 degrees, 2-4 sealing strips are sequentially arranged, the lengths of the sealing strips are sequentially arranged from left to right, and the sealing strips are made of rubber.

As a further scheme of the invention: the scarf joint frame is vertical concave setting, the scarf joint frame passes through the expansion bracket embedding in the inside of inside groove, and the sealing strip laminates in scarf joint frame inner wall in proper order, and the sealing strip laminating order is from short to long.

As a further scheme of the invention: the building method of the scaffold building device for building construction comprises the following steps:

s1: manually embedding the butt joint block into the groove, and driving the second clamping block to be embedded into the lower end of the limiting frame by the butt joint block;

s2: the limiting frame is in butt joint with the second clamping block, the first clamping block is sequentially embedded into the clamping groove, the lower end of the first clamping block is sequentially nested with the hole, meanwhile, the inner wall of the clamping groove is extruded to one side of the clamping plate, the clamping plate swings in an angle through the rotary ball body, and the clamping plate is extruded to one side of the spring;

s3: due to the rebound force of the spring, the clamping plate can be further clamped with the interior of the clamping groove;

s4: manually enabling the expansion bracket to horizontally slide in the sleeve, enabling the expansion bracket to drive the scarf joint frame to be embedded in the inner groove, and enabling the scarf joint frame to be tightly attached to the sealing strip in sequence;

s5: and sequentially butting and fixing the support column and the support frame according to the steps.

S6: when needing to dismantle the pillar, it upwards draws the pillar to be manual, the pillar drives first fixture block and upwards draws, the swash plate extrudees to the upper end of spring, the spring passes through the swash plate extrusion simultaneously and gets in touch nestedly, and the spring is tensile "V" form, promote the pillar downwards once more, the pillar drives first fixture block and imbeds in the inside of hole once more, because the extension of spring, the swash plate passes through the both sides laminating of the quick and first fixture block of swivel ball, and upwards draw the pillar once more, can conveniently take out first fixture block from the inside of draw-in groove, and then make things convenient for the whole dismantlement of pillar.

Advantageous effects

1. According to the invention, the second clamping block is embedded in the lower end of the limiting frame, the upper end of the second clamping block is arranged in a V shape, so that the contact area and the friction force between the second clamping block and the limiting frame can be improved, the second clamping block drives the clamping groove to be sequentially butted with the first clamping block, the first clamping block is sequentially embedded in the hole, the lower end of the first clamping block can be limited, when the first clamping block is embedded in the inner wall of the clamping groove, the clamping plate angularly swings through the rotary sphere, the clamping plate can be conveniently embedded in the clamping groove through the rotary sphere, and the clamping plate is arranged in an inclined angle, so that the stability between the first clamping block and the clamping groove can be further improved through the clamping plate;

2. according to the scaffold, the sleeve is driven to be embedded into the groove by the butt joint block, the integral length of the butt joint block, the first clamping block and the sleeve is smaller than that of the groove as shown in the attached drawing of the specification, the telescopic frame is manually horizontally slid and drives the scarf joint frame to be embedded into the inner groove, the convex strip is embedded into the scarf joint frame, and the convex strip drives the sealing strip to be tightly attached to the scarf joint frame in sequence, so that the scaffold can be quickly butted, and the condition that the existing scaffold needs to be in rotary butt joint by using bolts or steel wires in sequence is avoided.

3. According to the scaffold, the support is upwards extracted, the support drives the first clamping block to be upwards extracted, the inclined plate is extruded to the upper end of the spring, the spring is nested with the hook through the extrusion of the inclined plate, the spring is stretched in a V shape, the support is downwards pushed again, the support drives the first clamping block to be embedded into the hole again, due to the stretching of the spring, the inclined plate is quickly attached to two sides of the first clamping block through the rotary ball body, the support is upwards extracted again, the first clamping block can be conveniently taken out of the clamping groove, the support is conveniently integrally disassembled, and the scaffold can be conveniently disassembled.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partial top view of the support frame of the present invention.

Fig. 3 is an enlarged view of the structure at a in fig. 2 according to the present invention.

FIG. 4 is a side cross-sectional view of the stand of the present invention.

Fig. 5 is an enlarged view of the structure at B of fig. 4 according to the present invention.

FIG. 6 is a schematic view of the pillar structure of the present invention.

FIG. 7 is a side cross-sectional view of a strut according to the present invention.

Fig. 8 is a cross-sectional view of a second latch of the present invention.

In FIGS. 1-8: 1-main frame, 101-support frame, 2-groove, 201-inner groove, 202-convex strip, 203-sealing strip, 3-limiting frame, 301-first clamping block, 302-rotary sphere, 303-clamping plate, 304-spring, 305-hook, 4-pillar, 401-butt block, 402-second clamping block, 403-clamping groove, 404-inclined plate, 405-hole, 5-sleeve, 501-telescopic frame and 502-scarf frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The use of the word "comprising" or "comprises", and the like, in this disclosure is intended to mean that the elements or items listed before that word, include the elements or items listed after that word, and their equivalents, without excluding other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may also include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Referring to fig. 1-8, in the embodiment of the invention, a scaffold building device for building construction and a building method thereof comprise a main frame 1, a support frame 101, a groove 2, an inner groove 201, a protruding strip 202, a sealing strip 203, a limiting frame 3, a first clamping block 301, a rotary sphere 302, a clamping plate 303, a spring 304, a hook 305, a pillar 4, a butt-joint block 401, a second clamping block 402, a clamping groove 403, a sloping plate 404, a hole 405, a sleeve 5, a telescopic frame 501 and an embedding frame 502, wherein the upper end of the main frame 1 is welded with the support frame 101, the upper end of the support frame 101 is embedded with the groove 2, one side of the inner part of the groove 2 is embedded with the inner groove 201, the protruding strip 202 is installed inside the inner groove 201, the sealing strip 203 is embedded on two sides of the protruding strip 202, the other side of the inner part of the groove 2 is installed with the limiting frame, swing of rotary sphere 302's one end has joint board 303, the inboard elastic connection of joint board 303 has spring 304, the inboard nested connection of recess 2 has butt joint piece 401, pillar 4 is installed to butt joint piece 401's upper end, butt joint piece 401 is close to one side of spacing 3 and installs second fixture block 402, the upper end embedding of second fixture block 402 has draw-in groove 403, swash plate 404 is installed to the inside both sides of lower extreme of draw-in groove 403, the inside one end that is close to swash plate draw-in groove 403 of second fixture block 402 all runs through there is hole 405, sleeve 5 is installed to one side that butt joint piece 401 is close to inside groove 201, the inside activity nested connection of sleeve 5 has expansion bracket 501, one side that sleeve 5 was kept away from to expansion bracket 501 is installed.

The telescopic frame 501 is arranged in a transverse T shape, and the sleeve 5 is arranged in a hollow shape.

The abutting block 401 is arranged between the limiting frame 3 and the inner groove 201, 4-6 clamping grooves 403 are arranged, the clamping grooves 403 are sequentially nested and abutted with the limiting frame 3, 4-6 clamping grooves 403 are arranged, and the contact area between the second clamping block 402 and the first clamping block 301 can be increased

Wherein, joint board 303 is the slope 45-90 setting, and when first fixture block 301 was embedded into draw-in groove 403, joint board 303 was the inclination swing with rotatory spheroid 302, and when joint board 303 was the inclination swing with rotatory spheroid 302, joint board 303 extruded to one side of spring 304 to spring 304 produced bounce, joint board 303 and the inside joint of draw-in groove 403 simultaneously, because of joint board 303 is the inclination setting, can further increase the steadiness between first fixture block 301 and the draw-in groove 403 through joint board 303.

Wherein, the limiting frame 3 is arranged in an inverted concave shape, the upper end of the second clamping block 402 is arranged in a V shape, the inner side shape of the limiting frame 3 is matched with the second clamping block 402, the second clamping block 402 is embedded in the lower end of the limiting frame 3, after the first clamping block 301 is embedded in the clamping groove 403, the lower end of the first clamping block 301 is embedded in the hole 405, and when the whole of the spacing frame 3 is stretched upwards, the sloping plate 404 is pressed to the upper end of the spring 304, meanwhile, the spring 304 is pressed by the inclined plate 404 to be nested with the hook 305, and the spring 304 is arranged in a V shape, so that the contact area and the friction force between the second clamping block 402 and the limiting frame 3 can be increased due to the V-shaped arrangement of the upper end of the second clamping block 402, and the second latch 402 drives the slot 403 to sequentially abut against the first latch 301, when the first latch 301 is inserted into the inner wall of the slot 403, the latch plate 303 swings angularly through the rotary sphere 302, and the clamping plate 303 can be conveniently embedded in the clamping groove 403 by rotating the ball body 302.

Wherein, sealing strip 203 is the slope 15-45 setting, and 2-4 of sealing strip 203 arranged in proper order, and sealing strip 203 length is arranged from a left side to the right side in proper order, and sealing strip 203 is the rubber material, arranges from a left side to the right side in proper order because of sealing strip 203 length, when making things convenient for scarf joint piece 502 to dock with sand grip 202 fast, can increase the frictional force between sand grip 202 and the scarf joint piece 502.

Wherein, scarf joint frame 502 is vertical concavity setting, scarf joint frame 502 passes through the inside of expansion bracket 501 embedding in inside groove 201, and sealing strip 203 laminates in scarf joint frame 502 inner wall in proper order, sealing strip 203 laminating order is from short to long, it imbeds in recess 2's inside to splice 401 drive sleeve 5, learn because of combining description drawing one, butt joint block 401, first fixture block 301 and the whole length of sleeve 5 are less than groove length, it is manual with expansion bracket 501 to be horizontal slip, expansion bracket 501 drives scarf joint frame 502 embedding in the inside of inside groove 201, and sand grip 202 imbeds in scarf joint frame 502's inside, sand grip 202 drives sealing strip 203 and closely laminates with scarf joint frame 502 in proper order, make this kind of scaffold can dock fast, avoided current scaffold to need use bolt or steel wire in proper order to carry out the rotatory condition of butt joint.

The building method of the scaffold building device for building construction comprises the following steps:

s1: the butt joint block 401 is manually embedded into the groove 2, and the butt joint block 401 drives the second fixture block 402 to be embedded into the lower end of the limiting frame 3;

s2: the limiting frame 3 is in butt joint with the second fixture block 402, the first fixture block 301 is sequentially embedded into the clamping groove 403, the lower end of the first fixture block 301 is sequentially nested with the hole 405, meanwhile, the inner wall of the clamping groove 403 is extruded to one side of the clamping plate 303, the clamping plate 303 angularly swings through the rotary ball body 302, and the clamping plate 303 is extruded to one side of the spring 304;

s3: due to the resilience of the spring 304, the clamping plate 303 can be further clamped with the inside of the clamping groove 403;

s4: manually sliding the telescopic frame 501 horizontally in the sleeve 5, wherein the telescopic frame 501 can drive the scarf joint frame 502 to be embedded in the inner groove 201, and the scarf joint frame 502 is sequentially tightly attached to the sealing strip 203;

s5: the support 4 and the support frame 101 are sequentially butted and fixed according to the above steps.

S6: when needing to dismantle pillar 4, it upwards draws pillar 4 manually, pillar 4 drives first fixture block 301 and upwards draws, swash plate 404 extrudees to the upper end of spring 304, spring 304 extrudees through swash plate 404 and hangs 305 nestedly, and spring 304 is "V" form is tensile, promote pillar 4 downwards once more, pillar 4 drives first fixture block 301 and imbeds in the inside of hole 405 once more, because the extension of spring 304, swash plate 404 passes through rotatory spheroid 302 and laminates with the both sides of first fixture block 301 fast, and upwards draw pillar 4 once more, can conveniently take out first fixture block 301 from the inside of draw-in groove 403, and then make things convenient for pillar 4 to wholly dismantle.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, and these should be considered as the protection scope of the present invention, which will not affect the effect of the implementation of the present invention and the utility of the patent.

Claims

1. The utility model provides a device is built with scaffold frame to construction, includes main frame (1), support frame (101), recess (2), inside groove (201), sand grip (202), sealing strip (203), spacing (3), first fixture block (301), rotary sphere (302), joint board (303), spring (304), couple (305), pillar (4), butt joint piece (401), second fixture block (402), draw-in groove (403), swash plate (404), hole (405), sleeve (5), expansion bracket (501) and scarf joint frame (502), its characterized in that: the upper end of the main frame (1) is welded with a support frame (101), the upper end of the support frame (101) is embedded with a groove (2), one side of the interior of the groove (2) is embedded with an inner groove (201), a raised line (202) is installed inside the inner groove (201), sealing strips (203) are embedded on two sides of the raised line (202), a limiting frame (3) is installed on the other side of the interior of the groove (2), a first clamping block (301) is installed at the lower end of the limiting frame (3), hooks (305) are installed at the lower ends of two sides of the limiting frame (3), rotary spheres (302) are hinged to two sides of the first clamping block (301), a clamping plate (303) is swung at one end of each rotary sphere (302), a spring (304) is elastically connected to the inner side of the clamping plate (303), and butt-joint blocks (401) are connected to, pillar (4) are installed to the upper end of butt joint piece (401), second fixture block (402) is installed to one side that butt joint piece (401) are close to spacing (3), the upper end embedding of second fixture block (402) has draw-in groove (403), swash plate (404) are installed to the both sides of the inside lower extreme of draw-in groove (403), hole (405) have all been run through to the inside one end that is close to swash plate draw-in groove (403) of second fixture block (402), sleeve (5) are installed to one side that butt joint piece (401) are close to inside groove (201), the inside activity nested connection of sleeve (5) has expansion bracket (501), one side that sleeve (5) were kept away from in expansion bracket (501) is installed and is rabbeted frame (502).

2. The scaffold erection device for building construction according to claim 1, wherein: the telescopic frame (501) is arranged in a transverse T shape, and the sleeve (5) is arranged in a hollow shape.

3. The scaffold erection device for building construction according to claim 1, wherein: the butt joint blocks (401) are arranged between the limiting frame (3) and the inner grooves (201), 4-6 clamping grooves (403) are arranged, and the clamping grooves (403) are sequentially nested and butted with the limiting frame (3).

4. The scaffold erection device for building construction according to claim 1, wherein: clamping plate (303) are slope 45-90 and set up, when first fixture block (301) was embedded into draw-in groove (403) inside, clamping plate (303) and rotary sphere (302) were the swing of inclination.

5. The scaffold erection device for building construction according to any one of claims 1 or 4, wherein: when the clamping plate (303) and the rotary sphere (302) obliquely swing, the clamping plate (303) extrudes to one side of the spring (304), the spring (304) generates rebound force, and meanwhile, the clamping plate (303) is clamped with the inside of the clamping groove (403).

6. The scaffold erection device for building construction according to claim 1, wherein: spacing (3) are the setting of inversion concavity, and the upper end of second fixture block (402) is "V" form setting, spacing (3) inboard shape sets up with second fixture block (402) are supporting, and first fixture block (301) are embedded in draw-in groove (403) inside back, and the lower extreme embedding of first fixture block (301) is in the inside of hole (405) to when spacing (3) wholly upwards stretched, swash plate (404) extrude the upper end to spring (304), and spring (304) are through swash plate (404) extrusion and couple (305) nestification simultaneously, and spring (304) are "V" form setting.

7. The scaffold erection device for building construction according to claim 1, wherein: the sealing strip (203) is inclined for 15-45 degrees, 2-4 sealing strips (203) are sequentially arranged, the lengths of the sealing strips (203) are sequentially arranged from left to right, and the sealing strips (203) are made of rubber.

8. The scaffold erection device for building construction according to claim 1, wherein: scarf joint frame (502) are vertical concavity setting, scarf joint frame (502) are through expansion bracket (501) embedding in the inside of inside groove (201), and sealing strip (203) laminate in scarf joint frame (502) inner wall in proper order, and sealing strip (203) laminating order is from short to long.

9. A method for building a scaffold for building construction is characterized by comprising the following steps: the building method of the scaffold building device for building construction comprises the following steps:

s1: the butt joint block (401) is manually embedded into the groove (2), and the butt joint block (401) drives the second clamping block (402) to be embedded into the lower end of the limiting frame (3);

s2: the limiting frame (3) is in butt joint with the second clamping block (402), the first clamping block (301) is sequentially embedded into the clamping groove (403), the lower end of the first clamping block (301) is sequentially nested with the hole (405), meanwhile, the inner wall of the clamping groove (403) is extruded to one side of the clamping plate (303), the clamping plate (303) swings in an angle through the rotating ball body (302), and the clamping plate (303) is extruded to one side of the spring (304);

s3: due to the rebound force of the spring (304), the clamping plate (303) can be further clamped with the interior of the clamping groove (403);

s4: manually enabling the telescopic frame (501) to horizontally slide in the sleeve (5), enabling the telescopic frame (501) to drive the embedding frame (502) to be embedded into the inner groove (201), and enabling the embedding frame (502) to be sequentially and tightly attached to the sealing strip (203);

s5: and sequentially butting and fixing the support (4) and the support frame (101) according to the steps.

S6: when needing to dismantle pillar (4), manual upwards extract pillar (4), pillar (4) drive first fixture block (301) and upwards extract, swash plate (404) extrude to the upper end of spring (304), spring (304) are through swash plate (404) extrusion and couple (305) nestification simultaneously, and spring (304) are "V" form tensile, promote pillar (4) downwards again, pillar (4) drive first fixture block (301) and imbed the inside in hole (405) once more, because the tensile of spring (304), swash plate (404) are laminated through the both sides of rotatory spheroid (302) fast with first fixture block (301), and upwards extract pillar (4) once more, can conveniently take out first fixture block (301) from the inside of draw-in groove (403), and then make things convenient for pillar (4) overall disassembly.