CN108518080B

CN108518080B - High-efficient construction equipment of viscous steel reinforced building

Info

Publication number: CN108518080B
Application number: CN201810419130.7A
Authority: CN
Inventors: 张美姣
Original assignee: Shanxi Duote Construction Engineering Technology Co Ltd
Current assignee: Shanxi duote Construction Engineering Technology Co., Ltd
Priority date: 2018-05-04
Filing date: 2018-05-04
Publication date: 2020-05-22
Anticipated expiration: 2038-05-04
Also published as: CN108518080A

Abstract

The invention relates to a high-efficiency construction device for a bonded steel reinforced building, which comprises a bottom plate, wherein a fixing device is arranged at the rear end of the bottom plate, a laying device is arranged at the front end of the bottom plate, the laying device comprises a laying rotating motor arranged on the bottom plate through a motor base, a laying rotating plate is arranged on an output shaft of the laying rotating motor, a laying adjusting mechanism is arranged on the laying rotating plate, and a laying operation mechanism is arranged on the laying adjusting mechanism. The invention can solve the problems that the steel plate needs to be manually adhered to a specified working surface in the existing steel-adhering reinforcing building process, the environment of the building working surface needing to be reinforced is complex, the vibration compaction of the adhered steel plate is complicated manually, the working range of manually adhering the steel plate is limited, the steel plate needs to be frequently moved, the stability is poor, the consumed time is long, the labor intensity is high, the working efficiency is low and the like.

Description

High-efficient construction equipment of viscous steel reinforced building

Technical Field

The invention relates to the technical field of building reinforcing equipment, in particular to high-efficiency construction equipment for a bonded steel reinforced building.

Background

The building reinforcement is to reinforce and reinforce the building by utilizing carbon fiber, bonded steel and high-pressure grouting. The technology is widely applied to design change, and reinforcement and change projects such as adding beams, columns, cantilever beams, plates and the like, and is a connecting technology for reinforcing steel bars and utilizing the function of structural adhesive in the existing earthquake-resistant reinforcement project of a building structure. The method for reinforcing the building by the bonded steel is widely applied at present, the gluing operation needs to be carried out on the surface of the bonded steel when the bonded steel is selected for reinforcing the building, a steel plate coated with glue solution is manually adhered to an appointed reinforcing position, however, the steel plate needs to be manually adhered to an appointed working surface in the existing bonded steel reinforcing building process, the environment of the building working surface needing to be reinforced is complex, potential safety hazards exist in the manual operation process, the manual vibration compaction on the adhered steel plate is complex, the working range of the manually adhered steel plate is limited, the steel plate needs to be frequently moved, the stability is poor, the consumed time is long, the labor intensity is high, and the working efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides high-efficiency construction equipment for a bonded steel reinforced building, which can solve the problems that in the existing bonded steel reinforced building process, a steel plate needs to be manually adhered to a specified working surface, the environment of the working surface of the building needing to be reinforced is complex, potential safety hazards exist in the manual operation process, the manual vibration compaction of the adhered steel plate is complex, the working range of manually adhering the steel plate is limited, the steel plate needs to be frequently moved, the stability is poor, the consumed time is long, the labor intensity is high, the working efficiency is low and the like, can realize the high-efficiency construction function of the bonded steel reinforced building, does not need manual operation, does not have the potential safety hazards, and has the advantages of good stability, short consumed time, simplicity in operation, low labor intensity, high working efficiency and the like.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a glue high-efficient construction equipment of steel reinforcement building, comprising a base plate, fixing device is installed to the rear end of bottom plate, laying device is installed to the front end of bottom plate, wherein fixing device quantity is two, and two fixing device symmetries are located the left and right sides of bottom plate, fixing device has played fixed effect to the steel sheet at work, laying device can lay the steel sheet on appointed reinforcement working face as required, need not manual operation, has reduced staff's intensity of labour, has improved the efficiency of work.

The fixing device comprises a fixed electric sliding block arranged on a bottom plate, a fixed sliding plate is arranged on the fixed electric sliding block, a fixed telescopic cylinder is arranged on the fixed sliding plate, the top end of the fixed telescopic cylinder is arranged on a fixing mechanism through a flange, the fixed sliding plate can be driven to move back and forth through the fixed electric sliding block, the working height of the fixing mechanism can be controlled by the fixed telescopic cylinder, the fixing mechanism can fix a steel plate in the working process, manual operation is not needed, the labor intensity of workers is reduced, and the working efficiency is improved.

The laying device comprises a laying rotating motor arranged on a bottom plate through a motor base, a laying rotating plate is arranged on an output shaft of the laying rotating motor, a laying adjusting mechanism is arranged on the laying rotating plate, a laying operation mechanism is arranged on the laying adjusting mechanism, the laying rotating plate is controlled by the laying rotating motor to rotate, the laying adjusting mechanism can be automatically adjusted according to the specific angle position of a working face in the working process, the laying operation mechanism can accurately lay a steel plate on the appointed working face, manual operation is not needed, the labor intensity of workers is reduced, and the working efficiency is improved.

The laying operation mechanism comprises a laying operation frame arranged on the laying adjustment mechanism, two operation sliding grooves are arranged on the laying operation frame, the two operation sliding grooves are symmetrically positioned at the front side and the rear side of the laying operation frame, operation fixing branched chains are arranged in the operation sliding grooves, an operation moving groove is arranged in the middle of the laying operation frame, and an operation execution branched chain is arranged in the operation moving groove; the operation fixing branched chain comprises an operation electric sliding block arranged on the inner wall of the laying operation frame, an operation telescopic cylinder is arranged on the operation electric sliding block, the top end of the operation telescopic cylinder is arranged on an operation driven plate through a flange, and an operation fixing sucker is arranged on the operation driven plate; the operation execution branch chain comprises an operation driving motor which is arranged on a laying operation frame through a motor base, an output shaft of the operation driving motor is connected with one end of an operation screw rod through a coupler, the other end of the operation screw rod is arranged on a laying baffle plate through a bearing, the laying baffle plate is arranged on the inner wall of the laying operation frame, an operation moving block is arranged on the operation screw rod, the lower end of the operation moving block is connected with the laying operation frame through a sliding fit mode, an operation moving frame is arranged at the upper end of the operation moving block and is positioned in an operation moving groove, an operation driving motor is arranged at the upper end of the operation moving frame through the motor base, an operation support plate is arranged on the output shaft of the operation driving motor, an operation damper is arranged on the operation support plate, the upper end of the operation damper is arranged on an operation execution plate, the operation execution plate is provided with two operation fixing plates, an operation execution roller is arranged between the inner walls of the two operation fixing plates through a bearing, and the outer wall of the operation execution roller is provided with laying vibrating blocks at equal intervals along the circumferential direction; the laying vibration block comprises an operation buffer spring arranged along the axial direction of an operation execution roller, an operation buffer plate is arranged on the operation buffer spring, a convex block is arranged on the outer wall of the operation buffer plate, the steel plate is fixed through an operation fixing branched chain, an operation electric slide block on the operation fixing branched chain can drive an operation sliding plate to move to a proper position according to the actual size of the steel plate, an operation telescopic cylinder drives an operation fixing sucker on an operation driven plate to abut against the lower end face of the steel plate, the operation fixing sucker is externally connected with an existing vacuum pump, the existing vacuum pump fixes the steel plate through the operation fixing sucker in the working process, the working angle of an operation supporting plate is controlled through an operation driving motor, an operation damper plays a role in supporting and buffering the operation execution plate, and the operation vibration motor drives the operation execution roller to perform vibration compaction operation on the steel plate laid on a working face under the action of the operation damper, the operation buffer spring plays the effect of auxiliary vibration to the operation buffer board, and operation driving motor control operation movable block carries out the motion regulation to drive the operation execution roller and adjust the vibration compaction operation to the steel sheet of laying on the working face, need not manual operation, improved the reinforced effect of steel sheet, reduced staff's intensity of labour, improved the efficiency of work.

According to the preferable technical scheme, the fixing mechanism comprises a fixing mounting frame arranged on a fixing telescopic cylinder, the fixing mounting frame is a U-shaped mechanism, a fixing execution cylinder is arranged on the inner wall of the fixing mounting frame, the top end of the fixing execution cylinder is arranged on the fixing execution frame through a flange, fixing auxiliary rollers are arranged between the inner walls of the fixing execution frame at equal intervals from front to back through bearings, the fixing execution cylinder controls the fixing auxiliary rollers to stretch and retract, the fixing auxiliary rollers play a role in assisting movement of the steel plate, the upper ends of the fixing auxiliary rollers and the inner wall of the upper end of the fixing mounting frame are located in the same plane, the fixing mounting frame can tightly support the steel plate in the movement process, manual operation is not needed, the labor intensity of workers is reduced, and the working efficiency is improved.

As a preferred technical scheme of the invention, the laying adjusting mechanism comprises two laying vertical plates arranged on a laying rotating plate, a laying rotating roller is arranged between the two laying vertical plates through a bearing, the left end of the laying rotating roller is connected with an output shaft of a laying rotating motor through a coupler, the laying rotating motor is arranged on the outer wall of the laying vertical plate through a motor base, a laying supporting plate is arranged on the outer wall of the laying rotating roller, a laying telescopic cylinder is arranged on the laying supporting plate, the top end of the laying telescopic cylinder is arranged on a laying telescopic frame through a flange, the lower end of the laying telescopic frame is provided with a laying lifting cylinder, the top end of the laying lifting cylinder is arranged on a laying lifting frame through a flange, two laying positioning plates are arranged on the side wall of the laying lifting frame, a laying adjusting roller is arranged between the two laying positioning plates through a bearing, the left end of the laying, the laying adjusting motor is arranged on the outer wall of the laying positioning plate through a motor base; lay the angle that the rotation motor can control work according to the inclination of working face, lay telescopic cylinder and lay the lift cylinder and mutually support the motion and can control to lay the crane and go up and down and stretch out and draw back the regulation of two degrees of freedom, lay the regulation motor work and drive and lay the dancer rools and carry out the angular motion of minizone to ensure can be in complicated work environment with smooth the laying of steel sheet on the working face, need not manual operation and reduced staff's intensity of labour, improved the efficiency of work.

When the device works, firstly, the device is installed on the existing lifting equipment, a steel plate coated with glue solution is placed on a fixing device through the existing equipment, the fixing device can drive a fixed sliding plate to move back and forth through a fixed electric sliding block, a fixed telescopic cylinder can control the working height of a fixing mechanism, the fixing mechanism controls a fixed auxiliary roller to perform telescopic adjustment through a fixed execution cylinder, the fixed auxiliary roller plays a role in auxiliary movement on the steel plate, the upper end of the fixed auxiliary roller and the inner wall of the upper end of a fixed mounting frame are located in the same plane, the fixed mounting frame can tightly support the steel plate in the movement process, a laying device controls a laying rotating plate to rotate through a laying rotating motor, a laying rotating motor on a laying adjusting mechanism can control the working angle according to the inclination angle of a working face, the laying telescopic cylinder and the laying lifting cylinder are matched to move to control a laying crane to perform lifting and telescopic adjustment of The laying and adjusting motor works to drive the laying and adjusting roller to perform small-range angular motion, the laying operation mechanism fixes the steel plate through the operation fixing branch chain, an operation electric slide block on the operation fixing branch chain can drive the operation sliding plate to move to a proper position according to the actual size of the steel plate, the operation telescopic cylinder drives an operation fixing sucker on the operation driven plate to abut against the lower end face of the steel plate, the operation fixing sucker is externally connected with an existing vacuum pump, the existing vacuum pump fixes the steel plate through the operation fixing sucker in the working process, the working angle of the operation supporting plate is controlled through the operation driving motor, the operation damper plays a role in supporting and buffering the operation executing plate, the operation vibrating motor drives the operation executing roller to perform vibration compaction operation on the steel plate laid on the working face under the action of the operation damper, and the operation buffer spring plays a role in assisting vibration on the operation buffer plate, the operation driving motor controls the operation moving block to move and adjust, so that the operation executing roller is driven to adjust the vibration compaction operation of the steel plate paved on the working surface, and the function of high-efficiency construction of steel bonding reinforcement buildings can be realized.

The invention has the beneficial effects that:

1. the invention can solve the problems that the steel plate needs to be manually adhered to a specified working surface in the existing steel-adhered reinforced building process, the environment of the building working surface needing to be reinforced is complex, potential safety hazards exist in the manual operation process, the manual vibration compaction of the adhered steel plate is more complicated, the working range of the manually adhered steel plate is limited, the steel plate needs to be frequently moved, the stability is poor, the consumed time is long, the labor intensity is high, the working efficiency is low and the like, can realize the high-efficiency construction function of the steel-adhered reinforced building, does not need manual operation, does not have potential safety hazards, and has the advantages of good stability, short consumed time, simple operation, low labor intensity, high working efficiency and the like;

2. the fixing device is designed, the fixed sliding plate can be driven to move back and forth by fixing the electric sliding block, the working height of the fixing mechanism can be controlled by fixing the telescopic cylinder, and the fixing mechanism can fix a steel plate in the working process;

3. the laying device is designed, the laying rotating motor is used for controlling the laying rotating plate to rotate, the laying adjusting mechanism can automatically adjust according to the specific angle position of the working surface in the working process, and the laying operation mechanism can accurately lay the steel plate on the designated working surface.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure between the base plate and the fixing device of the present invention;

FIG. 3 is a schematic view of the structure between the base plate and the paving apparatus of the present invention;

fig. 4 is a schematic structural diagram between the laying operation frame and the operation execution branch chain of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

As shown in fig. 1 to 4, a high-efficient construction equipment of sticky steel reinforced building, including bottom plate 1, fixing device 4 is installed to the rear end of bottom plate 1, laying device 5 is installed to the front end of bottom plate 1, wherein fixing device 4 quantity is two, and two fixing device 4 symmetric positions are in the left and right sides of bottom plate 1, fixing device 4 has played fixed effect to the steel sheet at work, laying device 5 can lay the steel sheet on appointed reinforcement working face as required, need not manual operation, staff's intensity of labour has been reduced, the efficiency of work has been improved.

The fixing device 4 comprises a fixed electric sliding block 41 arranged on the bottom plate 1, a fixed sliding plate 42 is arranged on the fixed electric sliding block 41, the fixed sliding plate 42 is provided with a fixed telescopic cylinder 43, the top end of the fixed telescopic cylinder 43 is arranged on a fixing mechanism 44 through a flange, the fixed sliding plate 42 can be driven to move back and forth through the fixed electric sliding block 41, the fixed telescopic cylinder 43 can control the working height of the fixing mechanism 44, the fixing mechanism 44 can fix the steel plate in the working process, manual operation is not needed, the labor intensity of workers is reduced, and the working efficiency is improved.

Laying device 5 includes and installs the rotary electric machine 51 of laying on bottom plate 1 through the motor cabinet, it lays rotor plate 52 to install on rotary electric machine 51's the output shaft to lay, it lays adjustment mechanism 53 to install on rotor plate 52 to lay, it installs and lays operation mechanism 54 on adjustment mechanism 53 to lay, it is rotatory to lay rotor plate 52 through laying rotary electric machine 51 control, it can carry out automated adjustment according to the concrete angular position of working face to lay adjustment mechanism 53 at the in-process of work, ensure to lay operation mechanism 54 and can be accurate with the steel sheet lay to appointed working face on, need not manual operation, staff's intensity of labour has been reduced, the efficiency of work has been improved.

The laying operation mechanism 54 comprises a laying operation frame 541 mounted on the laying adjustment mechanism 53, two operation sliding grooves are arranged on the laying operation frame 541, the two operation sliding grooves are symmetrically positioned at the front side and the rear side of the laying operation frame 541, an operation fixed branched chain 542 is arranged in each operation sliding groove, an operation moving groove is arranged in the middle of the laying operation frame 541, and an operation execution branched chain 6 is arranged in each operation moving groove; the operation fixing branched chain 542 comprises an operation electric slide block 543 mounted on the inner wall of the laying operation frame 541, an operation telescopic cylinder 545 is mounted on the operation electric slide block 543, the top end of the operation telescopic cylinder 545 is mounted on an operation driven plate 546 through a flange, and an operation fixing suction cup 547 is mounted on the operation driven plate 546; the operation execution branched chain 6 comprises an operation driving motor 61 which is arranged on a laying operation frame 541 through a motor base, an output shaft of the operation driving motor 61 is connected with one end of an operation screw 62 through a coupler, the other end of the operation screw 62 is arranged on a laying baffle 615 through a bearing, the laying baffle 615 is arranged on the inner wall of the laying operation frame 541, an operation moving block 63 is arranged on the operation screw 62, the lower end of the operation moving block 63 is connected with the laying operation frame 541 through a sliding fit mode, an operation moving frame 64 is arranged at the upper end of the operation moving block 63, the operation moving frame 64 is positioned in an operation moving groove, an operation driving motor 65 is arranged at the upper end of the operation moving frame 64 through the motor base, an operation supporting plate 66 is arranged on the output shaft of the operation driving motor 65, an operation damper 67 is arranged on the operation supporting plate 66, and the upper, the lower end of the operation execution plate 68 is provided with an operation vibration motor 69 through a motor base, the operation execution plate 68 is provided with two operation fixing plates 610, an operation execution roller 611 is arranged between the inner walls of the two operation fixing plates 610 through a bearing, and the outer wall of the operation execution roller 611 is provided with paving vibration blocks 612 at equal intervals along the circumferential direction; the laying vibration block 612 comprises an operation buffer spring 613 arranged along the axial direction of the operation execution roller 611, an operation buffer plate 614 is arranged on the operation buffer spring 613, a bump is arranged on the outer wall of the operation buffer plate 614, the steel plate is fixed through an operation fixing branched chain 542, an operation electric slide 543 on the operation fixing branched chain 542 can drive an operation sliding plate 544 to move to a proper position according to the actual size of the steel plate, an operation telescopic cylinder 545 drives an operation fixing suction cup 547 on an operation driven plate 546 to abut against the lower end face of the steel plate, the operation fixing suction cup 547 is externally connected with an existing vacuum pump, the existing vacuum pump fixes the steel plate through the operation fixing suction cup in the working process, the working angle of the operation support plate 66 is controlled through an operation driving motor 65, and the operation damper 67 plays a role in supporting and buffering for the operation execution plate 68, the operation vibrating motor 69 drives the operation executing roller 611 to perform vibration compaction operation on the steel plate paved on the working surface under the action of the operation shock absorber 67, the operation buffer spring 613 plays a role in assisting vibration on the operation buffer plate 614, the operation driving motor 61 controls the operation moving block 63 to perform motion adjustment, so that the operation executing roller 611 is driven to perform vibration compaction operation on the steel plate paved on the working surface, manual operation is not needed, the effect of reinforcing the steel plate is improved, the labor intensity of workers is reduced, and the working efficiency is improved.

Fixed establishment 44 is including installing fixed mounting bracket 45 on fixed telescopic cylinder 43, fixed mounting bracket 45 is U type mechanism, install fixed actuating cylinder 46 on fixed mounting bracket 45's the inner wall, flange mounting is passed through on fixed actuating cylinder 46's top and is carried out frame 47, from the past backward through the equidistant fixed auxiliary roller 48 of installing of bearing between the inner wall of fixed actuating frame 47, carry out the flexible regulation through fixed actuating cylinder 46 control fixed auxiliary roller 48, fixed auxiliary roller 48 has played the effect of supplementary removal to the steel sheet, and fixed auxiliary roller 48 upper end is located same plane with fixed mounting bracket 45 upper end inner wall, guarantee that fixed mounting bracket 45 can support tightly the steel sheet at the in-process of motion, need not manual operation, staff's intensity of labour has been reduced, the efficiency of work has been improved.

The laying adjusting mechanism 53 comprises two laying vertical plates 531 arranged on a laying rotary plate 52, a laying rotary roller 532 is arranged between the two laying vertical plates 531 through a bearing, the left end of the laying rotary roller 532 is connected with an output shaft of a laying rotary motor 533 through a coupler, the laying rotary motor 533 is arranged on the outer wall of the laying vertical plate 531 through a motor base, a laying support plate 534 is arranged on the outer wall of the laying rotary roller 532, a laying telescopic cylinder 535 is arranged on the laying support plate 534, the top end of the laying telescopic cylinder 535 is arranged on a laying telescopic frame 536 through a flange, a laying lifting cylinder 537 is arranged at the lower end of the laying telescopic frame 536, the top end of the laying lifting cylinder 537 is arranged on a laying lifting frame 538 through a flange, two laying positioning plates 539 are arranged on the side wall of the laying lifting frame 538, and a laying adjusting roller 5310 is arranged, the left end of the laying adjusting roller 5310 is connected with the top end of a laying adjusting motor 5311 through a coupler, and the laying adjusting motor 5311 is installed on the outer wall of the laying positioning plate 539 through a motor base; lay the angle that rotates motor 533 and can control work according to the inclination of working face, lay telescopic cylinder 535 and lay lift cylinder 537 and mutually support the motion and can control to lay crane 538 and go up and down and stretch out and draw back the regulation of two degrees of freedom, lay that accommodate motor 5311 work drives and lays dancer 5310 and carry out the angular motion of minizone, thereby ensure to lay the steel sheet smoothly on the working face in complicated work environment, need not manual operation and reduced staff's intensity of labour, improved the efficiency of work.

When the device works, firstly, the device is arranged on the existing lifting equipment, a steel plate coated with glue solution is placed on the fixing device 4 through the existing equipment, the fixing device 4 can drive the fixed sliding plate 42 to move back and forth through the fixed electric slide block 41, the fixed telescopic cylinder 43 can control the working height of the fixing mechanism 44, the fixing mechanism 44 controls the fixed auxiliary roller 48 to perform telescopic adjustment through the fixed execution cylinder 46, the fixed auxiliary roller 48 plays a role of auxiliary movement on the steel plate, the upper end of the fixed auxiliary roller 48 and the inner wall of the upper end of the fixed mounting frame 45 are positioned in the same plane, the fixed mounting frame 45 can be ensured to tightly support the steel plate in the movement process, the laying device 5 controls the laying rotating plate 52 to rotate through the laying rotating motor 51, the laying rotating motor 533 on the laying adjusting mechanism 53 can control the working angle according to the inclination angle of the working surface, the laying telescopic cylinder 535 and the laying lifting cylinder 537 are mutually matched to move to control the laying lifting frame 538 to adjust two degrees of freedom of lifting and stretching, the laying adjusting motor 5311 works to drive the laying adjusting roller 5310 to move in a small range of angles, the laying operation mechanism 54 fixes the steel plate through the operation fixing branched chain 542, the operation electric slider 543 on the operation fixing branched chain 542 can drive the operation sliding plate 544 to move to a proper position according to the actual size of the steel plate, the operation telescopic cylinder 545 drives the operation fixing sucker 547 on the operation driven plate 546 to abut against the lower end face of the steel plate, the operation fixing sucker 547 is externally connected with the existing vacuum pump, the existing vacuum pump fixes the steel plate through the operation fixing sucker 547 in the working process, the operation driving motor 65 controls the working angle of the operation supporting plate 66, and the operation damper 67 plays a role in supporting and buffering for the operation execution plate 68, the operation vibration motor 69 drives the operation execution roller 611 to perform vibration compaction operation on the steel plate paved on the working surface under the action of the operation shock absorber 67, the operation buffer spring 613 plays a role in assisting vibration on the operation buffer plate 614, the operation driving motor 61 controls the operation moving block 63 to perform motion adjustment, so that the operation execution roller 611 is driven to perform vibration compaction operation on the steel plate paved on the working surface, the function of high-efficiency construction of bonded steel reinforced buildings is realized, the problems that the steel plate needs to be manually adhered to a specified working surface in the existing bonded steel reinforced building process, the environment of the building working surface needing to be reinforced is complex, potential safety hazards exist in the operation process, the manual vibration compaction on the adhered steel plate is complex, the working range of the manual steel plate adhesion is limited, the steel plate needs to frequently move, the stability is poor, and the consumption time is long, the labor intensity is high, the working efficiency is low, and the like, thereby achieving the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a high-efficient construction equipment of viscous steel reinforced building, includes bottom plate (1), its characterized in that: the rear end of the bottom plate (1) is provided with a fixing device (4), the front end of the bottom plate (1) is provided with a laying device (5), the number of the fixing devices (4) is two, and the two fixing devices (4) are symmetrically positioned at the left side and the right side of the bottom plate (1);

the fixing device (4) comprises a fixed electric sliding block (41) arranged on the bottom plate (1), a fixed sliding plate (42) is arranged on the fixed electric sliding block (41), a fixed telescopic cylinder (43) is arranged on the fixed sliding plate (42), and the top end of the fixed telescopic cylinder (43) is arranged on a fixing mechanism (44) through a flange;

the laying device (5) comprises a laying rotary motor (51) arranged on the bottom plate (1) through a motor base, a laying rotary plate (52) is arranged on an output shaft of the laying rotary motor (51), a laying adjusting mechanism (53) is arranged on the laying rotary plate (52), and a laying operation mechanism (54) is arranged on the laying adjusting mechanism (53);

the laying operation mechanism (54) comprises a laying operation frame (541) arranged on the laying adjusting mechanism (53), two operation sliding grooves are arranged on the laying operation frame (541), the two operation sliding grooves are symmetrically positioned at the front side and the rear side of the laying operation frame (541), operation fixing branched chains (542) are arranged in the operation sliding grooves, an operation moving groove is arranged in the middle of the laying operation frame (541), and an operation execution branched chain (6) is arranged in the operation moving groove;

the laying adjusting mechanism (53) comprises two laying vertical plates (531) arranged on a laying rotary plate (52), a laying rotary roller (532) is arranged between the two laying vertical plates (531) through a bearing, the left end of the laying rotary roller (532) is connected with an output shaft of a laying rotary motor (533) through a coupler, the laying rotary motor (533) is arranged on the outer wall of the laying vertical plate (531) through a motor base, a laying support plate (534) is arranged on the outer wall of the laying rotary roller (532), a laying telescopic cylinder (535) is arranged on the laying support plate (534), the top end of the laying telescopic cylinder (535) is arranged on a laying telescopic frame (536) through a flange, a laying lifting cylinder (537) is arranged at the lower end of the laying telescopic frame (536), the top end of the laying lifting cylinder (537) is arranged on a laying lifting frame (538) through a flange, and a laying positioning plate (539) is arranged on the side wall, a laying adjusting roller (5310) is mounted between the two laying positioning plates (539) through a bearing, the left end of the laying adjusting roller (5310) is connected with the top end of a laying adjusting motor (5311) through a coupler, and the laying adjusting motor (5311) is mounted on the outer wall of the laying positioning plate (539) through a motor base;

the operation execution branched chain (6) comprises an operation driving motor (61) which is arranged on a laying operation frame (541) through a motor base, an output shaft of the operation driving motor (61) is connected with one end of an operation lead screw (62) through a coupler, the other end of the operation lead screw (62) is arranged on a laying baffle plate (615) through a bearing, the laying baffle plate (615) is arranged on the inner wall of the laying operation frame (541), an operation moving block (63) is arranged on the operation lead screw (62), the lower end of the operation moving block (63) is connected with the laying operation frame (541) through a sliding fit mode, an operation moving frame (64) is arranged at the upper end of the operation moving block (63), the operation moving frame (64) is positioned in an operation moving groove, an operation driving motor (65) is arranged at the upper end of the operation moving frame (64) through the motor base, an operation supporting plate (66) is arranged on, the operation vibration damper (67) is installed on the operation supporting plate (66), the upper end of the operation vibration damper (67) is installed on the operation execution plate (68), the operation vibration motor (69) is installed at the lower end of the operation execution plate (68) through a motor base, two operation fixing plates (610) are installed on the operation execution plate (68), an operation execution roller (611) is installed between the inner walls of the two operation fixing plates (610) through a bearing, and paving vibration blocks (612) are arranged on the outer wall of the operation execution roller (611) at equal intervals along the circumferential direction of the operation execution roller; the laying vibration block (612) comprises a work buffer spring (613) arranged along the axial direction of the work execution roller (611), and a work buffer plate (614) is installed on the work buffer spring (613).

2. The high-efficiency construction equipment for the bonded steel reinforced building according to claim 1, characterized in that: fixed establishment (44) are including installing fixed removal frame (49) on fixed telescopic cylinder (43), install fixed removal cylinder (410) on the lateral wall of fixed removal frame (49), flange mounting is passed through on fixed mounting bracket (45) on the top of fixed removal cylinder (410), fixed mounting bracket (45) are U type mechanism, install fixed execution cylinder (46) on the inner wall of fixed mounting bracket (45), flange mounting is passed through on fixed execution frame (47) on the top of fixed execution cylinder (46), pass through the equidistant fixed supplementary roller (48) of installing of bearing backward in the past between the inner wall of fixed execution frame (47).

3. The high-efficiency construction equipment for the bonded steel reinforced building according to claim 1, characterized in that: the operation fixing branched chain (542) comprises an operation electric slide block (543) arranged on the inner wall of the laying operation frame (541), an operation telescopic cylinder (545) is arranged on the operation electric slide block (543), the top end of the operation telescopic cylinder (545) is arranged on an operation driven plate (546) through a flange, and an operation fixing sucker (547) is arranged on the operation driven plate (546).