CN-115513847-B - Pre-buried reverse positioning method for super high-rise electromechanical pipeline

Abstract

The invention discloses a pre-buried reverse positioning method of an ultra-high-rise electromechanical pipeline, which is used for pre-burying the ultra-high-rise electromechanical pipeline and is realized by a pre-buried reverse positioning device of the ultra-high-rise electromechanical pipeline, the pre-buried reverse positioning device of the ultra-high-rise electromechanical pipeline comprises a rotating assembly and an executing assembly, the rotating assembly drives a first roller to rotate through a motor so as to push the pipeline to lay, the workload during manual laying is greatly saved, the laying cost is saved, the second rotating disc is driven to rotate through the execution assembly, the pushing rod is driven to move up and down, the line pipe can be cut off, the distance of the line pipe can be effectively controlled, when the line pipe is cut off, the line pipe is fixed on the template through the steel nails, the working efficiency is improved, paint inside the hydraulic cylinder is sprayed on the second roller from the paint outlet through the rotation of the second rotating disc, the marking effect on the line pipe is achieved, and the efficiency is improved for laying of later-period wires and cables.

Inventors

• ZHOU BAOGUI
• LI GUANGSHAN
• HUANG YINGGUANG
• ZHONG HUABIN
• LIU JIANDONG
• ZHENG JINHAI
• Hong Ruxi

Assignees

• 中建安装集团有限公司

Dates

Publication Date

20260512

Application Date

20221001

Claims (8)

1. 1. The super high-rise electromechanical pipeline pre-embedding reverse positioning method is characterized by being realized by a super high-rise electromechanical pipeline pre-embedding reverse positioning device, the super high-rise electromechanical pipeline pre-embedding reverse positioning device comprises a rotating assembly (100) and an executing assembly (200), and the super high-rise electromechanical pipeline pre-embedding reverse positioning method comprises the following steps of: S10, pushing the device to a position to be pre-buried, and fixing the position of the device by using a universal wheel (2); S20, pouring paint prepared in advance into a hydraulic cylinder (202), and respectively placing steel nails with the same color as the paint into a first nail box (205) and a second nail box (209); S30, placing one end of a pipeline to be laid in the middle of the first roller (6) and the second roller (8) to finish preparation work; The embedded reverse positioning device of the super high-rise electromechanical pipeline comprises a base (1) and a first fixing plate (5), wherein a universal wheel (2) used for fixing is arranged below the base (1), a first supporting rib plate (4) is fixedly connected to the upper portion of the base (1), a motor (3) is fixedly connected to the first supporting rib plate (4), a fourth fixing plate (11) is arranged in front of the motor (3), a third fixing plate (10) is arranged in front of the fourth fixing plate (11), a second fixing plate (7) is arranged in front of the third fixing plate (10), a first roller (6) is arranged in the middle of the second fixing plate (7) and the third fixing plate (10), a second roller (8) is further arranged between the second fixing plate (7) and the third fixing plate (10), and a pipe inlet box (9) is fixedly connected to the upper portion of the base (1); a rotating assembly (100) is arranged between the fourth fixed plate (11) and the third fixed plate (10); an execution assembly (200) for spraying paint on the pipeline and nailing two sides of the pipeline is arranged on one side of the first fixing plate (5); A shearing block (218) for cutting off the pipeline is arranged at the middle part of the execution assembly (200); The rotating assembly (100) and the executing assembly (200) are in meshed connection and linkage with the second bevel gear (13) through the first bevel gear (12).
2. 2. The method for pre-buried reverse positioning of the super high-rise electromechanical pipeline according to claim 1, wherein the rotating assembly (100) comprises a first rotating disc (101), rotating washers (106) are arranged on two sides of the first rotating disc (101), second supporting rib plates (102) are arranged on one sides of the rotating washers (106), rotating blocks (104) are arranged on one sides of the second supporting rib plates (102), a deflector rod (103) is fixedly connected to one side of the rotating blocks (104), intermittent rotating plates (105) are arranged on one side of the rotating blocks (104), fixed rib plates (107) are fixedly connected to one side of the second fixed plate (7), first fixed sleeves (108) are fixedly connected to the inner sides of the second fixed plate (7) and the third fixed plate (10), second fixed sleeves (109) are fixedly connected to the inner sides of the second fixed plate (7) and the third fixed plate (10), and the motor (3) rotates to drive the first rotating shaft (110).
3. 3. The method for pre-buried reverse positioning of the super high-rise electromechanical pipeline according to claim 2, wherein the executing assembly (200) comprises a paint rod (201), one end of the paint rod (201) is fixedly connected with a hydraulic cylinder (202), a first piston rod (215) is movably connected inside the hydraulic cylinder (202), one end of the hydraulic cylinder (202) is fixedly connected with a first fixing rod (203), the first fixing rod (203) is fixedly connected with a first fixing plate (5), the first piston rod (215) is fixedly connected with a rotating fixing sleeve (211), a second rotating disc (212) is arranged on one side of the rotating fixing sleeve (211), a supporting plate (204) is arranged on one side of the second rotating disc (212), the supporting plate (204) is fixedly connected with the first fixing plate (5), and a second rotating shaft (216) is arranged at the end of the supporting plate (204).
4. 4. The method for pre-buried reverse positioning of an ultra-high-rise electromechanical pipeline according to claim 3, wherein a pushing rod (214) is fixedly connected to one side of the rotating fixing sleeve (211), a shearing block (218) is fixedly connected to one end of the pushing rod (214), a fourth fixing rod (221) is arranged in the shearing block (218) in a penetrating mode, a third fixing rod (210) is fixedly connected to one end of the fourth fixing rod (221), the third fixing rods (210) are respectively arranged at two ends of the fourth fixing rod (221), a second piston rod (219) is fixedly connected to the lower end of the third fixing rod (210), and a piston sheet (220) is fixedly connected to the lower end of the second piston rod (219).
5. 5. The method for pre-embedding and reversely positioning the super high-rise electromechanical pipeline according to claim 4, wherein a first nail outlet pipe (206) is arranged below the shearing block (218), a second nail outlet pipe (207) is further arranged below the shearing block (218), a second nail inlet (217) is fixedly connected to the first nail outlet pipe (206), a first nail box (205) is fixedly connected to the second nail outlet (217), a first nail inlet pipe (208) is fixedly connected to the second nail outlet pipe (207), a second nail box (209) is fixedly connected to the first nail inlet pipe (208), the second nail box (209) and the first nail box (205) are fixedly connected to the base (1), and a paint outlet (213) is fixedly connected to the lower portion of one end of the paint rod (201).
6. 6. The method for reversely positioning the embedded of the super high-rise electromechanical pipeline according to claim 5, wherein the bottom of the shearing block (218) is in a knife gate shape, the piston plate (220) is provided with a high-magnetism magnet, the first nail box (205) and the second nail box (209) incline to a certain angle with the base (1), the steel nails turn at the joint of the first nail outlet pipe (206) and the second nail inlet (217) and the joint of the second nail outlet pipe (207) and the first nail inlet pipe (208), and one magnetic end is placed at the outlet of the first nail box (205) and the second nail box (209) when the steel nails are placed, and the length of the steel nails penetrating through an embedded line layer is 10cm.
7. 7. The method for reversely positioning the embedded machine tool pipelines of the super high-rise building machine according to claim 6, wherein a layer of cotton brushes is covered on the outer surface of the second roller (8), the first rotating shaft (110) rotates to drive the first roller (6), the first roller (6) serves as a driving part to drive the pipelines to move, the second roller (8) rotates through friction force of the pipeline to move, the first rotating shaft (110) penetrates through the fourth fixed plate (11), the first rotating disc (101) and the second supporting rib plate (102), the first rotating shaft (110) is fixedly connected with the rotating block (104), and the first supporting rib plate (4), the first fixed plate (5), the second fixed plate (7), the pipe inlet box (9), the third fixed plate (10), the fourth fixed plate (11) and the second supporting rib plate (102) are fixedly connected with the base (1).
8. 8. The method for pre-burying and reversely positioning an electromechanical pipeline of a super high-rise building according to claim 7, wherein the pushing rod (214) and the first piston rod (215) are made of high-strength steel materials, the first nail discharging pipe (206) and the second piston rod (219) in the second nail discharging pipe (207) are made of high-hardness materials, and steel nails are orderly placed in the first nail box (205) and the second nail box (209) before working.

Description

Pre-buried reverse positioning method for super high-rise electromechanical pipeline Technical Field The invention relates to the technical field of electromechanical pipeline embedding, in particular to an ultra-high-rise electromechanical pipeline embedding reverse positioning method. Background With the improvement of social productivity and the advancement of science and technology, the process of the urban land resource is accelerated, and many enterprises tighten and build high-rise or super-high-rise buildings to accommodate increasingly more accommodation and office staff. At present, a concrete structure and a steel bar truss floor slab structure are generally adopted for ultra-high-rise building floors, electromechanical line pipes are laid in a buried mode, the appearance is attractive, space is saved, the line pipes are laid in the floors in a buried mode, at the construction and installation stage, due to the fact that the fine decoration and electromechanical line pipe supports are multiple, and the arrangement condition of the line pipes is unclear, when the support is installed, fixing screws or bolts are easy to pierce the embedded line pipes, the embedded line pipes are blocked or disconnected, once the line pipes in the floors are damaged, the line pipes are difficult to recover after the line pipes are damaged, reworking is extremely easy to cause if the line pipes are electrified, and therefore if the path and arrangement trend of the line pipes buried in a buried mode can be marked on the floors clearly, the embedded line pipes can be prevented from being damaged greatly. In order to meet the requirements of safety, convenience in recognition, utilization rate improvement and the like of the embedded wire pipe in the primary structure, an embedded reverse positioning method of the super high-rise electromechanical pipeline is developed. At present, manual laying is adopted in the aspect of embedding an ultra-high-rise electromechanical pipeline, the manual laying is low in efficiency, the distribution sequence of the pipeline can be disordered in the laying process, the pipeline is fixed in a distance mode after the pipeline is laid, the construction process is troublesome, and time is wasted. Disclosure of Invention The invention aims to provide a pre-buried reverse positioning method for an electromechanical pipeline of an ultra-high-rise building so as to solve the problems. The super high-rise electromechanical pipeline pre-embedding reverse positioning method is used for pre-embedding the super high-rise electromechanical pipeline, the super high-rise electromechanical pipeline pre-embedding reverse positioning method is realized through a super high-rise electromechanical pipeline pre-embedding reverse positioning device, the super high-rise electromechanical pipeline pre-embedding reverse positioning device comprises a rotating assembly and an executing assembly, and the super high-rise electromechanical pipeline pre-embedding reverse positioning method comprises the following steps: s10, pushing the device to a position to be pre-buried, and fixing the position of the device by using universal wheels; S20, pouring paint prepared in advance into a hydraulic cylinder, and respectively placing steel nails with the same color as the paint into a first nail box and a second nail box; And S30, placing one end of the pipeline to be laid in the middle of the first roller and the second roller to finish the preparation work. Preferably, the embedded reverse positioning device of the super high-rise electromechanical pipeline comprises a base and a first fixing plate, wherein a universal wheel used for fixing is arranged below the base, a first supporting rib plate is fixedly connected to the upper portion of the base, a motor is fixedly connected to the first supporting rib plate, a fourth fixing plate is arranged in front of the motor, a third fixing plate is arranged in front of the fourth fixing plate, a second fixing plate is arranged in front of the third fixing plate, a first roller is arranged in the middle of the second fixing plate and the third fixing plate, a second roller is further arranged between the second fixing plate and the third fixing plate, a pipe inlet box is fixedly connected to the upper portion of the base, a rotating assembly is arranged between the fourth fixing plate and the third fixing plate, an executing assembly used for spraying paint on the pipeline and nailing two sides of the pipeline is arranged on one side of the first fixing plate, a shearing block used for cutting off the pipeline is arranged in the middle of the executing assembly, and the rotating assembly and the executing assembly is connected with a second bevel gear through a first bevel gear in a linkage mode. Preferably, the rotating assembly comprises a first rotating disc, rotating washers are arranged on two sides of the first rotating disc, second supporting rib plates are arranged on