CN215928597U - Municipal administration water supply and drainage pipeline optimizes laying device - Google Patents

Abstract

The utility model discloses an optimized laying device for municipal water supply and drainage pipelines, which comprises a base, a damping moving device, supporting columns, a supporting shell and a pipeline control device, wherein the damping moving device is uniformly arranged below the base, the supporting columns are uniformly arranged on the base, the supporting shell is arranged on the supporting columns, and the pipeline control device is arranged in the supporting shell. The utility model belongs to the technical field of drainage pipeline construction, and particularly relates to an optimized laying device for a municipal water supply and drainage pipeline, which can automatically lift a pipeline to be placed in a pipeline foundation pit for laying, and simultaneously clamp and protect the pipeline when the pipeline is lifted, so that the pipeline is prevented from sliding off to cause damage to constructors.

Description

Municipal administration water supply and drainage pipeline optimizes laying device

Technical Field

The utility model belongs to the technical field of drainage pipeline construction, and particularly relates to an optimized laying device for municipal water supply and drainage pipelines.

Background

Municipal works generally refer to the construction of various public transport facilities, water supply, drainage, gas, urban flood control, environmental sanitation, lighting and other basic facilities in urban construction. Municipal engineering is an essential material basis for urban survival and development, and is a basic condition for improving the living standard of people and opening the environment. When a water supply and drainage pipeline in municipal engineering is laid, a support foundation of a brick structure is mainly built in a pipeline pit in the current construction, then the water supply and drainage pipeline is fixed on the support foundation of the brick structure, however, when the water supply and drainage pipeline is fixed on the support foundation, the water supply and drainage pipeline with large size and heavy weight is often placed in a pipeline foundation pit by using a crane, the construction cost of the method is high, and for the water supply and drainage pipeline with small size and light weight, a plurality of workers are mainly matched to lift the water supply and drainage pipeline and then place the water supply and drainage pipeline in the pipeline foundation pit in a rotating mode. Therefore, the utility model provides the optimized laying device for the municipal water supply and drainage pipeline, which can automatically lift the pipeline to be placed in the pipeline foundation pit for laying, and simultaneously clamp and protect the pipeline when the pipeline is lifted, so as to avoid the pipeline from sliding off to cause damage to constructors.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides the optimized laying device for the municipal water supply and drainage pipeline, which can automatically lift the pipeline to be placed in a pipeline foundation pit for laying, and simultaneously clamp and protect the pipeline when the pipeline is lifted, so that the pipeline is prevented from sliding off to cause damage to constructors.

In order to realize the functions, the technical scheme adopted by the utility model is as follows: an optimized laying device for municipal water supply and drainage pipelines comprises a base, a damping moving device, supporting columns, supporting shells and a pipeline control device, wherein the damping moving device is uniformly arranged under the base, so that the whole device can be conveniently moved, and meanwhile, the damping protection effect is realized in the moving process, the supporting columns are uniformly arranged on the base to play a role of fixing and supporting, the supporting shells are arranged on the supporting columns, the pipeline control device is arranged in the supporting shells, a pipeline can be automatically lifted and placed in a pipeline foundation pit to be laid, and the pipeline is clamped and protected when lifted, so that the pipeline is prevented from slipping to cause injury to constructors; the pipeline control device comprises a driving motor, a bearing, a rotating shaft, a take-up and pay-off roller, a cable and a pipeline fixing component, the driving motor is arranged on the inner side wall of the bearing shell, the bearing is arranged on the inner side wall of the bearing shell far away from the driving motor, one end of the rotating shaft is connected with the output end of the driving motor, the other end of the rotating shaft is rotatably arranged on the side wall of the bearing, the retraction rollers are sleeved on the rotating shaft, the retraction rollers are arranged in two groups by taking the vertical central line of the bearing shell as a symmetrical axis, the cable is wound on the take-up and pay-off roller, the end part of the cable movably penetrates through the bottom wall of the bearing shell, the pipeline fixing component is arranged below the end part of the cable far away from the take-up and pay-off roller, the driving motor drives the rotating shaft to rotate, the rotating shaft drives the take-up and pay-off roller to rotate, therefore, the cable on the take-up and pay-off roller is taken up and paid off, and the cable drives the pipeline fixed by the pipeline fixing component to be hoisted or descended to a corresponding pipeline foundation pit for laying.

Further, the pipeline fixing assembly comprises an upper bearing plate, a telescopic cylinder and a lower bearing plate, the upper bearing plate is arranged below the end portion of the cable, the upper bearing plate is arranged in an arc-shaped structure, the end portion of the telescopic cylinder is connected to the bottom end of the upper bearing plate, the vertical central line of the upper bearing plate of the telescopic cylinder is arranged in two groups as a symmetrical shaft, the top end of the lower bearing plate is connected to one point, far away from the upper bearing plate, of the telescopic cylinder, the lower bearing plate is arranged in an arc-shaped structure, the arc-shaped structures of the upper bearing plate and the lower bearing plate can be arranged to be more attached to the outer wall of the pipeline, the upper bearing plate and the lower bearing plate are driven to move oppositely or move oppositely to adjust the distance through the telescopic cylinder, and therefore the pipeline placed between the upper bearing plate and the lower bearing plate is clamped and fixed.

Further, the damping moving device comprises a limiting shell, a sliding groove, a sliding block, a moving strut, a damping spring and a moving wheel, wherein the limiting shell is uniformly arranged under the base, the limiting shell is a hollow cavity structure with an opening at the bottom end, the sliding groove is embedded on two inner side walls of the limiting shell, the sliding block is clamped in the sliding groove in a sliding way, the moving strut is arranged at the joint of the sliding block, one end of the damping spring is arranged under the top wall of the limiting shell, the other end of the damping spring is arranged on the moving strut, the moving wheel is rotatably arranged under the moving strut, when the moving wheel is bumped in the moving process, the damping spring can continuously give extrusion force and stretching force to the damping spring, the damping spring can damp the moving wheel under the moving strut in an unloading manner, and meanwhile, the damping effect is good, meanwhile, when the pipeline is lifted by the device, the stress of the movable wheel can be relieved, and the movable wheel is prevented from being damaged due to overlarge stress.

Further, the upper supporting plate and the lower supporting plate are provided with cushion layers on the side walls, the cushion layers are arranged in an arc-shaped structure, the cushion layers are made of rubber materials, on one hand, friction is increased, the pipeline is clamped and fixed more stably, and on the other hand, the pipeline is protected.

Furthermore, the driving motor is a servo motor, so that the rotation direction is convenient to control, and the lifting and descending of the pipeline are convenient to control.

The utility model adopts the structure to obtain the following beneficial effects: the utility model provides a municipal water supply and drainage pipeline optimized laying device, which can be arranged to be more attached to the outer wall of a pipeline through the arrangement of a pipeline fixing component, the arc-shaped structure of an upper bearing plate and a lower bearing plate is arranged to be more attached to the outer wall of the pipeline, the upper bearing plate and the lower bearing plate are driven to move oppositely or move oppositely for adjusting the distance through the self expansion of a telescopic cylinder, so that the pipeline arranged between the upper bearing plate and the lower bearing plate is clamped and fixed, a driving motor drives a rotating shaft to rotate through the arrangement of a pipeline control device, the rotating shaft drives a take-up and pay-off roller to rotate, so that a cable on the take-up and pay-off roller is taken up and paid off, the cable takes the pipeline fixed by the pipeline fixing component to be lifted or lowered into a corresponding pipeline foundation pit for laying, and the movable wheel can continuously give extrusion force and drawing force to a damping spring when bumping in the moving process through the arrangement of a damping moving device, and the damping spring can unload the movable wheel under a movable support column, can receive simultaneously that the removal post passes through the gliding spacing of vertical side of slider in the spout, the shock attenuation is effectual, when the device hoists the pipeline, can slow down the atress that removes the wheel simultaneously, avoids removing the wheel and damages because of the atress is too big.

Drawings

FIG. 1 is a schematic view of the overall structure of an optimized laying device for municipal water supply and drainage pipelines of the utility model;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic structural view of a pipe fixing assembly of the optimized laying device for municipal water supply and drainage pipelines of the utility model.

The device comprises a base 1, a base 2, a damping moving device 3, a support column 4, a bearing shell 5, a pipeline control device 6, a driving motor 7, a bearing 8, a rotating shaft 9, a retracting roller 10, a cable 11, a pipeline fixing component 12, an upper bearing plate 13, a telescopic cylinder 14, a lower bearing plate 15, a limiting shell 16, a sliding groove 17, a sliding block 18, a moving support column 19, a damping spring 20, a moving wheel 21 and a cushion layer.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. 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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-3, the optimized laying device for municipal water supply and drainage pipelines comprises a base 1, a damping moving device 2, support columns 3, a bearing shell 4 and a pipeline control device 5, wherein the damping moving device 2 is uniformly arranged below the base 1, the support columns 3 are uniformly arranged on the base 1, the bearing shell 4 is arranged on the support columns 3, and the pipeline control device 5 is arranged in the bearing shell 4; pipeline control device 5 includes driving motor 6, bearing 7, pivot 8, receive and releases roller 9, cable 10 and pipeline fixed subassembly 11, driving motor 6 is located on 4 inside walls of bearing shell, bearing 7 is located on 4 inside walls of bearing shell kept away from driving motor 6 of bearing shell, 8 one ends of pivot are connected in driving motor 6 output, the 8 other ends of pivot rotate and are located the 7 lateral walls of bearing, receive and release roller 9 and cup joint in pivot 8, it uses the vertical central line of bearing shell 4 to set up two sets ofly as the symmetry axis to receive and release roller 9, cable 10 twines on receiving and releasing roller 9, the setting of 4 diapalls of bearing shell is run through in the removal of cable 10 tip, pipeline fixed subassembly 11 is located under the tip that cable 10 kept away from receiving and releasing roller 9.

The pipeline fixing component 11 comprises an upper bearing plate 12, a telescopic cylinder 13 and a lower bearing plate 14, the upper bearing plate 12 is arranged below the end part of the cable 10, the upper bearing plate 12 is arranged in an arc-shaped structure, the end part of the telescopic cylinder 13 is connected to the bottom end of the upper bearing plate 12, the telescopic cylinder 13 is provided with two groups of vertical central lines of the upper bearing plate 12 as symmetrical shafts, the top end of the lower bearing plate 14 is connected to one point, far away from the upper bearing plate 12, of the telescopic cylinder 13, and the lower bearing plate 14 is arranged in an arc-shaped structure.

Damping mobile device 2 includes spacing shell 15, spout 16, slider 17, removal pillar 18, damping spring 19 and removes wheel 20, base 1 is evenly located down to spacing shell 15, spacing shell 15 sets up for bottom open-ended cavity structures, spout 16 inlays and locates on two inside walls of spacing shell 15, slider 17 slip joint is in spout 16, the junction of slider 17 is located to removal pillar 18, damping spring 19 one end is located under the 15 roof of spacing shell, the damping spring 19 other end is located on removing pillar 18, remove wheel 20 and rotate and locate under removal pillar 18.

The side walls of the upper bearing plate 12 and the lower bearing plate 14 are both provided with cushion layers 21, the cushion layers 21 are arranged in an arc-shaped structure, and the cushion layers 21 are made of rubber materials.

The driving motor 6 is a servo motor.

When the device is used specifically, the device is moved to a proper position through the moving wheel 20, when bumping occurs, extrusion force and stretching force are continuously supplied to the damping spring 19, the damping spring 19 unloads force and damps the moving wheel 20 under the moving strut 18, meanwhile, the moving strut is limited in the vertical direction by the sliding block 17 sliding in the sliding groove 16 through the sliding block 17, the telescopic cylinder 13 is started, the upper bearing plate 12 and the lower bearing plate 14 are driven to move oppositely or move oppositely for adjusting the distance through the self-extension of the telescopic cylinder 13, so that a pipeline placed between the upper bearing plate 12 and the lower bearing plate 14 is clamped and fixed, the driving motor 6 is started, the driving motor 6 drives the rotating shaft 8 to rotate, the rotating shaft 8 drives the take-up and pay-off roller 9 to rotate, the cable 10 on the take-up and pay-off roller 9 is taken up and paid off, the cable 10 drives the pipeline fixed by the pipeline fixing component 11 to lift up, when the cable 10 is lifted to a corresponding pipeline foundation pit, and lowering the pipeline into the pipeline foundation pit for laying.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (5)

1. The utility model provides a municipal administration water supply and drainage pipeline optimizes laying device which characterized in that: the damping and moving device is uniformly arranged below the base, the supporting columns are uniformly arranged on the base, the supporting shell is arranged on the supporting columns, and the pipeline control device is arranged in the supporting shell; pipeline control device includes driving motor, bearing, pivot, receipts and releases roller, cable and the fixed subassembly of pipeline, driving motor locates on the bearing shell inside wall, the bearing is located on the bearing shell keeps away from driving motor's inside wall, pivot one end is connected in the driving motor output, the pivot other end rotates and locates the bearing lateral wall, receive and release the roller and cup joint in the pivot, receive and release the roller and use the vertical central line of bearing shell to set up two sets ofly as the symmetry axis, the cable twines on receiving and releasing the roller, the cable tip removes and runs through bearing shell bottom wall setting, the fixed subassembly of pipeline is located under the cable keeps away from the tip of receiving and releasing the roller.

2. The optimized laying device for municipal water supply and drainage pipelines according to claim 1, wherein: the fixed subassembly of pipeline includes bearing plate, telescopic cylinder and lower bearing plate, the bearing plate is located under the cable tip, the bearing plate sets up for the arc structure, telescopic cylinder end connection is in the bearing plate bottom, telescopic cylinder sets up two sets ofly for the symmetry axis with the vertical central line of bearing plate, bearing plate top is connected in telescopic cylinder and is kept away from the one point of bearing plate down, the bearing plate sets up for the arc structure down.

3. The optimized laying device for municipal water supply and drainage pipelines according to claim 2, wherein: the shock attenuation mobile device includes spacing shell, spout, slider, removal pillar, damping spring and removes the wheel, under the base was evenly located to spacing shell, spacing shell was the cavity structure setting of bottom open-ended, the spout inlays to be located on two inside walls of spacing shell, the slider slip joint is in the spout, the junction of slider is located to the removal pillar, damping spring one end is located under the spacing shell roof, the damping spring other end is located on the removal pillar, it rotates to locate under the removal pillar to remove the wheel.

4. The optimized laying device for municipal water supply and drainage pipelines according to claim 3, wherein: the side walls of the upper bearing plate and the lower bearing plate are both provided with cushion layers, the cushion layers are arranged in an arc-shaped structure, and the cushion layers are made of rubber materials.

5. The optimized laying device for municipal water supply and drainage pipelines according to claim 4, wherein: the driving motor is a servo motor.

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