CN210484988U - Pipeline repairing construction platform - Google Patents

Abstract

The utility model discloses a pipeline repairing construction platform, which comprises a movable platform, and a stirring mechanism, a filling mechanism, an inner lining pad and a traction mechanism which are arranged on the platform; the traction mechanism is used for drawing the inner lining pad into the interior of the pipeline; when the inner liner is filled inside to support the inner liner, a gap is formed between the outer wall of the inner liner and the inner wall of the pipeline; the stirring mechanism is used for mixing grouting materials; and the filling mechanism is connected with the stirrer and is used for filling the gap with the grouting material. The utility model discloses an adopt rabbling mechanism, grout mechanism and drive mechanism all to integrate on mobilizable platform, utilize integrated platform to provide the operation place of above-mentioned equipment, can reduce occuping of construction site to improve pipeline restoration convenience.

Description

Pipeline repairing construction platform

Technical Field

The utility model relates to a pipeline repair field, in particular to pipeline repair construction platform.

Background

In recent years, the road collapse phenomenon caused by the damage of water supply and drainage pipelines is more and more serious, the pipelines are repaired by mainly adopting an excavation mode, and the excavation repairing method has the following problems:

(1) influence on traffic: when the road is occupied for construction, because more material equipment is used, the occupied area is large, the construction time is long, and the traffic jam on site is easily caused;

(2) the construction speed is slow: manual operation is adopted, and the speed is low;

(3) personnel safety is not guaranteed: toxic gas may exist in the pipeline, so that the pipeline is harmful to human health and life.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pipeline repair construction platform aims at improving the defect that current pipeline repair construction occupation space is big, construction security is low.

In order to achieve the above purpose, the utility model provides a pipeline repairing construction platform, which comprises a movable platform, and a stirring mechanism, a filling mechanism, an inner lining pad and a traction mechanism which are arranged on the platform;

the traction mechanism is used for drawing the inner lining pad into the interior of the pipeline;

when the inner liner is filled inside to support the inner liner, a gap is formed between the outer wall of the inner liner and the inner wall of the pipeline;

the stirring mechanism is used for mixing grouting materials;

and the filling mechanism is connected with the stirrer and is used for filling the gap with the grouting material.

Optionally, the stirring mechanism comprises a stirrer, an automatic feeding device and a first metering device;

the automatic feeding device is used for conveying raw materials to the stirring machine, and the first metering device is used for metering the input amount of the raw materials;

the stirring machine is used for stirring to form mixed grouting material and conveying the mixed grouting material to the grouting mechanism.

Optionally, the input end of the grouting mechanism is connected with the output end of the stirrer;

the input end of the grouting mechanism is provided with a second metering device;

the second metering device is used for metering the input quantity of the grouting material input by the grouting mechanism, and the input quantity of the grouting material is equal to the input quantity of the raw materials metered by the first metering device.

Optionally, a reel bracket is arranged on the platform;

the inner liner is arranged on the scroll support.

Optionally, a first lifting frame is arranged on the platform, and a reel is arranged on the reel bracket;

the lining mat is wound on the reel, and the first lifting frame is used for driving the reel bracket to move so that the reel is equal to the pipeline axis in height.

Optionally, an automatic closing device is arranged on the reel bracket;

when the reel is equal to the axis of the pipeline in height, the traction mechanism pulls the inner liner to enter the pipeline through the automatic closing device.

Optionally, a traction mechanism support is arranged on the platform, and the traction mechanism is arranged on the traction mechanism support;

the platform is provided with a second lifting frame, the traction mechanism support is connected with the second lifting frame, and the second lifting frame is used for driving the traction mechanism support to move so that the traction mechanism and the pipeline axis are equal in height.

Optionally, a detection mechanism is arranged on the platform;

the detection mechanism is used for extending into the pipeline and detecting the interior of the pipeline.

Optionally, the detection mechanism is provided with a camera;

a third lifting frame is arranged on the platform, a telescopic rod is arranged on the third lifting frame, and the camera is arranged on the telescopic rod;

the telescopic rod is used for stretching into the interior of the pipeline, so that the camera synchronously enters the interior of the pipeline.

Optionally, a control center is arranged on the platform;

the control center is respectively connected with the stirring mechanism, the grouting mechanism and the traction mechanism through signal lines.

The technical scheme of the utility model integrates the stirring mechanism, the grouting mechanism and the traction mechanism on the movable platform, and the integrated platform is used for providing the operation field of the equipment, so that the occupation of the construction field can be reduced, and the convenience of pipeline repair is improved; by integrating the inner liner on the platform, when the pipeline needs to be repaired, a gap is formed between the inner liner and the inner wall of the pipeline, and a grouting material flowing space is formed by the gap, so that the waste of grouting material can be reduced, and meanwhile, a grouting material flowing channel can be provided, so that the grouting material can flow to the part to be repaired more fully, and the repairing efficiency is improved; the overall structure is integrated relatively and operated, the occupied space is small, the pipeline does not need to be excavated, and the construction safety is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of a pipeline repairing construction platform according to an embodiment of the present invention;

fig. 2 is the utility model discloses detection mechanism telescopic rod structure schematic diagram.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				10	Platform	11	Control center
12	High pressure cleaning pump	13	Anti-seismic underframe
				14	Water tank	20	Stirring mechanism
21	Mixer	22	Automatic feeding device
				23	First metering device	30	Grouting mechanism
31	Second metering device	40	Inner liner
				41	Scroll support	42	First lifting frame
50	Traction mechanism	51	Traction mechanism support
				52	Second lifting frame	60	Detection mechanism
61	Third hoisting frame	62	Telescopic rod
				63	Camera head

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic view of an overall structure of a pipeline repairing construction platform according to an embodiment of the present invention, which provides a pipeline repairing construction platform, including a movable platform 10, and a stirring mechanism 20, a filling mechanism, an inner liner 40 and a traction mechanism 50 which are arranged on the platform 10; the pulling mechanism 50 is used for pulling the inner liner 40 into the interior of the pipeline; when the inner liner 40 is filled inside to support the inner liner 40, a gap is formed between the outer wall of the inner liner 40 and the inner wall of the pipeline; the stirring mechanism 20 is used for mixing grouting materials; the filling mechanism is connected with the stirrer 21 and is used for filling the gap with the grouting material. The stirring mechanism 20, the grouting mechanism 30 and the traction mechanism 50 are all arranged on the platform 10, when the pipeline is required to be repaired, the platform 10 is moved to an opening of the corresponding pipeline, the end part of the inner liner 40 is placed inside the pipeline, the traction mechanism 50 is connected with the end part of the inner liner 40, and the inner liner 40 is dragged into the pipeline through the traction mechanism 50.

After the inner liner 40 is placed inside the pipeline, air or water is injected into the inner liner 40 to restore the inner liner 40 to a cylindrical shape after being filled, and the end parts of the two ends of the inner liner 40 are sealed through structures such as air bags, so that the inner liner 40 maintains the cylindrical structure, the two ends of the inner liner 40 are fixed, and at this time, a gap is formed between the outer wall of the inner liner 40 and the inner wall of the pipeline.

Inputting raw materials into the stirring mechanism 20, starting the stirring mechanism 20 to enable the stirring mechanism 20 to fully stir the raw materials to form grouting material, and grouting the grouting material into a gap between the inner liner and the inner wall of the pipeline through the grouting mechanism 30. And the grouting material flows along the gap and covers the defect part on the inner wall of the pipeline, so that the corresponding defect part is filled with the grouting material, and the internal defect repair of the pipeline is realized.

In the scheme, the stirring mechanism 20, the grouting mechanism 30 and the traction mechanism 50 are all integrated on the platform 10, and by using the movable platform 10, when the pipeline is repaired, the platform 10 can be moved to the pipeline opening according to the position of the corresponding pipeline, so that the pipeline can be directly repaired inside without excavating the pipeline; because the mechanisms are integrated on the platform 10, when the pipeline repairing platform is used, the occupied space of the whole construction site is relatively small, the problem that the construction site occupies a large amount of sites in the existing pipeline repairing process is further solved, and road blockage caused by construction is reduced; because the above-mentioned equipment all is integrated on platform 10, when carrying out pipeline repair, the thick liquids do not directly contact ground, and then can avoid among the current pipeline repair mode, the thick liquids pile up and lead to the clean cost of place secondary on the construction site ground.

When the detected defect in the pipeline is located on one side of the pipeline, the position of the inner liner 40 can be adjusted according to the position of the defect, so that the gap between the inner wall of the pipeline on the side with the defect and the inner liner 40 is relatively large, when the grouting mechanism 30 inputs grouting material into the pipeline, the grouting material flows to the position with the defect on the inner wall of the pipeline along the gap between the inner liner 40 and the inner wall of the pipeline, and then the grouting material flows to the position with the defect in a centralized manner, so that the utilization rate of the grouting material is improved. The inner liner 40 is filled with media and is made to be of a cylindrical structure, when the inner liner 40 is located inside the pipeline and coaxial with the pipeline, the grouting material is located between the inner wall of the pipeline and the outer wall of the inner liner to form a repairing layer, and when defects exist at different positions in the pipeline, uniform repairing can be achieved, and omission is avoided.

Because the internal defect of the pipeline is usually a local defect, the inner liner 40 is utilized in the pipeline in the scheme, and when the pipeline needs to be repaired, a gap is formed in the pipeline by utilizing the inner liner 40, so that the problem of grouting waste caused by directly inputting repair grouting material into the pipeline in the conventional pipeline repairing process is solved. After the defect repair is completed, the medium filled in the inner liner 40 may be discharged, and the inner liner 40 is shrunk, so that the inner liner 40 is recycled to the platform 10, and may be reused subsequently.

When the installation, can be in platform 10 bottom sets up antidetonation chassis 13, works as when rabbling mechanism 20 or grout mechanism 30 operation produce the vibration, through antidetonation chassis 13 is right the vibration of platform 10 is cushioned, avoids existing equipment to produce the problem of restoreing the ground damage in place when carrying out the pipeline restoration.

In order to improve the prosthetic efficiency of pipeline in an embodiment of the utility model, be provided with high pressure cleaner pump 12 on the platform 10, when reaching the pipeline tip, through high pressure cleaner pump 12 is right the pipe inner wall cleans, in order to reduce impurity in the pipeline avoids impurity and grout material to mix the grout material quality that leads to repairing the pipeline defect to receive the influence. In order to facilitate the pipeline cleaning, in the present embodiment, a water tank 14 may be disposed on the platform 10, and the water tank 14 may be used to supply water to the high pressure cleaning pump 12.

In an embodiment of the present invention, a control center 11 is disposed on the platform 10, and the stirring mechanism 20, the grouting mechanism 30 and the traction mechanism 50 are connected to the control center 11 through wires, so that the stirring mechanism 20, the grouting mechanism 30 and the controller of the traction mechanism 50 are integrated into the control center 11, which facilitates the centralized control of the above devices by the staff on the platform 10. The controller and the control program of the above device may adopt the prior art, and are not described in detail.

In one embodiment of the present invention, the stirring mechanism 20 includes a stirrer 21, an automatic feeding device 22, and a first metering device 23; the automatic feeding device 22 is used for conveying raw materials to the stirring machine 21, and the first metering device 23 is used for metering the input amount of the raw materials; the mixer 21 mixes the slurry to form a mixed slurry, and delivers the mixed slurry to the grouting mechanism 30. The stirrer 21 and the automatic feeding device 22 are fixed to the platform 10, a screw pump may be provided between the stirrer 21 and the automatic feeding device 22, the raw material may be pumped into the stirrer 21 by the screw pump, and the first metering device 23 meters the input amount of the raw material when the automatic feeding device 22 feeds the raw material to the stirrer 21.

The stirrer 21, the automatic feeding device 22 and the first metering device 23 can be connected to the control center 11 through wires, and the control center 11 controls the operation of the mechanisms so as to conveniently monitor the operation state of the mechanisms.

The grouting material for repairing the pipeline defect can be cement grouting material, resin mortar and the like, taking cement grouting material as an example, cement and water can be mixed into the automatic feeding device 22, the first metering device 23 is utilized to meter the amount of the mixture of the cement and the water, the mixing ratio of the cement and the water is preferably 1:3 or 1:5, the grouting material generated by mixing the stirrer 21 can have better fluidity, and meanwhile, the grouting material can enter the defect on the inner wall of the pipeline, and the repairing effect is better; the automatic feeding device 22 can also be used for feeding cement, and the first metering device 23 comprises a weight sensor and a flow meter, wherein the weight sensor is used for metering the amount of cement delivered to the mixer 21 by the automatic feeding device 22; meanwhile, a water supply assembly is provided on the mixer 21, and the flow meter is used for metering the flow rate of water so that the mixing ratio of cement and water is 1:3 or 1: 5.

The stirring machine 21 adopts a horizontal stirring machine 21, when the grouting material is stirred, the rotating speed of a rotating motor of the stirring machine 21 is kept at 1000-2500 rpm, the stirring time is kept for 5 minutes, and by adopting the mixing ratio of the cement and the water and cooperatively controlling the rotating speed and the stirring time of the rotating motor of the stirring machine 21, after the stirring is finished, the grouting material has higher viscosity, can be better attached to the inner wall of the pipeline, and has better defect repairing effect. After one round of grouting material stirring is completed, the grouting material is conveyed to the grouting mechanism 30 for grouting operation.

In an embodiment of the present invention, the input end of the grouting mechanism 30 is connected to the output end of the mixer 21; the input end of the grouting mechanism 30 is provided with a second metering device 31; the second metering device 31 is used for metering the input amount of the grouting material input by the grouting mechanism 30, and the input amount of the grouting material is equal to the input amount of the raw material metered by the first metering device 23. The total amount of input raw materials of the stirrer 21 is equal to the total amount of grouting materials used for grouting by the grouting mechanism 30, and residual grouting materials are not stored in the stirrer 21, so that the waste of the grouting materials is reduced, and the residual grouting materials are prevented from being solidified in the stirrer or the grouting mechanism 30.

When the pipeline is repaired, the distance between the inner diameter of the pipeline and the outer diameter of the inner liner 40 in a cylindrical state can be measured, the length of the pipeline is measured, the volume of a gap formed between the inner liner 40 and the inner wall of the pipeline is calculated, the volume is the required grouting amount, the volume of the grouting material output by the grouting mechanism 30 is equal to the volume of the gap, so that the grouting material is prevented from being wasted, and the grouting material is prevented from being accumulated at the end part of the pipeline to cause cleaning operation.

Referring to fig. 1, in an embodiment of the present invention, a reel bracket 41 is disposed on the platform 10; the inner liner 40 is provided on the reel bracket 41. The inner liner 40 has a certain thickness, and when the inner liner 40 is placed on the platform 10, the inner liner is in a winding form, so that the inner liner 40 can be conveniently stored, the occupied space is reduced, and when the inner liner 40 needs to be replaced, the reel bracket 41 can be integrally replaced.

In order to conveniently place the inner liner 40 inside the pipeline, the present invention optionally provides a first lifting frame 42 on the platform 10, a reel bracket 41 is provided on the first lifting frame 42, and a reel is provided on the reel bracket 41; the reel bracket 41 is wound on the reel, and the first lifting frame 42 is used for driving the reel bracket 41 to move so that the reel is equal to the pipeline axis in height. When the pipeline needs to be repaired, the pipeline can be cleaned firstly.

The spool support 41 is moved down from the platform 10 by the first lifting frame 42 until the inner liner 40 moves down to the mouth of the pipe, at which time the pulling mechanism 50 pulls the inner liner 40 inward into the pipe.

Since the reel is equal in height to the pipeline axis, when the inner liner 40 is positioned in the pipeline, the influence on the inner wall of the pipeline can be reduced, and the inner liner 40 and the pipeline can be conveniently coaxially arranged, so that the inner liner 40 is conveniently positioned.

One end of the inner liner 40 may be fixed to the reel bracket 41, the reel bracket 41 may be fixedly connected to the first elevating bracket 42, and according to the length of the pipe, when the length of the inner liner 40 in the pipe is the same as the length of the pipe, one end of the inner liner 40 close to the reel bracket 41 is fixed, and the inner liner 40 is filled with a medium to form a cylindrical shape.

When the inner liner 40 is filled with a medium to form a cylindrical shape, the reel bracket 41 is used to support one end of the inner liner 40, and the other end of the inner liner 40 is fixed by the traction mechanism 50, so that the inner liner 40 is kept stable in the pipeline.

In order to avoid the mutual interference and friction between the inner liner 40 and the inner wall of the pipeline, which are tightly wound, in one embodiment of the present invention, an automatic closing device is provided on the reel bracket 41; when the reel is at the same height as the pipeline axis, the traction mechanism 50 pulls the inner liner 40 into the pipeline through the automatic closing device. The automatic necking device can be in a horn-shaped structure, and the inner diameter of the automatic necking device is smaller than that of the pipeline.

When the inner pad 40 in a roll shape moves into the tube through the automatic necking device under the traction of the traction mechanism 50, the inner pad 40 is pressed by the automatic necking device and is pressed into a long strip shape to move into the tube.

In order to reduce grouting material waste, when the pipeline is repaired, when the inner liner 40 is of a cylindrical structure, the distance between the inner liner 40 and the inner wall of the pipeline is as small as possible, grouting material is enabled to enter the pipeline, and the grouting material waste caused by overlarge gap thickness is avoided. When the inner liner 40 is placed on the reel in a winding manner, the inner liner 40 is flattened, and the inner liner 40 can be extruded by the automatic closing device, so that the inner liner can be filled with a medium more easily, and the problem of uneven surface is not easy to occur after the medium is filled; when the inner liner 40 is filled with a medium and the gap between the outer wall of the inner liner and the inner wall of the pipeline is narrow, the surface of the inner liner 40 is smooth, so that the flow of grouting material can be facilitated, and the grouting material can be uniformly distributed.

Referring to fig. 1, in order to facilitate the traction of the inner liner 40, in an embodiment of the present invention, a traction mechanism bracket 51 is disposed on the platform 10, and the traction mechanism 50 is disposed on the traction mechanism bracket 51; the platform 10 is provided with a second lifting frame 52, the traction mechanism support 51 is connected with the second lifting frame 52, and the second lifting frame 52 is used for driving the traction mechanism support 51 to move, so that the traction mechanism 50 and the pipeline are equal in height. When the first lifting frame 42 moves the reel support 41 to the same height as the pipe, the second lifting frame 52 drives the pulling mechanism support 51 to the same height as the pipe axis, and the pulling mechanism 50 pulls the inner liner to move into the pipe.

Because both ends of the inner liner 40 are located at the same height as the pipeline, the inner liner 40 is not wound in the process of being pulled into the pipeline, and the inner liner 40 is quickly located; the inner liner 40 is not bent, so that damage in the medium filling process or grouting process is avoided; because the inner liner 40 is not bent, the inner wall of the pipeline cannot be damaged when the inner liner 40 is filled with a medium; because both ends of the inner liner 40 are equal in height to the pipeline, the inner liner 40 can be conveniently and quickly sealed after being filled with media.

Referring to fig. 1, in order to facilitate the detection of the internal condition of the pipeline, the present invention optionally provides a detection mechanism 60 on the platform 10; the detection mechanism 60 is used for extending into the pipeline and detecting the inside of the pipeline. Before repairing, the internal defects of the pipeline can be detected by the detection mechanism 60, so that the defects in the pipeline can be positioned, and grouting is convenient. After grouting repair is completed, the detection mechanism 60 can perform key inspection on the defective part, so that omission is avoided.

Referring to fig. 1 and 2, fig. 2 is a schematic view of a telescopic rod structure of the detection mechanism of the present invention, because harmful gas often exists in an underground pipeline, in order to avoid the risk of manual operation, optionally, the detection mechanism 60 is provided with a camera 63; a third lifting frame 61 is arranged on the platform 10, a telescopic rod 62 is arranged on the third lifting frame 61, and the camera 63 is arranged on the telescopic rod 62; the telescopic rod 62 is used for extending into the pipeline, so that the camera 63 synchronously enters the pipeline. The third lifting only pushes the telescopic rod 62 and the camera 63 on the telescopic rod 62 to the position with the same height as the pipeline, the telescopic rod 62 extends into the pipeline, and the camera 63 is used for detecting the interior of the pipeline.

When detecting, do not need the manual work to arrange detection mechanism 60 in the pipeline, only need adopt third hoisting frame 61 to operate, avoid the risk that manual operation exists. During detection, only the detection module for acquiring data is inserted into the pipeline, so that the detection mechanism 60 is prevented from being damaged.

The extension pole 62 can be advanced into the interior of the conduit using existing advancing mechanisms on the extension pole 62. The first lifting frame 42, the second lifting frame 52 and the third lifting frame 61 can all adopt a motor system or a hydraulic system to realize the directional movement of the corresponding components from the platform 10 to the pipeline. The controllers of the above components can be integrated in the control center 11, and existing control software can be adopted to integrate control through the control center 11.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A pipeline repairing construction platform is characterized by comprising a movable platform, and a stirring mechanism, a filling mechanism, an inner lining pad and a traction mechanism which are arranged on the platform;

the traction mechanism is used for drawing the inner lining pad into the interior of the pipeline;

when the inner liner is filled inside to support the inner liner, a gap is formed between the outer wall of the inner liner and the inner wall of the pipeline;

the stirring mechanism is used for mixing grouting materials;

and the filling mechanism is connected with the stirrer and is used for filling the gap with the grouting material.

2. The pipe rehabilitation construction platform of claim 1, wherein the agitation mechanism comprises an agitator, an automatic feeding device, and a first metering device;

the automatic feeding device is used for conveying raw materials to the stirring machine, and the first metering device is used for metering the input amount of the raw materials;

the stirring machine is used for stirring to form mixed grouting material and conveying the mixed grouting material to the grouting mechanism.

3. The pipe rehabilitation and construction platform of claim 2, wherein the input end of the grouting mechanism is connected with the output end of the mixer;

the input end of the grouting mechanism is provided with a second metering device;

the second metering device is used for metering the input quantity of the grouting material input by the grouting mechanism, and the input quantity of the grouting material is equal to the input quantity of the raw materials metered by the first metering device.

4. The pipe rehabilitation construction platform of claim 1, wherein a reel bracket is provided on the platform;

the inner liner is arranged on the scroll support.

5. The pipe repair construction platform of claim 4, wherein the platform is provided with a first lifting frame, and the reel bracket is provided with a reel;

the lining mat is wound on the reel, and the first lifting frame is used for driving the reel bracket to move so that the reel is equal to the pipeline axis in height.

6. The pipe repair construction platform of claim 5, wherein the reel bracket is provided with an automatic closing device;

when the reel is equal to the axis of the pipeline in height, the traction mechanism pulls the inner liner to enter the pipeline through the automatic closing device.

7. The pipe repair construction platform of claim 5, wherein a traction mechanism support is provided on the platform, and the traction mechanism is provided on the traction mechanism support;

the platform is provided with a second lifting frame, the traction mechanism support is connected with the second lifting frame, and the second lifting frame is used for driving the traction mechanism support to move so that the traction mechanism and the pipeline axis are equal in height.

8. The pipe repair construction platform of claim 1, wherein a detection mechanism is provided on the platform;

the detection mechanism is used for extending into the pipeline and detecting the interior of the pipeline.

9. The pipe rehabilitation construction platform of claim 8, wherein the detection mechanism is provided with a camera;

a third lifting frame is arranged on the platform, a telescopic rod is arranged on the third lifting frame, and the camera is arranged on the telescopic rod;

the telescopic rod is used for stretching into the interior of the pipeline, so that the camera synchronously enters the interior of the pipeline.

10. The pipeline rehabilitation construction platform of claim 1, wherein a control center is provided on the platform;

the control center is respectively connected with the stirring mechanism, the grouting mechanism and the traction mechanism through signal lines.

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