CN116658679A - Buried pipeline construction device and construction method for municipal wastewater treatment - Google Patents

Abstract

The application relates to a buried pipeline construction device for municipal sewage treatment, which comprises side plates arranged on the inner sides of two side walls of a groove, wherein the two side plates are vertically arranged, supporting wheels are arranged at the bottoms of the two side plates, lifting assemblies are arranged on the side plates, at least two lifting assemblies are arranged along the length direction of the side plates, moving assemblies are connected to the two lifting assemblies, the two lifting assemblies are matched with each other and used for adjusting the height and the inclination angle of the moving assemblies, lifting assemblies for clamping single-section pipelines are arranged on the moving assemblies, and at least two lifting assemblies are arranged on the lifting assemblies; the hoisting component comprises a horizontal adjusting component, a supporting component and a clamping component for clamping the unit pipeline; the supporting component is used for being connected to the corresponding moving assembly of the two side plates, the horizontal adjusting component is connected between the supporting component and the clamping component, and the horizontal adjusting component is used for adjusting the horizontal position of the lifting assembly. The application has the effect of bringing convenience for workers to butt joint the concrete precast pipe in the groove.

Description

Buried pipeline construction device and construction method for municipal wastewater treatment

Technical Field

The application relates to the technical field of buried pipeline construction, in particular to a buried pipeline construction device and a buried pipeline construction method for municipal sewage treatment.

Background

The buried pipeline mainly refers to a pipeline which is positioned below the ground due to the installation position, and is widely used because the buried pipeline can reduce the influence on roads in urban construction, and is divided into a buried pipeline for municipal sewage, a geothermal pipeline and the like due to different uses of the pipeline. The pipeline for municipal sewage can be made of different materials according to the geological conditions of construction, and comprises a concrete prefabricated pipe, a glass fiber reinforced plastic sand inclusion pipeline, a polyurethane heat preservation pipe and a metal steel corrugated pipe.

The related art discloses a buried pipeline construction method for sewage treatment, which comprises the steps of firstly digging a groove on the ground by adopting an excavator, wherein the depth of the groove is greater than 1 meter, the width of the groove is greater than the diameter of a pipeline, then constructing a base station at the bottom of the groove, placing the pipeline on the base station of the groove by adopting a crane, then placing a sealing ring at the end part of the pipeline, pushing the pipeline from one end of the pipeline by a worker to insert the pipeline into the installed pipeline, butting two adjacent pipelines, and carrying out layered landfill after internal pressure test of the pipeline.

However, when the pipeline in the structure adopts the concrete prefabricated pipe, due to the fact that the weight of a single-section pipeline is large, workers need to match the pipeline by adopting an excavator to butt the pipeline, and the difficulty of the butt joint process is large.

Disclosure of Invention

The application provides a buried pipeline construction device for municipal sewage treatment and a construction method thereof, which are convenient for workers to butt joint concrete precast pipes in a groove.

The application provides a buried pipeline construction device for municipal sewage treatment, which adopts the following technical scheme:

the utility model provides a municipal wastewater treatment is with buried pipeline construction device, includes the curb plate that sets up in the inboard of two lateral walls of slot, and two curb plates are vertical to be set up, and the bottom of two curb plates all is provided with the supporting wheel, be provided with lifting unit on the curb plate, lifting unit sets up two at least along the length direction of curb plate, is connected with the removal subassembly on two lifting unit, and two lifting unit cooperation are used for adjusting the height and the inclination of removal subassembly, install the lifting unit that are used for pressing from both sides getting single section pipeline on the removal subassembly, the lifting unit sets up two at least; the lifting assembly comprises a horizontal adjusting part, a supporting part and a clamping part for clamping the unit pipeline; the supporting component is used for being connected to the corresponding moving assembly of the two side plates, the horizontal adjusting component is connected between the supporting component and the clamping component, and the horizontal adjusting component is used for adjusting the horizontal position of the lifting assembly.

Through adopting above-mentioned technical scheme, during the use, the inner wall of two slots all corresponds a curb plate, two curb plates support through the supporting wheel, set up lifting unit on the curb plate, install the removal subassembly on the lifting unit simultaneously, set up lifting unit on the removal subassembly, the clamping part in the lifting unit is earlier with single section pipeline clamp get the back, it is risen single section pipeline by lifting unit, the rethread removes the subassembly and is close to the pipeline position that has been installed, when need adjust the position of single section pipeline, carry out the level adjustment by the level adjustment part, lifting unit carries out vertical adjustment, the angle of rethread two lifting unit to the pipeline is adjusted, thereby can make the pipeline that needs to install align with the pipeline that has installed, thereby conveniently adopt the pipeline of concrete precast pipe to dock in the slot.

Preferably, the support component comprises two connecting rods, a rotating shaft is arranged at the middle position of the two connecting rods, the two connecting rods are connected through the rotating shaft in a rotating mode, one ends, far away from the rotating shaft, of the two connecting rods are respectively and correspondingly arranged on a moving assembly, the two connecting rods form a V-shaped structure which is opened downwards, and the horizontal adjusting component is arranged on the rotating shaft.

Through adopting above-mentioned technical scheme, the intermediate position of two connecting rods is rotated through the pivot and is connected, because horizontal support assembly installs in the pivot to make the gravity of pipeline exert on supporting part from the intermediate position of two connecting rods, thereby make two connecting rods have the trend of opening downwards, and then can make two connecting rods pass through the movable assembly with curb plate butt on the inner wall of slot, reduce the pressure that the supporting wheel received and sink into the bottom of slot.

Preferably, the clamping component comprises two clamping jaws, a horizontal seat and a driving screw, the two clamping jaws are oppositely arranged, a single section of pipeline is placed between the two clamping jaws, the horizontal seat is horizontally arranged, the middle position of the horizontal seat is connected with the horizontal adjusting component, the clamping jaws are slidably connected to the horizontal seat, the driving screw is parallel to the horizontal seat, a clamping motor is fixedly arranged on the horizontal seat, an output shaft of the clamping motor is coaxially and fixedly connected with the driving screw, and threads at two ends of the driving screw are oppositely arranged in a screwing mode.

Through adopting above-mentioned technical scheme, clamping jaw sliding connection is on the horizontal seat, and the screw thread at drive screw both ends revolves to opposite, and two clamping jaws can be close to each other or keep away from each other when drive screw rotates to can make things convenient for two clamping jaws to press from both sides the single section pipeline and get.

Preferably, the horizontal adjusting component comprises a swing rod, an adjusting motor, a driving gear and a gear ring, one end of the swing rod is fixed on a rotating shaft, the other end of the swing rod is rotatably arranged at the middle position of the clamping component, the adjusting motor is fixed on the rotating shaft, the driving gear is coaxially fixed on an output shaft of the adjusting motor, the gear ring is fixedly connected with a connecting rod, the center line of the gear ring coincides with the center line of the rotating shaft, and the driving gear is meshed with the gear ring.

Through adopting above-mentioned technical scheme, the one end fixed pivot of pendulum rod is last, and the other end rotates the intermediate position of installing at clamping part, and when driving gear rotated through the regulating motor drive, the driving gear can drive the pivot and rotate for the connecting rod, and then rotates the pendulum rod, makes the pipeline horizontal direction that clamping part pressed from both sides and got adjust.

Preferably, the lifting assembly comprises a sliding rail, a sliding block and a lifting motor, the sliding rail is vertically arranged, the sliding block is slidably connected to the sliding rail, the lifting motor is fixed to the side plate, a lifting screw is coaxially and fixedly arranged on an output shaft of the lifting motor, the lifting screw is parallel to the sliding rail, the sliding block is in threaded connection with the lifting screw, and the moving assembly is arranged on the sliding block.

Through adopting above-mentioned technical scheme, the slide rail is vertical to be set up, and slider sliding connection is on the slide rail, and elevator motor during operation, elevator motor can drive elevator screw and rotate to make the slider of threaded connection on elevator screw remove in vertical direction, thereby can drive the altitude mixture control of moving assembly in vertical direction.

Preferably, the moving assembly comprises a rack, a sliding seat and a rolling gear, wherein two ends of the rack extend to the positions of the two sliding blocks, an installation shaft is arranged on the sliding blocks, a bearing is arranged on the installation shaft, one end of the rack is rotationally connected to the installation shaft through the bearing, the other end of the rack is slidingly connected to the installation shaft through the bearing, the sliding seat is slidingly connected to the rack and is driven by the rolling gear to move along the length direction of the rack, and the supporting component is connected to the sliding seat.

Through adopting above-mentioned technical scheme, the both ends of rack extend to the position of two sliders, are provided with the installation axle on the slider, are provided with the bearing on the installation axle, rotate rack one end on the installation axle through the pivot, and the installation epaxial slip that the other end can be relative, and then can make the inclination of rack adjust.

Preferably, two rolling gears are arranged along the length direction of the rack, driving gears are rotatably arranged on the sliding seat, the two rolling gears are arranged at intervals and are meshed with the driving gears, a driving motor is fixedly arranged on the sliding seat, and an output shaft of the driving motor is fixedly connected with the driving gears in a coaxial mode.

Through adopting above-mentioned technical scheme, rolling gear sets up two along the length direction of rack, makes rolling gear can stably support the sliding seat, and drive gear and two rolling gear external engagement make drive gear can drive two rolling gear equidirectional rotations, and then can drive the sliding seat and remove moreover.

Preferably, two be provided with horizontal support assembly between the curb plate, horizontal support assembly is including rotating screw rod, rotation motor and outer tube, the outer tube is coaxial with the rotation screw rod setting and the one end of rotating the screw rod inserts the inside of outer tube, rotates screw rod and outer tube threaded connection, rotation motor sliding connection is in the inside of outer tube, rotation screw rod and the coaxial fixed connection of rotation motor's output shaft.

Through adopting above-mentioned technical scheme, rotate motor sliding connection on the outer tube, rotate the output shaft of motor and rotate the screw rod coaxial fixation, when rotating the motor during operation, rotate the screw rod and rotate to can make the rotation screw rod adjust for the length direction of outer tube, and then adjust the position between two curb plates, make two curb plates loose from the inner wall of slot, conveniently remove.

The application provides a buried pipeline construction method for municipal sewage treatment, which adopts the following technical scheme:

the utility model provides a municipal wastewater treatment is with buried pipeline construction method, includes the excavation slot, and two lateral walls vertical settings of slot with curb plate butt on the inner wall of slot, then after the pipeline is placed the slot in, with lifting assembly cooperation lifting assembly with the pipeline clamp get the back, the rethread removes the pipeline that will install to the pipeline that has installed on to accomplish the butt joint.

Through adopting above-mentioned technical scheme, the vertical setting of lateral wall of slot, curb plate butt are on the inner wall of slot to can make lifting assembly and the in-process that lifting assembly lifted by crane the pipeline, provide effort by the inner wall of slot, make the slot more stable.

Preferably, when the pipeline to be installed and the end part of the installed pipeline are misplaced, the horizontal position is adjusted through the horizontal adjusting component in the lifting assembly, the vertical position of the pipeline is adjusted by matching with the lifting assembly, and meanwhile, the angle of the pipeline is adjusted by the two lifting assemblies, so that the pipeline to be installed is aligned with the end part of the installed pipeline.

Through adopting above-mentioned technical scheme, the horizontal position of horizontal adjustment part to pipeline is adjusted, and lifting unit adjusts the high position of pipeline, and two lifting unit cooperation are adjusted the angle of pipeline to can be right two pipelines, conveniently dock the pipeline.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the horizontal adjusting component is used for carrying out horizontal adjustment, the lifting component is used for carrying out vertical adjustment, and the two lifting components are used for adjusting the angle of the pipeline, so that the pipeline to be installed and the installed pipeline can be aligned, and the pipeline adopting the concrete prefabricated pipe can be conveniently butted in the groove;

2. the gravity of the pipeline is applied to the supporting part from the middle position of the two connecting rods, so that the two connecting rods have a downward opening trend, and the two connecting rods can enable the side plates to be abutted against the inner wall of the groove through the moving assembly;

3. when the rotary motor works, the rotary screw rod rotates, so that the rotary screw rod can be adjusted relative to the length direction of the outer sleeve, the position between the two side plates is adjusted, the two side plates are loosened from the inner wall of the groove, and the rotary screw rod is convenient to move.

Drawings

FIG. 1 is a schematic view of the use state of an embodiment of the present application;

FIG. 2 is a schematic overall structure of an embodiment of the present application;

FIG. 3 is a schematic view of a mounting structure of a lifting assembly according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a mobile assembly according to an embodiment of the present application;

FIG. 5 is a schematic view of a lifting assembly in accordance with an embodiment of the application;

FIG. 6 is a schematic view of the structure of a horizontal adjustment member in an embodiment of the present application;

fig. 7 is a schematic structural view of a horizontal support assembly according to an embodiment of the present application.

Reference numerals illustrate: 1. a side plate; 11. a support wheel; 2. a groove; 3. a horizontal support assembly; 31. rotating the screw; 32. a rotating motor; 33. an outer sleeve; 4. a lifting assembly; 41. a clamping member; 411. a clamping jaw; 412. a horizontal seat; 413. driving a screw; 414. clamping a motor; 42. a horizontal adjustment member; 421. swing rod; 422. adjusting a motor; 423. a drive gear; 424. a gear ring; 43. a support member; 431. a connecting rod; 432. a rotating shaft; 5. a lifting assembly; 51. a slide rail; 52. a slide block; 53. a lifting motor; 54. lifting screw rods; 6. a moving assembly; 61. a rack; 611. a long strip groove; 62. a drive gear; 63. a rolling gear; 64. a mounting shaft; 65. a bearing; 66. a sliding seat; 661. a roller; 67. a driving motor; 7. a pipeline.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

The embodiment of the application discloses a buried pipeline construction device for municipal sewage treatment, which comprises two side plates 1, wherein two side walls of a groove 2 excavated on the ground are vertically arranged, the two side plates 1 are adhered to the surfaces of two vertical inner walls of the groove 2, a horizontal support component 3 is arranged between the two side plates 1, and the distance between the two side plates 1 can be adjusted through the horizontal support component 3. A support wheel 11 is provided at a lower portion of the side plate 1, the support wheel 11 being for supporting the side plate 1, the support wheel 11 being for moving the side plate 1 along a length direction of the groove 2. During the use, be close to two curb plates 1 relatively through horizontal support component 3 earlier, then remove through supporting wheel 11 along the length direction of slot 2, then rethread horizontal support component 3 is close to curb plate 1 to the lateral wall of slot 2, makes curb plate 1 and the lateral wall butt of slot 2, because the setting of curb plate 1 can protect the lateral wall of slot 2, reduces the lateral wall of slot 2 and takes place to collapse.

Referring to fig. 1 and 5, a lifting assembly 4 is disposed between two side plates 1, a lifting assembly 5 is mounted on the side plates 1, the lifting assembly 4 is mounted on the lifting assembly 5, the lifting assembly 4 is lifted by the lifting assembly 5, and at least two lifting assemblies 4 are disposed; be provided with between lifting unit 4 and lifting unit 5 and remove subassembly 6, remove subassembly 6 and remove along the direction of movement of the pipeline 7 that needs to install, two lifting unit 4 set up around removing the direction of subassembly 6, place a section of pipeline 7 of waiting to install in advance in the bottom of slot 2, pipeline 7 is the concrete prefabricated pipe, the both ends of pipeline 7 clamp through lifting unit 4 and get, then adjust the height of pipeline 7 by lifting unit 5, remove lifting unit 4 along the direction of length of curb plate 1 by removing subassembly 6 again, make pipeline 7 dock under lifting unit 4's drive.

Referring to fig. 3, the lifting assembly 5 includes a slide rail 51, a slider 52 and a lifting motor 53, the slide rail 51 is vertically disposed, two lifting assemblies 5 are disposed on each side plate 1, and the two lifting assemblies 5 are disposed at intervals. The slide rail 51 is fixed to the opposite surfaces of the two side plates 1. The slider 52 sliding connection is in slide rail 51, the fixed elevator motor 53 that sets up in the bottom of curb plate 1, coaxial coupling has elevator screw 54 on the output shaft of elevator motor 53, elevator screw 54 is on a parallel with slide rail 51 and is located the inside of slide rail 51, elevator screw 54 and slide rail 51 threaded connection, can drive elevator screw 54 through the work of elevator motor 53 and rotate, thereby install the slider 52 on elevator screw 54 and can carry out the altitude mixture control along the length direction of slide rail 51, install mobile unit 6 on slider 52, make mobile unit 6 can go up and down along with the removal of slide rail 51.

Referring to fig. 2 and 4, the moving assembly 6 includes a rack 61, a driving gear 62 and a rolling gear 63, a mounting shaft 64 perpendicular to the side plate 1 is provided on the slider 52, a bearing 65 is provided on the mounting shaft 64, both ends of the rack 61 are connected to the mounting shaft 64 through the bearing 65, wherein one end of the rack 61 is rotatably mounted on the mounting shaft 64 through the bearing 65, the other end is provided with a long groove 611, the bearing 65 is positioned in the long groove 611, so that the rack 61 can slide relative to the other mounting shaft 64, both ends of the rack 61 are correspondingly connected to the corresponding sliders 52, so that when the two sliders 52 are adjusted in height, on one hand, the height of the rack 61 can be adjusted, and on the other hand, the inclination angle of the rack 61 can be adjusted, thereby adapting to the inclination angle of the pipe 7. A slide seat 66 is slidably connected to the rack 61, the slide seat 66 slides along the length direction of the rack 61, the drive gear 62 is rotatably mounted on the slide seat 66, the rolling gear 63 is also rotatably mounted on the slide seat 66, and the rolling gears 63 are provided in two. The two rolling gears 63 are disposed at intervals along the length direction of the rack 61 and engaged with the rack 61, so that the two rolling gears 63 serve to support the slide mount 66. The driving gear 62 is simultaneously externally meshed with the two rolling gears 63, so that the rotation directions of the two rolling gears 63 are the same, the driving gear 62 is connected with a driving motor 67, an output shaft of the driving motor 67 is fixedly connected with the driving gear 62 coaxially, and the driving motor 67 is fixed on the sliding seat 66, so that when the driving motor 67 works, the driving motor 67 can drive the two rolling gears 63 in the same direction through the driving gear 62, and then the sliding seat 66 moves along the length direction of the rack 61.

Referring to fig. 5, the lifting assembly 4 includes a clamping member 41, a horizontal adjusting member 42 and a supporting member 43, the supporting member 43 includes two connecting rods 431, the two connecting rods 431 are correspondingly mounted on the sliding seats 66 of the two moving assemblies 6, one ends of the connecting rods 431 are vertically rotatably connected to the sliding seats 66, one ends of the two connecting rods 431, which are far from the sliding seats 66, are provided with rotating shafts 432, the two connecting rods 431 are rotatably connected through the rotating shafts 432, the two connecting rods 431 form a downwardly opened V-shape, and the distance between the two side plates 1 is smaller than the total length of the two connecting rods 431. Referring to fig. 4, a roller 661 is disposed on a surface of the sliding seat 66 facing the side plate 1, the roller 661 may be a spherical or universal wheel, the roller 661 is used for abutting against an inner side surface of the side plate 1, the connecting rod 431 is located on a surface of the sliding seat 66 far away from the roller 661, when the connecting rod 431 is stressed, the two sliding seats 66 are abutted against the side plate 1, and the roller 661 can reduce friction force to the side plate 1. The horizontal adjusting part 42 is arranged on the rotating shaft 432, the clamping part 41 is connected to the horizontal adjusting part 42, after the clamping part 41 clamps a section of pipeline 7, the gravity of the pipeline 7 is transferred to the connecting position of the two connecting rods 431 through the horizontal adjusting part 42, so that the two connecting rods 431 move in the opening direction, the two side plates 1 can further be abutted against the inner wall of the groove 2, the supporting wheels 11 sink into the bottom of the groove 2 due to the fact that the gravity received below the side plates 1 is large is reduced, and a section of pipeline 7 is supported by the friction force between the side plates 1 and the inner wall of the groove 2; while the inward collapse of the side walls of the trench 2 can be reduced.

Referring to fig. 5, the clamping member 41 includes two clamping jaws 411, a horizontal seat 412 and a driving screw 413, the driving screw 413 is perpendicular to the direction of the side plate 1, the two clamping jaws 411 are oppositely arranged, the horizontal seat 412 is horizontally arranged at the upper end of the clamping jaw 411, the upper end of the clamping jaw 411 is arranged in a T shape, the clamping jaw 411 can be slidably connected in the horizontal seat 412, the length direction of the horizontal seat 412 is perpendicular to the side plate 1, the two clamping jaws 411 can clamp a single-section pipe 7 when being relatively close, the length direction of the driving screw 413 is parallel to the horizontal seat 412, the driving screw 413 is rotatably connected to the horizontal seat 412, the driving screw 413 is in threaded connection with the clamping jaws 411, and threads at two ends of the driving screw 413 are oppositely arranged in a rotary direction, so that the two clamping jaws 411 can be relatively close or far away when the driving screw 413 rotates. The clamping motor 414 is fixedly arranged on the horizontal seat 412, an output shaft of the clamping motor 414 is fixedly connected with the driving screw 413 in a coaxial mode, the driving screw 413 can be driven to rotate when the clamping motor 414 works, so that two clamping jaws 411 are close to or far away from each other, rubber pads can be fixed on the inner walls of the clamping jaws 411, the inner walls of the clamping jaws 411 are used for being abutted against the outer walls of the single-section pipelines 7, and the clamping jaws 411 can fix the single-section pipelines 7.

Referring to fig. 5 and 6, the horizontal adjusting part 42 includes a swing rod 421, an adjusting motor 422, a driving gear 423 and a gear ring 424, one end of the swing rod 421 is fixed at an end of the rotating shaft 432, the other end is rotatably connected to a middle position of the horizontal seat 412, the swing rod 421 can rotate under the action of the rotating shaft 432, the adjusting motor 422 is fixed inside the rotating shaft 432, the driving gear 423 is coaxially fixed on an output shaft of the adjusting motor 422, the gear ring 424 can be arranged on an inner wall of a hole of the rotating shaft 432 through which the driving gear 423 is inserted, so that the driving gear 423 is meshed with the gear ring 424, when the adjusting motor 422 works, the adjusting motor 422 can drive the rotating shaft 432 to rotate through the driving gear 423 and the gear ring 424, and then the other end of the swing rod 421 can be adjusted in a position perpendicular to the direction of the side plate 1, so that a pipe 7 clamped by the clamping jaw 411 can be adjusted in the horizontal direction, and the height variation in the adjusting process can be adapted through the lifting assembly 5, so that the end of the single-section pipe 7 is aligned with the installed pipe 7.

Referring to fig. 7, the horizontal support assembly 3 installed between two side plates 1 includes a rotation screw 31, a rotation motor 32 and an outer sleeve 33, the outer sleeve 33 and the rotation screw 31 are both perpendicular to the side plates 1, one end of the rotation screw 31 is rotatably connected to one side plate 1, one end of the outer sleeve 33 is fixed to the other side plate 1, the center line of the rotation screw 31 coincides with the center line of the outer sleeve 33, one end of the rotation screw 31 far from the side plate 1 is inserted into the outer sleeve 33 and is in threaded connection with the outer sleeve 33, the rotation motor 32 is slidably connected inside the outer sleeve 33, the output shaft of the rotation motor 32 is fixedly connected with the rotation screw 31 coaxially, when the rotation motor 32 works, the rotation screw 31 can rotate relative to the outer sleeve 33, and then the rotation screw 31 is adjusted along the length of the outer sleeve 33, so that the distance between the two side plates 1 can be adjusted.

The embodiment of the application also discloses a construction method of the buried pipeline for municipal sewage treatment, which is characterized in that the buried pipeline construction device for municipal sewage treatment is adopted to butt joint the pipeline 7, the groove 2 is firstly dug on the ground, the inner wall of the groove 2 is vertically arranged, then the pipeline 7 is hung at the bottom of the groove 2, the lifting assembly 4 is moved to the position above the pipeline 7 to be installed through the supporting wheel 11, the lifting assembly 4 moves downwards under the action of the lifting assembly 5, then the pipeline 7 is clamped by the clamping component 41, the pipeline 7 to be installed is mutually close to the pipeline 7 to be installed through the moving assembly 6, when the end part of the pipeline 7 is not correctly butted, the end part position of the pipeline 7 is horizontally adjusted through the horizontal adjusting component 42, and the end part position of the pipeline 7 is vertically adjusted through the lifting assembly 5, so that the end part of the pipeline 7 is correctly butted, the two lifting assemblies 4 are arranged at the front and the back, the angle of the pipeline 7 to be installed can also be adjusted, the trend of the pipeline 7 to be installed is controlled, and then the pipeline 7 to be installed is inserted into the installed pipeline 7 through the moving assembly 6.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (10)

1. Buried pipeline construction device for municipal wastewater treatment, which is characterized in that: the lifting device comprises side plates (1) arranged on the inner sides of two side walls of a groove (2), wherein the two side plates (1) are vertically arranged, supporting wheels (11) are arranged at the bottoms of the two side plates (1), lifting assemblies (5) are arranged on the side plates (1), at least two lifting assemblies (5) are arranged along the length direction of the side plates (1), moving assemblies (6) are connected to the two lifting assemblies (5), the two lifting assemblies (5) are matched with each other to be used for adjusting the height and the inclination angle of the moving assemblies (6), lifting assemblies (4) for clamping single-section pipelines (7) are arranged on the moving assemblies (6), and at least two lifting assemblies (4) are arranged; the lifting assembly (4) comprises a horizontal adjusting component (42), a supporting component (43) and a clamping component (41) for clamping the unit pipeline (7); the supporting part (43) is used for being connected to the corresponding moving assembly (6) of the two side plates (1), the horizontal adjusting part (42) is connected between the supporting part (43) and the clamping part (41), and the horizontal adjusting part (42) is used for adjusting the horizontal position of the lifting assembly (4).

2. The buried pipeline construction device for municipal sewage treatment according to claim 1, wherein: the supporting part (43) comprises two connecting rods (431), a rotating shaft (432) is arranged at the middle position of the two connecting rods (431), the two connecting rods (431) are connected in a rotating mode through the rotating shaft (432), one ends, far away from the rotating shaft (432), of the two connecting rods (431) are respectively and correspondingly arranged on a moving assembly (6), the two connecting rods (431) form a V-shaped structure which is opened downwards, and the horizontal adjusting part (42) is arranged on the rotating shaft (432).

3. The buried pipeline construction device for municipal sewage treatment according to claim 2, wherein: clamping part (41) are including two clamping jaw (411), horizontal seat (412) and drive screw (413), and two clamping jaw (411) set up relatively, are used for placing single section pipeline (7) between two clamping jaw (411), horizontal seat (412) level sets up, the intermediate position and the horizontal adjustment part (42) of horizontal seat (412) are connected, clamping jaw (411) sliding connection is on horizontal seat (412), drive screw (413) are on a parallel with horizontal seat (412) setting to fixed clamp motor (414) that are provided with on horizontal seat (412), the output shaft and the coaxial fixed connection of drive screw (413) of clamp motor (414), the screw thread at drive screw (413) both ends revolves to setting in opposite directions.

4. A buried pipeline construction apparatus for municipal sewage treatment according to claim 2 or 3, wherein: the horizontal adjusting component (42) comprises a swinging rod (421), an adjusting motor (422), a driving gear (423) and a gear ring (424), one end of the swinging rod (421) is fixed on a rotating shaft (432), the other end of the swinging rod is rotatably arranged at the middle position of the clamping component (41), the adjusting motor (422) is fixed on the rotating shaft (432), the driving gear (423) is coaxially fixed on an output shaft of the adjusting motor (422), the gear ring (424) is fixedly connected with a connecting rod (431), the center line of the gear ring (424) coincides with the center line of the rotating shaft (432), and the driving gear (423) is meshed with the gear ring (424).

5. The buried pipeline construction device for municipal sewage treatment according to claim 1, wherein: lifting assembly (5) are including slide rail (51), slider (52) and elevator motor (53), slide rail (51) are vertical to be set up, slider (52) sliding connection is on slide rail (51), elevator motor (53) are fixed on curb plate (1) to coaxial fixed being provided with elevator screw (54) on the output shaft of elevator motor (53), elevator screw (54) are on a parallel with slide rail (51) setting, slider (52) threaded connection is on elevator screw (54), remove subassembly (6) and install on slider (52).

6. The buried pipeline construction device for municipal sewage treatment according to claim 5, wherein: the movable assembly (6) comprises a rack (61), a sliding seat (66) and a rolling gear (63), wherein two ends of the rack (61) extend to the positions of two sliding blocks (52), a mounting shaft (64) is arranged on each sliding block (52), a bearing (65) is arranged on each mounting shaft (64), one end of the rack (61) is rotatably connected to one mounting shaft (64) through the bearing (65), the other end of the rack (61) is slidably connected to the mounting shaft (64) through the bearing (65), the sliding seat (66) is slidably connected to the rack (61) and is driven by the rolling gear (63) to move along the length direction of the rack (61), and the supporting part (43) is connected to the sliding seat (66).

7. The buried pipeline construction device for municipal sewage treatment according to claim 6, wherein: the rolling gears (63) are arranged in two along the length direction of the rack (61), the driving gears (62) are rotatably arranged on the sliding seat (66), the two rolling gears (63) are arranged at intervals and are meshed with the driving gears (62), the driving motor (67) is fixedly arranged on the sliding seat (66), and an output shaft of the driving motor (67) is fixedly connected with the driving gears (62) in a coaxial mode.

8. The buried pipeline construction device for municipal sewage treatment according to claim 1, wherein: be provided with horizontal support component (3) between two curb plate (1), horizontal support component (3) are including rotating screw rod (31), rotation motor (32) and outer tube (33), outer tube (33) and the coaxial setting of rotating screw rod (31) and the inside of rotating screw rod (31) are inserted to outer tube (33), rotate screw rod (31) and outer tube (33) threaded connection, rotation motor (32) sliding connection is in the inside of outer tube (33), rotate screw rod (31) and the coaxial fixed connection of output shaft of rotation motor (32).

9. A municipal wastewater treatment is with buried pipeline construction method, adopt the municipal wastewater treatment to use the buried pipeline construction device of any one of claims 1-8 to carry out construction, its characterized in that: including dig slot (2), the vertical setting of two lateral walls of slot (2), with curb plate (1) butt on the inner wall of slot (2), then pipeline (7) are placed in slot (2) after with lifting element (4) cooperation lifting element (5) with pipeline (7) clamp get, rethread remove subassembly (6) will wait to install pipeline (7) to on the pipeline (7) of installation to accomplish the butt joint.

10. The method for constructing the buried pipeline for municipal sewage treatment according to claim 9, wherein the method comprises the following steps: when the end of the pipeline (7) to be installed is misplaced with the end of the installed pipeline (7), the horizontal position of the pipeline (7) is adjusted through a horizontal adjusting component (42) in the lifting assembly (4), the vertical position of the pipeline (7) is adjusted by matching with the lifting assembly (5), and meanwhile, the angle of the pipeline (7) is adjusted by the two lifting assemblies (4), so that the pipeline (7) to be installed is aligned with the end of the installed pipeline (7).