CN110565778A

CN110565778A - a mounting structure for road rainwater pipeline

Info

Publication number: CN110565778A
Application number: CN201910786867.7A
Authority: CN
Inventors: 方明浩; 方赛赛
Original assignee: Giant Construction Group Co Ltd
Current assignee: Giant Construction Group Co Ltd
Priority date: 2019-08-24
Filing date: 2019-08-24
Publication date: 2019-12-13
Anticipated expiration: 2039-08-24
Also published as: CN110565778B

Abstract

The invention discloses an installation structure for a road rainwater pipeline, which relates to the technical field of road rainwater pipeline installation, and adopts the technical scheme that the installation structure comprises a moving frame, a plurality of driving wheels, a traction vehicle head, a pipe placing device and a pipe hanging device; the pipe placing device comprises a first arc-shaped groove, an extension frame, a first rotating plate, a second arc-shaped groove, a second rotating plate, a third arc-shaped groove, a driving mechanism, two groups of supporting assemblies and a material guiding mechanism; the second arc-shaped groove and the third arc-shaped groove are encircled to form a fourth arc-shaped groove, the outer side of the bottom of the second arc-shaped groove is fixedly connected with a supporting plate, and the outer side of the bottom of the third arc-shaped groove corresponding to the supporting plate is provided with a notch; the support assembly comprises two latch racks and a latch plate; the material guide mechanism comprises a material guide plate and a plurality of guide rollers; the pipe hanging device comprises a moving plate, a fixing mechanism and a vertical moving mechanism. The rainwater pipeline is conveniently placed into the groove by arranging the pipe placing device and the pipe hanging device, so that the possibility of injury to operators can be reduced.

Description

A mounting structure for road rainwater pipeline

Technical Field

The invention relates to the technical field of road rainwater pipeline installation, in particular to an installation structure for a road rainwater pipeline.

Background

With the rapid development of national economy, highway and railway interchange projects built in various parts of the country increase day by day. The drainage design of the road is an important link and an essential element of municipal road construction, and the drainage design is unreasonable, so that serious accumulated water is easily caused. In the construction of the urban rainwater collection pipeline, the construction quality is considered, the construction progress is also considered, and how to improve the construction progress under the condition of ensuring the construction quality is always one of the solutions needed by technical personnel in the field.

in the existing road rainwater pipeline construction process, the operation of a lower pipe and a connector is as follows: a crane is adopted to cooperate with manual pipe laying; when a crane is used for lowering the pipe, the distance from the crane to the groove side, pipe storage, a driving route and the like are determined according to the environment conditions such as the width depth of the groove, the soil quality and the like; the soft ground is reinforced by square wood bedding to ensure the balance of parking; after the pipe is placed down, the pipe needs to be aligned and straightened, a wood board is arranged under the crow bar, the pipe cannot be directly inserted into a concrete foundation, and after all the pipes between the two inspection wells are completely placed down, the interface can be formed after the slope is checked to be correct.

however, when the rainwater pipe is put into the groove, an operator needs to hold the rainwater pipe, which easily causes injury to the operator.

Disclosure of Invention

In view of the disadvantages of the prior art, an object of the present invention is to provide an installation structure for a road rainwater pipeline, which facilitates the rainwater pipeline to be put into a groove by providing a pipe placing device and a pipe hanging device, thereby reducing the possibility of injury to an operator.

In order to achieve the purpose, the invention provides the following technical scheme: a mounting structure for a road rainwater pipeline comprises a moving frame, a plurality of driving wheels mounted at the bottom of the moving frame, a traction vehicle head for driving the moving frame to move, a pipe placing device mounted at the top of the moving frame and a pipe hanging device mounted at the top of the moving frame; the pipe placing device comprises a first arc-shaped groove arranged at the top of the moving frame, an extension frame fixedly connected to one side of the moving frame, a first rotating plate hinged to one side of the extension frame, which is close to the moving frame, a second arc-shaped groove arranged at one side of the first rotating plate, which is far away from the moving frame, a second rotating plate hinged to one side of the extension frame, which is far away from the moving frame, a third arc-shaped groove arranged at one side of the second rotating plate, which is close to the moving frame, a driving mechanism arranged on the extension frame and used for driving the first rotating plate and the second rotating plate to rotate, two groups of supporting assemblies respectively arranged at two ends of the bottom of the extension frame and used for supporting the first rotating plate and the second rotating plate, and a material guide mechanism arranged at one side of the; the second arc-shaped groove and the third arc-shaped groove are encircled to form a fourth arc-shaped groove, a supporting plate is fixedly connected to the outer side of the bottom of the third arc-shaped groove, and a notch is formed in the outer side of the bottom of the second arc-shaped groove corresponding to the supporting plate; each group of support components comprises two bolt frames fixedly connected to one end of the bottom of the extension frame and a bolt plate inserted in the two bolt frames; the material guide mechanism comprises a material guide plate hinged to one side of the moving frame, which is far away from the extending frame, and a plurality of guide rollers which are sequentially and rotatably connected to the top of the material guide plate along the width direction of the material guide plate; the pipe hanging device comprises a movable plate arranged above the movable frame, a fixing mechanism arranged at the bottom of the movable plate and used for fixing the rainwater pipeline, and a vertical moving mechanism arranged at the top of the movable frame and used for enabling the movable plate to move vertically.

By adopting the technical scheme, the first rotating plate and the second rotating plate are combined through the driving mechanism, then the latch plate is spliced with the latch frame, and then the two rainwater pipelines are pushed into the first arc-shaped groove and the fourth arc-shaped groove respectively; next, fixing the rainwater pipeline in the fourth arc-shaped groove through a fixing mechanism, and enabling the moving plate to move upwards through a vertical moving mechanism; then separating the latch plate from the latch frame, then separating the first rotating plate from the second rotating plate through the driving mechanism, and then putting the rainwater pipeline into the groove through the vertical moving mechanism; the rainwater pipeline is arranged on the first arc-shaped groove, so that the possibility of overturning of the rainwater pipeline of the movable frame in the fourth arc-shaped groove in the descending process can be reduced; in conclusion, through setting up put tub device and hanging pipe device, be convenient for put into the basin with rainwater pipeline, therefore can reduce the possibility that operating personnel received the injury.

The invention is further configured to: the driving mechanism comprises a first lead screw, a driving assembly, a first left thread and a first right thread, a first connecting rod assembly and a second connecting rod assembly, wherein the first lead screw is rotatably connected to the extension frame and arranged along the width direction of the moving frame, the driving assembly is arranged on one side of the moving frame close to the first lead screw and used for driving the first lead screw to rotate, the first left thread and the first right thread are respectively arranged at two ends of the first lead screw, the first connecting rod assembly is arranged on the first left thread and used for driving the first rotating plate to rotate, and the second connecting rod assembly is arranged on the first right thread and used for driving; the first connecting rod component comprises a push rod in threaded connection with a first left thread and a plurality of first guide rods fixedly connected to one side, close to the moving frame, of the extending frame; every it is connected with first sliding sleeve to slide along the width direction of extending the frame on the first guide arm, it has first connecting rod to articulate between first sliding sleeve and the push rod, it has the second connecting rod to articulate between first sliding sleeve and the first revolving plate.

By adopting the technical scheme, the driving assembly drives the first lead screw to rotate, then the two push rods move oppositely under the action of the first left thread and the first right thread, then the two first sliding sleeves move oppositely under the action of the two first connecting rods, the two first sliding sleeves move oppositely to drive the first rotating plate and the second rotating plate to rotate upwards, and therefore the first rotating plate and the second rotating plate can be combined; when the first rotating plate and the second rotating plate are required to be separated, the first lead screw is reversely rotated through the driving assembly; through setting up actuating mechanism, be convenient for make first commentaries on classics board and second commentaries on classics board merge and the separation, therefore be convenient for put into the groove with rainwater pipeline.

the invention is further configured to: the driving assembly comprises a horizontal shaft, a driving bevel gear and a driven bevel gear, wherein the horizontal shaft is rotatably connected to one side of the extension frame, which is close to the first screw rod, and is arranged along the length direction of the extension frame; and one end of the horizontal shaft, which is far away from the driving bevel gear, protrudes out of the outer side of the extension frame and is fixedly connected with a first hand wheel.

Through adopting above-mentioned technical scheme, when the first lead screw of needs drive rotates, through rotating first cell-phone rotation horizontal axis, horizontal axis rotates and drives the rotation of drive bevel gear, and drive bevel gear rotates the rotation of drive bevel gear, and driven bevel gear rotates and drives first lead screw rotation to be convenient for drive first lead screw and rotate.

the invention is further configured to: the fixing mechanism comprises a second lead screw, a second hand wheel, a second left thread, a second right thread, an L-shaped left clamping plate, a L-shaped right clamping plate, a first clamping assembly and a second clamping assembly, wherein the second lead screw is rotatably connected to the bottom of the moving plate and arranged along the length direction of the moving plate; the top of left splint and right splint all is rigid coupling has the dovetail block, the dovetail that is used for supplying the dovetail block to slide along the axial of second lead screw is offered to the bottom of movable plate.

Through adopting above-mentioned technical scheme, when needs are fixed to rainwater pipeline, rotate the second lead screw through rotating the second hand wheel, the second lead screw rotates the left splint of drive and moves with right splint in opposite directions to can make the horizontal segment of left splint and right splint insert rainwater pipeline's both ends respectively, alright fix rainwater pipeline under the effect of first clamping component and second clamping component this moment, therefore can reduce rainwater pipeline and take place the possibility of rocking when following vertical migration.

The invention is further configured to: the first clamping assembly comprises a pressing plate which is connected to one side, close to the right clamping plate, of the left clamping plate in a sliding mode along the vertical direction, a driving plate which is connected to the bottom of the moving plate in a sliding mode along the length direction of the moving plate, and two inclined planes which are arranged on the opposite inner sides of the pressing plate and the driving plate respectively; a second sliding sleeve is fixedly connected to one side, close to the left clamping plate, of the compression plate, a sliding groove for the second sliding sleeve to slide vertically is formed in one side, close to the right clamping plate, of the left clamping plate, a second guide rod is vertically and fixedly connected to the inside of the sliding groove, the second sliding sleeve is connected to the second guide rod in a sliding mode along the vertical direction, a spring is sleeved on the second guide rod, and two ends of the spring are fixedly connected to the bottom of the second sliding sleeve and the bottom of the sliding groove respectively; the top rigid coupling of drive plate has the T-shaped piece, the T-shaped groove that is used for supplying the T-shaped piece to slide along the length direction of movable plate is seted up to the bottom of movable plate, the T-shaped piece passes through bolt and gasket and T-shaped groove rigid coupling.

By adopting the technical scheme, when the horizontal sections of the left clamping plate and the right clamping plate are respectively inserted into two ends of the rainwater pipeline, the driving plate drives the pressing plate to move downwards under the action of the inclined plane, so that the rainwater pipeline can be fixed; the pressing plate moves downwards to drive the second sliding sleeve to move downwards, the second sliding sleeve moves downwards to compress the spring, and the spring is in a compressed state; when the pressing plate needs to be far away from the rainwater pipeline, the pressing plate is far away from the driving plate through reversing the second lead screw, and the second sliding sleeve drives the pressing plate to reset under the action of the spring; to sum up, through setting up first clamping component and second clamping component, be convenient for carry out the dismouting to rainwater pipeline, therefore can reduce operating personnel's intensity of labour.

The invention is further configured to: the vertical moving mechanism comprises an L-shaped fixed frame fixedly connected to the top of the moving frame, a longitudinal moving sliding seat connected to the top of the fixed frame in a sliding manner along the width direction of the moving frame, a longitudinal moving component arranged at the top of the fixed frame and used for driving the longitudinal moving sliding seat to move, a vertical moving sliding seat connected to one side of the longitudinal moving sliding seat in a sliding manner along the vertical direction, and a vertical moving component arranged at the bottom of the longitudinal moving sliding seat and used for driving the vertical moving sliding seat to move; a plurality of hydraulic cylinders are sequentially installed on one side, far away from the longitudinal moving sliding seat, of the longitudinal moving sliding seat along the length direction of the longitudinal moving sliding seat, and each hydraulic cylinder is vertically arranged and a piston rod of each hydraulic cylinder is vertically and downwards fixedly connected with the top of the moving plate.

By adopting the technical scheme, under the action of the driving wheel and the longitudinal moving assembly, the position of the rainwater pipeline is conveniently adjusted; then, starting a hydraulic cylinder, wherein a piston rod of the hydraulic cylinder drives the moving plate to move downwards; then the vertical moving sliding seat is driven to move downwards by the vertical moving component, so that the rainwater pipeline can be placed at a specified position; through setting up the mechanism that erects to move, be convenient for put rainwater pipeline appointed position, therefore can reduce operating personnel's intensity of labour.

The invention is further configured to: the longitudinal moving assembly comprises a first asynchronous motor horizontally arranged at one end of the top of the fixed frame, a third screw rod fixedly connected to an output shaft of the first asynchronous motor and rotatably connected to the top of the fixed frame, and a first guide pillar fixedly connected to the top of the fixed frame; the third lead screw is in threaded connection with the top of the longitudinal sliding seat; the first guide post penetrates through the top of the longitudinal moving sliding seat, and the longitudinal moving sliding seat is connected to the first guide post in a sliding mode along the width direction of the moving frame.

By adopting the technical scheme, the first asynchronous motor is started, the output shaft of the first asynchronous motor drives the third lead screw to rotate, and the third lead screw rotates to drive the longitudinal sliding seat to move, so that the longitudinal sliding seat can move more stably.

the invention is further configured to: the vertical moving assembly comprises a second asynchronous motor arranged at the top of the longitudinal moving sliding seat, a fourth lead screw vertically and fixedly connected to an output shaft of the second asynchronous motor and rotatably connected to one side of the longitudinal moving sliding seat, and a second guide pillar vertically and fixedly connected to one side of the longitudinal moving sliding seat; the fourth lead screw is in threaded connection with the vertical sliding seat; the second guide pillar runs through the vertical sliding seat, and the vertical sliding seat is connected to the second guide pillar in a sliding mode along the vertical direction.

By adopting the technical scheme, the second asynchronous motor is started, the output shaft of the second asynchronous motor drives the fourth lead screw to rotate, and the fourth lead screw rotates to drive the vertical sliding seat to move vertically, so that the vertical sliding seat can move more stably.

in summary, compared with the prior art, the invention has the following beneficial effects:

1. The first rotating plate and the second rotating plate are combined through the driving mechanism, then the latch plate is inserted into the latch frame, and then the two rainwater pipelines are pushed into the first arc-shaped groove and the fourth arc-shaped groove respectively; next, fixing the rainwater pipeline in the fourth arc-shaped groove through a fixing mechanism, and enabling the moving plate to move upwards through a vertical moving mechanism; then separating the latch plate from the latch frame, then separating the first rotating plate from the second rotating plate through the driving mechanism, and then putting the rainwater pipeline into the groove through the vertical moving mechanism; the rainwater pipeline is arranged on the first arc-shaped groove, so that the possibility of overturning of the rainwater pipeline of the movable frame in the fourth arc-shaped groove in the descending process can be reduced; in conclusion, the rainwater pipeline can be conveniently placed into the groove by arranging the pipe placing device and the pipe hanging device, so that the possibility of injury to operators can be reduced;

2. When the horizontal sections of the left clamping plate and the right clamping plate are respectively inserted with two ends of a rainwater pipeline, the driving plate drives the pressing plate to move downwards under the action of the inclined surface, so that the rainwater pipeline can be fixed; the pressing plate moves downwards to drive the second sliding sleeve to move downwards, the second sliding sleeve moves downwards to compress the spring, and the spring is in a compressed state; when the pressing plate needs to be far away from the rainwater pipeline, the pressing plate is far away from the driving plate through reversing the second lead screw, and the second sliding sleeve drives the pressing plate to reset under the action of the spring; in conclusion, the rainwater pipeline is convenient to disassemble and assemble by arranging the first clamping assembly and the second clamping assembly, so that the labor intensity of operators can be reduced;

3. Under the action of the driving wheel and the longitudinal moving component, the position of the rainwater pipeline is conveniently adjusted; then, starting a hydraulic cylinder, wherein a piston rod of the hydraulic cylinder drives the moving plate to move downwards; then the vertical moving sliding seat is driven to move downwards by the vertical moving component, so that the rainwater pipeline can be placed at a specified position; through setting up the mechanism that erects to move, be convenient for put rainwater pipeline appointed position, therefore can reduce operating personnel's intensity of labour.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a schematic view showing the structure of the protruding extension frame in the embodiment;

FIG. 3 is a schematic view showing the structure of the driving mechanism in the embodiment;

FIG. 4 is a schematic view of an embodiment showing a first link assembly;

FIG. 5 is a schematic structural view showing a pipe hanger apparatus according to an embodiment;

FIG. 6 is a schematic view showing the structure of the fixing mechanism in the embodiment;

FIG. 7 is a partial cross-sectional view of the salient spring of the embodiment.

In the figure: 1. a movable frame; 11. towing the locomotive; 2. a pipe placing device; 21. a first arc-shaped slot; 22. an extension frame; 23. a first rotating plate; 24. a second arc-shaped slot; 241. opening the gap; 25. a second rotating plate; 26. a third arc-shaped slot; 27. a fourth arc-shaped groove; 28. a support plate; 29. a support assembly; 291. a latch frame; 292. a latch plate; 3. a material guiding mechanism; 31. a material guide plate; 32. a guide roller; 4. a drive mechanism; 41. a first lead screw; 42. a first left-hand thread; 43. a first right thread; 44. a first link assembly; 441. a push rod; 442. a first guide bar; 443. a first sliding sleeve; 444. a first link; 445. a second link; 45. a drive assembly; 451. a horizontal axis; 452. a drive bevel gear; 453. a driven bevel gear; 454. a first hand wheel; 5. a pipe hanging device; 51. moving the plate; 511. a T-shaped slot; 6. a fixing mechanism; 61. a second lead screw; 62. a second hand wheel; 63. a second left-hand thread; 64. a second right thread; 65. a left splint; 66. a right splint; 67. a dovetail block; 68. a dovetail groove; 69. a first clamping assembly; 691. a compression plate; 692. a drive plate; 6921. a T-shaped block; 693. a bevel; 694. a second sliding sleeve; 695. a chute; 696. a second guide bar; 697. a spring; 698. a bolt; 699. a gasket; 7. a vertical movement mechanism; 71. a fixed mount; 72. longitudinally moving the sliding seat; 73. vertically moving the sliding seat; 74. a hydraulic cylinder; 75. a longitudinal movement component; 751. a first asynchronous motor; 752. a third lead screw; 753. a first guide post; 76. vertically moving the assembly; 761. a second asynchronous motor; 762. a fourth lead screw; 763. a second guide post; 8. a rainwater pipeline.

Detailed Description

the present invention will be described in further detail with reference to the accompanying drawings. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

example (b): an installation structure for a road rainwater pipeline, as shown in fig. 1, comprises a movable frame 1, a plurality of driving wheels installed at the bottom of the movable frame 1, a traction vehicle head 11 for driving the movable frame 1 to move, a pipe placing device 2 installed at the top of the movable frame 1, and a pipe hanging device 5 installed at the top of the movable frame 1.

As shown in fig. 1 and 2, the pipe placing device 2 includes a first arc-shaped groove 21 disposed at the top of the moving frame 1, an extending frame 22 fixedly connected to one side of the moving frame 1, a first rotating plate 23 hinged to one side of the extending frame 22 close to the moving frame 1, a second arc-shaped groove 24 disposed at one side of the first rotating plate 23 far from the moving frame 1, a second rotating plate 25 hinged to one side of the extending frame 22 far from the moving frame 1, a third arc-shaped groove 26 disposed at one side of the second rotating plate 25 close to the moving frame 1, a driving mechanism 4 mounted on the extending frame 22 for driving the first rotating plate 23 and the second rotating plate 25 to rotate, two sets of supporting assemblies 29 respectively mounted at two ends of the bottom of the extending frame 22 for supporting the first rotating plate 23 and the second rotating plate 25, and a material guiding mechanism 3 mounted at one side of the moving frame 1 far from the extending frame 22; referring to fig. 3, the second arc-shaped groove 24 and the third arc-shaped groove 26 enclose a fourth arc-shaped groove 27, a support plate 28 is fixedly connected to the outer side of the bottom of the third arc-shaped groove 26, and a notch 241 is formed in the outer side of the bottom of the second arc-shaped groove 24 corresponding to the support plate 28; each set of support components 29 comprises two latch frames 291 fixedly connected to one end of the bottom of the extension frame 22 and a latch plate 292 inserted into the two latch frames 291; the material guiding mechanism 3 comprises a material guiding plate 31 hinged to one side of the moving frame 1 far away from the extension frame 22 and a plurality of guide rollers 32 sequentially rotatably connected to the top of the material guiding plate 31 along the width direction of the material guiding plate 31; the pipe hanging device 5 comprises a moving plate 51 installed above the moving frame 1, a fixing mechanism 6 installed at the bottom of the moving plate 51 for fixing the rainwater pipeline 8, and a vertical moving mechanism 7 installed at the top of the moving frame 1 for vertically moving the moving plate 51. The first and second rotating plates 23 and 25 are combined by the driving mechanism 4, and then the latch plate 292 is inserted into the latch frame 291, and then the two rainwater pipes 8 are pushed into the first and fourth arc-shaped grooves 21 and 27, respectively; next, the rainwater pipeline 8 in the fourth arc-shaped groove 27 is fixed through the fixing mechanism 6, then the moving plate 51 is moved upwards through the vertical moving mechanism 7, the moving plate 51 moves upwards to drive the rainwater pipeline 8 to move upwards, and therefore the rainwater pipeline 8 is separated from the fourth arc-shaped groove 27; subsequently separating the latch plate 292 from the latch frame 291, subsequently separating the first rotating plate 23 and the second rotating plate 25 by the driving mechanism 4, and then putting the rainwater pipeline 8 into the trench by the vertical moving mechanism 7; the rainwater pipeline 8 is placed on the first arc-shaped groove 21, so that the possibility that the movable frame 1 turns over in the descending process of the rainwater pipeline 8 in the fourth arc-shaped groove 27 can be reduced; in conclusion, through setting up put tub device 2 and hanging pipe device 5, be convenient for put into the groove with rainwater pipeline 8, therefore can reduce the possibility that operating personnel received the injury.

As shown in fig. 1 and 3, the driving mechanism 4 includes a first lead screw 41 rotatably connected to the bottom of the extension frame 22 and disposed along the width direction of the moving frame 1, a driving assembly 45 mounted on one side of the moving frame 1 close to the first lead screw 41 for driving the first lead screw 41 to rotate, a first left thread 42 and a first right thread 43 respectively disposed at two ends of the first lead screw 41, a first link assembly 44 disposed on the first left thread 42 for driving the first rotating plate 23 to rotate, and a second link assembly disposed on the first right thread 43 for driving the second rotating plate 25 to rotate and having the same structure as the first link assembly 44.

Referring to fig. 4, the first link assembly 44 and the second link assembly have the same structure, and the structure of the first link assembly 44 will not be described in detail herein, and the structure of the second link assembly will not be described again. The first connecting rod assembly 44 comprises a push rod 441 screwed to the first left thread 42 and a plurality of first guide rods 442 fixedly connected to one side of the extension frame 22 close to the movable frame 1; each first guide rod 442 is slidably connected with a first sliding sleeve 443 along the width direction of the extension frame 22, a first connecting rod 444 is hinged between the first sliding sleeve 443 and the push rod 441, two ends of the first connecting rod 444 are respectively hinged with the first sliding sleeve 443 and the push rod 441, a second connecting rod 445 is hinged between the first sliding sleeve 443 and the first rotating plate 23, and two ends of the second connecting rod 445 are respectively hinged with the first sliding sleeve 443 and the first rotating plate 23. The first lead screw 41 is driven to rotate by the driving assembly 45, then the two push rods 441 move towards each other under the action of the first left thread 42 and the first right thread 43, then the two first sliding sleeves 443 move towards each other under the action of the two first connecting rods 444, and the two first sliding sleeves 443 move towards each other to drive the first rotating plate 23 and the second rotating plate 25 to rotate upwards, so that the first rotating plate 23 and the second rotating plate 25 can be combined; when the first rotating plate 23 and the second rotating plate 25 need to be separated, the first lead screw 41 is reversely rotated through the driving assembly 45; by providing the driving mechanism 4, it is convenient to merge and separate the first and second rotating plates 23 and 25, thereby facilitating the rainwater pipe 8 to be put into the tank.

As shown in fig. 3 and 4, the driving assembly 45 includes a horizontal shaft 451 rotatably connected to one side of the extension frame 22 close to the first lead screw 41 and disposed along the length direction of the extension frame 22, a driving bevel gear 452 fixedly connected to one end of the horizontal shaft 451 close to the first lead screw 41, and a driven bevel gear 453 sleeved and fixed to one end of the first lead screw 41 and engaged with the driving bevel gear 452; one end of the horizontal shaft 451 remote from the driving bevel gear 452 protrudes outside the extension frame 22 and is fixed with a first hand wheel 454. When the first lead screw 41 needs to be driven to rotate, the first hand wheel 454 is rotated to rotate the horizontal shaft 451, the horizontal shaft 451 rotates to drive the driving bevel gear 452 to rotate, the driving bevel gear 452 rotates to drive the driven bevel gear 453 to rotate, and the driven bevel gear 453 rotates to drive the first lead screw 41 to rotate, so that the first lead screw 41 is driven to rotate conveniently.

as shown in fig. 6 and 7, the fixing mechanism 6 includes a second lead screw 61 rotatably connected to the bottom of the moving plate 51 and arranged along the length direction of the moving plate 51, a second hand wheel 62 fixedly connected to one end of the second lead screw 61, a second left thread 63 and a second right thread 64 respectively arranged at two ends of the second lead screw 61, an L-shaped left clamp plate 65 threadedly connected to the second left thread 63 and slidably connected to the bottom of the moving plate 51 along the axial direction of the second lead screw 61, an L-shaped right clamp plate 66 threadedly connected to the second right thread 64 and slidably connected to the bottom of the moving plate 51 along the axial direction of the second lead screw 61, a first clamping assembly 69 installed between the left clamp plate 65 and the moving plate 51, and a second clamping assembly installed between the right clamp plate 66 and the moving plate 51 and symmetrical to the first clamping assembly 69; the top of the left clamping plate 65 and the top of the right clamping plate 66 are both fixedly connected with a dovetail block 67, and the bottom of the moving plate 51 is provided with a dovetail groove 68 for the dovetail block 67 to slide along the axial direction of the second lead screw 61. When needs are fixed rainwater pipeline 8, rotate second lead screw 61 through rotating second hand wheel 62, second lead screw 61 rotates drive left splint 65 and right splint 66 and moves in opposite directions to can make left splint 65 and right splint 66's horizontal segment insert rainwater pipeline 8's both ends respectively, alright fix rainwater pipeline 8 under first clamping component 69 and second clamping component's effect this moment, therefore can reduce rainwater pipeline 8 and take place the possibility of rocking when following vertical migration.

The first clamping assembly 69 and the second clamping assembly are identical in structure, and the structure of the first clamping assembly 69 will not be described in detail herein, and the structure of the second clamping assembly will not be described in detail. The first clamping assembly 69 comprises a pressing plate 691 slidably connected to one side of the left clamping plate 65 close to the right clamping plate 66 along the vertical direction, a driving plate 692 slidably connected to the bottom of the moving plate 51 along the length direction of the moving plate 51, and two inclined surfaces 693 respectively arranged at the opposite inner sides of the pressing plate 691 and the driving plate 692; a second sliding sleeve 694 is fixedly connected to one side, close to the left splint 65, of the compression plate 691, a sliding groove 695 for enabling the second sliding sleeve 694 to slide vertically is formed in one side, close to the right splint 66, of the left splint 65, a second guide rod 696 is vertically and fixedly connected to the inside of the sliding groove 695, the second sliding sleeve 694 is vertically and slidably connected to the second guide rod 696, a spring 697 is sleeved on the second guide rod 696, and two ends of the spring 697 are fixedly connected to the bottom of the second sliding sleeve 694 and the bottom of the sliding groove 695 respectively; the top of the driving plate 692 is fixedly connected with a T-shaped block 6921, the bottom of the moving plate 51 is provided with a T-shaped groove 511 for the T-shaped block 6921 to slide along the length direction of the moving plate 51, and the T-shaped block 6921 is fixedly connected with the T-shaped groove 511 through a bolt 698 and a gasket 699. When the horizontal sections of the left clamping plate 65 and the right clamping plate 66 are respectively inserted into two ends of the rainwater pipeline 8, the driving plate 692 drives the pressing plate 691 to move downwards under the action of the inclined surface 693, so that the rainwater pipeline 8 can be fixed; the pressing plate 691 moves downwards to drive the second sliding sleeve 694 to move downwards, the second sliding sleeve 694 moves downwards to compress the spring 697, and the spring 697 is in a compressed state at the moment; when the pressing plate 691 needs to be far away from the rainwater pipeline 8, the pressing plate 691 is far away from the driving plate 692 by reversing the second lead screw 61, and at the moment, the second sliding sleeve 694 drives the pressing plate 691 to reset under the action of the spring 697; in conclusion, by providing the first clamping unit 69 and the second clamping unit, the rainwater pipeline 8 can be easily disassembled and assembled, and thus the labor intensity of the operator can be reduced.

As shown in fig. 1 and 5, the vertical moving mechanism 7 includes an L-shaped fixed frame 71 fixedly connected to the top of the moving frame 1, a longitudinal moving slide 72 slidably connected to the top of the fixed frame 71 along the width direction of the moving frame 1, a longitudinal moving component 75 mounted on the top of the fixed frame 71 for driving the longitudinal moving slide 72 to move, a vertical moving slide 73 slidably connected to one side of the longitudinal moving slide 72 along the vertical direction, and a vertical moving component 76 mounted on the bottom of the longitudinal moving slide 72 for driving the vertical moving slide 73 to move; a plurality of hydraulic cylinders 74 are sequentially arranged on one side of the vertical moving slide carriage 73, which is far away from the longitudinal moving slide carriage 72, along the length direction of the vertical moving slide carriage, each hydraulic cylinder 74 is vertically arranged, and a piston rod of each hydraulic cylinder 74 is vertically and downwards fixedly connected with the top of the moving plate 51. Under the action of the driving wheel and the longitudinal moving component 75, the position of the rainwater pipeline 8 is conveniently adjusted; then, the hydraulic cylinder 74 is started, and the piston rod of the hydraulic cylinder 74 drives the moving plate 51 to move downwards; then the vertically moving slide carriage 73 is driven to move downwards by the vertically moving component 76, so that the rainwater pipeline 8 can be placed at a specified position; through setting up to erect and moving mechanism 7, be convenient for put appointed position with rainwater pipeline 8, therefore can reduce operating personnel's intensity of labour.

The longitudinal moving assembly 75 comprises a first asynchronous motor 751 horizontally mounted at one end of the top of the fixed frame 71, a third lead screw 752 fixedly connected to an output shaft of the first asynchronous motor 751 and rotatably connected to the top of the fixed frame 71, and a first guide pillar 753 fixedly connected to the top of the fixed frame 71; the third lead screw 752 is screwed on the top of the longitudinal slide 72; the first guide column 753 is disposed through the top of the longitudinal slide 72, and the longitudinal slide 72 is slidably connected to the first guide column 753 in the width direction of the moving rack 1. When the first asynchronous motor 751 is started, the output shaft of the first asynchronous motor 751 drives the third lead screw 752 to rotate, and the third lead screw 752 rotates to drive the longitudinal slide 72 to move, so that the longitudinal slide 72 can move more stably.

The vertical moving assembly 76 comprises a second asynchronous motor 761 arranged at the top of the longitudinal moving sliding seat 72, a fourth lead screw 762 vertically and fixedly connected to an output shaft of the second asynchronous motor 761 and rotatably connected to one side of the longitudinal moving sliding seat 72, and a second guide post 763 vertically and fixedly connected to one side of the longitudinal moving sliding seat 72; the fourth lead screw 762 is connected with the vertical sliding seat 73 through threads; the second guide post 763 penetrates through the vertical sliding base 73, and the vertical sliding base 73 is connected to the second guide post 763 in a vertical sliding manner. When the second asynchronous motor 761 is started, the output shaft of the second asynchronous motor 761 drives the fourth lead screw 762 to rotate, and the fourth lead screw 762 rotates to drive the vertical sliding seat 73 to move vertically, so that the vertical sliding seat 73 can move more stably.

the working principle of the mounting structure for the road rainwater pipeline is as follows:

Firstly, a rainwater pipeline 8 is placed on the movable frame 1: the horizontal shaft 451 is rotated by rotating the first hand wheel 454, the horizontal shaft 451 rotates to drive the driving bevel gear 452 to rotate, the driving bevel gear 452 rotates to drive the driven bevel gear 453 to rotate, the driven bevel gear 453 rotates to drive the first lead screw 41 to rotate, then the two push rods 441 move in opposite directions under the action of the first left thread 42 and the first right thread 43, then the two first sliding sleeves 443 move in opposite directions under the action of the two first connecting rods 444, the two first sliding sleeves 443 move in opposite directions to drive the first rotating plate 23 and the second rotating plate 25 to rotate upwards, so that the first rotating plate 23 and the second rotating plate 25 can be combined, and then the latch plate 292 is inserted into the latch frame 291; then, the two rainwater pipelines 8 are respectively pushed into the first arc-shaped groove 21 and the fourth arc-shaped groove 27;

secondly fix the rainwater pipeline 8 in the first arc-shaped groove 21: the second lead screw 61 is rotated by rotating the second hand wheel 62, and the second lead screw 61 rotates to drive the left clamp plate 65 and the right clamp plate 66 to move oppositely, so that the horizontal sections of the left clamp plate 65 and the right clamp plate 66 are respectively inserted into the two ends of the rainwater pipeline 8; when the horizontal sections of the left clamping plate 65 and the right clamping plate 66 are respectively inserted into two ends of the rainwater pipeline 8, the driving plate 692 drives the pressing plate 691 to move downwards under the action of the inclined surface 693, so that the rainwater pipeline 8 can be fixed;

Finally, the rainwater pipeline 8 is put into the tank: when the second asynchronous motor 761 is started, an output shaft of the second asynchronous motor 761 drives the fourth lead screw 762 to rotate, the fourth lead screw 762 rotates to drive the vertical sliding seat 73 to move upwards, and the vertical sliding seat 73 moves upwards to drive the rainwater pipeline 8 to move upwards; then the latch plate 292 is separated from the latch frame 291, the first rotating plate 23 and the second rotating plate 25 are rotated downwards by reversing the first lead screw 41, then the hydraulic cylinder 74 is started, the piston rod of the hydraulic cylinder 74 drives the moving plate 51 to move downwards, and the moving plate 51 moves downwards to drive the rainwater pipeline 8 to move downwards; then, the second asynchronous motor 761 is started, an output shaft of the second asynchronous motor 761 drives the fourth lead screw 762 to rotate reversely, the fourth lead screw 762 rotates reversely to drive the vertical sliding seat 73 to move downwards, the vertical sliding seat 73 moves downwards to drive the rainwater pipeline 8 to move downwards, and therefore the rainwater pipeline 8 can be placed at the bottom of the tank.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims

1. The utility model provides a mounting structure for road rainwater pipeline which characterized in that: comprises a moving frame (1), a plurality of driving wheels arranged at the bottom of the moving frame (1), a traction vehicle head (11) for driving the moving frame (1) to move, a pipe placing device (2) arranged at the top of the moving frame (1) and a pipe hanging device (5) arranged at the top of the moving frame (1);

The pipe placing device (2) comprises a first arc-shaped groove (21) arranged at the top of the movable frame (1), an extension frame (22) fixedly connected with one side of the movable frame (1), a first rotating plate (23) hinged to one side of the extension frame (22) close to the movable frame (1), and a second arc-shaped groove (24) arranged at one side of the first rotating plate (23) far away from the movable frame (1), the material guide mechanism comprises a second rotating plate (25) hinged to one side, far away from the moving frame (1), of the extending frame (22), a third arc-shaped groove (26) formed in one side, close to the moving frame (1), of the second rotating plate (25), a driving mechanism (4) installed on the extending frame (22) and used for driving the first rotating plate (23) and the second rotating plate (25) to rotate, two groups of supporting assemblies (29) installed at two ends of the bottom of the extending frame (22) respectively and used for supporting the first rotating plate (23) and the second rotating plate (25), and a material guide mechanism (3) installed on one side, far away from the extending frame (22), of the moving frame (1);

A fourth arc-shaped groove (27) is defined by the second arc-shaped groove (24) and the third arc-shaped groove (26), a supporting plate (28) is fixedly connected to the outer side of the bottom of the third arc-shaped groove (26), and a notch (241) is formed in the outer side of the bottom of the second arc-shaped groove (24) corresponding to the supporting plate (28);

Each group of support assemblies (29) comprises two latch racks (291) fixedly connected to one end of the bottom of the extension rack (22) and a latch plate (292) inserted into the two latch racks (291);

the material guide mechanism (3) comprises a material guide plate (31) hinged to one side of the moving frame (1) far away from the extension frame (22) and a plurality of guide rollers (32) sequentially connected to the top of the material guide plate (31) in a rotating mode along the width direction of the material guide plate (31);

The pipe hanging device (5) comprises a moving plate (51) arranged above the moving frame (1), a fixing mechanism (6) arranged at the bottom of the moving plate (51) and used for fixing the rainwater pipeline (8), and a vertical moving mechanism (7) arranged at the top of the moving frame (1) and used for enabling the moving plate (51) to move vertically.

2. the mounting structure for a road rainwater pipe according to claim 1, wherein: the driving mechanism (4) comprises a first lead screw (41) which is rotatably connected to the extension frame (22) and arranged along the width direction of the moving frame (1), a driving assembly (45) which is arranged on one side of the moving frame (1) close to the first lead screw (41) and used for driving the first lead screw (41) to rotate, a first left thread (42) and a first right thread (43) which are respectively arranged at two ends of the first lead screw (41), a first connecting rod assembly (44) which is arranged on the first left thread (42) and used for driving the first rotating plate (23) to rotate, and a second connecting rod assembly which is arranged on the first right thread (43) and used for driving the second rotating plate (25) to rotate and has the same structure as the first connecting rod assembly (44);

The first connecting rod component (44) comprises a push rod (441) in threaded connection with the first left thread (42) and a plurality of first guide rods (442) fixedly connected to one side, close to the movable frame (1), of the extension frame (22); each first guide rod (442) is connected with a first sliding sleeve (443) in a sliding manner along the width direction of the extension frame (22), a first connecting rod (444) is hinged between the first sliding sleeve (443) and the push rod (441), and a second connecting rod (445) is hinged between the first sliding sleeve (443) and the first rotating plate (23).

3. the mounting structure for a road rainwater pipe according to claim 2, wherein: the driving assembly (45) comprises a horizontal shaft (451) which is rotatably connected to one side of the extension frame (22) close to the first lead screw (41) and arranged along the length direction of the extension frame (22), a driving bevel gear (452) which is fixedly connected to one end of the horizontal shaft (451) close to the first lead screw (41), and a driven bevel gear (453) which is sleeved and fixed at one end of the first lead screw (41) and meshed with the driving bevel gear (452); one end of the horizontal shaft (451) far away from the driving bevel gear (452) protrudes out of the outer side of the extension frame (22) and is fixedly connected with a first hand wheel (454).

4. The mounting structure for a road rainwater pipe according to claim 1, wherein: the fixing mechanism (6) comprises a second lead screw (61) which is rotatably connected to the bottom of the moving plate (51) and is arranged along the length direction of the moving plate (51), a second hand wheel (62) which is fixedly connected to one end of the second lead screw (61), and a second left thread (63) and a second right thread (64) which are respectively arranged at two ends of the second lead screw (61), the L-shaped left clamping plate (65) is in threaded connection with the second left thread (63) and is connected to the bottom of the moving plate (51) in a sliding manner along the axial direction of the second lead screw (61), the L-shaped right clamping plate (66) is in threaded connection with the second right thread (64) and is connected to the bottom of the moving plate (51) in a sliding manner along the axial direction of the second lead screw (61), a first clamping assembly (69) is installed between the left clamping plate (65) and the moving plate (51), and a second clamping assembly is installed between the right clamping plate (66) and the moving plate (51) and is symmetrical to the first clamping assembly (69); the top of left splint (65) and right splint (66) all is rigid coupling has dovetail block (67), dovetail groove (68) that are used for supplying dovetail block (67) to slide along the axial of second lead screw (61) are seted up to the bottom of movable plate (51).

5. The mounting structure for a road rainwater pipe according to claim 4, wherein: the first clamping assembly (69) comprises a pressing plate (691) connected to one side, close to the right clamping plate (66), of the left clamping plate (65) in a sliding mode along the vertical direction, a driving plate (692) connected to the bottom of the moving plate (51) in a sliding mode along the length direction of the moving plate (51), and two inclined surfaces (693) arranged on the opposite inner sides of the pressing plate (691) and the driving plate (692) respectively; a second sliding sleeve (694) is fixedly connected to one side, close to the left splint (65), of the compression plate (691), a sliding groove (695) for the second sliding sleeve (694) to slide vertically is formed in one side, close to the right splint (66), of the left splint (65), a second guide rod (696) is vertically and fixedly connected to the inside of the sliding groove (695), the second sliding sleeve (694) is connected to the second guide rod (696) in a sliding mode vertically, a spring (697) is sleeved on the second guide rod (696), and two ends of the spring (697) are fixedly connected to the bottom of the second sliding sleeve (694) and the bottom of the sliding groove (695) respectively; the top of the driving plate (692) is fixedly connected with a T-shaped block (6921), the bottom of the moving plate (51) is provided with a T-shaped groove (511) for the T-shaped block (6921) to slide along the length direction of the moving plate (51), and the T-shaped block (6921) is fixedly connected with the T-shaped groove (511) through a bolt (698) and a gasket (699).

6. The mounting structure for a road rainwater pipe according to claim 1, wherein: the vertical moving mechanism (7) comprises an L-shaped fixed frame (71) fixedly connected to the top of the moving frame (1), a longitudinal moving sliding seat (72) connected to the top of the fixed frame (71) in a sliding manner along the width direction of the moving frame (1), a longitudinal moving assembly (75) arranged at the top of the fixed frame (71) and used for driving the longitudinal moving sliding seat (72) to move, a vertical moving sliding seat (73) connected to one side of the longitudinal moving sliding seat (72) in a sliding manner along the vertical direction, and a vertical moving assembly (76) arranged at the bottom of the longitudinal moving sliding seat (72) and used for driving the vertical moving sliding seat (73) to move; a plurality of hydraulic cylinders (74) are sequentially installed on one side, away from the longitudinal moving sliding seat (72), of the vertical moving sliding seat (73) along the length direction of the vertical moving sliding seat, each hydraulic cylinder (74) is vertically arranged, and a piston rod of each hydraulic cylinder is vertically downwards fixedly connected with the top of the moving plate (51).

7. The mounting structure for a road rainwater pipe according to claim 6, wherein: the longitudinal moving assembly (75) comprises a first asynchronous motor (751) horizontally mounted at one end of the top of the fixed frame (71), a third lead screw (752) fixedly connected to an output shaft of the first asynchronous motor (751) and rotatably connected to the top of the fixed frame (71), and a first guide pillar (753) fixedly connected to the top of the fixed frame (71); the third lead screw (752) is in threaded connection with the top of the longitudinal sliding seat (72); the first guide pillar (753) penetrates through the top of the longitudinal moving sliding seat (72), and the longitudinal moving sliding seat (72) is connected to the first guide pillar (753) in a sliding mode along the width direction of the moving frame (1).

8. The mounting structure for a road rainwater pipe according to claim 7, wherein: the vertical moving assembly (76) comprises a second asynchronous motor (761) arranged at the top of the longitudinal moving sliding seat (72), a fourth lead screw (762) vertically and fixedly connected to an output shaft of the second asynchronous motor (761) and rotatably connected to one side of the longitudinal moving sliding seat (72), and a second guide pillar (763) vertically and fixedly connected to one side of the longitudinal moving sliding seat (72); the fourth lead screw (762) is in threaded connection with the vertical moving sliding seat (73); the second guide post (763) penetrates through the vertical sliding seat (73) and is connected to the second guide post (763) in a sliding mode along the vertical direction, and the vertical sliding seat (73) is connected to the second guide post (763) in a sliding mode along the vertical direction.