CN108799624B

CN108799624B - Oil production pipeline frame

Info

Publication number: CN108799624B
Application number: CN201810699184.3A
Authority: CN
Inventors: 柳迪
Original assignee: Shandong Yongli Jinggong Petroleum Equipment Co Ltd
Current assignee: Shandong Yongli Jinggong Petroleum Equipment Co ltd
Priority date: 2018-06-29
Filing date: 2018-06-29
Publication date: 2019-12-06
Anticipated expiration: 2038-06-29
Also published as: CN110822176A; CN110778796B; CN110822176B; CN110778796A; CN108799624A

Abstract

The invention relates to a bracket, in particular to an oil production pipeline bracket, which comprises a complete machine bracket, a power mechanism, a walking driving mechanism, a walking transmission mechanism, a drive axle, a control mechanism, a lifting driving mechanism, a lifting plate, a clamping mechanism, a clamping hand I and a clamping hand II .

Description

Oil production pipeline frame

Technical Field

the invention relates to a support, in particular to an oil production pipeline support.

background

For example, patent No. CN201721580181.5 discloses a pipeline erection device; this pipeline erection device includes: the first clamping piece and the second clamping piece are respectively suitable for clamping two sides of the upright post; the clamping piece fixing piece is respectively connected with the first clamping piece and the second clamping piece and is used for changing the relative distance between the first clamping piece and the second clamping piece so as to change the clamping force of the first clamping piece and the second clamping piece for clamping the upright; a tube securing portion disposed between the first clamp and the second clamp; the utility model has the defect that the pipelines with different heights and diameters can not be fixed and clamped.

disclosure of Invention

The invention aims to provide an oil production pipeline frame, which can position and clamp pipelines with different heights and diameters at two butted sides.

The purpose of the invention is realized by the following technical scheme:

A petroleum production pipeline frame comprises a complete machine support, a power mechanism, a walking driving mechanism, a walking transmission mechanism, a drive axle, a control mechanism, a lifting driving mechanism, a lifting plate, a clamping mechanism, a clamping hand I and a clamping hand II, wherein the power mechanism, the walking driving mechanism, the walking transmission mechanism, the drive axle, the walking mechanism, the lifting driving mechanism and the lifting mechanism are all rotationally connected to the complete machine support, the power mechanism and the walking driving mechanism are in meshing transmission through gears, the walking transmission mechanism and the drive axle are in transmission connection through belts, the two walking mechanisms are symmetrically arranged in the front and at the back, the two walking mechanisms are rotationally connected to the complete machine support, the front end and the back end of the drive axle are respectively in transmission with the two walking mechanisms through worm gears, and the middle end of the control, the upper end joint of control mechanism is on the complete machine support, the lower extreme of control mechanism rotates respectively and connects on running gear and lift actuating mechanism, lift actuating mechanism and power unit pass through the gear engagement transmission, elevating system and lift actuating mechanism pass through the gear engagement transmission, lifter plate sliding connection is on the complete machine support, the lower extreme of lifter plate passes through threaded connection in the upper end of elevating system, clamping mechanism front and back symmetry is provided with two, two equal sliding connection of clamping mechanism are on the complete machine support, two clamping mechanisms are connected through taking the transmission, clamping hand I and clamping hand II are equal front and back symmetry is provided with two, two clamping hand I are respectively through the left end of threaded connection in two clamping mechanisms, two clamping hand II are respectively through the right-hand member of threaded connection in two clamping mechanisms.

As a further optimization of the technical scheme, the invention relates to an oil production pipeline frame, which comprises a side plate, a bottom plate, a connecting plate and a supporting plate, w-shaped fixture block, vertical sliding tray I, vertical sliding tray II and circular through-hole, curb plate bilateral symmetry is provided with two, fixedly connected with bottom plate between two curb plates, the symmetry is provided with two around the connecting plate, both ends difference fixed connection is both ends around two curb plates about two connecting plates, both ends difference fixed connection is at the front end of two curb plates about the backup pad, the lower extreme at the bottom plate is welded to W-shaped fixture block, both ends all are provided with vertical sliding tray I around two curb plate upsides, both ends all are provided with vertical sliding tray II around two curb plate upsides, four vertical sliding tray II are located the inboard of four vertical sliding tray I, circular through-hole sets up on being located left curb plate.

As a further optimization of the technical scheme, the oil production pipeline frame comprises a power mechanism, a power handle and a power gear, wherein the power handle is fixedly connected to the left end of the power shaft, the power gear is fixedly connected to the middle end of the power shaft, and two ends of the power shaft are respectively and rotatably connected to two side plates.

as further optimization of the technical scheme, the oil production pipeline frame comprises a driving mechanism, a driving mechanism and a connecting mechanism, wherein the driving mechanism comprises a walking driving shaft, walking driving bevel gears, a walking driving gear, walking driving side gears and a connecting key I, the walking driving gear is provided with the side gears, the walking driving bevel gears are fixedly connected to the middle end of the walking driving shaft, the walking driving gear is rotatably connected to the left end of the walking driving shaft, the walking driving side gears are slidably connected to the left end of the walking driving shaft through the connecting key I, the walking driving side gears are positioned on the right side of the walking driving gear, the two ends of the walking driving shaft are respectively rotatably connected to two side plates, the walking driving gear is meshed with a power gear, and the tooth width of the power gear;

the walking transmission mechanism comprises a walking transmission shaft, walking transmission bevel gears and a walking transmission belt wheel, the walking transmission belt wheel and the walking transmission bevel gears are fixedly connected to the front end and the rear end of the walking transmission shaft respectively, the walking transmission shaft is rotatably connected to the supporting plate, and the walking transmission bevel gears are meshed with the walking driving bevel gears;

The drive axle comprises a drive worm and a drive belt wheel, the drive belt wheel is fixedly connected to the front end of the drive worm, two ends of the drive worm are respectively and rotatably connected to the two connecting plates, and the drive belt wheel and the walking drive belt wheel are in transmission connection through a belt;

Running gear includes walking axle, worm wheel and walking wheel, and the walking bilateral symmetry is provided with two, and two walking wheels are fixed connection respectively at the both ends of walking axle, and worm wheel fixed connection is in the middle-end of walking axle, and both ends rotate respectively and connect both ends around two curb plates about two walking axles, and two worm wheels mesh the transmission with the front and back both ends of drive worm respectively.

As a further optimization of the technical scheme, the oil production pipeline frame comprises a shifting fork body, two shifting forks and a triangular clamping block, wherein the two shifting forks are symmetrically arranged in front and back, the upper ends of the two shifting forks are fixedly connected to the front end and the back end of the shifting fork body respectively, the triangular clamping block is slidably connected to the middle end of the shifting fork body, a compression spring is sleeved on the triangular clamping block and located between the shifting fork body and the triangular clamping block, the triangular clamping block is clamped on the W-shaped clamping block, the shifting fork body is slidably connected in the circular through hole, and the lower end of the shifting fork located at the front end is rotatably connected to the walking driving side tooth.

as a further optimization of the technical scheme, the petroleum production pipeline frame comprises a lifting driving shaft, a lifting driving gear, a lifting driving bevel gear, a lifting driving side gear and a connecting key II, wherein the lifting driving shaft is provided with the side gear, the lifting driving gear is rotationally connected to the lifting driving shaft, the lifting driving bevel gear is fixedly connected to the middle end of the lifting driving shaft, the lifting driving side gear is slidably connected to the left end of the lifting driving shaft through the connecting key II, the lifting driving side gear is positioned on the left side of the lifting driving gear, the lifting driving gear is in meshing transmission with a power gear, two ends of the lifting driving shaft are rotationally connected to two side plates respectively, and the lower end of a shifting fork positioned at the rear end is rotationally connected to the lifting driving side gear.

as a further optimization of the technical scheme, the oil production pipeline frame comprises a lifting mechanism and lifting bevel gears, wherein the lifting bevel gears are fixedly connected to the lower ends of the lifting shafts, the lifting shafts are rotatably connected to a bottom plate, and the lifting bevel gears are in meshing transmission with lifting driving bevel gears.

as a further optimization of the technical scheme, the oil production pipeline frame comprises a lifting plate body, lifting threaded rods, two T-shaped rails and four lifting sliding columns, wherein the upper end of each lifting threaded rod is fixedly connected to the lifting plate body, the two T-shaped rails are symmetrically arranged in the front and the back of each T-shaped rail, the two T-shaped rails are fixedly connected to the front end and the back end of the lifting plate body respectively, the four lifting sliding columns are arranged, the four lifting sliding columns are fixedly connected to the four corners of the lifting plate body respectively, the lower end of each lifting threaded rod is connected to the upper end of a lifting shaft through threads, and the four lifting sliding columns are slidably connected to the four vertical sliding grooves II respectively.

As a further optimization of the technical scheme, the petroleum production pipeline frame comprises a clamping screw rod, two clamping slide blocks, two clamping handles and two clamping belt wheels, wherein the thread turning directions of the two ends of the clamping screw rod are opposite, the two clamping slide blocks are arranged in bilateral symmetry, the two clamping slide blocks are respectively and rotatably connected to the left end and the right end of the clamping screw rod, the clamping handles and the clamping belt wheels are respectively and fixedly connected to the left end and the right end of the clamping screw rod, the four clamping slide blocks are respectively and slidably connected into four vertical sliding grooves I, and the two clamping belt wheels are in transmission connection through belts.

As a further optimization of the technical scheme, the oil production pipeline frame is characterized in that the clamping insertion blocks are arranged on the clamping hands I, the clamping insertion grooves are formed in the clamping hands II, the upper ends of the clamping hands I and the clamping hands II are arranged in a circular arc shape, the lower ends of the two clamping hands I are respectively connected to the left ends of the two T-shaped rails in a sliding mode, the middle ends of the two clamping hands I are respectively connected to the left ends of the two clamping screw rods through threads, the lower ends of the two clamping hands II are respectively connected to the right ends of the two T-shaped rails in a sliding mode, and the middle ends of the two clamping hands II are respectively connected to the right ends of the two clamping screw rods through threads.

the oil production pipeline frame has the beneficial effects that:

According to the oil production pipeline frame, the power mechanism can be manually rotated to enable the device to move or lift, the control mechanism is used for changing the motion state of the power mechanism driving the walking driving mechanism or the lifting driving mechanism, the lifting driving mechanism can enable the device to adjust the clamping hand I and the clamping hand II to a certain height according to use requirements, the oil production pipeline frame is suitable for oil pipelines with different heights, the walking driving mechanism can enable the device to move to a required position according to requirements, the walking driving mechanism adopts a driving worm and a worm gear to drive the device to have a one-way self-locking function, and the manual rotation of the clamping mechanism can simultaneously clamp two oil pipelines with the same diameter through the clamping hand I and the clamping hand II.

Drawings

the invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of the oil production pipe rack of the present invention;

FIG. 2 is a rear view structural schematic diagram of an oil production tubing rack of the present invention;

FIG. 3 is a first schematic diagram of the internal transmission structure of the oil production pipeline frame of the invention;

FIG. 4 is a second schematic diagram of the internal transmission structure of the oil production pipe rack of the present invention;

FIG. 5 is a schematic view of the overall bracket structure of the present invention;

FIG. 6 is a rear view structural schematic diagram of the complete machine bracket of the invention;

FIG. 7 is a schematic diagram of a power mechanism according to the present invention;

FIG. 8 is a schematic structural view of the travel drive mechanism of the present invention;

FIG. 9 is a schematic cross-sectional view of the travel drive mechanism of the present invention;

FIG. 10 is a schematic view of the walking mechanism of the present invention;

FIG. 11 is a schematic view of the drive axle configuration of the present invention;

FIG. 12 is a schematic view of the traveling mechanism of the present invention;

FIG. 13 is a schematic view of the control mechanism of the present invention;

FIG. 14 is a schematic view of the lift drive mechanism of the present invention;

FIG. 15 is a schematic cross-sectional view of the lift drive mechanism of the present invention;

FIG. 16 is a schematic view of the lift mechanism of the present invention;

FIG. 17 is a schematic illustration of the elevator plate structure of the present invention;

FIG. 18 is a schematic structural view of a clamping mechanism of the present invention;

FIG. 19 is a schematic view of a clamping arm I of the present invention;

fig. 20 is a schematic structural diagram of a clamping hand II of the invention.

in the figure: a complete machine bracket 1; 1-1 of a side plate; a bottom plate 1-2; connecting plates 1-3; support plates 1-4; 1-5 of a W-shaped fixture block; 1-6 vertical sliding grooves; vertical sliding grooves II 1-7; 1-8 circular through holes; a power mechanism 2; a power shaft 2-1; 2-2 of a power handle; 2-3 of a power gear; a travel drive mechanism 3; a walking driving shaft 3-1; 3-2 parts of walking driving bevel gear; a travel drive gear 3-3; 3-4 parts of walking driving side teeth; a connecting bond I3-5; a traveling transmission mechanism 4; 4-1 of a walking transmission shaft; 4-2 of walking transmission bevel gear; 4-3 of a traveling transmission belt wheel; a drive axle 5; a driving worm 5-1; a driving pulley 5-2; a traveling mechanism 6; a traveling shaft 6-1; a worm wheel 6-2; 6-3 of a traveling wheel; a control mechanism 7; a fork body 7-1; a shifting fork 7-2; 7-3 of a triangular clamping block; a lift drive mechanism 8; a lifting driving shaft 8-1; a lifting drive gear 8-2; lifting driving bevel gears 8-3; lifting driving side teeth 8-4; 8-5 of a connecting bond II; a lifting mechanism 9; a lifting shaft 9-1; lifting bevel gears 9-2; a lifter plate 10; a lifting plate body 10-1; a lifting threaded rod 10-2; 10-3 of a T-shaped rail; 10-4 of a lifting sliding column; a clamping mechanism 11; clamping a screw rod 11-1; clamping the sliding block 11-2; a clamping handle 11-3; clamping belt wheels 11-4; a clamping hand I12; clamping the insert block 12-1; a clamping hand II 13; a clamping slot 13-1.

Detailed Description

the present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-20, and an oil production pipeline frame comprises a complete machine support 1, a power mechanism 2, a walking driving mechanism 3, a walking transmission mechanism 4, a driving axle 5, a control mechanism 7, a lifting driving mechanism 8, a lifting mechanism 9, a lifting plate 10, a clamping mechanism 11, a clamping hand i 12 and a clamping hand ii 13, wherein the power mechanism 2, the walking driving mechanism 3, the walking transmission mechanism 4, the driving axle 5, a walking mechanism 6, the lifting driving mechanism 8 and the lifting mechanism 9 are all rotationally connected to the complete machine support 1, the power mechanism 2 and the walking driving mechanism 3 are in gear meshing transmission, the walking transmission mechanism 4 and the driving axle 5 are in belt transmission connection, the two walking mechanisms 6 are symmetrically arranged in front and back, the two walking mechanisms 6 are both rotationally connected to the complete machine support 1, the front end and the rear end of a drive axle 5 are respectively in transmission with two traveling mechanisms 6 through worm gears and worms, the middle end of a control mechanism 7 is in sliding connection with a complete machine bracket 1, the upper end of the control mechanism 7 is clamped on the complete machine bracket 1, the lower end of the control mechanism 7 is respectively in rotating connection with a traveling driving mechanism 3 and a lifting driving mechanism 8, the lifting driving mechanism 8 and a power mechanism 2 are in transmission through gear meshing, a lifting mechanism 9 and the lifting driving mechanism 8 are in transmission through gear meshing, a lifting plate 10 is in sliding connection with the complete machine bracket 1, the lower end of the lifting plate 10 is in threaded connection with the upper end of the lifting mechanism 9, two clamping mechanisms 11 are symmetrically arranged in the front and rear direction, two clamping mechanisms 11 are both in sliding connection with the complete machine bracket 1, the two clamping mechanisms 11 are in transmission connection through belts, two clamping hands I12 and two clamping hands II 13 are both symmetrically arranged in the front and rear direction, the two clamping hands II 13 are respectively connected to the right ends of the two clamping mechanisms 11 through threads; can make the device remove or go up and down through manual rotation power unit 2, change power unit 2 through control mechanism 7 and drive the motion state of travel drive mechanism 3 or lift drive mechanism 8, lift drive mechanism 8 can make the device adjust clamping hand I12 and clamping hand II 13 to certain height according to the user demand, be applicable to the petroleum pipeline of different heights, travel drive mechanism 3 can make the device move to the demand position according to the demand, travel drive mechanism 3 adopts drive worm 5-1 and worm wheel 6-2 transmission to have one-way auto-lock's function, manual rotation clamping mechanism 11 can carry out the clamping with two petroleum pipelines that the diameter size is the same simultaneously through clamping hand I12 and clamping hand II 13.

the second embodiment is as follows:

the embodiment is described below with reference to fig. 1-20, and the embodiment further describes the first embodiment, the complete machine bracket 1 includes two side plates 1-1, two bottom plates 1-2, two connecting plates 1-3, two support plates 1-4, two W-shaped fixture blocks 1-5, two vertical sliding grooves i 1-6, two vertical sliding grooves ii 1-7 and circular through holes 1-8, the two side plates 1-1 are arranged in bilateral symmetry, the bottom plate 1-2 is fixedly connected between the two side plates 1-1, the two connecting plates 1-3 are arranged in front and back symmetry, the left and right ends of the two connecting plates 1-3 are respectively fixedly connected to the front and back ends of the two side plates 1-1, the left and right ends of the support plates 1-4 are respectively fixedly connected to the front ends of the two side plates 1-1, the W-shaped fixture blocks 1-5 are welded to the lower ends, the front end and the rear end of the upper sides of the two side plates 1-1 are respectively provided with a vertical sliding groove I1-6, the front end and the rear end of the upper sides of the two side plates 1-1 are respectively provided with a vertical sliding groove II 1-7, the four vertical sliding grooves II 1-7 are positioned at the inner sides of the four vertical sliding grooves I1-6, and the circular through holes 1-8 are arranged on the side plate 1-1 positioned at the left side; two clamping positions are arranged on the W-shaped clamping blocks 1-5.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 20, and the second embodiment is further described in the embodiment, where the power mechanism 2 includes a power shaft 2-1, a power handle 2-2 and a power gear 2-3, the power handle 2-2 is fixedly connected to the left end of the power shaft 2-1, the power gear 2-3 is fixedly connected to the middle end of the power shaft 2-1, and two ends of the power shaft 2-1 are respectively rotatably connected to two side plates 1-1; when the power handle 2-2 is manually rotated, the power handle 2-2 drives the power shaft 2-1 to rotate, and the power shaft 2-1 drives the power gear 2-3 to rotate.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-20, in which the driving mechanism 3 includes a walking driving shaft 3-1, walking driving bevel teeth 3-2, a walking driving gear 3-3, walking driving side teeth 3-4 and a connecting key i 3-5, the walking driving gear 3-3 is provided with side teeth, the walking driving bevel teeth 3-2 are fixedly connected to the middle end of the walking driving shaft 3-1, the walking driving gear 3-3 is rotatably connected to the left end of the walking driving shaft 3-1, the walking driving side teeth 3-4 are slidably connected to the left end of the walking driving shaft 3-1 through the connecting key i 3-5, the walking driving side teeth 3-4 are located on the right side of the walking driving gear 3-3, two ends of the walking driving shaft 3-1 are rotatably connected to two side plates 1-1 respectively, the walking driving gear 3-3 is meshed with the power gear 2-3, and the tooth width of the power gear 2-3 is larger than that of the walking driving gear 3-3; the power gear 2-3 drives the walking driving gear 3-3 to rotate, the walking driving gear 3-3 drives the driving side teeth 3-4 to rotate, the driving side teeth 3-4 drive the walking driving shaft 3-1 to rotate through the connecting key I3-5, and the walking driving shaft 3-1 drives the walking driving bevel teeth 3-2 to rotate;

The walking transmission mechanism 4 comprises a walking transmission shaft 4-1, walking transmission bevel gears 4-2 and a walking transmission belt wheel 4-3, the walking transmission belt wheel 4-3 and the walking transmission bevel gears 4-2 are respectively and fixedly connected to the front end and the rear end of the walking transmission shaft 4-1, the walking transmission shaft 4-1 is rotatably connected to the supporting plate 1-4, and the walking transmission bevel gears 4-2 are meshed with the walking driving bevel gears 3-2; the walking driving bevel gear 3-2 drives the walking transmission bevel gear 4-2 to rotate, the walking transmission bevel gear 4-2 drives the walking transmission shaft 4-1 to rotate, and the walking transmission shaft 4-1 drives the walking transmission belt pulley 4-3 to rotate;

the drive axle 5 comprises a drive worm 5-1 and a drive belt wheel 5-2, the drive belt wheel 5-2 is fixedly connected to the front end of the drive worm 5-1, two ends of the drive worm 5-1 are respectively and rotatably connected to two connecting plates 1-3, and the drive belt wheel 5-2 is in transmission connection with a walking drive belt wheel 4-3 through a belt; the traveling transmission belt wheel 4-3 drives the driving belt wheel 5-2 to rotate, and the driving belt wheel 5-2 drives the driving worm 5-1 to rotate;

The walking mechanism 6 comprises a walking shaft 6-1, a worm wheel 6-2 and two walking wheels 6-3, the two walking wheels 6-3 are arranged in bilateral symmetry, the two walking wheels 6-3 are respectively and fixedly connected to two ends of the walking shaft 6-1, the worm wheel 6-2 is fixedly connected to the middle end of the walking shaft 6-1, the left end and the right end of the two walking shafts 6-1 are respectively and rotatably connected to the front end and the rear end of the two side plates 1-1, and the two worm wheels 6-2 are respectively in meshing transmission with the front end and the rear end of the driving worm 5-1; the driving worm 5-1 drives the two worm wheels 6-2 to rotate, the two worm wheels 6-2 respectively drive the two walking shafts 6-1 to rotate, the two walking shafts 6-1 drive the four walking wheels 6-3 to rotate, and the four walking wheels 6-3 drive the device to move and adjust to the position where the petroleum pipeline needs to be fixedly clamped.

the fifth concrete implementation mode:

This embodiment will be described with reference to fig. 1 to 20, and this embodiment will further describe a fourth embodiment, the control mechanism 7 comprises a shifting fork body 7-1, two shifting forks 7-2 and a triangular clamping block 7-3, the two shifting forks 7-2 are symmetrically arranged in front and back, the upper ends of the two shifting forks 7-2 are fixedly connected to the front end and the back end of the shifting fork body 7-1 respectively, the triangular clamping block 7-3 is connected to the middle end of the shifting fork body 7-1 in a sliding mode, a compression spring is sleeved on the triangular clamping block 7-3 and located between the shifting fork body 7-1 and the triangular clamping block 7-3, the triangular clamping block 7-3 is clamped on a W-shaped clamping block 1-5, the shifting fork body 7-1 is connected in a circular through hole 1-8 in a sliding mode, and the lower end of the shifting fork 7-2 located at the front end is connected to a walking driving side tooth 3; when the clamping position of the triangular clamping block 7-3 on the W-shaped clamping block 1-5 is changed manually, when the triangular clamping block 7-3 is clamped at the left end of the W-shaped clamping block 1-5, the shifting fork 7-2 pushes the driving side teeth 3-4 to slide on the connecting key I3-5, the driving side teeth 3-4 are meshed with the side teeth on the walking driving gear 3-3, the lifting driving side teeth 8-4 are disengaged from the side teeth on the lifting driving bevel teeth 8-3, the walking driving gear 3-3 can drive the walking driving shaft 3-1 to rotate through the driving side teeth 3-4, when the triangular clamping block 7-3 is clamped at the right end of the W-shaped clamping block 1-5, the shifting fork 7-2 pushes the lifting driving side teeth 8-4 to slide on the connecting key II 8-5, the lifting driving side teeth 8-4 are meshed with the side teeth on the lifting driving bevel teeth 8-3, the driving side teeth 3-4 are meshed with the side teeth on the walking driving gear 3-3, and the lifting driving bevel teeth 8-3 can drive the lifting driving shaft 8-1 to rotate through the lifting driving side teeth 8-4.

The sixth specific implementation mode:

The embodiment is described below with reference to fig. 1-20, and the fifth embodiment is further described in the present embodiment, where the lifting driving mechanism 8 includes a lifting driving shaft 8-1, a lifting driving gear 8-2, a lifting driving bevel gear 8-3, lifting driving side teeth 8-4 and a connecting key ii 8-5, the lifting driving shaft 8-1 is provided with side teeth, the lifting driving gear 8-2 is rotatably connected to the lifting driving shaft 8-1, the lifting driving bevel gear 8-3 is fixedly connected to the middle end of the lifting driving shaft 8-1, the lifting driving side teeth 8-4 are slidably connected to the left end of the lifting driving shaft 8-1 through the connecting key ii 8-5, the lifting driving side teeth 8-4 are located at the left side of the lifting driving gear 8-2, the lifting driving gear 8-2 is in mesh transmission with the power gear 2-3, two ends of a lifting driving shaft 8-1 are respectively and rotatably connected to the two side plates 1-1, and the lower end of a shifting fork 7-2 positioned at the rear end is rotatably connected to lifting driving side teeth 8-4; the lifting driving gear 8-2 drives the lifting driving shaft 8-1 to rotate, and the lifting driving shaft 8-1 drives the lifting driving bevel gear 8-3 to rotate.

The seventh embodiment:

the sixth embodiment is further described with reference to fig. 1-20, wherein the lifting mechanism 9 includes a lifting shaft 9-1 and lifting bevel teeth 9-2, the lifting bevel teeth 9-2 are fixedly connected to the lower end of the lifting shaft 9-1, the lifting shaft 9-1 is rotatably connected to the bottom plate 1-2, and the lifting bevel teeth 9-2 are in meshing transmission with the lifting driving bevel teeth 8-3; the lifting driving bevel gear 8-3 drives the lifting bevel gear 9-2 to rotate, and the lifting bevel gear 9-2 drives the lifting shaft 9-1 to rotate.

the specific implementation mode is eight:

This embodiment will be described with reference to fig. 1 to 20, and embodiment seven will be further described, the lifting plate 10 comprises a lifting plate body 10-1, a lifting threaded rod 10-2, two T-shaped rails 10-3 and two lifting sliding columns 10-4, the upper end of the lifting threaded rod 10-2 is fixedly connected to the lifting plate body 10-1, the front and the back of each T-shaped rail 10-3 are symmetrically provided, the two T-shaped rails 10-3 are respectively and fixedly connected to the front end and the back end of the lifting plate body 10-1, the number of the lifting sliding columns 10-4 is four, the four lifting sliding columns 10-4 are respectively and fixedly connected to the four corners of the lifting plate body 10-1, the lower end of the lifting threaded rod 10-2 is connected to the upper end of a lifting shaft 9-1 through threads, and the four lifting sliding columns 10-4 are respectively and slidably connected into four vertical sliding; the lifting shaft 9-1 drives the lifting plate body 10-1 to move up and down through threads, the lifting plate body 10-1 moves up and down to drive the clamping hand I12 and the clamping hand II 13 to move up and down to adjust to a position where a petroleum pipeline needs to be clamped and fixed, the lifting shaft 9-1 drives the lifting plate body 10-1 to move up and down through threads to realize one-way self-locking, and the lifting plate body 10-1 cannot fall down.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1-20, and the embodiment further describes an eighth embodiment, where the clamping mechanism 11 includes a clamping screw 11-1, clamping sliders 11-2, a clamping handle 11-3, and clamping pulleys 11-4, the thread directions of the two ends of the clamping screw 11-1 are opposite, the two clamping sliders 11-2 are symmetrically arranged at the left and right, the two clamping sliders 11-2 are respectively rotatably connected to the left and right ends of the clamping screw 11-1, the clamping handle 11-3 and the clamping pulleys 11-4 are respectively fixedly connected to the left and right ends of the clamping screw 11-1, the four clamping sliders 11-2 are respectively slidably connected to four vertical sliding grooves i 1-6, and the two clamping pulleys 11-4 are connected by belt transmission; when the diameters of the petroleum pipelines on the two sides are the same, the clamping handle 11-3 on one side is manually rotated, the clamping screw rod 11-1 on one side is driven to rotate by the clamping handle 11-3 on one side, the clamping screw rod 11-1 on one side drives the clamping belt wheel 11-4 on one side to rotate, the clamping belt wheel 11-4 on one side drives the clamping belt wheel 11-4 on the other side to rotate, and when the diameters of the petroleum pipelines on the two sides are different, the transmission belt is disassembled and the two clamping handles 11-3 are respectively rotated.

The detailed implementation mode is ten:

The embodiment is described below with reference to fig. 1-20, and the embodiment further describes an embodiment nine, wherein the clamping hand i 12 is provided with a clamping insert 12-1, the clamping hand ii 13 is provided with a clamping slot 13-1, the upper ends of the clamping hand i 12 and the clamping hand ii 13 are both arranged in an arc shape, the lower ends of the two clamping hands i 12 are respectively slidably connected to the left ends of the two T-shaped rails 10-3, the middle ends of the two clamping hands i 12 are respectively connected to the left ends of the two clamping screws 11-1 through threads, the lower ends of the two clamping hands ii 13 are respectively slidably connected to the right ends of the two T-shaped rails 10-3, and the middle ends of the two clamping hands ii 13 are respectively connected to the right ends of the two clamping screws 11-1 through threads; the thread turning directions of two ends of the clamping screw rod 11-1 are opposite, when the clamping screw rod 11-1 rotates, the clamping screw rod 11-1 drives a clamping hand I12 and a clamping hand II 13 to approach each other to clamp the petroleum pipeline, a clamping insert block 12-1 is arranged on the clamping hand I12, a clamping slot 13-1 is arranged on the clamping hand II 13, and when the diameter of the petroleum pipeline to be clamped is smaller than the circular arc of the upper ends of the clamping hand I12 and the clamping hand II 13, the clamping insert block 12-1 can be inserted into the clamping slot 13-1 to clamp the petroleum pipeline.

the invention relates to an oil production pipeline frame, which has the working principle that:

When the electric bicycle is used, the power handle 2-2 is manually rotated, the power handle 2-2 drives the power shaft 2-1 to rotate, the power shaft 2-1 drives the power gear 2-3 to rotate, the power gear 2-3 drives the walking driving gear 3-3 to rotate, the walking driving gear 3-3 drives the driving side teeth 3-4 to rotate, the driving side teeth 3-4 drive the walking driving shaft 3-1 to rotate through the connecting key I3-5, and the walking driving shaft 3-1 drives the walking driving bevel teeth 3-2 to rotate; the walking driving bevel gear 3-2 drives the walking transmission bevel gear 4-2 to rotate, the walking transmission bevel gear 4-2 drives the walking transmission shaft 4-1 to rotate, and the walking transmission shaft 4-1 drives the walking transmission belt pulley 4-3 to rotate; the traveling transmission belt wheel 4-3 drives the driving belt wheel 5-2 to rotate, and the driving belt wheel 5-2 drives the driving worm 5-1 to rotate; the driving worm 5-1 drives two worm wheels 6-2 to rotate, the two worm wheels 6-2 respectively drive two walking shafts 6-1 to rotate, the two walking shafts 6-1 drive four walking wheels 6-3 to rotate, and the four walking wheels 6-3 drive a device to move and adjust to a position where a petroleum pipeline needs to be fixedly clamped; when the clamping position of the triangular clamping block 7-3 on the W-shaped clamping block 1-5 is changed manually, when the triangular clamping block 7-3 is clamped at the left end of the W-shaped clamping block 1-5, the shifting fork 7-2 pushes the driving side teeth 3-4 to slide on the connecting key I3-5, the driving side teeth 3-4 are meshed with the side teeth on the walking driving gear 3-3, the lifting driving side teeth 8-4 are disengaged from the side teeth on the lifting driving bevel teeth 8-3, the walking driving gear 3-3 can drive the walking driving shaft 3-1 to rotate through the driving side teeth 3-4, when the triangular clamping block 7-3 is clamped at the right end of the W-shaped clamping block 1-5, the shifting fork 7-2 pushes the lifting driving side teeth 8-4 to slide on the connecting key II 8-5, the lifting driving side teeth 8-4 are meshed with the side teeth on the lifting driving bevel teeth 8-3, the driving side teeth 3-4 are meshed with the side teeth on the walking driving gear 3-3, and the lifting driving bevel teeth 8-3 can drive the lifting driving shaft 8-1 to rotate through the lifting driving side teeth 8-4; the lifting driving gear 8-2 drives the lifting driving shaft 8-1 to rotate, the lifting driving shaft 8-1 drives the lifting driving bevel gear 8-3 to rotate, the lifting driving bevel gear 8-3 drives the lifting bevel gear 9-2 to rotate, the lifting bevel gear 9-2 drives the lifting shaft 9-1 to rotate, the lifting shaft 9-1 drives the lifting plate body 10-1 to move up and down through threads, the lifting plate body 10-1 moves up and down to drive the clamping hand I12 and the clamping hand II 13 to move up and down to adjust to a position where a petroleum pipeline needs to be clamped and fixed, the lifting shaft 9-1 drives the lifting plate body 10-1 to move up and down through threads to realize one-way self-locking, and the lifting plate body 10-1 cannot fall down; when the diameters of the petroleum pipelines on the two sides are the same, manually rotating the clamping handle 11-3 on one side, driving the clamping screw rod 11-1 on one side to rotate by the clamping handle 11-3 on one side, driving the clamping belt wheel 11-4 on one side to rotate by the clamping screw rod 11-1 on one side, driving the clamping belt wheel 11-4 on the other side to rotate by the clamping belt wheel 11-4 on one side, and when the diameters of the petroleum pipelines on the two sides are different, disassembling the transmission belt and respectively rotating the two clamping handles 11-3; the thread turning directions of two ends of the clamping screw rod 11-1 are opposite, when the clamping screw rod 11-1 rotates, the clamping screw rod 11-1 drives a clamping hand I12 and a clamping hand II 13 to approach each other to clamp the petroleum pipeline, a clamping insert block 12-1 is arranged on the clamping hand I12, a clamping slot 13-1 is arranged on the clamping hand II 13, and when the diameter of the petroleum pipeline to be clamped is smaller than the circular arc of the upper ends of the clamping hand I12 and the clamping hand II 13, the clamping insert block 12-1 can be inserted into the clamping slot 13-1 to clamp the petroleum pipeline.

it is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. the utility model provides an oil production pipeline frame, includes complete machine support (1), power unit (2), travel drive mechanism (3), walking drive mechanism (4), transaxle (5), control mechanism (7), lift actuating mechanism (8), elevating system (9), lifter plate (10), clamping machine structure (11), clamping hand I (12) and clamping hand II (13), its characterized in that: the power mechanism (2), the walking driving mechanism (3), the walking transmission mechanism (4), the driving axle (5), the walking mechanism (6), the lifting driving mechanism (8) and the lifting mechanism (9) are rotationally connected to the whole machine support (1), the power mechanism (2) and the walking driving mechanism (3) are in gear meshing transmission, the walking transmission mechanism (4) and the driving axle (5) are in belt transmission connection, the two walking mechanisms (6) are symmetrically arranged in the front and at the back, the two walking mechanisms (6) are rotationally connected to the whole machine support (1), the front end and the back end of the driving axle (5) are in worm gear transmission with the two walking mechanisms (6) respectively, the middle end of the control mechanism (7) is in sliding connection to the whole machine support (1), the upper end of the control mechanism (7) is clamped to the whole machine support (1), the lower end of a control mechanism (7) is respectively connected to a walking driving mechanism (3) and a lifting driving mechanism (8) in a rotating mode, the lifting driving mechanism (8) and a power mechanism (2) are in gear engagement transmission, the lifting mechanism (9) and the lifting driving mechanism (8) are in gear engagement transmission, a lifting plate (10) is connected to a whole machine support (1) in a sliding mode, the lower end of the lifting plate (10) is connected to the upper end of the lifting mechanism (9) in a threaded mode, the two clamping mechanisms (11) are symmetrically arranged in the front and back mode, the two clamping mechanisms (11) are connected to the whole machine support (1) in a sliding mode, the two clamping mechanisms (11) are connected in a belt transmission mode, the two clamping hands I (12) and the two clamping hands II (13) are symmetrically arranged in the front and back mode, the two clamping hands I (12) are respectively connected to the left ends of the two clamping mechanisms (11) in a threaded mode, and the two clamping hands II (13.

2. the oil production tubing rack of claim 1, wherein: the whole machine support (1) comprises side plates (1-1), a bottom plate (1-2), connecting plates (1-3), supporting plates (1-4), W-shaped clamping blocks (1-5), vertical sliding grooves I (1-6), vertical sliding grooves II (1-7) and circular through holes (1-8), wherein the number of the side plates (1-1) is two, the bottom plate (1-2) is fixedly connected between the two side plates (1-1), the number of the connecting plates (1-3) is two, the left end and the right end of the two connecting plates (1-3) are respectively and fixedly connected with the front end and the rear end of the two side plates (1-1), the left end and the right end of the supporting plates (1-4) are respectively and fixedly connected with the front ends of the two side plates (1-1), the W-shaped clamping blocks (1-5) are welded at the lower ends of the bottom plate (1, vertical sliding grooves I (1-6) are formed in the front end and the rear end of the upper sides of the two side plates (1-1), vertical sliding grooves II (1-7) are formed in the front end and the rear end of the upper sides of the two side plates (1-1), the four vertical sliding grooves II (1-7) are located on the inner sides of the four vertical sliding grooves I (1-6), and circular through holes (1-8) are formed in the side plate (1-1) located on the left side.

3. the oil production tubing rack of claim 2, wherein: the power mechanism (2) comprises a power shaft (2-1), a power handle (2-2) and a power gear (2-3), the power handle (2-2) is fixedly connected to the left end of the power shaft (2-1), the power gear (2-3) is fixedly connected to the middle end of the power shaft (2-1), and two ends of the power shaft (2-1) are respectively rotatably connected to the two side plates (1-1).

4. The oil production tubing rack of claim 3, wherein: the driving mechanism (3) comprises a walking driving shaft (3-1), walking driving bevel gears (3-2), a walking driving gear (3-3), walking driving side gears (3-4) and a connecting key I (3-5), the walking driving gear (3-3) is provided with side gears, the walking driving bevel gears (3-2) are fixedly connected to the middle end of the walking driving shaft (3-1), the walking driving gear (3-3) is rotatably connected to the left end of the walking driving shaft (3-1), the walking driving side gears (3-4) are slidably connected to the left end of the walking driving shaft (3-1) through the connecting key I (3-5), the walking driving side gears (3-4) are positioned on the right side of the walking driving gear (3-3), two ends of the walking driving shaft (3-1) are respectively rotatably connected to two side plates (1-1), the walking driving gear (3-3) is meshed with the power gear (2-3), and the tooth width of the power gear (2-3) is larger than that of the walking driving gear (3-3);

The walking transmission mechanism (4) comprises a walking transmission shaft (4-1), walking transmission bevel gears (4-2) and walking transmission belt wheels (4-3), the walking transmission belt wheels (4-3) and the walking transmission bevel gears (4-2) are respectively and fixedly connected to the front end and the rear end of the walking transmission shaft (4-1), the walking transmission shaft (4-1) is rotatably connected to the supporting plate (1-4), and the walking transmission bevel gears (4-2) are meshed with the walking driving bevel gears (3-2);

the drive axle (5) comprises a drive worm (5-1) and a drive belt wheel (5-2), the drive belt wheel (5-2) is fixedly connected to the front end of the drive worm (5-1), two ends of the drive worm (5-1) are respectively and rotatably connected to the two connecting plates (1-3), and the drive belt wheel (5-2) is in transmission connection with the walking drive belt wheel (4-3) through a belt;

the walking mechanism (6) comprises two walking shafts (6-1), worm wheels (6-2) and walking wheels (6-3), the walking wheels (6-3) are arranged in bilateral symmetry, the two walking wheels (6-3) are respectively and fixedly connected to the two ends of the walking shafts (6-1), the worm wheels (6-2) are fixedly connected to the middle ends of the walking shafts (6-1), the left ends and the right ends of the two walking shafts (6-1) are respectively and rotatably connected to the front ends and the rear ends of the two side plates (1-1), and the two worm wheels (6-2) are respectively in meshing transmission with the front ends and the rear ends of the driving worm (5-1).

5. The oil production tubing rack of claim 4, wherein: the control mechanism (7) comprises a shifting fork body (7-1), the upper ends of the two shifting forks (7-2) are respectively fixedly connected to the front end and the rear end of a shifting fork body (7-1), the triangular clamping block (7-3) is slidably connected to the middle end of the shifting fork body (7-1), a compression spring is sleeved on the triangular clamping block (7-3) and located between the shifting fork body (7-1) and the triangular clamping block (7-3), the triangular clamping block (7-3) is clamped on a W-shaped clamping block (1-5), the shifting fork body (7-1) is slidably connected into a circular through hole (1-8), and the lower end of the shifting fork (7-2) located at the front end is rotatably connected to a walking driving side tooth (3-4).

6. the oil production tubing rack of claim 5, wherein: the lifting driving mechanism (8) comprises a lifting driving shaft (8-1), a lifting driving gear (8-2), lifting driving bevel teeth (8-3), lifting driving side teeth (8-4) and a connecting key II (8-5), the lifting driving shaft (8-1) is provided with side teeth, the lifting driving gear (8-2) is rotatably connected to the lifting driving shaft (8-1), the lifting driving bevel teeth (8-3) are fixedly connected to the middle end of the lifting driving shaft (8-1), the lifting driving side teeth (8-4) are slidably connected to the left end of the lifting driving shaft (8-1) through the connecting key II (8-5), the lifting driving side teeth (8-4) are positioned on the left side of the lifting driving gear (8-2), and the lifting driving gear (8-2) is in meshing transmission with the power gear (2-3), two ends of the lifting driving shaft (8-1) are respectively and rotatably connected to the two side plates (1-1), and the lower end of the shifting fork (7-2) positioned at the rear end is rotatably connected to the lifting driving side teeth (8-4).

7. The oil production tubing rack of claim 6, wherein: the lifting mechanism (9) comprises a lifting shaft (9-1) and lifting bevel teeth (9-2), the lifting bevel teeth (9-2) are fixedly connected to the lower end of the lifting shaft (9-1), the lifting shaft (9-1) is rotatably connected to the bottom plate (1-2), and the lifting bevel teeth (9-2) are in meshing transmission with the lifting driving bevel teeth (8-3).

8. The oil production tubing rack of claim 7, wherein: the lifting plate (10) comprises a lifting plate body (10-1) and a lifting threaded rod (10-2), the lifting device comprises T-shaped rails (10-3) and lifting sliding columns (10-4), the upper end of a lifting threaded rod (10-2) is fixedly connected to a lifting plate body (10-1), the number of the T-shaped rails (10-3) is two, the two T-shaped rails (10-3) are fixedly connected to the front end and the rear end of the lifting plate body (10-1) respectively, the number of the lifting sliding columns (10-4) is four, the four lifting sliding columns (10-4) are fixedly connected to the four corners of the lifting plate body (10-1) respectively, the lower end of the lifting threaded rod (10-2) is connected to the upper end of a lifting shaft (9-1) through threads, and the four lifting sliding columns (10-4) are slidably connected into four vertical sliding grooves II (1-7) respectively.

9. The oil production tubing rack of claim 8, wherein: the clamping mechanism (11) comprises a clamping screw rod (11-1), clamping slide blocks (11-2), two clamping handles (11-3) and clamping belt wheels (11-4), the screw thread turning directions of two ends of the clamping screw rod (11-1) are opposite, the two clamping slide blocks (11-2) are arranged in bilateral symmetry, the two clamping slide blocks (11-2) are respectively and rotatably connected to the left end and the right end of the clamping screw rod (11-1), the clamping handles (11-3) and the clamping belt wheels (11-4) are respectively and fixedly connected to the left end and the right end of the clamping screw rod (11-1), the four clamping slide blocks (11-2) are respectively and slidably connected into four vertical sliding grooves I (1-6), and the two clamping belt wheels (11-4) are connected through belt transmission.

10. The oil production tubing rack of claim 9, wherein: the clamping device is characterized in that clamping inserts (12-1) are arranged on the clamping hand I (12), clamping slots (13-1) are arranged on the clamping hand II (13), the upper ends of the clamping hand I (12) and the clamping hand II (13) are arranged in a circular arc shape, the lower ends of the two clamping hands I (12) are respectively connected to the left ends of the two T-shaped rails (10-3) in a sliding mode, the middle ends of the two clamping hands I (12) are respectively connected to the left ends of the two clamping screw rods (11-1) through threads, the lower ends of the two clamping hands II (13) are respectively connected to the right ends of the two T-shaped rails (10-3) in a sliding mode, and the middle ends of the two clamping hands II (13) are respectively connected to the right ends of the two clamping screw rods (11-1) through threads.