CN115592342A - Fixed support equipment is used in municipal administration pipeline welding - Google Patents

Abstract

The invention relates to the field of municipal engineering, in particular to fixed support equipment for welding municipal pipelines. The automatic butt joint pipeline welding mouth can reverse rotation pipeline once more after first welding so that inspection and repair welding. The pipeline A and the pipeline B are placed, a sliding motor bevel gear is connected with a double-gear belt sliding double-gear wheel, a left sliding rack plate and a right sliding rack plate are in sliding butt joint with the pipeline A and the pipeline B, a steering motor is provided with a steering bevel gear wheel, a counterclockwise bevel gear and a reversing block are a ratchet mechanism, the steering bevel gear wheel rotates through a clockwise bevel gear and a reversing shaft belt rotating bevel gear, a rotating double-gear A push rod rotates for 360 degrees and then pushes a reversing baffle, a reversing tension spring enables the reversing block to clamp the clockwise bevel gear and then reverse, the rotating gear belt pipeline rotating gear A rotates, the rotating double-gear B belt pipeline rotating gear B rotates, the pipeline welding is rotated, and the reversing rotation inspection and the secondary welding can be carried out.

Description

Fixed support equipment for municipal pipeline welding

Technical Field

The invention relates to the field of municipal engineering, in particular to fixed support equipment for welding municipal pipelines.

Background

For example, CN202021963274.8 is a device for adjusting welding protection of pipeline, the present invention discloses a device for adjusting welding protection of pipeline, the technical solution is: the automatic pipeline butt-welding device comprises a supporting device, a driving device and a fixing device are arranged above the supporting device, the driving device is fixedly connected with a butt-joint device, a pipeline is arranged on the outer side of the butt-joint device, the fixing device comprises a fixing clamp, a fixing clamp right end top fixing installation connecting plate is arranged on the inner wall of the connecting plate in a sleeved mode, a pin rod II is movably connected with an electric telescopic rod I, the driving device comprises an electric telescopic rod II and an electric telescopic rod III, one electric telescopic rod I extends to drive one end of the fixing clamp to descend and ascend, the mode is flexible and convenient, the efficiency is greatly improved, the rotation of the pipeline is automatically achieved, welding points of the pipeline everywhere are conveniently adjusted, the welding efficiency is higher, manpower is not wasted, the inner wall of the welding points is supported by a butt-plate, high temperature during effective welding enables the pipeline to be deformed, and the pipeline needs manual butt-joint position before welding, and only single welding is achieved.

Disclosure of Invention

The invention aims to provide fixed supporting equipment for welding municipal pipelines, which is used for automatically butting a pipeline welding port and reversely rotating the pipeline again after first welding so as to facilitate inspection and repair welding.

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

the utility model provides a municipal administration pipeline welding is with fixed stay equipment, includes fixing device, slider, turns to device, rotating device, mobile device, fixing device is connected with slider, and fixing device is connected with rotating device, and slider is connected with the mobile device, turns to the device and is connected with rotating device, turns to the device and is connected with the mobile device, and rotating device is connected with the mobile device.

As further optimization of the technical scheme, the fixing and supporting device for municipal pipeline welding comprises a pipeline A, a pipeline B, a front lower support, a rear lower support, a front upper support, a rear upper support, a fastening bolt A, a fastening nut A, a fastening bolt B and a fastening nut B, wherein the pipeline A is rotatably connected with the front lower support, the pipeline A is rotatably connected with the front upper support, the fastening bolt A is respectively and fixedly connected with the front lower support and the front upper support, the fastening nut A is in threaded connection with the fastening bolt A, the pipeline B is rotatably connected with the rear lower support, the pipeline B is rotatably connected with the rear upper support, the fastening bolt B is respectively and fixedly connected with the rear lower support and the rear upper support, and the fastening nut B is in threaded connection with the fastening bolt B.

As a further optimization of the technical scheme, the fixed support equipment for welding the municipal pipeline comprises a sliding motor, a sliding motor bevel gear, a connecting chain, a connecting double gear, a sliding chain, a sliding double gear, a left sliding rack plate, a left sliding connecting plate, a left sliding bearing, a left lower sliding plate, a right sliding rack plate, a right sliding connecting plate, a right lower sliding plate and a right sliding bearing.

As a further optimization of the technical scheme, the invention provides a fixed support device for municipal pipeline welding, the steering device comprises a steering motor, a steering bevel gear, a clockwise bevel gear, a counterclockwise bevel gear, a reversing block, a reversing rotating shaft, a reversing connecting plate a, a tension spring fixing rod, a reversing tension spring, a reversing connecting plate B, a reversing rotating shaft, a reversing push plate, a reversing fixing shaft a, a reversing baffle, a rotating double gear a and a rotating bevel gear, the steering bevel gear is fixedly connected with an output shaft of the steering motor, the clockwise bevel gear and the counterclockwise bevel gear are both connected with the steering bevel gear, the reversing block is respectively fixedly connected with the clockwise bevel gear and the counterclockwise bevel gear, the reversing block is rotatably connected with the reversing rotating shaft, the reversing connecting plate a is rotatably connected with the reversing block, the tension spring fixing rod is welded with the reversing connecting plate a, the reversing tension spring is cooperatively connected with the tension spring fixing rod, the reversing tension spring is cooperatively connected with the reversing rotating shaft B, the reversing connecting plate B is rotatably connected with the reversing rotating connecting plate, the reversing rotating shaft is rotatably connected with the reversing rotating double gear, the reversing push plate is fixedly connected with the reversing fixing shaft a, the reversing push plate is rotatably connected with the reversing fixing shaft a, the reversing double gear is rotatably connected with the reversing fixing shaft a, and the reversing bevel gear is rotatably connected with the reversing fixing shaft a.

As a further optimization of the technical scheme, the fixed support equipment for municipal pipeline welding comprises a pipeline rotating gear A, a rotating gear, a rotating double gear B and a pipeline rotating gear B, wherein the pipeline A is fixedly connected with the pipeline rotating gear A, the pipeline rotating gear A is respectively in matched connection with a front lower support and a front upper support, the pipeline B is fixedly connected with the pipeline rotating gear B, the pipeline rotating gear B is respectively in matched connection with a rear lower support and a rear upper support, the rotating gear is in gear connection with the pipeline rotating gear A, the rotating double gear B is in gear connection with the pipeline rotating gear B, the rotating gear is fixedly connected with the rotating double gear A, a reversing baffle is in rotating connection with the rotating gear, and the rotating double gear A is in gear connection with the rotating double gear B.

As a further optimization of the technical scheme, the fixed support equipment for municipal pipeline welding comprises a welding support, a wheel, a welding bottom plate, a welding side plate, a reversing fixed shaft B, a reversing rotating shaft fixed plate, a rotating double-gear fixed rod a, a rotating double-gear fixed rod B, a sliding double-gear fixed rod, a connecting double-gear fixed rod and a connecting bevel gear fixed rod.

The fixed support equipment for municipal pipeline welding has the beneficial effects that: placing a pipeline A between a front lower support and a front upper support, rotating a fastening nut A to fix the front lower support and the front upper support through a fastening bolt A to horizontally place the pipeline A, simultaneously placing a pipeline B between a rear lower support and a rear upper support, rotating the fastening nut B to fix the rear lower support and the rear upper support through the fastening bolt B to horizontally place the pipeline B, turning on a sliding motor, driving a sliding motor bevel gear to rotate through an output shaft of the sliding motor, connecting a double gear to rotate through a connecting chain belt, driving a sliding double gear to rotate under the action of a sliding chain, enabling a left sliding rack plate and a right sliding rack plate to respectively slide along a left lower sliding plate and a right lower sliding plate relatively, simultaneously enabling the left sliding rack plate to slide a left sliding connecting plate, and driving the pipeline A to move left and right through the front lower support, meanwhile, the right sliding rack plate enables the right sliding connecting plate to slide, the pipeline B is driven to move left and right through the front upper support, when the pipeline A is in contact with the pipeline B, the sliding motor is turned off, the steering motor is turned on, the output shaft of the steering motor drives the steering bevel gear to rotate, the reversing block blocks the anticlockwise bevel gear, the anticlockwise bevel gear and the reversing block form a ratchet mechanism, the steering bevel gear drives the clockwise bevel gear to rotate clockwise, the reversing rotating shaft rotates clockwise, the anticlockwise bevel gear rotates anticlockwise under the action of the reversing block but does not act on the reversing rotating shaft, the reversing rotating shaft drives the rotating bevel gear to rotate clockwise, the rotating double gear A rotates anticlockwise, when a push rod on the rotating double gear A rotates 360 degrees along with the rotating double gear A, the reversing baffle is pushed to rotate, the reversing rotating shaft is pushed through the reversing push plate, and the reversing connecting plate B rotates, meanwhile, the reversing connecting plate A is pulled to rotate under the action of the reversing tension spring to drive the reversing block to slide along the reversing rotating shaft, the reversing block is enabled to clamp the clockwise bevel gear, then the reversing block and the clockwise bevel gear form a ratchet mechanism, the steering bevel gear drives the anticlockwise bevel gear to rotate anticlockwise, the reversing rotating shaft drives the rotating bevel gear to rotate anticlockwise, the rotating double gear A rotates clockwise, the push rod on the rotating double gear A rotates 360 degrees and then acts on the baffle again, the reversing effect is achieved, the rotating double gear A drives the rotating gear to rotate anticlockwise, the pipeline rotating gear A rotates clockwise, meanwhile, the pipeline rotating gear B is driven to rotate clockwise under the action of the rotating double gear B, the welding effect is achieved, and after reversing, the rotating double gear A drives the rotating gear to rotate clockwise, the pipeline rotating gear A rotates anticlockwise, meanwhile, the pipeline rotating gear B rotates anticlockwise under the action of the rotating double gear B, and the welding and secondary welding effects are inspected.

Drawings

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

FIG. 1 is a first overall structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first structural view of the fixing device of the present invention;

FIG. 4 is a second schematic structural view of the fixing device of the present invention;

FIG. 5 is a first schematic view of the sliding device of the present invention;

FIG. 6 is a second structural view of the sliding device of the present invention;

FIG. 7 is a third schematic view of the sliding apparatus of the present invention;

FIG. 8 is a fourth schematic view of the slide assembly of the present invention;

FIG. 9 is a first schematic view of the steering apparatus of the present invention;

FIG. 10 is a second schematic view of the steering apparatus of the present invention;

FIG. 11 is a third schematic view of the steering apparatus of the present invention;

FIG. 12 is a fourth schematic view of the steering apparatus of the present invention;

FIG. 13 is a fifth schematic view of the steering apparatus of the present invention;

FIG. 14 is a schematic view of the construction of the turning gear of the present invention;

FIG. 15 is a first exemplary embodiment of a mobile device according to the present invention;

fig. 16 is a second structural diagram of the mobile device according to the present invention.

In the figure: a fixing device 1; a pipeline A1-1; a pipe B1-2; 1-3 of a front lower support; 1-4 parts of a rear lower support; 1-5 of a front upper support; 1-6 parts of a rear upper support; fastening bolts A1-7; fastening nuts A1-8; fastening bolts B1-9; fastening a nut B1-10; a slide device 2; a sliding motor 2-1; a sliding motor bevel gear 2-2; connecting bevel gears 2-3; connecting chains 2-4; connecting double gears 2-5; 2-6 of a sliding chain; sliding double gears 2-7; a left sliding rack plate 2-8; 2-9 of a left sliding connecting plate; 2-10 parts of a left sliding bearing; 2-11 of a left lower sliding plate; 2-12 of a right sliding rack plate; a right sliding connection plate 2-13; 2-14 of a lower right sliding plate; a right sliding bearing 2-15; a steering device 3; a steering motor 3-1; a steering bevel gear 3-2; clockwise bevel gears 3-3; 3-4 of a counterclockwise bevel gear; 3-5 of a reversing block; 3-6 of a reversing rotating shaft; a reversing connection plate A3-7; 3-8 parts of a tension spring fixing rod; 3-9 of a reversing tension spring; a reversing connection plate B3-10; 3-11 parts of a reversing rotating shaft; 3-12 parts of a reversing push plate; reversing fixed shafts A3-13; 3-14 parts of a reversing baffle plate; rotating the double gears A3-15; rotating bevel gears 3-16; a rotating device 4; a pipeline rotating gear A4-1; a rotating gear 4-2; rotating the double gear B4-3; a pipeline rotating gear B4-4; a moving device 5; welding a bracket 5-1; 5-2 parts of wheels; welding a bottom plate 5-3; welding side plates 5-4; a reversing fixed shaft B5-5; a reversing rotating shaft fixing plate 5-6; rotating a double-gear fixing rod A5-7; rotating a double-gear fixing rod B5-8; sliding the double-gear fixing rod 5-9; connecting a double-gear fixing rod 5-10; and connecting bevel gear fixing rods 5-11.

Detailed Description

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

The fixed connection in this device indicates that fix through modes such as welding, thread tightening, combines different service environment, uses different fixed mode, the rotation connection indicate through drying by the fire the dress at epaxial with the bearing, be provided with the spring on axle or the shaft hole and keep off the ring groove, realize rotating through keeping off the axial fixity that the ring card realized the bearing in the ring inslot, sliding connection indicate to connect through the slip of slider in spout or guide rail, articulated indicate through carrying out the connected mode that moves about on connecting elements such as hinge, round pin axle and minor axis, required sealed department all realizes sealedly through sealing washer or O shape circle.

The first specific implementation way is as follows:

the embodiment is described below with reference to fig. 1 to 16, and the fixing and supporting device for municipal pipeline welding comprises a fixing device 1, a sliding device 2, a steering device 3, a rotating device 4 and a moving device 5, wherein the fixing device 1 is connected with the sliding device 2, the fixing device 1 is connected with the rotating device 4, the sliding device 2 is connected with the moving device 5, the steering device 3 is connected with the rotating device 4, the steering device 3 is connected with the moving device 5, and the rotating device 4 is connected with the moving device 5.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-16, and the embodiment further describes one embodiment, where the fixing device 1 includes a pipe A1-1, a pipe B1-2, a front lower support 1-3, a rear lower support 1-4, a front upper support 1-5, a rear upper support 1-6, a fastening bolt A1-7, a fastening nut A1-8, a fastening bolt B1-9, and a fastening nut B1-10, the pipe A1-1 is rotatably connected to the front lower support 1-3, the pipe A1-1 is rotatably connected to the front upper support 1-5, the fastening bolt A1-7 is fixedly connected to the front lower support 1-3 and the front upper support 1-5, the fastening nut A1-8 is threadedly connected to the fastening bolt A1-7, the pipe B1-2 is rotatably connected to the rear lower support 1-4, the pipe B1-2 is rotatably connected to the rear upper support 1-6, the fastening bolt B1-9 is fixedly connected to the rear lower support 1-4, the fastening bolt B1-6 is fixedly connected to the rear upper support, and the fastening bolt B1-10 is fixedly connected to the fastening bolt B1-9,

a pipeline A1-1 is placed between a front lower support 1-3 and a front upper support 1-5, the front lower support 1-3 and the front upper support 1-5 are fixed through rotating a fastening nut A1-8 through a fastening bolt A1-7, the pipeline A1-1 is horizontally placed, meanwhile, a pipeline B1-2 is placed between a rear lower support 1-4 and a rear upper support 1-6, the rear lower support 1-4 and the rear upper support 1-6 are fixed through rotating a fastening nut B1-10 through a fastening bolt B1-9, and the pipeline B1-2 is horizontally placed.

The third concrete implementation mode:

the embodiment will be described with reference to fig. 1 to 16, and the embodiment will be further described with reference to the first embodiment, where the sliding device 2 includes a sliding motor 2-1, a sliding motor bevel gear 2-2, a connecting bevel gear 2-3, a connecting chain 2-4, a connecting double gear 2-5, a sliding chain 2-6, a sliding double gear 2-7, a left sliding rack plate 2-8, a left sliding connecting plate 2-9, a left sliding bearing 2-10, a left lower slide plate 2-11, a right sliding rack plate 2-12, a right sliding connecting plate 2-13, a right lower slide plate 2-14, a right sliding bearing 2-15, a rear lower support 1-4 is connected to the right sliding connecting plate 2-13, a front lower support 1-3 is connected to the left sliding connecting plate 2-9 by welding, a sliding motor bevel gear 2-2 is fixedly connected to an output shaft of the sliding motor 2-1, a connecting bevel gear 2-3 is connected to the sliding motor bevel gear 2-2, a connecting chain 2-4 is connected to the connecting rack 2-3, a connecting rack 2-4 is connected to the connecting plate 2-3, a connecting rack 2-5 is connected to the connecting rack 2-6, a left double gear 2-7 to the left sliding rack plate 2-6, a left sliding rack plate 2-7 to the left sliding rack plate 2-6, the left sliding bearing 2-10 is fixedly connected with the left sliding rack plate 2-8, the right sliding bearing 2-15 is fixedly connected with the right sliding rack plate 2-12, the right sliding bearing 2-15 is rotatably connected with the right lower sliding plate 2-14, the left sliding bearing 2-10 is rotatably connected with the left lower sliding plate 2-11, the left sliding rack plate 2-8 is slidably connected with the left lower sliding plate 2-11, the right sliding rack plate 2-12 is slidably connected with the right lower sliding plate 2-14,

the sliding motor 2-1 is turned on, an output shaft of the sliding motor 2-1 drives a bevel gear 2-2 of the sliding motor to rotate, a connecting double gear 2-5 is driven to rotate through a connecting chain 2-4, the sliding double gear 2-7 is driven to rotate under the action of a sliding chain 2-6, so that a left sliding rack plate 2-8 and a right sliding rack plate 2-12 respectively slide along a left lower sliding plate 2-11 and a right lower sliding plate 2-14 relatively, a left sliding bearing 2-10 and a right sliding bearing 2-15 play a role in auxiliary sliding, the left sliding rack plate 2-8 slides a left sliding connecting plate 2-9, the pipeline A1-1 is driven to move left and right through a front lower support 1-3, the right sliding rack plate 2-12 slides a right sliding connecting plate 2-13, the pipeline B1-2 is driven to move left and right through a front upper support 1-5, and the sliding motor 2-1 is turned off when the pipeline A1-1 is in contact with the pipeline B1-2.

The fourth concrete implementation mode:

the first embodiment is further described with reference to FIGS. 1-16. The steering apparatus 3 includes a steering motor 3-1, a steering bevel gear 3-2, a clockwise bevel gear 3-3, a counterclockwise bevel gear 3-4, a reversing block 3-5, a reversing spindle 3-6, a reversing web A3-7, a tension spring fixing rod 3-8, a reversing tension spring 3-9, a reversing web B3-10, a reversing spindle 3-11, a reversing push plate 3-12, a reversing fixing shaft A3-13, a reversing baffle 3-14, a rotating double gear A3-15, a rotating bevel gear 3-16, a steering bevel gear 3-2 fixedly connected to an output shaft of the steering motor 3-1, a clockwise bevel gear 3-3, a counterclockwise bevel gear 3-4 fixedly connected to the steering bevel gear 3-2, a reversing block 3-5 fixedly connected to the clockwise bevel gear 3-3, a counterclockwise bevel gear 3-4, a reversing spindle 3-6 fixedly connected to the clockwise bevel gear 3-3, a counterclockwise bevel gear 3-4, a reversing block 3-5 fixedly connected to the reversing spindle 3-6, a reversing web 3-7 connected to the reversing spindle 3-3, a counterclockwise bevel gear 3-4, a reversing link 3-7 to the reversing spindle 3-7, a reversing spindle 3-7 to the reversing spindle 3-7, A3-10, a reversing tension spring, a reversing connection plate 3-10, the reversing rotating shaft 3-11 is fixedly connected with the reversing connecting plate B3-10, the reversing rotating shaft 3-11 is rotatably connected with the reversing push plate 3-12, the reversing push plate 3-12 is fixedly connected with the reversing fixed shaft A3-13, the reversing fixed shaft A3-13 is rotatably connected with the reversing baffle plate 3-14, the reversing baffle plate 3-14 is in fit connection with the rotating double gears A3-15, the rotating bevel gears 3-16 are fixedly connected with the reversing rotating shaft 3-6, the rotating bevel gears 3-16 are in gear connection with the rotating double gears A3-15,

turning on the steering motor 3-1, the output shaft of the steering motor 3-1 drives the steering bevel gear 3-2 to rotate, because the reversing block 3-5 clamps the counterclockwise bevel gear 3-4, the counterclockwise bevel gear 3-4 and the reversing block 3-5 form a ratchet mechanism, the steering bevel gear 3-2 drives the clockwise bevel gear 3-3 to rotate clockwise, the reversing spindle 3-6 rotates clockwise, the counterclockwise bevel gear 3-4 rotates counterclockwise but does not act on the reversing spindle 3-6 under the action of the reversing block 3-5, the reversing spindle 3-6 drives the rotating bevel gear 3-16 to rotate clockwise, the rotating double gear A3-15 rotates counterclockwise, when the push rod on the rotating double gear A3-15 rotates 360 degrees therewith, the reversing baffle 3-14 is pushed to rotate, the rotating shaft 3-11 is pushed by the reversing push plate 3-12, the reversing connecting plate B3-10 rotates, the reversing connecting plate A3-7 rotates under the action of the tension spring 3-9, the reversing block 3-5 slides along the rotating shaft 3-6, the reversing block 3-5 clamps the reversing block 3-3, the clockwise bevel gear 3-3 and drives the reversing bevel gear 3-15 to rotate counterclockwise, the reversing bevel gear 3-15 and then rotates 360 degrees counterclockwise, the reversing bevel gear 3-15, thereby achieving the effect of reversing.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 16, and the present embodiment will further describe the first embodiment, where the rotating device 4 includes a pipeline rotating gear A4-1, a rotating gear 4-2, a rotating double gear B4-3, and a pipeline rotating gear B4-4, the pipeline A1-1 is fixedly connected to the pipeline rotating gear A4-1, the pipeline rotating gear A4-1 is respectively connected to the front lower support 1-3 and the front upper support 1-5 in a matching manner, the pipeline B1-2 is fixedly connected to the pipeline rotating gear B4-4, the pipeline rotating gear B4-4 is respectively connected to the rear lower support 1-4 and the rear upper support 1-6 in a matching manner, the rotating gear 4-2 is connected to the pipeline rotating gear A4-1, the rotating double gear B4-3 is connected to the pipeline rotating gear B4-4, the rotating gear 4-2 is fixedly connected to the rotating double gear A3-15, the reversing baffle 3-14 is rotatably connected to the rotating gear 4-2, and the rotating double gear A3-15 is connected to the rotating gear B4-3,

the double gear A3-15 is rotated to drive the rotating gear 4-2 to rotate anticlockwise, so that the pipeline rotating gear A4-1 rotates clockwise, the pipeline rotating gear B4-4 is driven to rotate clockwise under the action of the double gear B4-3, the welding effect is achieved, after reversing is performed, the double gear A3-15 is rotated to drive the rotating gear 4-2 to rotate clockwise, the pipeline rotating gear A4-1 rotates anticlockwise, and the pipeline rotating gear B4-4 is driven to rotate anticlockwise under the action of the double gear B4-3, so that the effects of checking welding and secondary welding are achieved.

The sixth specific implementation mode:

the following description of the present embodiment will be made with reference to FIGS. 1 to 16, and the present embodiment will further describe the first embodiment, wherein the moving device 5 includes a welding bracket 5-1, a wheel 5-2, a welding base plate 5-3, a welding side plate 5-4, a reversing fixed shaft B5-5, a reversing rotary shaft fixed plate 5-6, a rotating double gear fixed plate A5-7, a rotating double gear fixed plate B5-8, a sliding double gear fixed plate 5-9, a connecting double gear fixed plate 5-10, a connecting bevel gear fixed plate 5-11, the wheel 5-2 is fixedly connected to the welding bracket 5-1, the welding base plate 5-3 and the welding side plate 5-4 are all welded to the welding base plate 5-1, the reversing rotary shaft fixed plate 5-6, the rotating double gear fixed plate A5-7, the rotating double gear fixed plate B5-8 are all welded to the welding side plate 5-4, the double gear fixed plate 5-9, the connecting double gear fixed plate 5-10, the connecting bevel gear fixed plate 5-11 is all welded to the welding base plate 5-3, the lower left and right sliding plates 2-14 are all welded to the welding base plate 5-3, the double gear fixed to the motor 5-1, the motor 5-1, the reversing rotating shaft 3-6 is rotatably connected with the reversing rotating shaft fixing plate 5-6, the reversing connecting plate A3-7 and the reversing connecting plate B3-10 are rotatably connected with the reversing fixing shaft B5-5, the rotating double gear A3-15 is rotatably connected with the rotating double gear fixing rod A5-7, the rotating gear 4-2 is rotatably connected with the rotating double gear fixing rod A5-7, and the rotating double gear B4-3 is rotatably connected with the rotating double gear fixing rod B5-8.

The invention relates to a fixed support device for welding a municipal pipeline, which has the working principle that: placing a pipeline A1-1 between a front lower support 1-3 and a front upper support 1-5, fixing the front lower support 1-3 and the front upper support 1-5 by rotating a fastening nut A1-8 through a fastening bolt A1-7 to enable the pipeline A1-1 to be horizontally placed, placing a pipeline B1-2 between a rear lower support 1-4 and a rear upper support 1-6 at the same time, fixing the rear lower support 1-4 and the rear upper support 1-6 by rotating the fastening nut B1-10 through a fastening bolt B1-9 to enable the pipeline B1-2 to be horizontally placed, opening a sliding motor 2-1, driving a sliding motor bevel gear 2-2 to rotate through an output shaft of the sliding motor 2-1, driving a connecting double gear 2-5 to rotate through a connecting chain 2-4, the sliding double gears 2-7 are driven to rotate under the action of the sliding chains 2-6, so that the left sliding rack plate 2-8 and the right sliding rack plate 2-12 respectively slide along the left lower sliding plate 2-11 and the right lower sliding plate 2-14 relatively, meanwhile, the left sliding bearing 2-10 and the right sliding bearing 2-15 play a role in auxiliary sliding, the left sliding rack plate 2-8 enables the left sliding connecting plate 2-9 to slide, the pipeline A1-1 is driven to move left and right through the front lower support 1-3, the right sliding rack plate 2-12 enables the right sliding connecting plate 2-13 to slide, the pipeline B1-2 is driven to move left and right through the front upper support 1-5, the sliding motor 2-1 is closed when the pipeline A1-1 is contacted with the pipeline B1-2, the steering motor 3-1 is opened, an output shaft of a steering motor 3-1 drives a steering bevel gear 3-2 to rotate, because a reversing block 3-5 clamps a counterclockwise bevel gear 3-4, the counterclockwise bevel gear 3-4 and the reversing block 3-5 form a ratchet mechanism, the steering bevel gear 3-2 drives a clockwise bevel gear 3-3 to rotate clockwise, so that a reversing rotating shaft 3-6 rotates clockwise, under the action of the reversing block 3-5, the counterclockwise bevel gear 3-4 rotates counterclockwise but does not act on the reversing rotating shaft 3-6, the reversing rotating shaft 3-6 drives a rotating bevel gear 3-16 to rotate clockwise, so that the rotating double gears A3-15 rotate counterclockwise, when a push rod on the rotating double gears A3-15 rotates 360 degrees along with the rotating double gears, the reversing baffle 3-14 is pushed to rotate, the reversing rotating shaft 3-11 is pushed by a reversing push plate 3-12, so that a connecting plate B3-10 rotates, and simultaneously, under the action of a reversing tension spring 3-9, the reversing connecting plate A3-7 rotates, the reversing block 3-5 is driven to slide along the rotating shaft 3-6, so that the reversing block 3-5 clamps the clockwise bevel gear 3-3, then the reversing block 3-5 and the reversing bevel gear 3-15 rotates clockwise, and then drives the reversing bevel gear 3-3 to rotate counterclockwise, and the reversing bevel gear 3-15 rotates clockwise, after the reversing push rod rotates 360 degrees, after reversing, the double gear A3-15 is rotated to drive the rotating gear B4-4 to rotate anticlockwise so as to achieve the welding effect, and the double gear A3-15 is rotated to drive the rotating gear B4-2 to rotate clockwise so as to achieve the welding effect, so that the double gear B4-3 is rotated to drive the rotating gear A4-2 to rotate anticlockwise so as to drive the pipeline rotating gear A4-1 to rotate anticlockwise and drive the pipeline rotating gear B4-4 to rotate anticlockwise so as to achieve the effects of checking welding and secondary welding.

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 may be made by one of ordinary skill in the art within the spirit and scope of the present invention are also within the scope of the present invention.

Claims (6)

1. The utility model provides a municipal administration pipeline welding is with fixed stay equipment which characterized in that: the steering device comprises a fixing device (1), a sliding device (2), a steering device (3), a rotating device (4) and a moving device (5), wherein the fixing device (1) is connected with the sliding device (2), the fixing device (1) is connected with the rotating device (4), the sliding device (2) is connected with the moving device (5), the steering device (3) is connected with the rotating device (4), the steering device (3) is connected with the moving device (5), and the rotating device (4) is connected with the moving device (5).

2. The fixed support equipment for municipal pipeline welding according to claim 1, wherein: the fixing device (1) comprises a pipeline A (1-1), a pipeline B (1-2), a front lower support (1-3), a rear lower support (1-4), a front upper support (1-5), a rear upper support (1-6), a fastening bolt A (1-7), a fastening nut A (1-8), a fastening bolt B (1-9) and a fastening nut B (1-10), wherein the pipeline A (1-1) is rotationally connected with the front lower support (1-3), the pipeline A (1-1) is rotationally connected with the front upper support (1-5), the fastening bolt A (1-7) is respectively and fixedly connected with the front lower support (1-3) and the front upper support (1-5), the fastening nut A (1-8) is in threaded connection with the fastening bolt A (1-7), the pipeline B (1-2) is rotationally connected with the rear lower support (1-4), the pipeline B (1-2) is rotationally connected with the rear upper support (1-6), the fastening bolt B (1-9) is in threaded connection with the rear lower support (1-6), and the fastening bolt B (1-10) is respectively in threaded connection with the rear lower support (1-10).

3. The fixed support equipment for municipal pipeline welding according to claim 1, wherein: the sliding device (2) comprises a sliding motor (2-1), a sliding motor bevel gear (2-2), a connecting bevel gear (2-3), a connecting chain (2-4), a connecting double gear (2-5), a sliding chain (2-6), a sliding double gear (2-7), a left sliding rack plate (2-8), a left sliding connecting plate (2-9), a left sliding bearing (2-10), a left lower sliding plate (2-11), a right sliding rack plate (2-12), a right sliding connecting plate (2-13), a right lower sliding plate (2-14) and a right sliding bearing (2-15), wherein a rear lower support (1-4) is welded with the right sliding connecting plate (2-13), a front lower support (1-3) is welded with the left sliding connecting plate (2-9), the sliding motor bevel gear (2-2) is fixedly connected with an output shaft of the sliding motor (2-1), the connecting bevel gear (2-3) is in gear connection with the sliding motor (2-2), the connecting chain (2-4) is connected with the connecting bevel gear (2-3), the connecting chain (2-5) is connected with the connecting chain (2-5), the sliding chain (2-6) is in transmission connection with a sliding double gear (2-7), the sliding double gear (2-7) is in gear connection with a left sliding rack plate (2-8) and a right sliding rack plate (2-12) respectively, the left sliding connecting plate (2-9) is in welding connection with the left sliding rack plate (2-8), the right sliding connecting plate (2-13) is in welding connection with the right sliding rack plate (2-12), the left sliding bearing (2-10) is fixedly connected with the left sliding rack plate (2-8), the right sliding bearing (2-15) is fixedly connected with the right sliding rack plate (2-12), the right sliding bearing (2-15) is rotatably connected with the right lower sliding plate (2-14), the left sliding bearing (2-10) is rotatably connected with the left lower sliding plate (2-11), the left sliding rack plate (2-8) is slidably connected with the left lower sliding plate (2-11), and the right sliding rack plate (2-12) is slidably connected with the right lower sliding rack plate (2-14).

4. The fixed support equipment for municipal pipeline welding according to claim 1, wherein: the steering device (3) comprises a steering motor (3-1), a steering bevel gear (3-2), a clockwise bevel gear (3-3), a counterclockwise bevel gear (3-4), a reversing block (3-5), a reversing rotating shaft (3-6), a reversing connecting plate A (3-7), a tension spring fixing rod (3-8), a reversing tension spring (3-9), a reversing connecting plate B (3-10), a reversing rotating shaft (3-11), a reversing push plate (3-12), a reversing fixing shaft A (3-13), a reversing baffle plate (3-14), a rotating double gear A (3-15) and a rotating bevel gear (3-16), wherein the steering bevel gear (3-2) is fixedly connected with an output shaft of the steering motor (3-1), the clockwise bevel gear (3-3) and the counterclockwise bevel gear (3-4) are respectively connected with the steering bevel gear (3-2), the reversing block (3-5) is respectively fixedly connected with the clockwise bevel gear (3-3) and the counterclockwise bevel gear (3-4), the reversing shaft (3-6) is respectively fixedly connected with the clockwise bevel gear (3-4), the counterclockwise bevel gear (3-4), and the reversing block (3-5) is connected with the rotating shaft (3-6), the reversing connecting plate A (3-7) is rotatably connected with the reversing block (3-5), the tension spring fixing rod (3-8) is welded with the reversing connecting plate A (3-7), the reversing tension spring (3-9) is in fit connection with the tension spring fixing rod (3-8), the reversing tension spring (3-9) is in fit connection with the reversing rotating shaft (3-11), the reversing connecting plate B (3-10) is rotatably connected with the reversing connecting plate A (3-7), the reversing rotating shaft (3-11) is fixedly connected with the reversing connecting plate B (3-10), the reversing rotating shaft (3-11) is rotatably connected with the reversing push plate (3-12), the reversing push plate (3-12) is fixedly connected with the reversing fixing shaft A (3-13), the reversing fixing shaft A (3-13) is rotatably connected with the reversing baffle plate (3-14), the reversing baffle plate (3-14) is in fit connection with the rotating double gear A (3-15), the rotating bevel gear (3-16) is fixedly connected with the reversing rotating double gear A (3-15).

5. The fixed support equipment for municipal pipeline welding according to claim 1, wherein: the rotating device (4) comprises a pipeline rotating gear A (4-1), a rotating gear (4-2), a rotating double gear B (4-3) and a pipeline rotating gear B (4-4), wherein the pipeline A (1-1) is fixedly connected with the pipeline rotating gear A (4-1), the pipeline rotating gear A (4-1) is respectively in matched connection with a front lower support (1-3) and a front upper support (1-5), the pipeline B (1-2) is fixedly connected with the pipeline rotating gear B (4-4), the pipeline rotating gear B (4-4) is respectively in matched connection with a rear lower support (1-4) and a rear upper support (1-6), the rotating gear (4-2) is in gear connection with the pipeline rotating gear A (4-1), the rotating double gear B (4-3) is in gear connection with the pipeline rotating gear B (4-4), the rotating gear (4-2) is fixedly connected with the rotating double gear A (3-15), and a reversing baffle (3-14) is rotatably connected with the rotating gear (4-2) and the rotating double gear A (3-15) is rotatably connected with the pipeline rotating gear B (4-4).

6. The fixed support equipment for municipal pipeline welding according to claim 1, wherein: the moving device (5) comprises a welding support (5-1), wheels (5-2), a welding bottom plate (5-3), welding side plates (5-4), a reversing fixed shaft B (5-5), a reversing rotating shaft fixed plate (5-6), a rotating double-gear fixed rod A (5-7), a rotating double-gear fixed rod B (5-8), a sliding double-gear fixed rod (5-9), a connecting double-gear fixed rod (5-10) and a connecting bevel gear fixed rod (5-11), wherein the wheels (5-2) are fixedly connected with the welding support (5-1), the welding bottom plate (5-3) and the welding side plate (5-4) are all welded with the welding support (5-1), the reversing rotating shaft fixed plate (5-6), the rotating double-gear fixed rod A (5-7) and the rotating double-gear fixed rod B (5-8) are all welded with the welding side plates (5-4), the sliding double-gear fixed rod (5-9), the connecting double-gear fixed rod (5-10), the connecting fixed rod (5-11) and the welding bottom plate (5-3), and the left lower slide plate (11-3) and the right lower slide plate (5-3), the sliding double gear (2-7) is rotationally connected with a sliding double gear fixing rod (5-9), the connecting double gear (2-5) is rotationally connected with a connecting double gear fixing rod (5-10), the connecting bevel gear (2-3) is rotationally connected with a connecting bevel gear fixing rod (5-11), the sliding motor (2-1) is fixedly connected with a welding side plate (5-4), the steering motor (3-1) is fixedly connected with a welding bracket (5-1), the reversing rotating shaft (3-6) is rotationally connected with a reversing rotating shaft fixing plate (5-6), the reversing connecting plate A (3-7) and the reversing connecting plate B (3-10) are rotationally connected with a reversing fixing shaft B (5-5), the rotating double gear A (3-15) is rotationally connected with a rotating double gear fixing rod A (5-7), the rotating gear (4-2) is rotationally connected with a rotating double gear fixing rod A (5-7), and the rotating double gear B (4-3) is rotationally connected with a rotating double gear fixing rod B (5-8).

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