CN207806964U - Oil-gas pipeline welding guided way - Google Patents

Abstract

The utility model discloses a kind of oil-gas pipeline welding guided way, including the first track ontology, second track ontology and 2 retaining mechanisms, the both ends of the first track ontology and the second track ontology are connected by retaining mechanism respectively, the first track ontology further comprises the disposed in parallel first left half loop orbit, first right half loop orbit and positioned at the first left half loop orbit, at least one link block between first right half loop orbit, second mounting plate both ends are connected respectively to the second left half loop orbit, on the second respective medial surface of right half loop orbit, the track link block other end and the first right half loop orbit, second right half loop orbit medial surface connection, the track link block medial surface is respectively fixed with a cushion block.The utility model oil-gas pipeline welding guided way is conveniently realized and is applicable in different-diameter pipeline by the cushion block of the different size and number of installation so that track has good versatility.

Description

Oil-gas pipeline welding guided way

Technical field

The utility model is related to a kind of oil-gas pipeline welding guided ways, belong to pipeline technical field of welding equipment.

Background technology

With the progress of industry automatic control research, corresponding technical support is provided for the pipeline engineering construction in China, Pipeline automatic welding connection technology gradually becomes the mainstream technology of pipeline welding, makes the oil-gas pipeline construction in China towards efficient direction Development.Automatic welding of pipelines is exactly that welding tractor surrounds vessel wall motion along conveyor track, and automatic welding is carried out to pipeline outer circular seam It connects, welding efficiency can be effectively improved, mitigate the labor intensity of welder.Currently, the transmission side that type rail for automatic welding pipeline uses Formula mainly has rack pinion or a rail flanges engagement driving two ways, and the main problem of the two, which is a kind of track, to answer For a kind of caliber and weight weight；In addition, the former also requires high precision machining, to the adaptability of caliber error and deviation from circular from It is very low, or adjust trouble；Often there is crimping in the engagement place of driving wheel and rail flanges, due to squeezing in the latter, and can accelerate The abrasion of driven wheel must carry out reconditioning, shorten the service life of track after a period of time；At the same time, in the construction of pipeline In operation, is completed with the welding of one of weld seam, when being moved to next weld bond of pipeline, need quickly to tear track open Dress, this just proposes easy-to-dismount requirement to the structure of track, in addition, because internal diameter of the pipeline differs, also track is required to have Certain versatility.

Utility model content

The utility model aim is to provide a kind of oil-gas pipeline welding guided way, and the oil-gas pipeline welding is logical with guided way The cushion block for installing different size and number additional is crossed, conveniently realizes and different-diameter pipeline is applicable in so that track has good Good versatility.

In order to achieve the above objectives, the technical solution adopted in the utility model is：A kind of oil-gas pipeline welding guided way, packet Include the first track ontology, the second track ontology and 2 retaining mechanisms, the both ends of the first track ontology and the second track ontology It is connected respectively by retaining mechanism, the first track ontology further comprises the disposed in parallel first left half loop orbit and first Right half loop orbit, the second track ontology further comprise the disposed in parallel second left half loop orbit and the second right semi-ring rail Road；

The retaining mechanism further comprises the first mounting plate, the second mounting plate, first rotating shaft, the second shaft and locking screw Bolt, the first rotating shaft, the second shaft are provided at least one tapped through hole, and the first rotating shaft is embedded in the peace of the first mounting plate It fills in hole, at least one tapped through hole of the first rotating shaft exposes from the first mounting plate, the second shaft insertion second In the mounting groove of mounting plate, the clamping screw screws in first rotating shaft, the respective tapped through hole of the second shaft, to realize to the The end face locking corresponding with the second left half loop orbit, the second half loop orbit of the right side of one left half loop orbit, the first right half loop orbit connects, First mounting plate both ends are connected respectively to the first left half loop orbit, on the first respective medial surface of right half loop orbit, described Second mounting plate both ends are connected respectively to the second left half loop orbit, on the second respective medial surface of right half loop orbit；

It is described to include the first track ontology and the second track ontology connects to form a round circular orbit being installed on pipeline, this Round circular orbit medial surface has been uniformly arranged in the circumferential direction several track link blocks, track link block one end and the first left semi-ring Track, the second left half loop orbit medial surface connection, the track link block other end and the first right half loop orbit, the second right half loop orbit Medial surface connects, and the track link block medial surface is respectively fixed with a cushion block.

Further improved technical solution is as follows in above-mentioned technical proposal：

Preferably, being arranged in parallel between several track link blocks.

Preferably, being fixedly connected by rivet between the track link block and cushion block.

Preferably, being fixed between the cushion block and cushion block by riveting.

Preferably, the track link block is square tube, the opposite two sides of this square tube has several threaded holes.

Preferably, the cushion block is rectangular steel pipe, the section length of side of this rectangular steel pipe is 25mm × 50mm.

Preferably, the cushion block is rectangular steel tube, the cross section length of side of this rectangular steel tube is 25mm × 25mm.

Since above-mentioned technical proposal is used, the utility model has following advantages and effect compared with prior art：

1. the utility model oil-gas pipeline welding guided way, retaining mechanism further comprise the first mounting plate, second Mounting plate, first rotating shaft, the second shaft and clamping screw, it is logical that the first rotating shaft, the second shaft are provided at least one screw thread Hole, the first rotating shaft are embedded in the mounting hole of the first mounting plate, at least one tapped through hole of the first rotating shaft is from first Expose on mounting plate, second shaft is embedded in the mounting groove of the second mounting plate, and the clamping screw screws in first rotating shaft, the The respective tapped through hole of two shafts, to realize to the first left half loop orbit, the first right half loop orbit and the second half loop orbit of a left side, The corresponding end face locking connection of second right half loop orbit, first mounting plate both ends be connected respectively to the first left half loop orbit, On the first respective medial surface of right half loop orbit, second mounting plate both ends are connected respectively to the second left half loop orbit, second On the right respective medial surface of half loop orbit, the mounting groove of the second mounting plate is arranged, easy disassembly, can when not in use, by the One track ontology, the second track ontology are dismantled, and when especially the bigger inconvenience of diameter is carried in the assembled state in orbit, and are torn open Opening set, clamping screw can be protected, will not because in transportational process motion excursion twist due to damage or bend, in use, again from Both ends are locked respectively, realize the holding to pipeline.

2. the utility model oil-gas pipeline welding guided way includes the first track ontology and the connection of the second track ontology A round circular orbit being installed on pipeline is formed, this round circular orbit medial surface has been uniformly arranged in the circumferential direction several track connections Block, track link block one end are connect with the first left half loop orbit, the second left half loop orbit medial surface, and track link block is another End is connect with the first right half loop orbit, the second right half loop orbit medial surface, and the setting of track link block can make track and pipe Contact setting that is even closer, and being uniformly distributed circumferentially between road, by multi-point support by the phase between track and pipeline Interreaction force is evenly distributed in circumferential direction, avoids damaging or weigh wounded pipeline by pressure because dynamics is excessive；Secondly, in track link block Side is respectively fixed with a cushion block, and cushion block is rectangular steel pipe, and the section length of side of this rectangular steel pipe is 25mm × 50mm, and stating cushion block is The cross section length of side of rectangular steel tube, this rectangular steel tube is 25mm × 25mm, the setting of different size cushion blocks, by installing different rulers additional Very little and quantity cushion block, conveniently realizes and is applicable in different-diameter pipeline so that track has good versatility, increases Add working efficiency, it is cost-effective.

Description of the drawings

Attached drawing 1 is the utility model oil-gas pipeline welding guided way structural schematic diagram；

Attached drawing 2 is the utility model oil-gas pipeline welding guided way partial structural diagram；

Attached drawing 3 is the utility model oil-gas pipeline welding guided way side view.

In the figures above：1, pipeline；2, the first track ontology；21, the first left half loop orbit；22, the first right half loop orbit； 3, the second track ontology；31, the second left half loop orbit；32, the second right half loop orbit；5, retaining mechanism；51, the first mounting plate； 52, the second mounting plate；53, first rotating shaft；54, the second shaft；55, clamping screw；56, tapped through hole；57, mounting hole；58, pacify Tankage；7, track link block；8, cushion block.

Specific implementation mode

The utility model is further described with reference to embodiment：

Embodiment 1：A kind of oil-gas pipeline welding guided way, including the first track ontology 2, the second track ontology 3 and 2 The both ends of retaining mechanism 4, the first track ontology 2 and the second track ontology 3 are connected by retaining mechanism 4 respectively, and described One track ontology 2 further comprises first left side, half loop orbit 21 and the first right half loop orbit 22 disposed in parallel, second rail Road ontology 3 further comprises second left side, half loop orbit 31 and the second right half loop orbit 32 disposed in parallel；

The retaining mechanism 5 further comprises the first mounting plate 51, the second mounting plate 52, first rotating shaft 53, the second shaft 54 and clamping screw 55, the first rotating shaft 53, the second shaft 54 be provided at least one tapped through hole 56, the first rotating shaft In the mounting hole 57 of 53 the first mounting plates 51 of insertion, at least one tapped through hole 56 of the first rotating shaft 53 is from the first mounting plate Expose on 51, second shaft 54 is embedded in the mounting groove 58 of the second mounting plate 52, and the clamping screw 55 screws in first turn Axis 53,54 respective tapped through hole 56 of the second shaft, to realize to first left side, half right side of loop orbit 21, first, half loop orbit 22 with Second left side, half 31, second right side of loop orbit, half loop orbit, 32 corresponding end face locking connection, 51 both ends of the first mounting plate difference It is connected on first left side, half loop orbit 22 respective medial surface of the 21, first right half loop orbit, 52 both ends of the second mounting plate point It is not connected on second left side, half loop orbit 32 respective medial surface of the 31, second right half loop orbit；

It is described to include the first track ontology 2 and the connection of the second track ontology 3 forms one and is installed on circular ring shape rail on pipeline 1 Road, this round circular orbit medial surface have been uniformly arranged in the circumferential direction several track link blocks 7, described 7 one end of track link block and the One left side, half loop orbit the 21, second left half loop orbit 31 medial surface connection, 7 other end of track link block and the first right half loop orbit 22, the second right half loop orbit 32 medial surface connection, 7 medial surface of track link block are respectively fixed with a cushion block 8.

It is arranged in parallel between above-mentioned several track link blocks 7；It is solid by rivet between above-mentioned track link block 7 and cushion block 8 Fixed connection；Above-mentioned cushion block 8 is rectangular steel pipe, and the section length of side of this rectangular steel pipe is 25mm × 50mm.

Embodiment 2：A kind of oil-gas pipeline welding guided way, including the first track ontology 2, the second track ontology 3 and 2 The both ends of retaining mechanism 4, the first track ontology 2 and the second track ontology 3 are connected by retaining mechanism 4 respectively, and described One track ontology 2 further comprises first left side, half loop orbit 21 and the first right half loop orbit 22 disposed in parallel, second rail Road ontology 3 further comprises second left side, half loop orbit 31 and the second right half loop orbit 32 disposed in parallel；

The retaining mechanism 5 further comprises the first mounting plate 51, the second mounting plate 52, first rotating shaft 53, the second shaft 54 and clamping screw 55, the first rotating shaft 53, the second shaft 54 be provided at least one tapped through hole 56, the first rotating shaft In the mounting hole 57 of 53 the first mounting plates 51 of insertion, at least one tapped through hole 56 of the first rotating shaft 53 is from the first mounting plate Expose on 51, second shaft 54 is embedded in the mounting groove 58 of the second mounting plate 52, and the clamping screw 55 screws in first turn Axis 53,54 respective tapped through hole 56 of the second shaft, to realize to first left side, half right side of loop orbit 21, first, half loop orbit 22 with Second left side, half 31, second right side of loop orbit, half loop orbit, 32 corresponding end face locking connection, 51 both ends of the first mounting plate difference It is connected on first left side, half loop orbit 22 respective medial surface of the 21, first right half loop orbit, 52 both ends of the second mounting plate point It is not connected on second left side, half loop orbit 32 respective medial surface of the 31, second right half loop orbit；

It is described to include the first track ontology 2 and the connection of the second track ontology 3 forms one and is installed on circular ring shape rail on pipeline 1 Road, this round circular orbit medial surface have been uniformly arranged in the circumferential direction several track link blocks 7, described 7 one end of track link block and the One left side, half loop orbit the 21, second left half loop orbit 31 medial surface connection, 7 other end of track link block and the first right half loop orbit 22, the second right half loop orbit 32 medial surface connection, 7 medial surface of track link block are respectively fixed with a cushion block 8.

It is fixed between above-mentioned cushion block 8 and cushion block 8 by riveting；Above-mentioned track link block 7 be square tube, this square tube it is opposite two Face has several threaded holes；Above-mentioned cushion block 8 is rectangular steel tube, and the cross section length of side of this rectangular steel tube is 25mm × 25mm.

When using above-mentioned oil-gas pipeline welding guided way, the mounting groove of the second mounting plate is arranged, easy disassembly, can be with When not in use, the first track ontology, the second track ontology are dismantled, especially diameter is bigger inconvenient in assembling shape in orbit When being carried under state, and placement is dismantled, clamping screw can be protected, will not damaged or curved due to motion excursion twists in transportational process Folding realizes the holding to pipeline in use, being locked respectively from both ends again；Secondly, the setting of track link block can make rail Contact setting that is even closer, and being uniformly distributed circumferentially between road and pipeline, by multi-point support by track and pipeline it Between interaction force be evenly distributed in circumferential direction, avoid damaging or weigh wounded pipeline by pressure because dynamics is excessive；Again, different sizes The setting of cushion block is conveniently realized and is applicable in different-diameter pipeline, make by installing the cushion block of different size and number additional Obtaining track has good versatility, increases working efficiency, cost-effective.

Above-described embodiment is only the technical concepts and features for illustrating the utility model, and its object is to allow be familiar with technique Personage can understand the content of the utility model and implement according to this, the scope of protection of the utility model can not be limited with this. It is all according to equivalent change or modification made by the spirit of the present invention essence, should all cover the scope of protection of the utility model it It is interior.

Claims (7)

1. a kind of oil-gas pipeline welding guided way, it is characterised in that：Including the first track ontology（2）, the second track ontology（3） With 2 retaining mechanisms（4）, the first track ontology（2）With the second track ontology（3）Both ends pass through retaining mechanism respectively （4）Connection, the first track ontology（2）Further comprise the disposed in parallel first left half loop orbit（21）With the first right semi-ring Track（22）, the second track ontology（3）Further comprise the disposed in parallel second left half loop orbit（31）With second right half Loop orbit（32）；

The retaining mechanism（5）Further comprise the first mounting plate（51）, the second mounting plate（52）, first rotating shaft（53）, second Shaft（54）And clamping screw（55）, the first rotating shaft（53）, the second shaft（54）It is provided at least one tapped through hole （56）, the first rotating shaft（53）Embedded first mounting plate（51）Mounting hole（57）It is interior, the first rotating shaft（53）At least One tapped through hole（56）From the first mounting plate（51）Upper exposing, second shaft（54）Embedded second mounting plate（52）Peace Tankage（58）It is interior, the clamping screw（55）Screw in first rotating shaft（53）, the second shaft（54）Respective tapped through hole（56）, from And it realizes to the first left half loop orbit（21）, the first right half loop orbit（22）With the second left half loop orbit（31）, the second right semi-ring Track（32）Corresponding end face locking connection, first mounting plate（51）Both ends are connected respectively to the first left half loop orbit （21）, the first right half loop orbit（22）On respective medial surface, second mounting plate（52）Both ends are connected respectively to second left side Half loop orbit（31）, the second right half loop orbit（32）On respective medial surface；

It is described to include the first track ontology（2）With the second track ontology（3）Connection forms one and is installed on pipeline（1）On circular ring shape rail Road, this round circular orbit medial surface have been uniformly arranged in the circumferential direction several track link blocks（7）, the track link block（7）One end With the first left half loop orbit（21）, the second left half loop orbit（31）Medial surface connects, track link block（7）The other end and first right side Half loop orbit（22）, the second right half loop orbit（32）Medial surface connects, the track link block（7）Medial surface is respectively fixed with one Cushion block（8）.

2. oil-gas pipeline welding guided way according to claim 1, it is characterised in that：Several track link blocks （7）Between be arranged in parallel.

3. oil-gas pipeline welding guided way according to claim 1, it is characterised in that：The track link block（7）With Cushion block（8）Between be fixedly connected by rivet.

4. oil-gas pipeline welding guided way according to claim 1, it is characterised in that：The cushion block（8）With cushion block（8） Between pass through rivet fix.

5. oil-gas pipeline welding guided way according to claim 1, it is characterised in that：The track link block（7）For Square tube, the opposite two sides of this square tube have several threaded holes.

6. oil-gas pipeline welding guided way according to claim 1, it is characterised in that：The cushion block（8）For rectangle steel The section length of side of pipe, this rectangular steel pipe is 25mm × 50mm.

7. oil-gas pipeline welding guided way according to claim 1, it is characterised in that：The cushion block（8）For square bar The cross section length of side of pipe, this rectangular steel tube is 25mm × 25mm.