CN207806944U - Automatic welding carriage drives track - Google Patents

Abstract

The utility model discloses a kind of automatic welding carriage driving track, including the first track ontology, second track ontology, at least two link block, first bindiny mechanism and the second bindiny mechanism, the both ends of the first track ontology and the second track ontology pass through the first bindiny mechanism respectively, second bindiny mechanism connects, it is described to include the first track ontology and the second track ontology connects to form a round circular orbit, first connecting shaft is embedded in the through-hole of the first connecting plate, the tie down screw screws in the first connecting shaft, the respective screw hole of second connecting shaft, second connecting 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 utility model automatic welding carriage drives combination settings of the track by lug boss and groove, so that passing through interconnection between the first track ontology, the second track ontology, stablize and have fine-tuning gap, facilitates track installation on pipeline, inner track radius error can also be adjusted.

Description

Automatic welding carriage drives track

Technical field

The utility model is related to a kind of automatic welding carriages to drive track, belong to pipeline technical field of welding equipment.

Background technology

Automatic welding of pipelines is exactly that welding tractor surrounds vessel wall motion along conveyor track, is carried out to pipeline outer circular seam automatic Welding, can effectively improve welding efficiency, mitigate the labor intensity of welder.Pipeline welding is most important during pipeline construction Link, be not only the most basic guarantee of pipeline construction quality, also contribute to the appearance of pipeline after construction molding.Pipeline-weld The even running on pipeline of welding quality and welding tractor and it is accurately positioned closely bound up, and the structure of track directly affects The smoothness and position degree of welding tractor；At the same time, it in the construction operation of pipeline, is completed with the welding of one of weld seam, When being moved to next weld bond of oil-gas pipeline, need quickly to dismount track, this just proposes just the structure of track In the requirement of dismounting.

Utility model content

The utility model aim is to provide a kind of automatic welding carriage driving track, which drives track logical Cross the combination settings of lug boss and groove so that by interconnection between the first track ontology, the second track ontology, stablize and With fine-tuning gap, facilitates track installation on pipeline, inner track radius error can also be adjusted.

In order to achieve the above objectives, the technical solution adopted in the utility model is：A kind of automatic welding carriage driving track, packet Include the first track ontology, the second track ontology, at least two link block, the first bindiny mechanism and the second bindiny mechanism, described first The both ends of track ontology and the second track ontology are connected by the first bindiny mechanism, the second bindiny mechanism respectively, described to include first Track ontology and the second track ontology connect to form a round circular orbit, this round circular orbit is installed on pipeline；

The first track ontology further comprise the disposed in parallel first left half loop orbit, the first right half loop orbit and At least one link block between the first left half loop orbit, the first right half loop orbit, the second track ontology into One step includes the disposed in parallel second left half loop orbit, the second right half loop orbit and positioned at the second left half loop orbit, second right At least one link block between half loop orbit；

First bindiny mechanism further comprises the first mounting plate, the second mounting plate, first rotating shaft, the second shaft and lock Tight bolt, the first rotating shaft, the second shaft are provided at least one tapped through hole, the first rotating shaft, the second shaft difference In embedded first mounting plate, the respective mounting hole of the second mounting plate, respective at least one spiral shell of the first rotating shaft, the second shaft Line through-hole exposes from the first mounting plate, the second mounting plate respectively, and first mounting plate both ends are connected respectively to first left half On loop orbit, the first respective medial surface of right half loop orbit, second mounting plate both ends are connected respectively to the second left semi-ring rail On road, the second respective medial surface of right half loop orbit, it is logical that the clamping screw screws in first rotating shaft, the respective screw thread of the second shaft Hole, it is corresponding with the second left half loop orbit, the second right half loop orbit to the first left half loop orbit, the first right half loop orbit to realize End face locking connection；

Second bindiny mechanism further comprises the first connecting plate, the second connecting plate, the first connecting shaft, the second connecting shaft And tie down screw, first connecting shaft, the second connecting shaft are provided at least one screw hole, the first connecting shaft insertion first In the through-hole of connecting plate, described at least one screw hole of first connecting shaft exposes from the first connecting plate, second connecting shaft In the mounting groove of embedded second connecting plate, the tie down screw screws in the first connecting shaft, the respective screw hole of the second connecting shaft, to It realizes to the first left half loop orbit, the first right half loop orbit end face corresponding with the second left half loop orbit, the second half loop orbit of the right side Locking connection, first connecting plate both ends are connected respectively to the first left half loop orbit, the first respective inside of right half loop orbit On face, second connecting plate both ends are connected respectively to the second left half loop orbit, on the second respective medial surface of right half loop orbit.

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

Preferably, the described first left half loop orbit and the second left half loop orbit are connected by two pairs of lug bosses and groove clamping It connects.

Preferably, respectively one end has lug boss, other end tool for the described first left half loop orbit, the second left half loop orbit It is fluted.

Preferably, the described first right half loop orbit and the second right half loop orbit are connected by two pairs of lug bosses and groove clamping It connects.

Preferably, the first rotating shaft, the second shaft respectively with the first mounting plate, the respective mounting hole of the second mounting plate Clearance fit.

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

The utility model automatic welding carriage drives track, the first bindiny mechanism to further comprise the first mounting plate, the Two mounting plates, first rotating shaft, the second shaft and clamping screw, the first rotating shaft, the second shaft are provided at least one screw thread Through-hole, the first rotating shaft, the second shaft are respectively embedded into the first mounting plate, in the respective mounting hole of the second mounting plate, and described Respectively at least one tapped through hole exposes from the first mounting plate, the second mounting plate respectively for one shaft, the second shaft, and described One 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, second peace Loading board both ends are connected respectively to the second left half loop orbit, on the second respective medial surface of right half loop orbit, the clamping screw rotation Enter first rotating shaft, the respective tapped through hole of the second shaft, to realize to the first left half loop orbit, the first right half loop orbit and the Two left half loop orbits, the corresponding end face locking connection of the second half loop orbit of the right side, the setting of the first bindiny mechanism, when not in use, First track ontology, the second track ontology can be remained connected together, convenience in transport and carrying, in use, only need to be by rail Road is set on pipeline, then locks 2 bindiny mechanisms successively, and a people can complete the installation to track, convenient fast It is prompt easy to operate；Secondly, the second bindiny mechanism further comprises the first connecting plate, the second connecting plate, the first connecting shaft, second Connecting shaft and tie down screw, first connecting shaft, the second connecting shaft are provided at least one screw hole, and first connecting shaft is embedding In the through-hole for entering the first connecting plate, described at least one screw hole of first connecting shaft exposes from the first connecting plate, and described second Connecting shaft is embedded in the mounting groove of the second connecting plate, and the tie down screw screws in the first connecting shaft, the respective spiral shell of the second connecting shaft Hole, it is corresponding with the second left half loop orbit, the second right half loop orbit to the first left half loop orbit, the first right half loop orbit to realize End face locking connection, first connecting plate both ends are connected respectively to the first left half loop orbit, the first right half loop orbit respectively Medial surface on, second connecting plate both ends be connected respectively to the second left half loop orbit, the second right half loop orbit it is respective in On side, the setting of mounting groove, easy disassembly in the second bindiny mechanism, it is especially desirable to convenient installation and dismounting to big track； Again, the first left half loop orbit and the second left half loop orbit are connected by two pairs of lug bosses and groove clamping, the first left semi-ring rail Respectively there is lug boss, the other end there is groove, the combination of lug boss and groove staggeredly to set for one end for road, the second left half loop orbit It sets so that by interconnection between the first track ontology, the second track ontology, more stablize, and there is fine-tuning gap, Facilitate track installation on pipeline, inner track radius error can also be adjusted.

Description of the drawings

Attached drawing 1 is that the utility model automatic welding carriage drives track structure schematic diagram；

Attached drawing 2 is that the utility model automatic welding carriage drives first bindiny mechanism's structural schematic diagram in track；

Attached drawing 3 is that the utility model automatic welding carriage drives second bindiny mechanism's structural schematic diagram in track；

Attached drawing 4 is that the utility model automatic welding carriage drives track partial exploded 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；4, the first bindiny mechanism；41, the first installation Plate；42, the second mounting plate；43, first rotating shaft；44, the second shaft；45, clamping screw；46, tapped through hole；47, mounting hole；5、 Second bindiny mechanism；51, the first connecting plate；52, the second connecting plate；53, the first connecting shaft；54, the second connecting shaft；55, it locks Screw rod；56, screw hole；57, through-hole；58, mounting groove；6, link block；11, lug boss；12, groove.

Specific implementation mode

The utility model is further described with reference to embodiment：

Embodiment 1：A kind of automatic welding carriage drives track, including the first track ontology 2, the second track ontology 3, at least The two of 2 link blocks 6, the first bindiny mechanism 4 and the second bindiny mechanism 5, the first track ontology 2 and the second track ontology 3 End is connected by the first bindiny mechanism 4, the second bindiny mechanism 5 respectively, described to include the first track ontology 2 and the second track ontology 3 Connection forms a round circular orbit, this round circular orbit is installed on pipeline 1；

The first track ontology 2 further comprises first left side, half the 21, first right half loop orbit of loop orbit disposed in parallel 22 and at least one link block 6 between right half loop orbit 22 of first left side, half loop orbit 21, first, described second Track ontology 3 further comprises second left side, half the 31, second right half loop orbit 32 of loop orbit disposed in parallel and positioned at second left side At least one link block 6 between half the 31, second right half loop orbit 32 of loop orbit；

First bindiny mechanism 4 further comprises the first mounting plate 41, the second mounting plate 42, first rotating shaft 43, second Shaft 44 and clamping screw 45, the first rotating shaft 43, the second shaft 44 are provided at least one tapped through hole 46, and described first Shaft 43, the second shaft 44 are respectively embedded into the first mounting plate 41, in 42 respective mounting hole 47 of the second mounting plate, described first turn Axis 43,44 at least one respective tapped through hole 46 of the second shaft expose from the first mounting plate 41, the second mounting plate 42 respectively, First mounting plate, 41 both ends are connected respectively to first left side, half loop orbit 22 respective medial surface of the 21, first right half loop orbit On, 42 both ends of the second mounting plate are connected respectively to second left side, half 32 respective inside of the 31, second right half loop orbit of loop orbit On face, the clamping screw 45 screws in first rotating shaft 43,44 respective tapped through hole 46 of the second shaft, to realize to first left side It locks half the 21, first right half loop orbit 22 of loop orbit end face corresponding with second left side, half the 31, second half loop orbit 32 of the right side of loop orbit Connection；

Second bindiny mechanism 5 further comprises the first connecting plate 51, the second connecting plate 52, the first connecting shaft 53, Two connecting shafts 54 and tie down screw 55, first connecting shaft 53, the second connecting shaft 54 are provided at least one screw hole 56, described First connecting shaft 53 is embedded in the through-hole 57 of the first connecting plate 51, at least one screw hole 56 from first of first connecting shaft 53 Expose on connecting plate 51, second connecting shaft 54 is embedded in the mounting groove 58 of the second connecting plate 52, and the tie down screw 55 revolves Enter the first connecting shaft 53,54 respective screw hole 56 of the second connecting shaft, to realize to the first left half loop orbit 21, the first right semi-ring The end face locking corresponding with second left side, half the 31, second half loop orbit 32 of the right side of loop orbit of track 22 connects, first connecting plate 51 Both ends are connected respectively on first left side, half loop orbit 22 respective medial surface of the 21, first right half loop orbit, second connecting plate 52 both ends are connected respectively on second left side, half loop orbit 32 respective medial surface of the 31, second right half loop orbit.

Half loop orbit 21 of above-mentioned first left side and the second left half loop orbit 31 are connected by two pairs of lug bosses 11 and the clamping of groove 12 It connects；There is half 31 respective one end of the 21, second left half loop orbit of loop orbit of above-mentioned first left side lug boss 11, the other end to have groove 12。

Embodiment 2：A kind of automatic welding carriage drives track, including the first track ontology 2, the second track ontology 3, at least The two of 2 link blocks 6, the first bindiny mechanism 4 and the second bindiny mechanism 5, the first track ontology 2 and the second track ontology 3 End is connected by the first bindiny mechanism 4, the second bindiny mechanism 5 respectively, described to include the first track ontology 2 and the second track ontology 3 Connection forms a round circular orbit, this round circular orbit is installed on pipeline 1；

The first track ontology 2 further comprises first left side, half the 21, first right half loop orbit of loop orbit disposed in parallel 22 and at least one link block 6 between right half loop orbit 22 of first left side, half loop orbit 21, first, described second Track ontology 3 further comprises second left side, half the 31, second right half loop orbit 32 of loop orbit disposed in parallel and positioned at second left side At least one link block 6 between half the 31, second right half loop orbit 32 of loop orbit；

First bindiny mechanism 4 further comprises the first mounting plate 41, the second mounting plate 42, first rotating shaft 43, second Shaft 44 and clamping screw 45, the first rotating shaft 43, the second shaft 44 are provided at least one tapped through hole 46, and described first Shaft 43, the second shaft 44 are respectively embedded into the first mounting plate 41, in 42 respective mounting hole 47 of the second mounting plate, described first turn Axis 43,44 at least one respective tapped through hole 46 of the second shaft expose from the first mounting plate 41, the second mounting plate 42 respectively, First mounting plate, 41 both ends are connected respectively to first left side, half loop orbit 22 respective medial surface of the 21, first right half loop orbit On, 42 both ends of the second mounting plate are connected respectively to second left side, half 32 respective inside of the 31, second right half loop orbit of loop orbit On face, the clamping screw 45 screws in first rotating shaft 43,44 respective tapped through hole 46 of the second shaft, to realize to first left side It locks half the 21, first right half loop orbit 22 of loop orbit end face corresponding with second left side, half the 31, second half loop orbit 32 of the right side of loop orbit Connection；

Second bindiny mechanism 5 further comprises the first connecting plate 51, the second connecting plate 52, the first connecting shaft 53, Two connecting shafts 54 and tie down screw 55, first connecting shaft 53, the second connecting shaft 54 are provided at least one screw hole 56, described First connecting shaft 53 is embedded in the through-hole 57 of the first connecting plate 51, at least one screw hole 56 from first of first connecting shaft 53 Expose on connecting plate 51, second connecting shaft 54 is embedded in the mounting groove 58 of the second connecting plate 52, and the tie down screw 55 revolves Enter the first connecting shaft 53,54 respective screw hole 56 of the second connecting shaft, to realize to the first left half loop orbit 21, the first right semi-ring The end face locking corresponding with second left side, half the 31, second half loop orbit 32 of the right side of loop orbit of track 22 connects, first connecting plate 51 Both ends are connected respectively on first left side, half loop orbit 22 respective medial surface of the 21, first right half loop orbit, second connecting plate 52 both ends are connected respectively on second left side, half loop orbit 32 respective medial surface of the 31, second right half loop orbit.

Half loop orbit 22 of above-mentioned first right side and the second right half loop orbit 32 are connected by two pairs of lug bosses 11 and the clamping of groove 12 It connects；Above-mentioned first rotating shaft 43, the second shaft 44 respectively with the first mounting plate 41,47 gap of the second 42 respective mounting hole of mounting plate Cooperation.

When driving track using above-mentioned automatic welding carriage, the setting of the first bindiny mechanism can incite somebody to action when not in use First track ontology, the second track ontology remain connected together, convenience in transport and carrying, in use, need to only be set with track In on pipeline, then 2 bindiny mechanisms are locked successively, a people can complete the installation to track, convenient and efficient operation Simply；Secondly, the setting of mounting groove, easy disassembly in the second bindiny mechanism, it is especially desirable to the convenient installation to big track with tear open It unloads；Again, the combination settings of lug boss and groove so that by interconnection between the first track ontology, the second track ontology, More stablize, and there is fine-tuning gap, facilitates track installation on pipeline, inner track radius error can also be adjusted.

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 (5)

1. a kind of automatic welding carriage drives track, it is characterised in that：Including the first track ontology（2）, the second track ontology （3）, at least two link block（6）, the first bindiny mechanism（4）With the second bindiny mechanism（5）, the first track ontology（2）With Two track ontologies（3）Both ends pass through the first bindiny mechanism respectively（4）, the second bindiny mechanism（5）Connection, it is described to include the first track Ontology（2）With the second track ontology（3）Connection forms a round circular orbit, this round circular orbit is installed on pipeline（1）On；

The first track ontology（2）Further comprise the disposed in parallel first left half loop orbit（21）, the first right half loop orbit （22）And positioned at the first left half loop orbit（21）, the first right half loop orbit（22）Between at least one link block（6）, The second track ontology（3）Further comprise the disposed in parallel second left half loop orbit（31）, the second right half loop orbit（32） And positioned at the second left half loop orbit（31）, the second right half loop orbit（32）Between at least one link block（6）；

First bindiny mechanism（4）Further comprise the first mounting plate（41）, the second mounting plate（42）, first rotating shaft（43）、 Second shaft（44）And clamping screw（45）, the first rotating shaft（43）, the second shaft（44）It is logical to be provided at least one screw thread Hole（46）, the first rotating shaft（43）, the second shaft（44）It is respectively embedded into the first mounting plate（41）, the second mounting plate（42）Respectively Mounting hole（47）It is interior, the first rotating shaft（43）, the second shaft（44）At least one respective tapped through hole（46）Respectively from First mounting plate（41）, the second mounting plate（42）Upper exposing, first mounting plate（41）Both ends are connected respectively to first left half Loop orbit（21）, the first right half loop orbit（22）On respective medial surface, second mounting plate（42）Both ends are connected respectively to Second left half loop orbit（31）, the second right half loop orbit（32）On respective medial surface, the clamping screw（45）Screw in first Shaft（43）, the second shaft（44）Respective tapped through hole（46）, to realize to the first left half loop orbit（21）, first right half Loop orbit（22）With the second left half loop orbit（31）, the second right half loop orbit（32）Corresponding end face locking connection；

Second bindiny mechanism（5）Further comprise the first connecting plate（51）, the second connecting plate（52）, the first connecting shaft （53）, the second connecting shaft（54）And tie down screw（55）, first connecting shaft（53）, the second connecting shaft（54）It is provided at least One screw hole（56）, first connecting shaft（53）Embedded first connecting plate（51）Through-hole（57）It is interior, first connecting shaft （53）At least one screw hole（56）From the first connecting plate（51）Upper exposing, second connecting shaft（54）Embedded second connecting plate （52）Mounting groove（58）It is interior, the tie down screw（55）Screw in the first connecting shaft（53）, the second connecting shaft（54）Respective spiral shell Hole（56）, to realize to the first left half loop orbit（21）, the first right half loop orbit（22）With the second left half loop orbit（31）, Two right half loop orbits（32）Corresponding end face locking connection, first connecting plate（51）Both ends are connected respectively to the first left semi-ring Track（21）, the first right half loop orbit（22）On respective medial surface, second connecting plate（52）Both ends are connected respectively to Two left half loop orbits（31）, the second right half loop orbit（32）On respective medial surface.

2. automatic welding carriage according to claim 1 drives track, it is characterised in that：Described first left half loop orbit （21）With the second left half loop orbit（31）Pass through two pairs of lug bosses（11）And groove（12）Clamping connection.

3. automatic welding carriage according to claim 2 drives track, it is characterised in that：Described first left half loop orbit （21）, the second left half loop orbit（31）Respective one end has lug boss（11）, the other end is with groove（12）.

4. automatic welding carriage according to claim 1 drives track, it is characterised in that：Described first right half loop orbit （22）With the second right half loop orbit（32）Pass through two pairs of lug bosses（11）And groove（12）Clamping connection.

5. automatic welding carriage according to claim 1 drives track, it is characterised in that：The first rotating shaft（43）, Two shafts（44）Respectively with the first mounting plate（41）, the second mounting plate（42）Respective mounting hole（47）Clearance fit.