CN115990734A - Petroleum drill rod wear-resisting belt surfacing production line with automatic conveying device - Google Patents

Abstract

The invention discloses a petroleum drill rod wear-resistant belt surfacing production line with an automatic conveying device, which comprises two raceway assemblies, a turnover shifting assembly, a jacking shifting assembly and a jacking supporting assembly which are arranged between the two raceway assemblies, and also comprises a welding machine room assembly for welding drill rods, wherein the welding machine room assembly is used for welding the drill rods, and the welding machine room assembly comprises: the welding machine room assembly consists of a welding machine, a hydraulic power station and an electric control room and is positioned at the outer sides of the two raceway assemblies, and the welding machine room assembly has the beneficial effects that: the drill rod can realize position movement by utilizing the inclined roller path with a certain angle, no other power is needed, the inclination angle can be adjusted, and the drill rod is economical, practical, simple and reliable; the drill rod conveying is automatic, the labor intensity is low, and the operation efficiency is high; all operations can be completed through the control console, the integration level is high, and the operation is convenient; the working area is separated from the welding area, and the air conditioner and the observation window are configured, so that the working environment is healthier and safer.

Description

Petroleum drill rod wear-resisting belt surfacing production line with automatic conveying device

Technical Field

The invention relates to the technical field of surfacing automation of petroleum drill pipes, in particular to a surfacing production line for a wear-resistant belt of a petroleum drill pipe with an automatic conveying device.

Background

In field exploration and development drilling, the drill pipe joint must have sufficient wear resistance and antifriction properties to protect the drill pipe joint from casing wear due to the presence of quartz sand, which is a shale in the formation, causing severe wear of the drill pipe and casing. Wear-resistant welding wire passing through CO is adopted by wear-resistant heap welder ₂ And overlaying a high alloy wear-resistant material on the joint part of the drill rod in a gas shielded welding mode, thereby forming the wear-resistant belt. The existing widely used wear-resistant belt surfacing welding machine realizes automatic welding in a welding link, but still needs to be conveyed in a manual hoisting mode in a drill rod conveying link. Because the oil drill pipes are large in batches and large in specification and model, workpieces are conveyed through manual hoisting, so that the labor intensity of workers is high, and the production efficiency is low. The surfacing operation of the current wear-resistant belt of the drill rod is mostly borne by small and medium enterprises, and the improvement of the whole production efficiency is severely restricted by the operation mode of manually conveying the drill rod.

Disclosure of Invention

The invention aims to provide a petroleum drill rod wear-resistant belt surfacing production line with an automatic conveying device, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an oil drilling rod wearing belt build-up welding production line with automatic conveyor, includes two raceway subassemblies and sets up upset displacement subassembly, jacking translation subassembly, jacking support subassembly in the middle of two raceway subassemblies, still including being used for drilling rod welded welding machine room subassembly, wherein:

the welding machine room component consists of a welding machine, a hydraulic power station and an electric control room and is positioned at the outer sides of the two raceway components.

Preferably, the raceway assembly includes first base, raceway body, baffle, first back shaft, second back shaft, the both ends upper surface of first base is provided with first dead lever, second dead lever respectively, the upper end of first dead lever, second dead lever is provided with first back shaft, second back shaft respectively through seting up the mounting hole, the one end cover of raceway body is established the outside of first back shaft, the other end overlap joint of raceway body is in the top of second back shaft, the cover of baffle is established the outside of raceway body to be connected with the raceway body through the bolt.

Preferably, the turnover shifting assembly comprises a second base, two turnover supporting frames, turnover plates, connecting rods and first hydraulic cylinders, wherein the turnover supporting frames, the turnover plates, the connecting rods and the first hydraulic cylinders are arranged on the upper surfaces of the second base, the upper ends of the turnover supporting frames are provided with the turnover plates through first pin shafts, the lower ends of the two turnover plates are connected through the connecting rods and second pin shafts, one side of each turnover supporting frame is provided with the first hydraulic cylinder through a third pin shaft, and the upper ends of the first hydraulic cylinders are connected with the middle parts of the turnover plates corresponding to the turnover supporting frames through fourth pin shafts.

Preferably, the jacking translation subassembly is including setting up jacking translation support frame and first slip case, the hydraulic motor at second base upper surface, outside one side of jacking translation support frame is provided with the second hydraulic cylinder, the one end of first slip case is in the inboard of jacking translation support frame, and through setting up first gyro wheel with the inboard surface roll connection of jacking translation support frame, the lower terminal surface of first slip case with the upper end of second hydraulic cylinder is connected, the upper surface of first slip case is connected with the bearing roller through the bearing frame rotation, the first slip case is provided with hydraulic motor through the motor connecting seat in one side of bearing roller, just the output shaft end of hydraulic motor goes out and passes through the coupling joint with the one end of bearing roller.

Preferably, the jacking supporting component comprises a jacking supporting frame arranged on the upper surface of the second base, a second sliding box and a roller frame arranged on the upper surface of the second sliding box, a third hydraulic oil cylinder is arranged on one side of the jacking supporting frame, one end of the second sliding box is arranged on the inner side of the jacking supporting frame, the second sliding box is in rolling connection with the inner side surface of the jacking supporting frame through a second roller, the lower surface of the second sliding box is connected with the upper end of the third hydraulic oil cylinder, and a third roller is arranged on the upper surface of the second sliding box through the roller frame.

Preferably, the third roller is a wear-resistant plastic roller.

Preferably, a first scale is installed on one side of the jacking translational support frame of the jacking translational component, and a first proximity switch is arranged on one side of the first scale through a first switch support.

Preferably, a second scale is installed on one side of the jacking supporting frame of the jacking supporting assembly, and a second proximity switch is arranged on one side of the second scale through a second switch bracket.

Preferably, the connection parts of the upper surface overturning support frame, the jacking translation support frame and the jacking supporting support frame of the second base are all provided with reinforcing angle steel.

Compared with the prior art, the invention has the beneficial effects that:

1. the drill rod realizes the position movement by utilizing the inclined roller path with a certain angle, and no other power is needed. The raceway body adopts welding shaped steel, and inclination is adjustable, economical and practical, simple reliable.

2. The connecting rod is connected with the two turnover plates, the first hydraulic oil cylinder drives the turnover plates to act so as to jack up the drill rod, and the drill rod rolls to a preset position on an inclined plane on the turnover plates. The drill rod to be welded and the drill rod welded can be moved simultaneously, so that the shifting time is shortened, and the efficiency is improved.

3. The drill rod is lifted and falls and is driven by the second hydraulic oil cylinder, the carrier roller is driven by the hydraulic motor to rotate in the forward and backward translation of the drill rod, and the driving force is large, so that the device is safe and reliable.

4. After the specification of the drill rod is changed, the positions of the first proximity switch and the second proximity switch can be adjusted, so that the welding processing of drill rods with various specifications is realized.

5. The operation control room, the welding machine and the hydraulic power station are integrated in a container house, so that the structure is compact and the transportation is convenient. The operation control chamber is separated from the welding machine position to form an independent area; all operation buttons are integrated on one operation table, and an operation control room is provided with an air conditioner. Can provide a safe and healthy working environment for operators.

Drawings

FIG. 1 is a schematic overall structure of the present invention;

FIG. 2 is a schematic view of the raceway assembly of the present invention;

FIG. 3 is a schematic diagram of a flip shift assembly according to the present invention;

FIG. 4 is a schematic view of a jack-up translation assembly according to the present invention;

FIG. 5 is a side view of the jacking translation assembly of the present invention;

FIG. 6 is a schematic view of a jacking assembly according to the present invention;

FIG. 7 is a side view of the jacking assembly of the present invention;

FIG. 8 is a schematic view of the movement of the drill rod after the flipping plate of the present invention is lifted upwards;

FIG. 9 is a schematic view of the movement of the drill rod after the flipping plate of the present invention has been returned downward;

fig. 10 is a block diagram of a chuck assembly according to the present invention.

In the figure:

100. a raceway assembly; 101. a first base; 102. a raceway body; 103. a baffle; 104. a first support shaft; 105. a first fixing rod; 106. a second fixing rod; 107. a second support shaft;

200. a flip shift assembly; 201. a second base; 202. turning over the supporting frame; 203. a turnover plate; 204. a connecting rod; 205. a first pin; 206. a first hydraulic cylinder;

300. a jacking translation assembly; 301. jacking and horizontally moving the support frame; 302. a first slide box; 303. a motor connecting seat; 304. a hydraulic motor; 305. a second hydraulic cylinder; 306. a bearing seat; 307. a carrier roller; 308. a first roller; 309. a first switch bracket; 310. a first scale; 311. a first proximity switch;

400. a jacking assembly; 401. jacking and supporting the supporting frame; 402. a second slide box; 403. a roller frame; 404. a third roller; 405. a second roller; 406. a third hydraulic cylinder; 407. a second scale; 408. a second switch bracket; 409. a second proximity switch;

500. a welder house assembly;

600. a chuck assembly; 601. a case; 602. a chuck body; 603. and (3) clamping jaws.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides an oil drilling rod wearing belt build-up welding production line with automatic conveyor, includes two raceway subassemblies 100 and sets up upset displacement subassembly 200, jacking translation subassembly 300, jacking support subassembly 400 in the middle of two raceway subassemblies 100, still includes the welding machine room subassembly 500 that is used for drilling rod welded, wherein:

the welding room assembly 500 integrates a welder, a hydraulic power station, and an electrical control room together with reference to a container structure. The electric control room is separated from the welding area by the partition, so that the control room becomes an independent area, and welding smoke dust can be prevented from entering the control room. The control room works close to the drill rod and is provided with a window, so that the feeding and discharging actions of the external drill rod can be observed; the control console is provided with an observation window towards the side of the welder, so that the working condition of the welder can be observed at any time. An air conditioner is arranged in a control room; a smoke dust collecting device is arranged in the welding machine area; the control room and the welding machine area are provided with single doors for debugging and maintaining the welding machine. The welding machine room component is compact in structure and convenient to transport, and can provide safe, healthy and comfortable working environments for operators.

And a chuck assembly for fixing the drill rod is further provided inside the welding room assembly 500, wherein the chuck assembly comprises a case 601, a chuck body 602, and a jaw 603 (as shown in fig. 10).

The raceway assembly 100 comprises a first base 101, a raceway body 102, a baffle 103, a first supporting shaft 104 and a second supporting shaft 107, wherein a first fixing rod 105 and a second fixing rod 106 are respectively arranged on the upper surfaces of two ends of the first base 101, the first supporting shaft 104 and the second supporting shaft 107 are respectively arranged at the upper ends of the first fixing rod 105 and the second fixing rod 106 through mounting holes, one end of the raceway body 102 is sleeved on the outer side of the first supporting shaft 104, the other end of the raceway body 102 is sleeved on the upper side of the second supporting shaft 107, and the baffle 103 is sleeved on the outer side of the raceway body 102 and is connected with the raceway body 102 through bolts.

Wherein, the three holes of the second fixing rod 106 are respectively from top to bottom: a, B and C, the three holes of the first fixing rod 105 are respectively from top to bottom: a, a; b; c, performing operation; when the first support shaft 104 is disposed in the hole a and the second support shaft 107 is disposed in the hole B, the angle between the raceway body 102 and the first base 101 is 4.4 °, and the inclination angle can be changed by adjusting the mounting positions of the first support shaft 104 and the second support shaft 107 during the debugging process of the apparatus. For example: keeping the position of the first support shaft 104 unchanged, when the second support shaft 107 is disposed in the hole a, the inclination angle is: 5.8 °; when the second support shaft 107 is installed in the hole C, the inclination angle may be: 3.0 deg..

The turnover shifting assembly 200 comprises a second base 201, and two turnover supporting frames 202, turnover plates 203, connecting rods 204 and first hydraulic cylinders 206 which are arranged on the upper surface of the second base 201, wherein the turnover plates 203 are arranged at the upper ends of the turnover supporting frames 202 through first pin shafts 205, the lower ends of the two turnover plates 203 are connected through the connecting rods 204 and second pin shafts, one side of each turnover supporting frame 202 is provided with a first hydraulic cylinder 206 through a third pin shaft, and the upper ends of the first hydraulic cylinders 206 are connected with the middle part of the corresponding turnover plate 203 of the turnover supporting frame 202 through fourth pin shafts.

When the piston rod of the first hydraulic cylinder 206 extends out, the driving connecting rod 204 swings, so that the two turnover plates 203 are driven to turn upwards simultaneously, a drill rod at a position to be processed and a drill rod welded completely can be jacked up simultaneously when the turnover plates 203 turn upwards, the jacked up is delayed for 5S, the drill rod rolls on an inclined plane on the turnover plates 203, the drill rod to be processed rolls into a V-shaped groove of the turnover plates 203, and meanwhile, the welded drill rod rolls to a protruding baffle 103 of the turnover plates 203. After a delay of 5S, the piston rod of the first hydraulic cylinder 206 is retracted, the turning plate 203 is returned downward, the drill rod falls onto the inclined raceway, at this time, the turning plate 203 is lower than the pipeline, the drill rod rolls down on the raceway body 102, the drill rod to be welded rolls to the welding position, and the welded drill rod rolls to the finishing position. This completes a drill rod shifting action.

The jacking translational component 300 comprises a jacking translational support 301 arranged on the upper surface of the second base 201, a first sliding box 302 and a hydraulic motor 304, wherein a second hydraulic oil cylinder 305 is arranged on one side of the outer portion of the jacking translational support 301, one end of the first sliding box 302 is located on the inner side of the jacking translational support 301 and is in rolling connection with the inner side surface of the jacking translational support 301 through a first roller 308, the lower end face of the first sliding box 302 is connected with the upper end of the second hydraulic oil cylinder 305, the upper surface of the first sliding box 302 is rotationally connected with a carrier roller 307 through a bearing seat 306, the first sliding box 302 is provided with the hydraulic motor 304 on one side of the carrier roller 307 through a motor connecting seat 303, and the output shaft end of the hydraulic motor 304 is connected with one end of the carrier roller 307 through a coupling.

A first scale 310 is installed on one side of the jacking and translating support 301 of the jacking and translating assembly 300, and a first proximity switch 311 is arranged on one side of the first scale 310 through a first switch bracket 309.

The piston rod of the second hydraulic cylinder 305 will jack up the first sliding box 302 when extending; the carrier roller 307 on the upper surface of the first sliding box 302 moves upwards synchronously, and when the carrier roller 307 jacks up the drill rod in place, the hydraulic motor 304 is started to drive the drill rod to move towards the welding machine. After moving into place, the externally provided chuck locks the drill rod, at this time the jacking assembly 400 acts to cradle the drill rod and the idler 307 falls down to begin welding. Thus, a process of lifting and translating the drill rod is completed. When the drill rod model needs to be replaced, the positions of the first proximity switch 311 and the second proximity switch 409 need to be adjusted.

The jacking supporting assembly 400 comprises a jacking supporting frame 401 arranged on the upper surface of the second base 201, a second sliding box 402 and a roller frame 403 arranged on the upper surface of the second sliding box 402, a third hydraulic oil cylinder 406 is arranged on one side of the jacking supporting frame 401, one end of the second sliding box 402 is arranged on the inner side of the jacking supporting frame 401 and is in rolling connection with the inner side surface of the jacking supporting frame 401 through a second roller 405, the lower surface of the second sliding box 402 is connected with the upper end of the third hydraulic oil cylinder 406, and a third roller 404 is arranged on the upper surface of the second sliding box 402 through the roller frame 403.

The third roller 404 is a wear-resistant plastic roller.

A second scale 407 is installed on one side of the jacking supporting frame 401 of the jacking supporting assembly 400, and a second proximity switch 409 is provided on one side of the second scale 407 through a second switch bracket 408.

The piston rod of the third hydraulic cylinder 406 will jack up the second sliding box 402 when extending; a second roller 405 on the upper surface of the second slide box 402 lifts the drill rod. The jacking and supporting assembly 400 supports the drill rods to rotate together in the welding process, so that the stress of the chuck can be reduced, and the welding is stable.

In the description of the present invention, it should be understood that the terms "coaxial," "bottom," "one end," "top," "middle," "another end," "upper," "one side," "top," "inner," "front," "center," "two ends," etc. indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby features defining "first," "second," "third," "fourth" may explicitly or implicitly include at least one such feature.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "configured," "connected," "secured," "screwed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intermediaries, or in communication with each other or in interaction with each other, unless explicitly defined otherwise, the meaning of the terms described above in this application will be understood by those of ordinary skill in the art in view of the specific circumstances.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. Petroleum drill rod wear-resisting belt overlaying welding production line with automatic conveying device, which is characterized by comprising two raceway assemblies (100), a turnover shifting assembly (200), a jacking shifting assembly (300) and a jacking supporting assembly (400) which are arranged in the middle of the two raceway assemblies (100), and further comprising a welding machine room assembly (500) for welding drill rods, wherein:

the welding machine room assembly (500) is composed of a welding machine, a hydraulic power station and an electric control room and is arranged outside the two raceway assemblies (100).

2. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 1, wherein: the utility model provides a raceway subassembly (100) is including first base (101), raceway body (102), baffle (103), first back shaft (104), second back shaft (107), the both ends upper surface of first base (101) is provided with first dead lever (105), second dead lever (106) respectively, the upper end of first dead lever (105), second dead lever (106) is provided with first back shaft (104), second back shaft (107) respectively through seting up the mounting hole, the one end cover of raceway body (102) is established the outside of first back shaft (104), the other end overlap joint of raceway body (102) is in the top of second back shaft (107), the cover of baffle (103) is established the outside of raceway body (102) to be connected with raceway body (102) through the bolt.

3. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 1, wherein: the turnover shifting assembly (200) comprises a second base (201) and two turnover supporting frames (202), turnover plates (203), connecting rods (204) and first hydraulic cylinders (206) which are arranged on the upper surface of the second base (201), wherein the turnover plates (203) are arranged at the upper ends of the turnover supporting frames (202) through first pin shafts (205), the lower ends of the two turnover plates (203) are connected through the connecting rods (204) and second pin shafts, one side of the turnover supporting frames (202) is provided with the first hydraulic cylinders (206) through third pin shafts, and the upper ends of the first hydraulic cylinders (206) are connected with the middle parts of the turnover plates (203) corresponding to the turnover supporting frames (202) through fourth pin shafts.

4. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 1, wherein: the lifting and translating assembly (300) comprises a lifting and translating support frame (301) arranged on the upper surface of a second base (201), a first sliding box (302) and a hydraulic motor (304), wherein a second hydraulic oil cylinder (305) is arranged on one side of the outer portion of the lifting and translating support frame (301), one end of the first sliding box (302) is located on the inner side of the lifting and translating support frame (301), the first sliding box (302) is in rolling connection with the inner side surface of the lifting and translating support frame (301) through a first roller (308), the lower end face of the first sliding box (302) is connected with the upper end of the second hydraulic oil cylinder (305), the upper surface of the first sliding box (302) is connected with a carrier roller (307) through a bearing seat (306) in a rotating mode, one side of the first sliding box (302) is provided with the hydraulic motor (304) through a motor connecting seat (303), and the output shaft end of the hydraulic motor (304) is connected with one end of the carrier roller (307) through a coupling.

5. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 1, wherein: the jacking supporting component (400) comprises a jacking supporting frame (401) arranged on the upper surface of the second base (201), a second sliding box (402) and a roller frame (403) arranged on the upper surface of the second sliding box (402), a third hydraulic oil cylinder (406) is arranged on one side of the jacking supporting frame (401), one end of the second sliding box (402) is arranged on the inner side of the jacking supporting frame (401), the second sliding box is in rolling connection with the inner side surface of the jacking supporting frame (401) through a second roller (405), the lower surface of the second sliding box (402) is connected with the upper end of the third hydraulic oil cylinder (406), and the upper surface of the second sliding box (402) is provided with a third roller (404) through the roller frame (403).

6. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 5, wherein: the third roller (404) is a wear-resistant plastic roller.

7. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 4, wherein: a first scale (310) is arranged on one side of a jacking translation support frame (301) of the jacking translation assembly (300), and a first proximity switch (311) is arranged on one side of the first scale (310) through a first switch bracket (309).

8. The petroleum drill pipe wear strip surfacing production line with an automatic conveying device according to claim 5, wherein: a second scale (407) is arranged on one side of a jacking supporting frame (401) of the jacking supporting assembly (400), and a second proximity switch (409) is arranged on one side of the second scale (407) through a second switch bracket (408).

9. A petroleum drill pipe wear strip surfacing production line with an automatic conveyor according to claim 3, wherein: the upper surface of second base (201) upset support frame (202), jacking translation support frame (301), jacking support are all provided with the reinforcing angle steel in the junction of support frame (401).

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