CN105728909A - Cylinder-body welding device and operation method thereof - Google Patents

Abstract

The invention relates to a cylinder-body welding device and an operation method thereof. The cylinder-body welding device comprises a cylinder-body installing structure and argon-arc welding guns, wherein the cylinder-body installing structure comprises a bottom plate, a first guiding sleeve, a shell orientation block and a second guiding sleeve; the first guiding sleeve is driven to move horizontally by a first power source; the shell orientation block is driven to move longitudinally by a third power source; the second guiding sleeve is driven to move horizontally by a second power source; the first guiding sleeve, the shell orientation block and the second guiding sleeve are connected to the bottom plate in sequence; the upper end of the first guiding sleeve and the upper end of the second guiding sleeve are respectively provided with one argon-arc welding gun; the bottom plate is provided with the first guiding sleeve, the second guiding sleeve and the shell orientation block which are respectively driven to move for adjusting the coaxiality by the first power source, the second power source and the third power source correspondingly. The cylinder-body welding device and the operation method have the advantages that an upper cover assembly and a lower cover assembly are respectively welded with the shell by utilizing the argon-arc welding guns, so that the environmental-friendly effect is achieved, the automation degree is high, and the welding efficiency is high.

Description

A kind of cylinder body welder and operational approach thereof

Technical field

The present invention relates to the technical field of welder, the operational approach of especially a kind of cylinder body welder and this cylinder body welder.

Background technology

Cylinder body is made up of cover assembly, housing, lower cover component.Being typically mounted on cylinder body erecting device before the welding of existing market upper cylinder body, after cylinder body is fixed installation, in adopting stove, three parts of cylinder body are welded by welder.

In current stove, welder adopts furnace brazing mostly, and the time of welding cylinder body needs 1.5 hours, and the time is long, and during welding machine, pricker volatilizes a large amount of harmful gas from fused salt, and serious environment pollution contaminates, and pollutes relatively big, and automaticity is low.

Accordingly, it would be desirable to a kind of cylinder body welder of design, it is achieved environmental protection, the cylinder body welding that automaticity is high.

Summary of the invention

It is an object of the invention to provide a kind of cylinder body welder and operational approach thereof, aim to solve the problem that in prior art, in stove, welder adopts furnace brazing mostly, the time of welding cylinder body is long, and pricker volatilizes a large amount of harmful gas from fused salt during welding machine, serious environment pollution contaminates, and pollutes relatively big, and the problem that automaticity is low.

The present invention is realized in, a kind of cylinder body welder, including cylinder body mounting structure, driven by power source group and rotate and argon-arc welding gun movable up and down, cylinder body mounting structure includes base plate, driven transverse shifting by the first power source and be embedded in the first interior fairlead for cover assembly, driven, by the 3rd power source, the housing orientation block vertically moved and driven transverse shifting by the second power source and be embedded in the second interior fairlead for lower cover component, described first fairlead, housing orientation block and the second fairlead are connected in turn on described base plate, the upper end of described first fairlead and the upper end of the second fairlead are respectively equipped with described argon-arc welding gun.

Further, the outer end of described first fairlead is formed with the first locating slot, and the outer end of described second fairlead is formed with the second locating slot, the upside down depression of described housing orientation block, formed and be embedded in interior groove for housing, and be respectively equipped with avoiding hollow groove in described first fairlead and described second fairlead.

Further, the lower end of described first fairlead and described second fairlead is connected to supporting seat, described supporting seat is slidably connected on described base plate, the lower end of described supporting seat is connected to gripper shoe, the lower end of described gripper shoe is provided with slide block, described base plate is provided with slide rail, and described skid is connected on described slide rail.

Further, the lower end of described gripper shoe is connected to the described gripper shoe of driving laterally towards the spring moving reset away from described housing locating piece.

Further, the lower end of described housing orientation block is connected to tray tool, and the lower end of described tray tool is connected to fixing seat, and described fixing seat is connected on described base plate.

Further, being provided with the telescopic shaft and push rod that are connected with described 3rd power source respectively in described fixing seat, described telescopic shaft and described push rod are connected with described tray tool respectively.

Further, described first power source and the second power source are propelling cylinder, and described first power source and the second power source are corresponding respectively is positioned at described first fairlead and the outer end of described second fairlead, and the inside of described first power source and described second power source is respectively equipped with rotating shaft, described rotational structure is connected with described first fairlead and described second fairlead respectively.

Further, the upper end of described rotating shaft is provided with fixed mount, the lower end of described fixed mount is connected to slide rail, the upper end of described fixed mount is connected to described power source group, the upper end of described propelling cylinder is connected to fixing plate, the upper end of described fixing plate is connected to connection sliding block, and described slide rail coordinates with described connection sliding block.

Further, described power source group includes erectting the upper end being connected to described fixed mount and being driven the leading screw rotated by the 4th power source, the inner of described argon-arc welding gun is connected on described leading screw by described welding skid, the outer end of described welding slide block is connected to linking arm, and described argon-arc welding gun is movably connected on described linking arm.

Present invention also offers the operational approach of a kind of cylinder body welder, specifically comprise the following steps that

Housing is held up to concentric with cover assembly and lower cover component by the housing locating piece in step 1. tray tool；

The first fairlead and the second fairlead in step 2. tray tool move the port to housing simultaneously to center；

Cover assembly and lower cover component are advanced into and the port contact at housing two ends by the propelling cylinder of step 3. cover assembly and lower cover component respectively, and the now upper and lower covers press-in housing body degree of depth is 0 ~ 0.1mm；

Step 4. press-fits the hold down gag at top, argon welding district and is compressed by housing；

Cover assembly and lower cover component are pressed into housing to press mounting dimension by the propelling cylinder of step 5. cover assembly and lower cover component respectively；

The propelling cylinder of step 6. cover assembly and lower cover component all remains stationary motionless, and the first fairlead and the second fairlead in tray tool are return；

Housing locating piece in step 7. tray tool declines；

Rotating shaft on the propelling cylinder of step 8. cover assembly and lower cover component holds product and rotates together；

Step 9. argon-arc welding gun drops to working position, starts product is carried out argon arc welding；

Step 10. has been welded, and argon-arc welding gun rises, and tray tool falls；

The product that the welding of step 11. tray tool load completes moves to blanking position along with pipeline, carries out blanking.

Compared with prior art, a kind of cylinder body welder provided by the invention, base plate is provided with the first fairlead, the second fairlead and housing locating piece, the movement of the first fairlead, the second fairlead and housing locating piece is driven by the first power source, the second power source and the 3rd power source correspondence respectively, the axiality of three is adjusted, improve axiality when cylinder body is installed and precision, and, utilize argon-arc welding gun by cover assembly and lower cover component respectively with case weld, not only environmental protection but also automaticity height, welding efficiency is high.

Accompanying drawing explanation

Fig. 1 is the perspective view of a kind of cylinder body welder that the embodiment of the present invention provides；

Fig. 2 is the detonation configuration schematic diagram of the cylinder body that the embodiment of the present invention provides；

Fig. 3 is the cylinder body that provides of the embodiment of the present invention and the perspective view of the first fairlead and the second fairlead；

Fig. 4 is the perspective view of the cylinder body mounting structure that the embodiment of the present invention provides；

Fig. 5 is the biopsy cavity marker devices structural representation of the cylinder body mounting structure that the embodiment of the present invention provides.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.

Below in conjunction with specific embodiment, the realization of the present invention is described in detail.

With reference to Fig. 1 ~ 5, for preferred embodiment provided by the invention.

A kind of cylinder body welder that the present embodiment provides, it is possible to be used in the welding process of cylinder body, it is achieved environmental protection and the high welding of automaticity.

Cylinder body includes the cover assembly 1, housing 2 and the lower cover component 3 that are sequentially connected with, and wherein, housing 2 is in cylindrical arrangement.

A kind of cylinder body welder that the present embodiment provides, including cylinder body mounting structure, driven by power source group and rotate and argon-arc welding gun 50 movable up and down, cylinder body mounting structure includes base plate 10, driven transverse shifting by the first power source and be embedded in the first interior fairlead 20 for cover assembly 1, driven, by the 3rd power source, the housing orientation block 40 vertically moved and driven transverse shifting by the second power source and be embedded in the second interior fairlead 30 for lower cover component 3, wherein, first fairlead 20, housing orientation block 40 and the second fairlead 30 are connected in turn on base plate 10, the upper end of the first fairlead 20 and the upper end of the second fairlead 30 are respectively equipped with above-mentioned argon-arc welding gun 50.

Cover assembly 1 and lower cover component 3 are correspondingly embedded in respectively in the first fairlead 20 and the second fairlead 30, and housing 2 is embedded in groove 44, movement is faced upward or downward by the 3rd power source drive shell 2, regulate the axiality of cover assembly 1, housing 2 and lower cover component 3 three, additionally, drive cover assembly 1 and lower cover component 3 near housing 2 by the first power source and the second power source, drive argon-arc welding gun 50 that cover assembly 1 and lower cover component 3 are welded together with housing 2 respectively by power source group.

Above-mentioned a kind of cylinder body welder, base plate 10 is provided with the first fairlead the 20, second fairlead 30 and housing locating piece 40, the movement of first fairlead the 20, second fairlead 30 and housing locating piece 40 is driven by the first power source, the second power source and the 3rd power source correspondence respectively, the axiality of three is adjusted, improve axiality when cylinder body is installed and precision, and, argon-arc welding gun 50 is utilized cover assembly 1 and lower cover component 3 to be welded with housing 2 respectively, not only environmental protection but also automaticity height, welding efficiency is high.

Specifically, it is provided with mean for cover assembly 1 in the first fairlead 20 and is embedded in the first interior cavity volume, be provided with mean for lower cover component 3 in the second fairlead 30 and be embedded in the second interior cavity volume；Being formed with the first locating slot 21 on first fairlead 20 outer end, and be formed with the second locating slot on the second fairlead 30 outer end, the first locating slot 21 and the second locating slot can play positioning action in installation process, it is provided that installation accuracy；The upside down depression of housing orientation block 40, is formed and is embedded in interior groove 44 for housing 2.

In the present embodiment, being respectively equipped with avoiding hollow groove 22 in the first fairlead 20 and the second fairlead 30, this avoiding hollow groove 22 can so that cover assembly 1 and lower cover component 3 correspondence respectively be installed in the first fairlead 20 and the second fairlead 30.

Specifically, the lower end of the first fairlead 20 and the second fairlead 30 is connected to supporting seat 23, and this supporting seat 23 is slidably connected on base plate 10.

Further, the lower end of supporting seat 23 is connected to gripper shoe 26, the lower end of this gripper shoe 26 is provided with slide block 24, base plate 10 is provided with slide rail 25, and above-mentioned slide block 24 is slidably connected on slide rail 25, so, first power source or the second power source drive the first fairlead 20 and the second fairlead 30 to move, now, slide block 24 moves on slide rail 25, and the movement of the first fairlead 20 and the second fairlead 30 is played the effect supporting and leading.

Specifically, the lower end of gripper shoe 26 is connected to driving gripper shoe 26 laterally towards the spring 34 moving reset away from housing locating piece 40, when gripper shoe 26 is laterally towards when moving near housing locating piece 40, spring 34 is stretched, gripper shoe 26 is laterally towards when moving away from housing locating piece 40 again, and spring 34 drives gripper shoe 26 to move reset.

The outer end of above-mentioned slide rail 25 is connected to cushion collar 31, and cushion collar 31 is positioned at the outer end of gripper shoe 26；In the process that the first fairlead 20 and the second fairlead 30 move, cushion collar 31 absorbs the vibrations on slide rail 25, reduces the impact on the first fairlead 20 and the second fairlead 30.

It addition, base plate 10 is provided with buffer stopper 32, buffer stopper 32 can absorb the vibrations on base plate 10.

Base plate 10 is provided with positioning sleeve, and the installation of the first fairlead 20 and the second fairlead 30 is played the effect of location by this positioning sleeve.

In the present embodiment, for the ease of the installation of housing orientation block 40, the lower end of housing orientation block 40 is connected to tray tool 42, and the lower end of tray tool 42 is connected to fixing seat 41, and fixing seat 41 is connected on base plate 10.

Specifically, housing orientation block 40 is connected with tray tool 42 by pin 46；Certainly, in other embodiments, above-mentioned housing locating piece 40 can pass through the connectors such as screw and be connected with tray tool 42, it is not limited to above-mentioned pin 46.

It is provided with, in fixing seat 41, the telescopic shaft 43 and push rod 45 that are connected respectively with the 3rd power source, telescopic shaft 43 and push rod 45 are connected with tray tool 42 respectively, so, when push rod 45 and telescopic shaft 43 are under the effect of the 3rd power source, realize vertically moving tray tool 42, thus driving moving up and down of housing locating piece 40, it is adaptable to various sizes of housing 2 uses.

Additionally, the first above-mentioned power source and the second power source are propelling cylinder 57, and first power source and the second power source corresponding outer end being positioned at the first fairlead 20 and the second fairlead 30 respectively, and first the inside of power source and the second power source be respectively equipped with rotating shaft 58, this rotating shaft 58 is connected with the first fairlead 20 and the second fairlead 30 respectively, so, it is respectively pivoted in the first fairlead 20 and the second fairlead 30 when cover assembly 1 and lower cover component 3, promote cover assembly 1 and lower cover component 3 near housing 2 by the first power source and the second power source, rotating shaft 58 drives cover assembly 1 and lower cover component 3 to rotate simultaneously, weld.

The upper end of rotating shaft 58 is provided with fixed mount 56, the lower end of fixed mount 56 is connected to slide rail, the upper end of fixed mount 56 is connected to above-mentioned power source group, the upper end of propelling cylinder 57 is connected to fixing plate, the upper end of this fixing plate is connected to connection sliding block 55, slide rail coordinates with connection sliding block 55, and in the process of propelling cylinder 57 running, argon-arc welding gun 50 moves back and forth towards the direction near housing also with rotating shaft 58.

In the present embodiment, above-mentioned power source group includes erectting the leading screw 54 being connected to fixed mount 56 upper end and being rotated by the 4th power source driving, the inner of argon-arc welding gun 50 is slidably connected on leading screw 54 by welding slide block 52, drives moving up and down of argon-arc welding gun 50 by rotating of leading screw 54.

Specifically, the outer end of welding slide block 52 is connected to linking arm 51, and above-mentioned argon-arc welding gun 50 is movably connected on linking arm 51, by regulating the argon-arc welding gun 50 position on linking arm 51, it is achieved moving forward and backward argon-arc welding gun 50.

When tray tool is transported to and press-fits argon welding district, press-fit the jacking apparatus under argon welding district by tray tool jack-up, complete the location before welding processing and prepare.

Present invention also offers the operational approach of a kind of cylinder body welder, specifically comprise the following steps that

Housing is held up to concentric with cover assembly and lower cover component by the housing locating piece in step 1. tray tool；

The first fairlead 20 and the second fairlead 30 in step 2. tray tool move the port to housing simultaneously to center；

Cover assembly and lower cover component are advanced into and the port contact at housing two ends by the propelling cylinder 57 of step 3. cover assembly and lower cover component respectively, and the now upper and lower covers press-in housing body degree of depth is 0 ~ 0.1mm；

Step 4. press-fits the hold down gag at top, argon welding district and is compressed by housing；

Cover assembly and lower cover component are pressed into housing to press mounting dimension by the propelling cylinder 57 of step 5. cover assembly and lower cover component respectively；

The propelling cylinder 57 of step 6. cover assembly and lower cover component all remains stationary motionless, and the first fairlead 20 and the second fairlead 30 in tray tool are return；

Housing locating piece in step 7. tray tool declines；

Rotating shaft 58 on the propelling cylinder 57 of step 8. cover assembly and lower cover component holds product and rotates together；

Step 9. argon-arc welding gun 50 drops to working position, starts product is carried out argon arc welding；

Step 10. has been welded, and argon-arc welding gun 50 rises, and tray tool falls；

The product that the welding of step 11. tray tool load completes moves to blanking position along with pipeline, carries out blanking.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all any amendment, equivalent replacement and improvement etc. made within the spirit and principles in the present invention, should be included within protection scope of the present invention.

Claims (10)

1. a cylinder body welder, it is characterized in that, including cylinder body mounting structure, driven by power source group and rotate and argon-arc welding gun movable up and down, cylinder body mounting structure includes base plate, driven transverse shifting by the first power source and be embedded in the first interior fairlead for cover assembly, driven, by the 3rd power source, the housing orientation block vertically moved and driven transverse shifting by the second power source and be embedded in the second interior fairlead for lower cover component, described first fairlead, housing orientation block and the second fairlead are connected in turn on described base plate, the upper end of described first fairlead and the upper end of the second fairlead are respectively equipped with described argon-arc welding gun.

2. a kind of cylinder body erecting device as claimed in claim 1, it is characterized in that, the outer end of described first fairlead is formed with the first locating slot, and the outer end of described second fairlead is formed with the second locating slot, the upside down depression of described housing orientation block, formed and be embedded in interior groove for housing, and be respectively equipped with avoiding hollow groove in described first fairlead and described second fairlead.

3. a kind of cylinder body erecting device as claimed in claim 2, it is characterized in that, the lower end of described first fairlead and described second fairlead is connected to supporting seat, described supporting seat is slidably connected on described base plate, the lower end of described supporting seat is connected to gripper shoe, the lower end of described gripper shoe is provided with slide block, and described base plate is provided with slide rail, and described skid is connected on described slide rail.

4. a kind of cylinder body erecting device as claimed in claim 3, it is characterised in that the lower end of described gripper shoe is connected to the described gripper shoe of driving laterally towards the spring moving reset away from described housing locating piece.

5. a kind of cylinder body welder as claimed in claim 4, it is characterised in that the lower end of described housing orientation block is connected to tray tool, and the lower end of described tray tool is connected to fixing seat, and described fixing seat is connected on described base plate.

6. a kind of cylinder body welder as claimed in claim 5, it is characterised in that being provided with the telescopic shaft and push rod that are connected with described 3rd power source respectively in described fixing seat, described telescopic shaft and described push rod are connected with described tray tool respectively.

7. a kind of cylinder body welder as described in any one of claim 1 to 6, it is characterized in that, described first power source and the second power source are propelling cylinder, and described first power source and the second power source are corresponding respectively is positioned at described first fairlead and the outer end of described second fairlead, and the inside of described first power source and described second power source is respectively equipped with rotating shaft, described rotational structure is connected with described first fairlead and described second fairlead respectively.

8. a kind of cylinder body welder as claimed in claim 7, it is characterized in that, the upper end of described rotating shaft is provided with fixed mount, the lower end of described fixed mount is connected to slide rail, the upper end of described fixed mount is connected to described power source group, the upper end of described propelling cylinder is connected to fixing plate, and the upper end of described fixing plate is connected to slide block, and described slide rail coordinates with described slide block.

9. a kind of cylinder body welder as claimed in claim 8, it is characterized in that, described power source group includes erectting the upper end being connected to described fixed mount and being driven the leading screw rotated by the 4th power source, the inner of described argon-arc welding gun is slidably connected on described leading screw by described connection sliding block, the outer end of described slide block is connected to linking arm, and described argon-arc welding gun is movably connected on described linking arm.

10. the operational approach of a cylinder body welder, it is characterised in that specifically comprise the following steps that

Housing is held up to concentric with cover assembly and lower cover component by the housing locating piece in step 1. tray tool；

The first fairlead and the second fairlead in step 2. tray tool move the port to housing simultaneously to center；

Cover assembly and lower cover component are advanced into and the port contact at housing two ends by the propelling cylinder of step 3. cover assembly and lower cover component respectively, and the now upper and lower covers press-in housing body degree of depth is 0 ~ 0.1mm；

Step 4. press-fits the hold down gag at top, argon welding district and is compressed by housing；

Cover assembly and lower cover component are pressed into housing to press mounting dimension by the propelling cylinder of step 5. cover assembly and lower cover component respectively；

The propelling cylinder of step 6. cover assembly and lower cover component all remains stationary motionless, and the first fairlead and the second fairlead in tray tool are return；

Housing locating piece in step 7. tray tool declines；

Rotating shaft on the propelling cylinder of step 8. cover assembly and lower cover component holds product and rotates together；

Step 9. argon-arc welding gun drops to working position, starts product is carried out argon arc welding；

Step 10. has been welded, and argon-arc welding gun rises, and tray tool falls；

The product that the welding of step 11. tray tool load completes moves to blanking position along with pipeline, carries out blanking.