CN204308385U - argon arc cladding device - Google Patents
argon arc cladding device Download PDFInfo
- Publication number
- CN204308385U CN204308385U CN201420679527.7U CN201420679527U CN204308385U CN 204308385 U CN204308385 U CN 204308385U CN 201420679527 U CN201420679527 U CN 201420679527U CN 204308385 U CN204308385 U CN 204308385U
- Authority
- CN
- China
- Prior art keywords
- ball
- screw
- bracing frame
- guide rod
- cladding
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Transmission Devices (AREA)
Abstract
The utility model provides a kind of Argon arc cladding device, base framework is connected with cladding part platform, the first ball-screw and the first guide rod is provided with in base framework, slide block on first guide rod is all fixedly connected with the first bracing frame with the upper surface of the feed screw nut on the first ball-screw, the second ball-screw and the second guide rod is provided with in first bracing frame, slide block on second guide rod is all fixedly connected with the second bracing frame with the side end face of the feed screw nut on the second ball-screw, the side end face of the side of the first bracing frame is provided with the duster support of adjustable angle, the 3rd ball-screw and the 3rd guide rod is provided with in second bracing frame, slide block on 3rd guide rod is all fixedly connected with argon-arc welding gun with the side end face of the feed screw nut on the 3rd ball-screw.The utility model can improve cladding quality, and molten shoe process can be made more convenient, and effectively can improve molten operating efficiency of carrying out operation.
Description
Technical field
The utility model relates to cladding apparatus, specifically a kind of Argon arc cladding device.
Background technology
Along with developing rapidly of modern industry, more and more higher to the performance requirement of engineering goods.A lot of component of machine will work to long-time stability under high temperature, high pressure, high speed or supermatic condition, thus improves very high requirement to the performance of material.Past usually selects some high alloys aborning, and adopts the method for bulk heat treatmet to make the performance of part reach instructions for use.But high performance material often cost is very high, in practical application, most of parts only require that very thin surface one deck has higher hardness, preferably wear-resisting and corrosion proof thin metal layer namely can satisfy the demands, thus, utilize surface engineering technology, generate one deck excellent performance at metal material surface and be combined firmly coating with matrix material, usually just can meet instructions for use.
Existing cladding automation degree of equipment is lower, needs constantly to be moved around by cladding part in actual cladding process, not only makes operating process loaded down with trivial details, and easily makes the cladding of cladding part can't meet the quality requirement.
Summary of the invention
For above-mentioned prior art Problems existing, the utility model provides a kind of Argon arc cladding device, and this device can regulate it relative to the position of cladding part as required, can improve cladding quality, molten shoe process can be made more convenient, and effectively can improve molten operating efficiency of carrying out operation.
To achieve these goals, the utility model provides a kind of Argon arc cladding device, comprise argon-arc welding gun, first transmission device, second transmission device, base framework, described base framework side is connected with cladding part platform, the first ball-screw and the first guide rod that are parallel to each other transversely is provided with in described base framework, the two ends of described first ball-screw are all connected with base framework by bearing, one end is wherein had to extend to base framework outside and be connected with the first transmission device being arranged on base framework outside, described first guide rod is set with the slide block suitable with its external diameter, slide block on described first guide rod is all fixedly connected with the first bracing frame with the upper surface of the feed screw nut on the first ball-screw,
The second ball-screw be parallel to each other and the second guide rod is transversely provided with in described first bracing frame, the two ends of described second ball-screw are all connected with the first bracing frame by bearing, one end is wherein had to extend to the first bracing frame outside and be connected with the second transmission device arranging the first bracing frame outside, described second guide rod is set with the slide block suitable with its external diameter, slide block on described second guide rod is all fixedly connected with the second bracing frame with the side end face of the feed screw nut on the second ball-screw, first bracing frame is provided with the duster support of adjustable angle on the side end face of the side of cladding part platform,
The 3rd ball-screw and the 3rd guide rod that are parallel to each other is provided with on longitudinal in described second bracing frame, the two ends of described 3rd ball-screw are all connected with the second bracing frame by bearing, described 3rd guide rod is set with the slide block suitable with its external diameter, and the slide block on described 3rd guide rod is all fixedly connected with argon-arc welding gun with the side end face of the feed screw nut on the 3rd ball-screw.
In this technical scheme, drive the first ball-screw by the first transmission device and then drive the first bracing frame to move back and forth on cladding part berm width direction, drive the second ball-screw by the second transmission device and then drive the second bracing frame to move back and forth on cladding part land lengths direction, by the 3rd ball-screw, the relative position between argon-arc welding gun and cladding part can be regulated in the vertical, and then improve the automaticity of cladding process, improve the operating efficiency of cladding, cladding quality can be ensured simultaneously, and effectively can reduce the working strength of technical staff, simultaneously by making the first bracing frame be provided with duster support, the injection of powder can be completed by controlling the first transmission device and the second transmission device, thus be uniformly dispersed under making to be ejected into the effect that powder in welding pool vibrates at ultrasonic wave, cladding coating is played to the effect of particle reinforce, improve cladding quality, and reduce the working strength of technical staff, by making argon-arc welding gun be arranged on the second bracing frame, argon-arc welding gun can be made to move in the horizontal and vertical directions, thus the track of argon-arc welding gun can be controlled according to actual conditions neatly, and then make cladding process convenient and efficient more.
Described first transmission device and the second transmission device form by motor and the decelerator that is connected with motor output shaft.
In this technical scheme, by making the first transmission device and the second transmission device form by motor and the decelerator that is connected with motor output shaft, the rotating speed that the output that can control motor by decelerator suits the requirements.
Described cladding part platform is provided with supersonic generator away from one end of base framework.
In this technical scheme, the acoustic cavitation produced when being propagated in molten bath by the high-energy ultrasonic of supersonic generator and acoustic streaming grade level effect, be conducive to the effusion of molten bath gas, strengthens molten diffusion of carrying out between part and cladding layer interface, form excellent metallurgical bonding layer.And the wetability in pulverized powder and molten bath is improved, strengthen the hardness of coating, intensity and wearability, thus the coating on cladding part can be made firmly to be combined with it, improve cladding quality.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is front view of the present utility model;
Fig. 3 is the top view of Fig. 2.
In figure: 1, the first bracing frame, the 2, first transmission device, the 3, first guide rod, 4, the first ball-screw, 5, base framework, 6, supersonic generator, 7, cladding part platform, the 8, second transmission device, the 9, second ball-screw, 10, the second bracing frame, 11, the 3rd guide rod, the 12, the 3rd ball-screw, 13, argon-arc welding gun, 14, duster support, 15 second guide rods.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail.
As shown in Figure 1 to Figure 3, a kind of Argon arc cladding device, comprise argon-arc welding gun 13, first transmission device 2, second transmission device 8, base framework 5, described base framework 5 side is connected with cladding part platform 7, the first ball-screw 4 and the first guide rod 3 be parallel to each other transversely is provided with in described base framework 5, the two ends of described first ball-screw 4 are all connected with base framework 5 by bearing, one end is wherein had to extend to base framework 5 outside and be connected with the first transmission device 2 being arranged on base framework 5 outside, described first guide rod 3 is set with the slide block suitable with its external diameter, slide block on described first guide rod 3 is all fixedly connected with the first bracing frame 1 with the upper surface of the feed screw nut on the first ball-screw 4, the second ball-screw 9 and the second guide rod 15 be parallel to each other transversely is provided with in described first bracing frame 1, the two ends of described second ball-screw 9 are all connected with the first bracing frame 1 by bearing, one end is wherein had to extend to the first bracing frame 1 outside and be connected with the second transmission device 8 arranging the first bracing frame 1 outside, described second guide rod 15 is set with the slide block suitable with its external diameter, slide block on described second guide rod 15 is all fixedly connected with the second bracing frame 10 with the side end face of the feed screw nut on the second ball-screw 9, first bracing frame 1 is provided with the duster support 14 of adjustable angle on the side end face of the side of cladding part platform 7, the 3rd ball-screw 12 and the 3rd guide rod 11 that are parallel to each other is provided with on longitudinal in described second bracing frame 10, the two ends of described 3rd ball-screw 12 are all connected with the second bracing frame 10 by bearing, described 3rd guide rod 11 is set with the slide block suitable with its external diameter, and the slide block on described 3rd guide rod 11 is all fixedly connected with argon-arc welding gun 13 with the side end face of the feed screw nut on the 3rd ball-screw 12.Drive the first ball-screw by the first transmission device and then drive the first bracing frame to move back and forth on cladding part berm width direction, drive the second ball-screw by the second transmission device and then drive the second bracing frame to move back and forth on cladding part land lengths direction, by the 3rd ball-screw, the relative position between argon-arc welding gun and cladding part can be regulated in the vertical, and then improve the automaticity of cladding process, improve the operating efficiency of cladding, cladding quality can be ensured simultaneously, and effectively can reduce the working strength of technical staff; Simultaneously by making the first bracing frame be provided with duster support, the injection of powder can be completed by controlling the first transmission device and the second transmission device, thus be uniformly dispersed under making to be ejected into the effect that powder in welding pool vibrates at ultrasonic wave, cladding coating is played to the effect of particle reinforce, improve cladding quality, and reduce the working strength of technical staff; By making argon-arc welding gun be arranged on the second bracing frame, argon-arc welding gun can be made to move in the horizontal and vertical directions, thus the track of argon-arc welding gun can be controlled according to actual conditions neatly, and then make cladding process convenient and efficient more.
Described first transmission device 2 and the second transmission device 8 form by motor and the decelerator that is connected with motor output shaft.By making the first transmission device and the second transmission device form by motor and the decelerator that is connected with motor output shaft, the rotating speed that the output that can control motor by decelerator suits the requirements.
Described cladding part platform 7 is provided with supersonic generator 6 away from one end of base framework 5.By supersonic generator can make molten carry out coating on part evenly, thus the coating on cladding part can be made firmly to be combined with it, raising cladding quality.
Claims (3)
1. an Argon arc cladding device, comprises argon-arc welding gun (13), it is characterized in that, also comprises the first transmission device (2), the second transmission device (8), base framework (5),
Described base framework (5) side is connected with cladding part platform (7), the first ball-screw (4) and the first guide rod (3) that are parallel to each other transversely is provided with in described base framework (5), the two ends of described first ball-screw (4) are all connected with base framework (5) by bearing, the first transmission device (2) wherein having one end to extend to base framework (5) outside and outside with being arranged on base framework (5) is connected, described first guide rod (3) is set with the slide block suitable with its external diameter, slide block on described first guide rod (3) is all fixedly connected with the first bracing frame (1) with the upper surface of the feed screw nut on the first ball-screw (4),
The second ball-screw (9) be parallel to each other and the second guide rod (15) is transversely provided with in described first bracing frame (1), the two ends of described second ball-screw (9) are all connected with the first bracing frame (1) by bearing, the second transmission device (8) wherein having one end to extend to the first bracing frame (1) outside and outside with arranging the first bracing frame (1) is connected, described second guide rod (15) is set with the slide block suitable with its external diameter, slide block on described second guide rod (15) is all fixedly connected with the second bracing frame (10) with the side end face of the feed screw nut on the second ball-screw (9), first bracing frame (1) is provided with the duster support (14) of adjustable angle on the side end face of the side of cladding part platform (7),
The 3rd ball-screw (12) and the 3rd guide rod (11) that are parallel to each other is provided with on longitudinal in described second bracing frame (10), the two ends of described 3rd ball-screw (12) are all connected with the second bracing frame (10) by bearing, described 3rd guide rod (11) is set with the slide block suitable with its external diameter, and the slide block on described 3rd guide rod (11) is all fixedly connected with argon-arc welding gun (13) with the side end face of the feed screw nut on the 3rd ball-screw (12).
2. Argon arc cladding device according to claim 1, is characterized in that, described first transmission device (2) and the second transmission device (8) form by motor and the decelerator that is connected with motor output shaft.
3. Argon arc cladding device according to claim 1, is characterized in that, described cladding part platform (7) is provided with supersonic generator (6) away from one end of base framework (5).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420679527.7U CN204308385U (en) | 2014-11-13 | 2014-11-13 | argon arc cladding device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201420679527.7U CN204308385U (en) | 2014-11-13 | 2014-11-13 | argon arc cladding device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204308385U true CN204308385U (en) | 2015-05-06 |
Family
ID=53130717
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201420679527.7U Expired - Fee Related CN204308385U (en) | 2014-11-13 | 2014-11-13 | argon arc cladding device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204308385U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110312588A (en) * | 2017-02-08 | 2019-10-08 | 株式会社神户制钢所 | Control device, stacking control method and program is laminated |
-
2014
- 2014-11-13 CN CN201420679527.7U patent/CN204308385U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110312588A (en) * | 2017-02-08 | 2019-10-08 | 株式会社神户制钢所 | Control device, stacking control method and program is laminated |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105397276B (en) | A kind of method of agitating friction weldering increasing material manufacturing bar | |
US20200189037A1 (en) | Combined apparatus for layer-by-layer interactive additive manufacturing with laser thermal/mechanical effects | |
CN102240860B (en) | Method and equipment for manufacturing gradient material mould | |
CN101362244A (en) | Automatic surfacing device capable of adding special alloy in visible arc | |
CN107398371A (en) | Ceramic metallization automatic spraying equipment | |
CN102642067A (en) | Welding method of low-magnetic steel | |
CN108380434A (en) | Aluminium alloy work piece environment-friendly spray coating device | |
CN204308385U (en) | argon arc cladding device | |
CN103243288B (en) | Automatic double-Z-axis electric spark deposition device and method | |
CN103692063B (en) | A kind of Novel welding device | |
CN203448899U (en) | Oil cylinder shaft automatic rotating welding device | |
CN203649621U (en) | Novel welding device | |
CN206824880U (en) | A kind of solder plating machine for carrying out cambered surface welding | |
CN206747813U (en) | A kind of robotic welding apparatus applied to Cargo Lift column | |
CN209288581U (en) | Box type steel structure welding system | |
CN208617980U (en) | Laser cladding apparatus | |
CN103521889B (en) | A kind of removable multi-functional Full-automatic roller build-up welding machine | |
CN204183093U (en) | A kind of valve stem end face build-up welding apparatus | |
CN203923374U (en) | A kind of device of mechanical vibration auxiliary laser cladding axial workpiece | |
CN110125516A (en) | A kind of device and method of efficient increasing material manufacturing complicated inner cavity aluminum alloy junction component | |
CN209438879U (en) | One kind is used for hot spraying to facilitate positioning device | |
CN203999817U (en) | A kind of laser melting coating stage apparatus | |
CN208005235U (en) | A kind of machine components automatic fixer | |
CN207478840U (en) | Ceramic metallization automatic spraying equipment | |
CN207239532U (en) | Electric generator rotor coil group welds positioning mould |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150506 Termination date: 20151113 |
|
EXPY | Termination of patent right or utility model |