CN207077085U - Argon arc welding copper water-cooling workbench - Google Patents

Abstract

A kind of argon arc welding copper water-cooling workbench.Continuous improvement with welding technique and performance and the development to high efficiency, heat flow density are continuously increased.A kind of argon arc welding copper water-cooling workbench, its composition include：Work top, work top（1）On be evenly equipped with the through holes of φ 9（4）, the milling of work top lower surface, which has, installs water-cooling pipe（3）Groove, groove are in described snakelike circulating type, and the weldering of water-cooling pipe is connected in described groove, and the fillet welding of work top lower surface four is connected with workbench supporting leg（2）, water-cooling pipe one end connection flexible metal conduit（9）, the outer suction water pump of flexible metal conduit connection（10）, outer suction water pump connects cooling water tank by pipeline（11）, cooling water tank bottom has delivery port（12）, delivery port is connected to the other end of water-cooling pipe by flexible metal conduit.The present utility model application is related to welding accessory field, is specifically for use in argon arc welding copper water-cooling workbench.

Description

Argon arc welding copper water-cooling workbench

Technical field：

It the utility model is related to a kind of welding accessory field, more particularly to a kind of argon arc welding copper water-cooling workbench.

Background technology：

Continuous improvement with welding technique and performance and the development to high efficiency, heat flow density are continuously increased, and radiating is asked Inscribing oneself turns into one of principal element for restricting welding technique development.Radiator is as most popular heat dissipation equipment so that near Research over year to radiator is more and more.The problem of for current state's inner radiator heat analysis design meanses complexity, expansion pair The heat analysis that radiates and design optimizing research, the design for workbench in lifting engineering, improve new-product development efficiency, tool It is of great significance and application value.

When the protection of non-melt pole inert gas tungsten electrode is welded in welding, substantial amounts of heat is produced, to appearance of weld effect and argon The working environment of arc-welding work all has a great impact, to improve welding temperature to appearance of weld effect and argon arc welder's working environment Influence for the purpose of, devise argon arc welding water-cooling platform.

The content of the invention：

The purpose of this utility model is to provide a kind of argon arc welding copper water-cooling workbench.

Above-mentioned purpose is realized by following technical scheme：

A kind of argon arc welding copper water-cooling workbench, its composition include：Work top, it is uniform on described work top There are the through holes of φ 9, described work top lower surface milling has the effective groove of installation water-cooling, the serpentine-like ring of described groove Wound, described water-cooling pipe weldering is connected in described groove, and the described fillet welding of work top lower surface four is connected with work Make platform supporting leg, described water-cooling pipe one end connection flexible metal conduit, described flexible metal conduit connects outer suction water pump, described outer suction Formula water pump connects cooling water tank by pipeline, and described cooling water tank bottom has delivery port, and described delivery port passes through snakeskin Pipe is connected to the other end of water-cooling pipe.

Described argon arc welding copper water-cooling workbench, passes through M8 bolts on described work top and M8 nuts are installed There is the non-contact face of flat clamp and angle pressing plate, described angle pressing plate and work top, installed again by M8 bolts and M8 nuts There is flat clamp.

Described argon arc welding copper water-cooling workbench, the arrangement of the described through holes of φ 9 are：In table core Point starts, and transverse and longitudinal coordinate gets through hole every 50mm, aperture 9mm, and the depth of groove 1.5 of described work top lower surface milling ~ 5mm, 2 ~ 6mm of width, described water-cooling pipe are the copper tubes of 6 ~ φ of φ 20.

The beneficial effects of the utility model：

1. radiating workbench of the present utility model, its design requirement are：1）Integral heat sink can be carried out to welding workpiece；2）Work Making platform material should be poor with weldment weldability；3）It can guarantee that weldment back-welding shape；4）Workpiece can be rigidly fixed.

Radiating workbench of the present utility model, its design feature are： 1）Using full red copper structure, workbench entirety heat conduction It is average.Workpiece will not hot-spot collapse； 2）Table front has forming pockets, is especially suitable for one side welding with back formation weld seam； 3）Water cooling flow can adjust, and prevents welding temperature and declines too fast and cause weld seam Local Cracking phenomenon； 4）Weld jig is only For two red copper pressing plates and a red copper angle steel, connection is connected by screw bolts, easy to process, also allows for carrying out the replacing of fixture； 5）Red copper is poor with the material weldability such as aluminium and aluminium alloy, mild steel, stainless steel, is not susceptible to workbench and shows with workpiece soldering As.

Radiating workbench of the present utility model, its design procedure are：1）800 × 600 × 3mm red copper steel plates are chosen as work Make deck plate, the selection of panel will consider the intensity after workbench processing back of weld forming pockets, it is also contemplated that heat dispersion And cost；Milling depth of groove 1.5mm, width 2mm, start, transverse and longitudinal coordinate gets through hole, hole every 50mm in table core point Footpath 9mm, corner are welded with the long copper pipes of 200mm as table leg；2) the workbench back side is welded with the copper tubes of internal diameter φ 6, using serpentine rings around Mode, spacing 50mm, soldering full weld mode is used using copper base solder, ensures the Thermal conductivity of workbench and copper tube, Copper tube both ends, the outer suction water pump of a side joint, another side joint flexible metal conduit, are equipped with water tank and form circulating water cooling system；3）Flat board pair Welding fixture designs, and using 2mm thickness red copper pressing plates, red copper pressing plate length is 800mm, and width 20mm and workbench are isometric, along pressing plate Center line, at plate both ends, respectively 3 through holes of φ 9 of processing, two pressing plates are one group, are attached, made with workbench using M8 bolts Used time, workpiece is kept flat on the table, after aliging and having stayed gap, workpiece is pushed down with pressing plate, with M8 bolts by pressing plate and work Make platform connection, rigidly fixed；4）Corner connection, the design of T-shape joint clamp, using 30mm angle steel（Material red copper）It is thick with 2mm Red copper pressing plate（2）Collectively constitute, angle steel length 800mm；Pressing plate length 800mm, width 20mm, in angle steel and pressing plate both ends edge Center line respectively weld in use, by angle steel fixation on the table, keeping flat weldment and being attached to workbench by 3 through holes of φ 9 of processing, corner connection On, and fixed workpiece on the table with pressing plate；Stand up welding to be attached on angle steel, be fixed on pressing plate on angle steel, T-shape During weld, angle steel is pressed on to horizontal positioned workpiece surface, blending bolt connects on the table, stands up workpiece and be attached to On angle steel facade, and pressing plate, workpiece, angle steel are connected with being rigidly fixed.

Brief description of the drawings：

Accompanying drawing 1 is structural representation of the present utility model.

Accompanying drawing 2 is structural representation of the present utility model.

Accompanying drawing 3 is structural representation of the present utility model.

In figure：1-work top；2-workbench supporting leg；3-water-cooling pipe；The through holes of 4-φ 9；5-concora crush Plate；6-angle pressing plate；7-M8 bolts；8-M8 nuts；9-flexible metal conduit；10-outer suction water pump；11-water of radiation Case；12-delivery port.

Embodiment：

Embodiment 1：

A kind of argon arc welding copper water-cooling workbench, its composition include：Work top, on described work top 1 The through holes 4 of φ 9 are furnished with, described work top lower surface milling has the groove of installation water-cooling pipe 3, and described groove is in snake Shape circulating type, the weldering of described water-cooling pipe are connected in described groove, the described fillet welding connection of work top lower surface four There are workbench supporting leg 2, described water-cooling pipe one end connection flexible metal conduit 9, described flexible metal conduit connects outer suction water pump 10, institute The outer suction water pump stated connects cooling water tank 11 by pipeline, and described cooling water tank bottom has delivery port 12, and described goes out The mouth of a river is connected to the other end of water-cooling pipe by flexible metal conduit.

Embodiment 2：

Argon arc welding copper water-cooling workbench according to embodiment 1, pass through M8 bolts 7 on described work top The non-contact face of flat clamp 5 and angle pressing plate 6, described angle pressing plate and work top is installed with M8 nuts 8, again by M8 spiral shells Bolt and M8 nuts are provided with flat clamp.

Embodiment 3：

Argon arc welding copper water-cooling workbench according to embodiment 2, the arrangement of the described through holes of φ 9 are： Start in table core point, transverse and longitudinal coordinate gets through hole every 50mm, aperture 9mm, described work top lower surface milling 1.5 ~ 5mm of depth of groove, 2 ~ 6mm of width, described water-cooling pipe are the copper tubes of 6 ~ φ of φ 20.

Embodiment 4：

The design method of argon arc welding copper water-cooling workbench according to embodiment 2, its design procedure are：1）Choosing 800 × 600 × 3mm red coppers steel plate is taken to consider workbench processing back of weld shaping as worktable panel, the selection of panel Intensity after groove, it is also contemplated that heat dispersion and cost；Milling depth of groove 1.5mm, width 2mm, in table core point Start, transverse and longitudinal coordinate gets through hole, aperture 9mm every 50mm, and corner is welded with the long copper pipes of 200mm as table leg；2) the workbench back side The copper tubes of internal diameter φ 6 are welded with, using serpentine rings around mode, spacing 50mm, soldering full weld mode is used using copper base solder, ensured The Thermal conductivity of workbench and copper tube, copper tube both ends, the outer suction water pump of a side joint, another side joint flexible metal conduit, it is equipped with Water tank forms circulating water cooling system；3）Flat board butting joint fixture designs, and using 2mm thickness red copper pressing plates, red copper pressing plate length is 800mm, width 20mm and workbench are isometric, and along pressing plate center line, at plate both ends, respectively 3 through holes of φ 9 of processing, two pressing plates are one Group, it is attached with workbench using M8 bolts, in use, workpiece is kept flat on the table, after aliging and having stayed gap, is used Pressing plate pushes down workpiece, and pressing plate is connected with workbench with M8 bolts, is rigidly fixed；4）Corner connection, T-shape joint clamp are set Meter, using 30mm angle steel（Material red copper）With 2mm thickness red copper pressing plates（2）Collectively constitute, angle steel length 800mm；Pressing plate length 800mm, width 20mm, 3 through holes of φ 9 are respectively processed along center line in angle steel and pressing plate both ends, corner connection welding is in use, by angle steel Fix on the table, keep flat weldment patch on the table, and fixed workpiece on the table with pressing plate；Welding is stood up to be attached to On angle steel, it is fixed on pressing plate on angle steel, during T-shape weld, angle steel is pressed on to horizontal positioned workpiece surface, and It is bolted on workbench, stands up workpiece and be attached on angle steel facade, and pressing plate, workpiece, angle steel are connected with carrying out Rigidly fix.

Claims (3)

1. a kind of argon arc welding copper water-cooling workbench, its composition includes：Work top, it is characterized in that：Described workbench φ 9mm through holes are evenly equipped with face, described work top lower surface milling has the effective groove of installation water-cooling, and described is recessed The serpentine-like circulating type of groove, the weldering of described water-cooling pipe are connected in described groove, described work top lower surface corner Weldering is connected with workbench supporting leg, described water-cooling pipe one end connection flexible metal conduit, and described flexible metal conduit connects outer suction water pump, Described outer suction water pump connects cooling water tank by pipeline, and described cooling water tank bottom has delivery port, described water outlet Mouth is connected to the other end of water-cooling pipe by flexible metal conduit.

2. argon arc welding copper water-cooling workbench according to claim 1, it is characterized in that：Lead on described work top Cross M8 bolts and M8 nuts are provided with the non-contact face of flat clamp and angle pressing plate, described angle pressing plate and work top, it is same logical Cross M8 bolts and M8 nuts are provided with flat clamp.

3. argon arc welding copper water-cooling workbench according to claim 2, it is characterized in that：Described φ 9mm through holes Arrangement is：Start in table core point, transverse and longitudinal coordinate gets through hole every 50mm, aperture 9mm, under described work top 1.5 ~ 5mm of depth of groove of surface milling, 2 ~ 6mm of width, described water-cooling pipe are the mm copper tubes of 6 ~ φ of φ 20.