The upper/lower electrode water-cooled mechanism of welding machine of mesh
Technical field
The utility model relates to welding machine of mesh, particularly be the upper/lower electrode water-cooled mechanism of welding machine of mesh.
Background technology
At present, the electrode welding mechanism of the welding machine of mesh main frame of prior art comprises: the top electrode beam and the bottom electrode beam that are fixed on welding machine of mesh main frame top and the bottom; On the top electrode beam, be fixed with an end that moves back and forth driver element, move back and forth the driver element other end top electrode seat and top electrode are housed; On the bottom electrode beam, be fixed with lower electrode holder and bottom electrode.
The welding machine of mesh of prior art can produce a large amount of heat in welding, produce a large amount of heat in the welding and rely on electrode tip holder and air cooling to realize lowering the temperature, like this life-span of electrode low, the production cost height.People thirst for a kind of good heat dissipation effect being arranged, little power consumption, the electrode cooling structure of environmental protection on welding machine of mesh.
Summary of the invention
The purpose of this utility model is to overcome the deficiency of above-mentioned technology, provides a kind of and with the water-cooled instead of null is cold upper/lower electrode is lowered the temperature, the upper/lower electrode water-cooled mechanism of the welding machine of mesh of good heat dissipation effect, little power consumption, environmental protection.
The technical scheme that solves the problems of the technologies described above is: a kind of upper/lower electrode water-cooled mechanism of welding machine of mesh, and described upper/lower electrode water-cooled mechanism comprises: the top electrode that is connected with the top electrode seat; The bottom electrode that is connected with lower electrode holder is respectively arranged with the pipeline with extraneous cooling circulating water UNICOM in top electrode and bottom electrode, the interface of described pipeline and extraneous cooling circulating water UNICOM is arranged on top electrode and bottom electrode side.
The beneficial effects of the utility model are: welding machine of mesh electrode water-cooled mechanism of the present utility model has reduced the temperature of electrode because fed cooling water, thereby increases electrode welding frequency, the high life of electrode; Reduce electrode and change number of times, reduce production costs.
Description of drawings
Fig. 1 is a front view of the present utility model;
Fig. 2 is the D-D cutaway view of Fig. 1.
" sequence number explanation in the accompanying drawing "
1: the top electrode beam; 2: driver element; 3: top electrode seat 4a: on cool off inlet channel; 4b: on cool off outlet conduit 4c: Inlet and outlet water is suitable for reading; 5: top electrode; 5a: go up pipeline; 6: bottom electrode; 6a: following pipeline; 7a: cool off inlet channel down; 7b: following cooling outlet conduit 7c: Inlet and outlet water end opening; 8: lower electrode holder 9: the bottom electrode beam.
The specific embodiment
Below in conjunction with accompanying drawing embodiment of the present utility model is described in further detail.
Fig. 1 is a front view of the present utility model; Fig. 2 is the D-D cutaway view of Fig. 1.
As shown in the figure, the utility model provides a kind of upper/lower electrode water-cooled mechanism of welding machine of mesh, and described upper/lower electrode water-cooled mechanism comprises: the top electrode 5 that is connected with top electrode seat 3; The bottom electrode 6 that is connected with lower electrode holder 8.
The described top electrode seat 3 one ends utmost point 5 that Connects Power, top electrode seat 3 other ends connect an end of driver element 2, and driver element 2 other ends are fixed on the top electrode beam 1.Described lower electrode holder 8 one ends connect bottom electrode 6, and lower electrode holder 8 other ends are fixed on the bottom electrode beam 9.
In described top electrode 5, be provided with extraneous cooling circulating water UNICOM on pipeline 5a; Described go up pipeline 5a and extraneous cooling circulating water UNICOM interface be arranged on the side of top electrode 5.
In described bottom electrode 6, be provided with following pipeline 6a with extraneous cooling circulating water UNICOM; Described down pipeline 6a and extraneous cooling circulating water UNICOM interface be arranged on the side of bottom electrode 6.
The pipeline configuration that is provided with respectively in described top electrode 5 and the bottom electrode 6 is: be provided with pipeline 5a in described top electrode 5; Should go up cooling inlet channel 4a and last cooling outlet conduit 4b in the pipeline 5a connection; The described Inlet and outlet water 4c suitable for reading that goes up cooling inlet channel 4a and last cooling outlet conduit 4b is arranged on the side of top electrode 5,
In described bottom electrode 6, be provided with a following pipeline 6a; This time pipeline 6a is communicated with cooling inlet channel 7a and following cooling outlet conduit 7b down; The Inlet and outlet water end opening 7c of described cooling inlet channel 7a down and last cooling outlet conduit 7b is arranged on the side of bottom electrode 6.