SU725843A1 - Contact spot welding gun - Google Patents

Description

reliable release of the locking mechanism, since it is known that the coefficient of friction is better than the coefficient of friction of movement. Therefore, to remove the crackers from the wedged state, a greater force must be applied to the piston than during the jamming process, since the jamming occurs in motion, and the wedging occurs at the moment when the crackers and the hub of the locking mechanism are at rest. To move the piston of the gun to its original position with a higher pressure of compressed air than in the working position, it is not economically feasible

The purpose of the invention is to obtain variable adjustable welding force and increase the reliability of the gun. This is achieved by the fact that the surfaces of the wedge of the stem and the wedge-shaped gap are made with curvilinear i and forming, the separator is made in the form of a washer with stepwise thickness variation around the circumference, at the time of splitting alternately interacting with its steps with spacer crackers, in turn, made in the form of wedges, in which the coefficient of the slurry with the numer of the cylinder’s surface is greater than the coefficient, the friction with the sleeve surface.

FIG. 1 shows a pistol, a general view with a partial | section cut; in fig. 2AAA FIG. one; in fig. 3 section bb FIG. one; in fig. 4 - separator, top view; in fig. 5 - separator plan view.

The gun contains a pneumatic cylinder 1 with a rod 2, the lower wedge-shaped part of which is made of a curvilinear generatrix 3. Shut-off, the mechanism consists of a sleeve 4 with inclined surfaces 5, between which and the inner surface of the pneumatic cylinder 1 are installed wedge-shaped crackers with protrusion 7, spring-loaded relative to the sleeve 4 springs 8. Spacer crackers have an outer cylindrical surface 9 and an inner flat 10, and the coefficient of friction of the surface 9 is higher than the surface 10.

The separator 11 is made in the form of a step washer, which ensures the alternation of the interaction of the stages 12 with the protrusions of the 7 spacer crackers at the time of wedging.

fJTOK 2 is equipped with drill 13, interacting with sleeve 4 with a spring 14.

The reinforcing mechanism includes spacer elements 15 mounted in a wedge-shaped slit 16 formed by curvilinear generators of end 17 of sleeve 4 and end 18 of electrode holder 19 with electrode 20.

The gun works as follows. When compressed air is supplied to the piston cavity, the rod 2 together with the locking and reinforcing mechanisms is lowered into the working position. When the electrode 20 is abutted into the welding part, the spring 14 is compressed and the wedge-shaped surface 3 of the rod 2 inserts the spacer elements 15 into the wedge slot 16. At. This cracker 6, being freed from the separator 11, closes the sleeve 4. The spacers with a greatly increased force act on the electrode holder 19. When the core of the welding point is formed, the electrode holder begins to move with a variable force. The character of the variable welding force is determined by the curvilinear forming wedge-shaped top 3 of the rod 2 and the curvilinear forming wedge-shaped slot 1

Depending on whether the curvilinear generators are convex or concave, respectively, the welding force will vary variably. decrease.

You can perform curvilinear generators and such, to obtain an abrupt welding force.

After welding the parts, the compressed air is supplied to the rod cavity, the rod 2, moving to the initial position, the collar 13 acts on the separator 11 / which in stages 12 interacts with the crackers 6 and. alternately exiting them from the wedged state, then the protrusion 21 carries along the reinforcing and locking mechanisms, while the spacer elements 15 under the action of the spring 14 return to their original position

Since the coefficient of friction of the outer surface of the biscuit is greater than that of the internal, the elastic force of the pneumatic cylinder body acting on the wedged spacer crackers creates a greater pushing force at the moment of expansion of the locking mechanism; jamming of the locking mechanism occurs more clearly and reliably.

Alternating knocking out crackers allows the use of the same pressure of compressed air to move the gun to its working and initial position.

The design of the gun with variable welding force creates favorable conditions for welding materials that require variable welding force, allows you to solve the important task of creating large and adjustable efforts with minimum dimensions, which is most relevant when welding large thicknesses, with a small step between welding and relief points welding to obtain the forging of the product being welded, as well as

Claims (1)

Claim The gun for contact spot welding, containing a pneumatic cylinder with a spring-loaded wedge-shaped rod interacting with the electrode holder, a locking mechanism with a sleeve and a separator interacting with spacers, spring-loaded relative to the sleeve, and a reinforcing mechanism with spacer elements located in the wedge-shaped slot, characterized in that, with the purpose of obtaining a variable controlled welding force and improving the reliability of the pistol, the surface of the wedge of the rod of the first wedge-shaped slit is made with curvilinear-t m forming, the separator is made in the form of a washer with a stepwise change in thickness around the circumference, at the moment of opening, alternately interacting with its steps with 5 pivot crackers, in turn made in the form of wedges in which the coefficient of friction with the inner surface of the cylinder is greater than the coefficient of friction with surface JQ bushings.