RU208230U1 - Machine vice - Google Patents

Abstract

The utility model relates to clamping devices for metal-cutting machines, devices for drilling deep holes on a vertical drilling machine and can be used in mechanical engineering. The machine vise includes a body 1 with guides 2 made in it in the form of cylindrical grooves, movable jaws 3, on the outer surfaces of which there are toothed racks 4 installed in the guides 2, a mechanism for reducing and expanding the jaws 3, while a movable ring 5 is installed on the body, made with the possibility of axial rotation. On the outer surface of the movable ring 5, a lever 7 is installed for its axial rotation, while the inner surface of the ring 5 is made in the form of a gear 6 for interacting with gear racks 4 made on the outer surfaces of the jaws 3, and the mechanism for bringing and spreading the jaws 3 is made in the form of a rack transmission containing the specified gear racks 4 and the inner surface of the specified ring 5, made in the form of a gear 6. The technical result is to improve the quality of metalworking. 4 ill.

Description

The utility model relates to clamping devices of metal-cutting machines, devices for drilling deep holes on a vertical drilling machine and can be used in mechanical engineering.

Known machine vice (see RF patent for invention No. 2016752 class В25В 1/12, 1994), containing a body, a fixed jaw, a movable jaw, a mechanism for its movement in the form of a screw pair with a connecting place at the end of the screw, a handle with a handle and a crank with two attachment points located along the crank axis with the possibility of alternate interaction with the screw attachment point.

The disadvantage of these machine vices is the inability to self-center the workpiece or tool when installed in them.

The closest in technical essence and the achieved economic effect are universal vices (see RF patent for invention No. 2028920 class В25В 1/02, 1995), containing a body with guides, movable jaws and a mechanism for mixing and spreading jaws, consisting of a screw with by a thread connected to the jaws of a fixed half-nut installed in the body of the first jaw with the possibility of engaging with the screw thread, a movable half-nut facing the working surface of the fixed half-nut and installed in the body of the first jaw with the ability to move in the direction of the fixed half-nut, on the inner surface of the body of the movable half-nut, rack and pinion rails are installed, and on the outer surface of the fixed half-nut, a thread is made with which the rack and pinion gears interact, with additional rails fixed on the movable half-nut, and counter rails fixed on the vise body.

The disadvantages of this design are that it is difficult to carry out vertical installation of workpieces or tools with a circular cross-section, which degrades the quality of metalworking, due to insufficiently accurate and reliable positioning of workpieces or tools.

The technical result of the problem is to improve the quality of metalworking.

The technical result is achieved by the fact that in a machine vice containing a body with guides, movable jaws and a mechanism for converging and spreading the jaws, according to the utility model, the guides are made in the body in the form of cylindrical grooves, in which movable jaws are installed, and the mechanism for converging and spreading the jaws is made in in the form of a rack and pinion gear containing toothed racks located on the outer surface of the jaws, a movable ring mounted on the body with the possibility of axial rotation, while its inner surface is made in the form of a worm gear interacting with the toothed racks, which ensures the reduction and spreading of the jaws.

The essence of the utility model "Machine vice" is shown in the drawings: Fig. 1 - shows a vertical section of the machine vice (side view), Fig. 2 - the body of the machine vice in section A-A, in Fig. 3 - machine vise with an installed workpiece (top view), Fig. 4 - machine vise with installed drill (top view).

For the sake of clarity, only those elements are presented in the drawings that are necessary for understanding the essence of the utility model, and related elements well known to those skilled in the art are not shown.

The machine vise (Fig. 1, 2) contains a housing 1, in which guides 2 are made in the form of cylindrical grooves, in which movable jaws 3 are installed, containing gear racks 4 on the outer surface. the inner surface of which is made in the form of a worm gear 6, interacting with toothed racks 4, for bringing together and spreading the jaws 3. On the outer surface of the movable ring 5, a lever 7 is made.

A machine vise is used as follows: for fixing round, triangular or hexagonal blanks during their subsequent metalworking, as well as for fixing a tool with a round, triangular or hexagonal shank, for example, drills for deep drilling. The following are examples 1, 2 of fixing the workpiece and the drill in a machine vice.

Example 1. When fixing in a machine vice (Fig. 1, 2) the workpiece (Fig. 3). The jaws 3 are spread by acting on the lever 7, turning the movable ring 5, in which the worm gear 6 interacts with the toothed racks 4 of the jaws 3, lowers them in the guides 2, until the solution between the jaws 3 is sufficient to install the workpiece. After installing the workpiece in the solution between the jaws 3, the lever 7 turns in the opposite direction the movable ring 5, in which the worm gear 6 interacts with the toothed racks 4 of the jaws 3, raises them in the guides 2, until the solution between the jaws 3 becomes sufficient for fixing blanks.

Example 2. When fixing in a machine vice (Fig. 1, 2) a tool, such as a drill (Fig. 4) for drilling deep holes in vertical drilling machines. The jaws 3 are spread by acting on the lever 7, turning the movable ring 5, in which the worm gear 6 interacts with the toothed racks 4 of the jaws 3, lowers them in the guides 2, until the solution between the jaws 3 is sufficient to install the drill. After placing the drill in the solution between the jaws 3, the lever 7 turns in the opposite direction the movable ring 5, in which the worm gear 6 interacts with the toothed racks 4 of the jaws 3, raises them in the guides 2, until the solution between the jaws 3 becomes sufficient for fixing drill.

In this case, a workpiece with a pre-punched center is installed in the chuck of a vertical drilling machine. The machine vice is fixed on the working table of the vertical drilling machine, so that the center of the fixed drill coincides with the center of the workpiece installed in the chuck of the vertical drilling machine. Further, the drilling algorithm on a vertical drilling machine is the same as for conventional drilling, except that it is necessary to periodically lift the workpiece to clean the drill flutes from chips. In this case, accurate deep drilling is achieved due to the fact that the workpiece rotates, while at the same time its longitudinal feed to the stationary drill is performed, thereby ensuring drilling without displacement of the drill from the axis of rotation of the workpiece.

The use of the "Machine vise" will provide a reduction in labor costs for the vertical installation of workpieces or tools with a cross-section of a round, triangular and hexagonal shape, due to the self-centering of the movable jaws when they are brought together. Expanding the functionality of metal-cutting machines and improving the quality of metalworking, due to the possibility of drilling deep holes on vertical drilling machines without displacement of the drill from the drilling axis, which is achieved due to reliable fixation of the drill in the machine vice and rotation with simultaneous feeding of the workpiece fixed in the chuck to the drill vertical drilling machine.

Claims (1)

A machine vise containing a body with guides made in it in the form of cylindrical grooves, movable jaws, on the outer surfaces of which gear racks installed in the guides are made, a mechanism for converging and spreading the jaws, while a movable ring is installed on the body, made with the possibility of axial rotation, characterized in that a lever is installed on the outer surface of the movable ring for its axial rotation, while the inner surface of the ring is made in the form of a gear for interaction with toothed racks made on the outer surfaces of the jaws, and the mechanism for converging and spreading the jaws is made in the form of a rack and pinion gear containing the specified toothed racks and the inner surface of the specified ring, made in the form of a gear.

Images