RU2091203C1 - Machine vice - Google Patents

Abstract

FIELD: mechanical engineering; devices for clamping the parts to be machined. SUBSTANCE: vice has body 1 with guides 4, fixed jaw 2 installed on body, movable jaw 3 installed for movement along guides, hydraulic drive with cylinder 5 secured on fixed jaw and piston with rod 6, lead screw 7 connected with rod by one end to form screw pair for travel along rod and by other end with movable jaw through threaded bushing. Bell crank 9 is installed on threaded bushing 8. One arm of bell crank is connected with body and other arm, with movable jaw. Wedge socket is made on side surface of one of bell crank arms. Self-alignment member 12 is arranged on movable jaw for engagement with inclined surface of wedge socket of bell crank. EFFECT: improved reliability of clamping. 3 cl, 1 dwg

Description

 The invention relates to mechanical engineering, and in particular to devices for clamping workpieces.

 A vise is known that contains a base, a housing with guides, a movable sponge with a groove, a fixed sponge, a pusher located in the groove of the movable sponge and having a wedge socket on the side surface, and pivotally connected to the lower end with a pressure plate, and the upper wedge socket with a movable sponge self-aligning element (ed. St. N 1178577).

 In this vice, when clamping a part, the body takes on a bending moment, which leads to its bending, thereby violating the accuracy of the base of the clamped part.

 A vise is known that contains a housing with guides, a fixed and movable jaw, a hydraulic actuator consisting of a cylinder fixed in a fixed jaw, and a piston with a rod, a lead screw connected at one end to the piston rod and the other with a movable sponge through a threaded sleeve (ed. St. N 1025500).

 In this vice, when clamping a part, the body takes on a bending moment, which leads to its bending, thereby violating the accuracy of the base of the clamped part. The movable jaw does not have a reliable fixation on the guides of the housing, which reduces the reliability of the base of the clamped part. The threaded connection is not protected from external factors due to the long length of the threaded part.

 The proposed vice includes a housing with guides, a fixed and movable jaw, a hydraulic actuator with a cylinder fixed in a fixed jaw, and a piston with a rod, a lead screw connected at one end to the rod and the other with a movable jaw through a threaded sleeve.

 The vice is equipped with a two-arm lever mounted on a threaded sleeve. One shoulder of the lever is connected to the housing, and the other shoulder with a movable sponge.

 A wedge socket is made on the lateral surface of one of the lever arms, and the vise is equipped with a self-aligning element placed on the movable sponge with the possibility of interaction with the inclined surface of the wedge socket of the lever.

 The connection of the lead screw with the rod is made in the form of a screw pair with the possibility of moving the lead screw along the rod.

 When clamping a part, the lever takes a bending moment upon itself, leaving the vise body unloaded. A wedge socket made on the side surface of the lever, interacting with an inclined surface with a movable sponge through a self-aligning element, reliably fixes the movable sponge on the guides. The lead screw thread is located in the bushing and in the piston rod, where it is sheltered from external factors.

 The drawing shows a vise, a General view, comprising a housing 1, a fixed jaw 2, a movable jaw 3 mounted on rails 4, a hydraulic actuator cylinder 5 mounted in a fixed jaw 2, a piston with a rod 6, a lead screw 7 forming a screw pair with a piston rod 6 at one end of the lead screw 7, the sleeve 8, forming a screw pair with a lead screw 7 at its other end, a two-arm lever 9, pivotally mounted on the sleeve 8, the lower shoulder of the lever 9 is connected to the housing 1 using a quick-release finger 10 installed in one from holes 11, top its lever arm 9 is connected to the movable jaw 3 through a self-aligning element 12.

 Vise work as follows.

 The clamped part (not shown) is installed between the jaws 2 and 3. The quick-release pin 10 is removed from the hole 11, releasing the lower arm of the lever 9. Rotating the spindle 7 moves the sleeve 8 together with the lever 9 towards the part. The end of the lead screw 7, having a right-hand thread, is screwed into the piston rod 6, which is protected from rotation, relative to the cylinder of the hydraulic actuator 5, and the end, having a left-hand thread, unscrews the sleeve 8. The sleeve 8, mounted in a movable jaw 3 with a longitudinal gap, selects this gap and pushes the movable jaw 3 to the part. After bringing the movable jaw 3 to the part, the lower end of the lever 9 is fixed with a finger 10 in one of the holes 11.

 The hydraulic cylinder 5 is supplied with a working fluid under pressure. The piston 6 moves to the left under the action of pressure, pulls the spindle 7 and the sleeve 8 of the lever 9, which rotates a small angle, moves the movable jaw 3 to the left to the stop in the part and clamps the part. At the same time, due to the inclined side surface of the lever 9, with which it interacts with the movable sponge 3, the latter is pressed against the guides 4, providing reliable basing of the clamped part.

 When the part is expanded, the pressure of the working fluid is relieved. The piston 6 returns to the right, pushing the spindle 7 and the sleeve 8 to the right, rotates the lever 9, which with the upper shoulder unclenches the movable jaw 3 and the part, and moves the movable jaw 3 away from the part.

 When the part is clamped, the bending moment arising in the cross section of the vise takes over the lever 9. In this case, the lever 9, through the lower shoulder, takes on the moment arising from the compression of the housing 1. Both of these moments, which are equal and opposite, are closed on the lever 9 in the right part of the vise and on the cylinder 5 in their left part, and the remaining parts remain unloaded from the moments, which allows you to more accurately base the clamped part.

 The movable sponge 3, interacting with the inclined surface of the lever 9 through the self-aligning element 12, is pressed against the guides 4, ensuring the reliability of the base of the clamped part.

 The lead screw 7 provides an accelerated supply of the movable jaw and 3 due to the fact that the steps of the left and right threads of the screw add up when moving the jaw 3. The general threaded part of the screw consists of two sections, which makes it possible to hide it from external factors.

 The offered machine vice has high accuracy and reliability of the base of the clamped part and is trouble-free.

Claims (3)

 1. Machine vice containing a housing with rails, a fixed jaw mounted on the housing, a movable jaw mounted to move along the rails, a hydraulic actuator with a cylinder fixed in the fixed jaw and a piston with a rod, a lead screw connected at one end to the rod, and another with a movable sponge through a threaded sleeve, characterized in that the vise is equipped with a two-arm lever mounted on the threaded sleeve, while one arm of the lever is connected to the housing, and the other arm with a movable sponge.  2. A vise according to claim 1, characterized in that a wedge socket is made on the side surface of one of the arm shoulders, and the vise is equipped with a self-aligning element placed on a movable sponge so that it can interact with the inclined surface of the wedge socket of the lever.  3. Vise according to claims 1 and 2, characterized in that the connection of the lead screw to the rod is made in the form of a screw pair with the possibility of moving the lead screw along the rod.