RU198168U1 - Clamping device - Google Patents

Abstract

The utility model relates to clamping devices and can be used for fastening and installation in the working position of the workpieces or their workpieces. The clamping device comprises movable and fixed jaws (6) and (3), a lead screw (9), racks (1), (2), a fixed jaw (3) fixed to the rack, guides (4), (5) fixed between stand (2) and fixed sponge (3). The movable jaw (6) is mounted to move along the spindle (9) on the left and right guides (4), (5). In the movable and fixed jaws (6), (3), as well as in the posts (1), (2), coaxial holes (22), (23), (21), (24) are made, and the hole (22) in the movable the sponge (6) is threaded. The lead screw (9) having a groove (25) and a flywheel (27) is installed in the holes (21), (24), (22) of the front and rear struts (2), (1), the movable jaw (6), and a sleeve (10) located in the hole (23) of the fixed jaw (3). The lead screw (9) is positioned so that its threaded portion is between the fixed jaw (3) and the front pillar (2), and the axles (20) fixed inside the sleeve (10) go into the groove (25) of the lead screw (9) ) On the inner surfaces of the jaws (3) and (6), cardboard pads (29) are installed. The technical result consists in achieving the ability to clamp fragile parts. 3 s.p. f-ly, 5 ill.

Description

The utility model relates to clamping devices and can be used for fastening and installation in the working position of the workpieces or their workpieces.

Known "Vise" [RU 136758, published 01/20/2014, IPC VV 1/10], containing a housing, movable and fixed jaws, interconnected along the axis by a screw with non-self-locking thread, and a roller. In this case, the fixed sponge is welded to the body with the formation of a square, and a guide in the form of a pipe is welded to the fixed sponge, in which a screw with a sleeve is placed, the movable sponge is made tubular and installed with the possibility of movement along the guide pipe. The screw has a collar and is placed in the guide tube with a gap "a" between the collar and the end of the pipe of the movable jaw. The screw collar is divided into sectors by radial grooves and is made with dimensions that determine the size of its contact surface with the end face of the movable jaw pipe and sufficient to create a friction moment that prevents the screw from turning when the product is clamped, and the roller is mounted on the movable jaw pipe with the possibility of contact with the screw collar.

It is known “Device for clamping a group of parts” [RU 192400, published September 16, 2019, IPC B25B 1/10], comprising a housing with a fixed clamping jaw, a movable clamping jaw and a power screw. Moreover, the movable clamping jaw is mounted on a movable base placed in the cavity of the housing with the possibility of movement along the axis of the power screw, a through threaded hole is made in the wall of the housing in which the power screw is installed. In the cavity of the housing between the fixed and movable jaws, additional bilateral clamping jaws are sequentially mounted with the possibility of longitudinal movement relative to the axis of the power screw. In this case, the power screw is made with a length that provides the possibility of reliable fixation between the respective jaws and release after processing a group of parts, and the cavity of the housing from below is blocked by a restrictive removable plate.

The closest in technical essence are “High-Speed Vise” [RU 176554, published 01/23/2018, IPC V25V 1/10]. High-speed vice includes a housing with a fixed clamping jaw, a movable clamping jaw and a power screw. The movable clamping jaw is mounted on a movable base located in the cavity of the housing with the possibility of movement along the axis of the power screw, coaxial through threaded holes are made in the wall of the housing and the movable base, in which the power screw is installed, and the diameter of the through threaded hole in the movable base is less than the wall of the housing, while the through threaded hole in the movable base is made with the left thread, and the through threaded hole in the wall of the housing is made with the right thread. A thread corresponding to the through threaded hole in the movable base is made on a part of the power screw shaft from its end, and a corresponding threaded hole in the housing wall on the part of the power screw shaft from its head.

A disadvantage of the known solutions is the excessive force applied during clamping of the part and leading to its damage. This disadvantage does not allow to clamp fragile parts. The proposed utility model solves the above problem.

The technical result of the proposed utility model is to achieve the ability to clamp fragile parts without damaging them.

The essence of the proposed clamping device is that it contains a movable and fixed jaw and a spindle.

New is the fact that the racks are introduced, on one of which a fixed sponge is fixed and guides fixed between the specified rack and a fixed sponge. The movable jaw is mounted to move along the spindle on the guides. In this case, coaxial holes are made in the movable and stationary jaws and in the racks. Moreover, the specified hole in the movable sponge is threaded, and the lead screw is made with a flywheel and a groove and is installed in the indicated holes of the struts, the movable sponge and in the sleeve located in the hole of the fixed sponge. In this case, the threaded part of the screw is located between the fixed sponge and one of the posts, and inside the sleeve are fixed axes that go into the groove of the lead screw. In addition, cardboard overlays are fixed on the inner surfaces of the movable and fixed jaws. The movable sponge is made with grooves, and the guides with protrusions installed in the grooves of the movable sponge. The fixed sponge is fixed on one rack with screws. The guides are fixed between the uprights and the fixed sponge with screws.

In FIG. 1 shows a top view with a local section of the clamping device.

In FIG. 2 shows a section AA of the jig.

In FIG. 3 shows a section BB of the clamping device.

In FIG. 4 shows a general view of the lead screw of the jig.

In FIG. 5 shows a sleeve of a fixed jaw clamp with a local cut.

The clamping device comprises racks (1), (2), guides (4), (5), a fixed jaw (3), a movable jaw (6), a lead screw (9). The fixed jaw (3) is fixed to the stand (1) with screws (11) installed through their holes (12) and (13). The guides (4), (5) are fixed between the stand (2) and the fixed jaw (3). The guides (4), (5) are attached to the stand (2) by screws (15) installed in the hole (16) and the threaded hole (17), and to the fixed jaw (3) - by screws (11) installed in the threaded holes ( 18). The movable sponge (6) is made with grooves (7), and the guides (4), (5) with protrusions (8). The movable jaw (6) is mounted on the guides (4), (5), so that the protrusions (8) of the guides (4), (5) are installed in its grooves (7). Coaxial through holes (21), (22), (23), (24) are made in the stand (2), the movable jaw (6), the fixed jaw (3), and the stand (1). The hole (22) of the movable jaw (6) is threaded. A sleeve (10) is installed in the hole (23) of the fixed jaw (3) and secured with screws (14). Through holes (19) are made in the sleeve (10), into which the axles (20) are rigidly mounted. A lead screw (9) is installed in the holes (21), (22), (24) and the sleeve (10), the threaded part of which is located between the stand (2) and the fixed jaw (3). A groove (25) is made in the lead screw (9), into which the axes (20) enter. A flywheel (27) is mounted on the end face (26) of the lead screw (9) and secured with a screw (28). On the inner surfaces of the jaws (3) and (6), cardboard pads (29) are installed.

The clamping device is used as follows. Rotating the flywheel (27) rotates the spindle (9). The rotational movement of the lead screw (9) is transmitted to the movable jaw (6) and is converted into its translational movement along the guides (4), (5). The movable jaw (6) is diverted from the immovable jaw (3) to the distance necessary to accommodate the part (30). The part (30), for example, an electrical connector, is held between the jaws (6), (3), and the reverse jaw (9) rotates the movable jaw (6) until the part (30) is sandwiched between the jaws (3) ), (6) with cardboard overlays installed on them (29). When the screw (9) rotates, the axes (20) located simultaneously in the holes (19) of the sleeve (10) and the groove (25) of the screw (9) ensure its fastening from axial movements in the sleeve (10) and free rotation, which leads to smooth movement of the movable jaw (6) and the exact selection of the required clamping force. And cardboard pads (29) prevent damage to the part (30) when applying clamping force to it with jaws (3), (6). Next, carry out the necessary installation work, for example soldering wires to the electrical connector. And then by rotating the lead screw (9), the movable jaw (6) is withdrawn and the finished product is removed from the clamping device.

Thus, it is possible to clamp parts made of fragile materials in the fixture - electronic boards, connectors, etc. without damaging them.

Claims (4)

1. A clamping device containing a movable and fixed jaw and a lead screw, characterized in that it contains racks, on one of which a fixed jaw is fixed and guides fixed between the specified stand and a fixed jaw, the movable jaw is mounted to move along the screw on guides, while coaxial holes are made in the movable and stationary jaws and in the racks, and the specified hole in the movable jaw is threaded, and the lead screw is made with a flywheel and a groove and is installed in the indicated holes of the racks, the movable sponge and in the sleeve located in the hole of the fixed jaws, while the threaded part of the screw is located between the fixed jaw and one of the racks, and inside the sleeve are fixed axes that go into the groove of the lead screw, and cardboard overlays are fixed on the inner surfaces of the movable and fixed jaws. 2. The clamping device according to claim 1, characterized in that the movable sponge is made with grooves, and the guides with protrusions installed in the grooves of the movable sponge. 3. The clamping device according to claim 1, characterized in that the fixed jaw is fixed to one rack with screws. 4. The clamping device according to claim 1, characterized in that the guides are fixed between the uprights and the fixed sponge with screws.

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