RU207733U1 - CLAMP WITH RETAINER - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely, phase and grounding clamps of portable groundings, designed to protect against electric shock during the installation, maintenance and repair of electrical networks, distribution installations, power utilities of urban electric transport, railways and industrial enterprises. The device can be used in mechanical engineering, instrument making and other industries as a screw clamp for connecting machines, mechanisms, devices, equipment to grounding devices. It contains a body in the form of upper and lower shelves, interconnected by the back of the body, a clamping screw on which the spring and the bar are located, the spring rests on the bar, the bar is fixed relative to the body, for example, using a bracket, forming a kinematic pair. EFFECT: improved design by fixing the device body relative to the clamping screw axis, which excludes free rotation of the clamp on the screw under gravity when operating in a given spatial position. 1 wp f-ly, 1 dwg

Description

The utility model relates to the field of electrical engineering, namely, phase and grounding clamps of portable groundings, designed to protect against electric shock during the installation, maintenance and repair of electrical networks, distribution installations, power utilities of urban electric transport, railways and industrial enterprises. The device can be used in mechanical engineering, instrument making and other industries as a screw clamp for connecting machines, mechanisms, devices, equipment to grounding devices.

The device can be conveniently and reliably installed in various spatial positions, suitable for use in various climatic conditions, excludes dropping under dynamic and thermal current loads, provides long-term stable electrical contact and has mechanical strength.

Known device "Clamp screw" (patent for utility model No. 81386), the body of which has a channel-like profile, and in its lower shelf there is a longitudinal channel for the embedded part and non-threaded holes for the screw communicating with the channel. The use of non-threaded holes in the bottom shelf when working with a clamp leads to the fact that the axis of the embedded part can be displaced relative to the axis of the non-threaded holes in the bottom shelf of the housing, while the clamping screw is skewed relative to the clamping axis and, as a result, leads to loosening of the screw with a nut in non-threaded holes in the body, "biting" the thread and reducing the reliability of the clamp.

Known device "Screw clamp for fixing wires in the design of portable grounding" (patent for invention No. 2510668), which contains a housing with upper and lower shelves, and the lower shelf has holes for the clamping screw, two fixing parts located at the top and bottom in the P- shaped cutouts of the bottom shelf, to prevent swinging of the clamping screw.

It is known, taken as a prototype, the "Screw clamp" device (patent for useful model No. 156361), containing the upper and lower shelves connected to each other with a backrest, a clamping screw, equipped with a fixing part with a threaded hole for the clamping screw, where the fixing part is made in in the form of a sleeve rigidly fixed in the hole of the lower shelf, which excludes swinging of the clamping screw during repair and operational work. This prototype and the above analogs do not exclude free rotation under the force of gravity of the device body on the clamping screw, thereby not providing a fixed position of the clamp in space for convenient and reliable gripping of a live part, for example, an overhead line wire or a switchgear bus.

The objective of the proposed technical solution is to improve the reliability of the device.

The technical result consists in improving the design by fixing the body of the device relative to the axis of the clamping screw, excluding free rotation under the force of gravity of the clamp when operating in a given spatial position.

The essence of the technical solution is illustrated by the following drawings.

Fig. 1 - General view of the device.

The device (figure 1) consists of a housing 1 with an upper shelf in which, for example, two internal toothed planes form an angle or a straight toothed plane, with a lower shelf having two coaxial threaded holes for a pressure screw 2 with a pressure plate 3 or without it, a channel with an insert 4 having a hole coaxial with the holes of the lower shelf, for example, a threaded one. The back of the body 1 is made, for example, with technological holes. On the clamping screw 2 there is a spring 5 resting on the bar 6, which fixes the spring 5 relative to the body 1 of the device. The bar 6 is fixed relative to the body 1 of the device, forming a kinematic pair, using, for example, a bracket 7, passed through one of the technological holes of the back of the body 1 and fixed on the bar 6, the spring 5 at both ends can be limited by support washers 8, the clamping screw 2 has a shank for connection to an insulating rod.

The device operates as follows. The device is mounted on an insulating rod.

With the help of an insulating rod, on which the device is attached, the clamp is brought in a convenient spatial position to the current-carrying part, and, for example, an overhead line wire or a switchgear bus is inserted into the gap between the upper shelf of the housing 1 and the pressure plate 3 of the device. By rotating the rod of the clamping screw 2, the current-carrying part of the wire or bus is clamped between the clamping plate 3 and the toothed surface of the upper shelf of the housing 1, which ensures reliable contact with it. Depending on the location of live parts, if necessary, before starting work, the spring 5, installed on the clamping screw 2, is compressed (loosened) by means of the bar 6 to create the necessary friction between the clamping screw 2 and the body 1 of the device, which excludes free rotation at the time of installation of the clamp under the force of gravity of the device body 1 relative to the clamping screw 2.

Fixing the bar 6 relative to the device body 1, together with the compression (weakening) of the spring 5, excludes free rotation under the gravity of the device body 1 when operating in a given spatial position, allowing the device body 1 to be fixed from free rotation under the gravity of the clamp relative to the axis of the clamping screw 2.

The design of the proposed technical solution ensures the achievement of this goal.

Claims (2)

1. Clamp with a retainer, containing a housing in the form of upper and lower shelves connected by the back of the housing, a clamping screw, characterized in that a spring and a bar are located on the clamping screw, the spring rests on the bar, the bar is fixed relative to the body, forming a kinematic pair. 2. A clamp with a lock according to claim 1, characterized in that the back of the body has technological holes, the bar is fixed relative to the body by means of a bracket passed through one of the technological holes of the back of the body and fixed to the bar.

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