CS213730B1 - Clamping mechanism of the integrated circuits holder - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated circuit holder clamping mechanism for rapid replacement in series measurement of their parameters.

The parameters are determined during manufacture or before assembly of the integrated circuits. For this purpose, connection holders are used in which the integrated circuit housing can be seated between the contact points in a single movement and, after a measuring procedure, the integrated circuit can be pulled out of the holder again in a simple movement. Simple series holders are not suitable for series production, where the inlets from the circuit must be individually or simultaneously plugged into sockets or other contact mechanisms. For this purpose, more sophisticated mechanisms are used in which the contact springs mounted on the rails are pulled to the outlets via a lever transmission by means of an operating handle. Such an integrated circuit holder mechanism is described, for example, in U.S. Pat. AO No. 172 201. The mechanism consists of a base body mounted in the center of the base plate, into which the housing of the Integrated Circuit is placed only after the mechanism has been opened and the contact springs have been extended in the horizontal direction from the base body. The movement of the strap with the contact springs is provided by a lever mechanism connected to the control bar. The mechanism of this construction is designed for integrated circuits whose outlets are arranged on opposite side walls of the housing. The described holder cannot be used for integrated circuits of other construction, for example with wire terminals oriented in the housing plane. These wire terminals are very close together and are not rotated 90 ° to the housing as in213 730

213 730 Dual In Line Dgr.

These disadvantages are overcome by the clamping mechanism of the IC holder intended for rapid replacement in serial measurement of its parameters according to the invention, which consists in that it consists of a rectangular base body which is perpendicularly fixed to the base plate and provided with a rectangular notch closed by the insulating material retaining trough is flexibly fastened to the upper shoulder of the arm, while the sliding surface of the insulating material is slidably mounted on the sliding surface of the base body and the carrier screw in the horizontal axis to accommodate the integrated circuit housing, insulating ridges with wedge teeth terminated by a stop are provided, provided in the gaps between the teeth with contact rings with interconnecting cables, the insulating ridges being fastened between two fork holders to each other joints By means of springs on guide screws mounted in the base plate, the fork supports are connected to the control bar via a lever mechanism.

The main advantage of the clamping mechanism is that it enables to slide the miniature sleeve onto the sliding carriage in one movement and, after insertion, to automatically calibrate multiple double-sided pins above the contact rings using the wedge teeth of the insulating ridge and its stop. The circular profile of the contact rings ensures that contacts with wire terminals extending out of the plane of the other terminals are formed after the stop.

Another advantage is simple, easy manufacturing and wider applicability in the electronic measuring technology industry.

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in greater detail in the accompanying drawing, in which: FIG. 1 is a cross-sectional front view of the mechanism;

1 and 2, a base body 1 of rectangular cross-section is fastened to the base plate 2 in FIGS. A rectangular notch is formed at the end of the base body, which is closed by a one-sided arm 2. with a stop screw 8. A retaining trough 20 of insulating material is fastened to the upper surface of the arm 5 by means of a spring 20 or spring washer. The integrated circuit 2, or its housing, is mounted on a sliding carriage 6, which travels both on the sliding surface 2 of the base body 1 and on the support screw 6. The sliding carriage 6 is also made of insulating material and their stop Insulating ridges 10 formed by wedge teeth 11 are arranged on both sides approximately on the longitudinal axis of the sliding carriage 8 and the contact rings 13 are fastened between them. The insulating ridges 10 terminate in a stop 12 which projects above the wedge teeth 11. Their number is determined by the number of pumps measured integrated circuit. The contact rings 13 are connected by interconnecting cables 14 either in front of the socket body or directly to the circuits of the measuring device. Perpendicular to the insulating ridges 10 there are two fork holders 12 connected to each other to which the ends of the two insulating ridges 10 are fixed. The fork carriers 12 are resiliently resiliently biased towards the retaining trough 6 by means of springs 16 on guide screws 17 located in the base plate 2.

The return movement of the fork carriers 12 is controlled via the lever mechanism 18 by means of the controls 3

213 730 skirting boards 19.

Inserting the measured integrated circuits when measuring its parameters is very simple. The clamping mechanism is rigidly connected to the cell measuring device or provided as a replaceable unit in which the interconnecting cables 14 connecting the contact rings 13 are connected via a socket. After connecting the measuring device, the integrated circuit 2 is placed on the sliding carriage surface χ. The control bar 19 is pushed and the sliding carriage χ with the integrated circuit 2 is pushed into the stop defined by the stop screw 8, thereby stopping the integrated circuit. and its outer wire terminals are locked by means of stops 12. Now the control bar 19 is released. In this way, the insulating ridges 10 are returned and the wedges 11 direct the wire terminals over the contact rings 13. After the control bar 19 has come into contact, the contact rings 13 contact the wire terminals of the integrated circuit 2. 12. The round profile of the contact rings 13 and the spring retaining trough 8 make it possible to compensate for unevenness of the wire outlets and thereby ensure perfect contact.

The clamping mechanism is designed to quickly connect integrated circuits with axial outlets in the housing plane to the measurement systems to provide the parameters both in a stepwise and programmable manner.

Claims (1)

An integrated circuit holder clamping mechanism for rapid replacement for serial measurement of their parameters, characterized in that it consists of a rectangular cross-section base body (1) which is perpendicularly attached to the base plate (2) and is provided with a rectangular notch closed by an arm ( 3), with a stop screw (8), the insulating material holding trough (4) is elastically fixed to the upper surface of the arm (3), the sliding surface (5) of the base body (1) and the supporting screw (6) are horizontal sliding slides (7) of insulating material for sliding the integrated circuit housing (9) are displaceably disposed, with insulating ridges (10) with wedge teeth (11) terminating at the end (12) provided on the sides of the sliding slide (7). the gaps between the teeth (11) by the contact rings (13) with the connecting cables (14), the insulating ridges (10) being fixed between two fork holders (15) interconnected and reciprocally sprung to the retaining trough (4) by springs (16) on guide screws (17) mounted in the base plate (2), the fork supports (15) being connected to the control bar (19) by a lever mechanism (18) ) ·