SU531219A1 - Semiautomatic for roasting, monitoring and screening microminiature light sources - Google Patents

Description

(54) SEMI FOR FIRING, MONITORING AND grading microminiature LIGHT SOURCES equal to the radius fixing nip position, and Placing laterally discharging device vozduhonaduvnymi pipes and hoppers, and each clamping numeral performed vice conical casing inside which is placed a pair of conical jaws, decompress via I / -shaped spring. In addition, in order to quickly depress and exit the conical jaws from the body, the core of the lower electromagnet is made in the form of a pressure knuck, acting on the drive plate to the ny jaws of the clamping positions. The proposed semiautomatic device is made in the form of a continuously rotating carousel placed on a frame equipped with unloading devices. Constructive devices are made of the same type. The principle of their operation is based on the magnetism of the external leads of the microminiature light sources. Devices made of non-magnetic material are placed on the carousel, which contributes to the fast clamping and unclamping of the leads of the light sources. FIG. Figure 1 shows the structural layout of the nodes on the semi-automatic carousel and the order of its operation; in fig. 2 automatic unloading device; in fig. 3 - clamping device. In a semiautomatic device for firing, monitoring and screening microminiature light sources on the carousel 1 around the perimeter, the clamping positions 2 are periodically fixed, the casing and sponges of which are made of non-magnetic material. On the control section for short circuit (CC), a device is placed to automatically control and unload light sources of a short-circuited or with a cut-off filament body. At the control point of the control of screening by the minimum current {t PIT i p) the device is located, once rejecting light sources with low current in the site of control of screening by the maximum current (im l x device, screening light sources with current, and device unloading suitable products. Between the control devices on (K.Z) and on (i (PAH, the light source passes the annealing zone at normal current. The breaking units (Fig. 2) are structurally similar in all sections and consist of an electromagnet 3 located under The upper plane of the carousel, i.e., the clamping positions 2 and the electromagnet 4, which serves to open them, is located above the upper plane of the carousel, i.e. above the clamping positions at a distance close enough to attract the light source to moments of unclamping the clamping jaws, the blower nozzle 5, the hopper 6, current carrying shells 7. The clamping device (Fig. 3) consists of a body 8, the upper part of which is pierced under the cone, conical clamping jaws 9, which enter and contain a different spring 10, with the support of their uniform disclosure, the movable rod 11 is rigidly fixed to the jaws 9 by means of shaft 12, axis 12, the sliding postures of body 8, the possibility isklyuchaegg provertyvani rod with sponges. The proposed semiautomatic works as follows. At the loading section (Fig. 1), the light source is loaded into the clamping position 2 and fed to j acTOK overvoltage, then gets to the monitoring section, where the light sources with a destroyed body glow (burnt, short-circuited, broken) are unloaded automatically. . Then, the light source enters the annealing section, where the incandescent body is under nominal voltage for a certain period of time, then to the portions on the minimum and maximum current, i.e. in the first case, sources with reduced power are unloaded, in the second with increased. After that, the light source falls on the site of discharge of suitable products. Due to the fact that the principle of operation and the design of the sorting devices are the same in all operating areas, the device is considered in the area of screening of light sources with a broken body heat source. The breaking device (Fig. 2) works as follows. When approaching the clamping positions 2 with a clamped light source (the body of the heat is not destroyed, it is not (C) to the electric busbars 7 that the electrical circuit is flushed, including the electromagnet 3, which, attracting (down) the core 13, playing the role of a fist, frees the tips of the firing positions, allowing the springs 14 to clamp the light source 15 (for the external output), which excludes the possibility of it being pulled by the upper electromagnet, which is turned on permanently, i.e. it eliminates the possibility of unloading. conductive shi We have a light source (light source is destroyed), the electric circuit remains open, therefore the electromagnet 3 is not turned on, and the core - the cam 13 remains in the upper position, not allowing the springs 14 to clamp the jaws of the positions 2. In this case the light source remains free and due to the magnetic nature of the external leads (platinite), it is attracted upward by the electromagnet 4, enters the jet of compressed air pipe 5 and is carried away (blown away) into the mouth of the bunker 6, i.e. The development of the light source occurs.

The proposed semiautomatic device with the use of automatic sorting devices allows reducing the staff to 1 person. Automatic unloading precisely controls the parameters of the light sources and leads them to load the corresponding drives.

Claims (2)

1. Semiautomatic device for firing control and screening of microminiature light sources, containing a frame with a carousel placed on it with clamping positions, a drive of the carousel and a discharge device differing from that. that, in order to automate the screening process and increase equipment performance, it is equipped with devices for automatic monitoring of lamp parameters, made in the form of two electromagnets, mounted rigidly. displaced from the sides of the discharge device by blower nozzles and bunkers, and each clamping position is made in the form of a conical body, inside of which is placed a pair of conical jaws, with the help of an i - shaped spring. 2. Semiautomatic device according to claim 1, characterized in that the core of the lower electromagnet is made in the form of a pressure knuck, acting on the drive shaft of the conical jaws of the clamping points. Sources of information taken into account in the examination. 1. Reference Informelektro (25-17-73 p. 36 - analog. 2 Reference book Informelectro (25.1 7.73 p. 39 - prototype. Loading fpuz. / Bbizpi / jffa finished npcdy / ff uu