SU737325A1 - Apparatus for addressing the cargoes on overhead conveyer - Google Patents

Description

The invention relates to the field of automation of production processes and transport lines, various installations of in-plant transport, and can be used to automatically address the transport goods of overhead conveyors. An address device is known that contains an address carrier, made in the form of a rotary drum with holes around the circumference, into which spring bushings with magnetic rods are inserted, and an address addressing unit, made in the form of command electromagnets. The combination with the volume and complexity of the design is the main disadvantage of this device. In addition, the presence of special spring bushings for fixing magnetic rods complicates its design and reduces its reliability. The closest to the invention in technical essence and the achieved result is a device for addressing loads of a suspended coveyor, containing an address carrier, made in the form of a nonmagnetic material fixed on a suspension bracket of a conveyor with permanent magnets placed in it and fixing them in a predetermined position, made of a magnet of a soft material, an adresover with command electromagnets arranged in pairs on both sides relative to the case of the addresser, and a reader with a magnet The controlled contacts 2. However, the known device does not allow to work with small gaps between the address carrier and the addressees and readers because of the low sensitivity determined by the magnetizing force of information in the form of a constant magnetic field. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that the permanent magnet of the address carrier is mounted with the help of troupes on both sides of the suspension and can be rotated about the axis passing between their poles, the fixing elements of the permanent magnets are filled in the form of disks placed between the poles of the permanent magnets, and the command electromagnets of the addressee are U-shaped and mounted with an asymmetric displacement of their poles relative to the poles of the permanent magnets of the address carrier. FIG. 1 depicts an address carrier with a sectional address; in fig. 2 is a view along arrow A in FIG. one; in fig. 3 is a view along arrow B in FIG. 2; in fig. 4 shows the layout of the command electromagnets of the addressee; in fig. 5 - sectional reader; in fig. 6 is a view along arrow B in FIG. 5. The device for addressing contains an address carrier consisting of information carriers made in the form of rod-shaped permanent magnets 1, freely mounted on axes 2 located between their poles, and mounted on suspension 3. The information carriers are housed in housings 4 of non-magnetic material. Suspension 3 is made in the form of strips and mounted on the load-carrying body of the conveyor. The permanent magnets 1 are mounted on both sides of the suspension in 3 symmetrical groups. Near the poles of each magnet, 1 on the suspension there are mounted disks 5 made of magnet of a soft material that perform the function of fixing elements. On both sides of each magnet I, on the case 4, fixed permanent magnet magnets 1 are fixed with covers 7 of non-magnetic material. The address consists of command U-shaped electromagnets 8 of direct current, installed on both sides by symmetrical groups relative to magnets 1 on plates 9 mounted on the frame 10. In this case, the electrodes of the electromagnets 8 are asymmetrically displaced relative to the axis of the bar magnets 1. Along the edges of the plate 9 are synchronized magnetic-controlled contacts II with screens 12. The reader consists From magnetic contacts 13, installed on both sides, symmetric groups with respect to magnets 1 of the address carrier on plates 14 fixed to frame 15. On frame 15 near each contact 13 fixed fixing magnets 16 are fixed. The power of magnets 16 and their arrangement relative to contacts 13 are selected so that the magnetizing force created by them is sufficient to hold the contacts 13 in the closed position and not enough to close them. Along the edges of the plate 14 there are fixed synchronizing magnetically controlled contacts 17. .. The synchronizing magnetically controlled contacts 11 and 17 are installed in the zone of action of the stationary magnets 6 of the carrier. The permanent magnets 6 are mounted at the same level with the locking magnets 16 and have the opposite polarity. The frames 10 and 15 of the addressee and reader are rigidly mounted in the way of the overhead conveyor. The device works as follows. To set the address by any ... known method, the selected address code is prepared to be turned on by the command electromagnets 8. The address carrier moves in the direction and address. The stationary magnets 6 interact with the synchronizing magnetically controlled contacts 11 of the addresser and turn on the electromagnets 8. The magnets 1 appear in the zone of action of the electromagnets 8. Due to the displacement of their poles relative to each other in the area of their interaction, torques arise that rotate the rod magnets 1 by 180 ° in working position. In this position, the magnets 1 are held by the disks 5 of a magnet of a soft material. The address is set. Continuing the movement, the address carrier with the specified address reaches the reader. The stationary magnets 6 close the synchronizing magnetically controlled contacts 17. At this moment, the magnets 1 turn on the readout magnetically controlled contacts 13. As a result, a sequential circuit is formed of the synchronizing and reading magnetically controlled contacts. The readout magnetically operated contacts 13 are held in a closed state by locking magnets 16 and are opened by the action of stationary magnets 6 of the address carrier as it moves. The address is reset by changing the polarity of the electromagnets 8.. Such an embodiment of the address carrier and the addressee in combination with the reading magnetic contacts allows this device to be used in addressing systems with a large information capacity, without a significant increase in size. In addition, the device allows the use of information carriers with a large magnetizing force, which increases the sensitivity of the system and allows working with large gaps between the carrier and the addressees and readers, which leads to an increase in the reliability of the device as a whole.

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Claims (2)

1. USSR author's certificate number 193354, cl. B 65 G 47/48, 12.11.64. 2. USSR author's certificate for application number 1835590/11, cl. B 65 G 47/48, 09.10.72 (prototype) Bad k 73732 & Bud B, 2. / m rt Fig.5 ro eleven  one 12. GG 1S 5 Type B 1416 -13 fi.b