PL8246B1 - A device for emptying balloons, electric lamps and other vessels. - Google Patents

Description

The invention relates to a device for evacuating balloons from electric bulbs and other similar vessels that change over time during emptying. Devices and machines have already been proposed in which one or more empty vessel holders are placed on a table that can rotate around a column. At the same time, a high-vacuum circulator pump with supports that connect automatically forward to the common pre-vacuum and then to the circulating pumps, which produce a large vacuum and can work in series with the common pre-vacuum. of the supports 1 of pumps for generating a high vacuum with a common preliminary vacuum is effective in these known devices by means of valves, the automatic connection of the primary vacuum vessels, and then with the pumps for the generation of high vacuum, requires a complicated construction of the machine The example of the present invention is also provided with one or more movable supports for the items. and in one or a doll of pumps to create a high vacuum, moving together with the supports, and also the connections between each high vacuum pump and each support, on one side, and between each pump for high vacuum generation and a common pre-vacuum, on the other hand, are arranged so that the objects to be emptied can be connected directly to the high-vacuum pumps operating in series with the pre-vacuum in the apparatus according to the invention. Further, the supports may be attached to a ring or to a table that also supports pumps for producing a high vacuum. The ring or table may rotate around a central hollow column, the interior space of which is constantly pumped into. pre-vacuum level and is constantly connected to pumps to create a large vacuum of the head restraint, rotating with a table or ring. The rotating head preferably consists of a flat and hollow metal body, on the perimeter of which there are connections with pumps for generating a large vacuum and whose capacity is so large that it can be used as a compensation chamber for the vacuum; The head, according to the present invention, can be placed by means of a conical sliding surface in rotation on the central column. When using pumps, working with mercury steam, it is good to provide the instrument with a water tank that moves with the supports and connected by a stopper. water from each pump or group of pumps connected in series. The container is preferably placed on the rotating head in such a way that it can rotate with it. The drawing shows one form of implementation of the device according to the present invention. Fig. 1 shows a partial vertical section through the center axis of the device, and partly a side view of the device, Fig. 2 shows a top view of the device. The whole device is located on the upper end of a pipe 1 provided with a flange 2. Pipe 1 and a flange 2 they support the immobile, hollow central column 4. The collar 3 serves to better fix the column 4; for better sealing, a rubber ring or the like is placed between the two flanges. On the central column there is a rotating hub 5, to which the ring 14 is attached by the spokes 13. Hub 5 can rotate around the column between two ball bearings 6 and 7. At the upper end of column 4, it is provided with a conical sliding surface Y10 on which the conical sliding surface 11 of the expressed body 12 rests and rotates, intended to serve as a compensation chamber for the vacuum. The internal space of the hollow body 12 is continuously evacuated to the level of the pre-vacuum through the hollow column 4 and through the pipe 1, which, for example, can be connected directly to the pre-vacuum pump or to the factory conduit in which A pre-vacuum is maintained on the day of the operation. To prevent air leakage between the sliding surfaces 10 and 11, an oil reservoir 8 is arranged around them, attached to the central column 4. A ring 9 of rubber or similar material prevents oil from leaking from the bottom side of the reservoir. Ring 14, which can rotate around the column, carries the supports for the emptying objects. In the exemplary embodiment shown, each support is designed to hold eight evacuated objects, for example osmium electric lamps. Of course, you can use brackets for any number of lamps, and you can also use a separate pump for each lamp to create a high vacuum. In the apparatus shown in the figure, each bracket consists of a metal tube 17 provided with a certain number of branches in the form of short tubes, on which the rubber hoses 18 are inserted. The rubber hoses 18 fit tightly to the holes in the ring 14. The lamp evacuation tubes which are to be empty are inserted into the upper ends of the rubber hoses. In order to ensure a tight connection between the rubber hose and the evacuation tube, special devices may be used, but not described here, as they do not constitute the subject matter of the present invention. Each support 17 is connected to a pump 21 for creating a high vacuum and This connection can be opened or closed by means of a valve 20. For example, pumps of a known type, working with mercury steam, can be used to generate a high vacuum. They are heated by a burner 39, outside the area water is circulated. The pumps 21 are suspended from a ring 14 by part 37. On the other side, the high vacuum pumps 21 are connected by means of hoses 22 to the outlet divers located around the periphery of the vessel 12. The vessel 12 must rotate. together with the ring 14, as the arms 15 engage the openings 16 of the spokes 13. The arms 15 move in these spokes in a vertical direction so that the vessel 12 can be easily removed. The water tank 26 above the vessel 12 rests on the lower part 28 and rotates with the vessel 12. The tank 26 is continuously supplied with water in an appropriate manner and the nozzles 25 located at the bottom serve for connection with the pumps for creating a high vacuum. The tank is provided with an overflow 27. The water flows from the nozzles 25 through hoses 24 to two pumps, which produce a large vacuum and are connected in series. A conduit 29 serves to drain water from one pump to the other, then the water flows into the gutters, not shown in the drawing. In idle state, the rings 14 should be positioned so that the pumps 21 for generating the high vacuum are above the gas burners 39. The heating cover 30, not connected to the ring 14 and fixed on the supports 31, serves to heat the lamps during the evacuation. The raised temperature under the cover is achieved by gas burners. Gas pipes 32 and 33 are located at the bottom of the cover; pipes 34 are for gas supply. It is best to regulate the heating of the lid so that the temperature at the point where the lamps enter is lower than the temperature at the other end. To this end, the gas pipes 32 and 33 in the center of the lid can be disconnected and the gas flow to both halves are provided by gas valves 35 and 36. Small bolts 38 are used to regulate air circulation under the cover. The method of operation of the apparatus according to the present invention is briefly as follows. In the usual position of the high-vacuum pump 21 are above the gas burners 39. These pumps are constantly connected to the pre-vacuum, water circulates, but the taps 20 are closed. When the worker has placed the lamps 19 in the appropriate junctions, it opens towards 20 of the associated support and emptying begins. Then the hand of the ring 14 is turned a certain angle so that another bracket stands in front of the worker and the pumps for creating a longer vacuum are again above the burners. The worker puts in a new lamp set, turns the ring and t, d. The first set of lamps gradually empties, sliding under the heated cover. When the assembly has emerged from under the cover and a high vacuum is reached, the lamps are soldered, the evacuation tubes are removed and new lamps are inserted. Obviously, the intermittent rotational movement of the ring 14 may be self-acting. Also, the melting of the evacuation tubes can be done automatically. Finally, also the control of the achieved vacuum can be easily carried out in the device according to the present invention. For this purpose, for example, an alternating electric field of high voltage and high frequency can be used for this purpose in a known manner, which at appropriate times can be either automatically or manually. The systematic control of the vacuum is particularly important for the timely detection of leakage. The capacity of the expression body 12 is preferably chosen so that it can serve as a compensation chamber for the vacuum. For in the device according to the invention of the present invention, lamps with a very different vacuum are connected by pumps, which generate a large vacuum, to a common preliminary vacuum. Each time when connecting a new set of lamps that have not yet been emptied, the initial vacuum becomes significantly worse, but it should be ensured that the It never deteriorated so that the pre-vacuum pumps would no longer be able to overcome it. For this, a large capacity of vessel 12 and a sufficiently wide opening in the marked column are required. For this purpose, the connection of the pumps, which produce a high vacuum, is arranged with the vessel 12 at possibly large distances from each other. Pumps for producing a high vacuum should overload an initial vacuum of 10 to 20 mm or even worse. Improved mercury vapor pumps, in particular multistage pumps in which the mercury vapor between two successive stages is condensed by cooling, are particularly suitable for the purpose of the present invention; they can be made of glass or metal. PL

Claims (6)

Claims (patent. 1. Device for the evacuation of balloons, electric lamps and other vessels, provided with one or more pronounced supports for the evacuation vessels, rotating about the axis of the device, and with one or more pumps for creating a large vacuum, rotating together with the supports, characterized by the fact that the empty vessels are constantly connected via brackets during emptying to the pumps, which generate a large vacuum and in turn connected to the common pre-vacuum line, and between the pumps, which generate a large vacuum, and the pre-vacuum line there is a chamber for equalizing the vacuum. 2. Device according to the rules. 1, wherein the supports are attached around the central hollow column to a rotating table or ring that also supports the high vacuum pump, characterized by the fact that the interior space of the hollow column is continuously connected to the high vacuum pumps. The lower vacuum by means of an expressed metal body rotating with a table or a ring, by means of the branches for the sensed pumps fit around the circumference of the metal body, and the capacity of this body is so large that it can serve as a compensation chamber for the vacuum. 3. The device according to claim 2, characterized by the fact that the metal body fits on the central column and turns around it with the help of a conical slide. 4. The device according to claim 1 - 3, provided with high vacuum pumps, working mercury steam, characterized in that for supplying water to the pumps, a tank is arranged which rotates with supports for the vessels to be emptied and has branches to each pumps or groups of pumps connected in series. 5. The device according to claim 1 - 4, characterized in that the tank fits over the rotating metal body and rotates with it. N, V. Philips' G 1 oeilamp e nf abnieken. Deputy: Inz. M. Zoch, patent attorney. To the patent description No. 824 6. FJg.L. Print by L. Boguslawski, Warsaw. PL