PL7925B1 - Device for simultaneous melting of a certain number of glass tubes. - Google Patents

Description

The invention relates to an apparatus for the simultaneous melting of a number of glass tubes arranged in parallel, and is particularly suitable for melting a number of escape tubes from electric lamp bulbs and other empty vessels after emptying the bubbles and, if necessary, after filling them. The example of the substrates of the present invention has a frame that can be moved in the direction of the axis of the glass tubes to both sides. Raym floats the molten pipe parts on it; for each tube there is a burner attached to it. It is best to make the device so that the gas supply to the burners can also be effected when the frame is moved to one side or the other. Each burner is best made in such a way that a certain number of flames are evenly distributed around its perimeter. is directed towards the rays on the perimeter of the glass tube. When the apparatus according to the present invention is used to simultaneously unstick a certain number of evacuation tubes from the bulbs of electric lamps or from other empty vessels, a table that can be moved along a vertical line may be used. ¬ new up and down; a separate burner is attached to the table for each evacuation tube, moreover, holes are made in the table for the evacuation tubes in such a way that the table takes the banks of lamps with it when it rises upwards. % 2b1fz # Mac and from the burners also when the table is moved to one side and the other, it is possible to supply gas through the hollow axis or the hollow axis on which the table is attached. The example of the present invention for the simultaneous melting of a certain number of evacuation tubes can be used with various known pumping devices. It can be used both for de-melting vacuum lamps and for de-icing gas-filled lamps. In order to connect the emptied lamp bulbs to the vacuum tube, the evacuation tubes can be connected to the glass tubes connected to the vacuum tube. They can also be placed with their ends in flexible material, such as rubber, which tightly surrounds the evacuation tubes. The device along with the present invention has particular advantages, if it is a separate type of closers, they consist of consisting of a tubular body made of an elastic material crimped at the ends of the shaft, and a device for pressing the free central part of the elastic body against the wall of the evacuation tube by means of a fluid or gas under pressure. These closers are placed under the openings of the table, which is moved vertically upwards and downwards, into which the evacuation tubes of the lamp bulbs are inserted. The evacuation tubes do not encounter any resistance when inserting them into the feeders, so you can connect more lamps in a very short time for the pumping device, and at the same time the stepping out of the lamps after emptying them is performed very quickly. The drawing shows one embodiment of the pumping device according to the present invention. 1 shows the fork of the device at the front, fig. 2 and a view of this device on the slope, partially in section, on a larger scale. A number of parts of the device are attached to two plates 1 and 17, resting on the bases 18 and 19. An iron is attached to the plates 1 and n angle 2, supporting bent supports 3 and 43, on which the closers are set, described below. Two vertical axes 4 and 5 can turn up and down in the guide parts 6, 7 and 8, 9, attached to plates 1 or 17. The vertical axes support the melting apparatus, described in detail below. The axles 4 and 5 are fitted with gears with which the gears work. The axle 4 is provided with a toothed bar 10, which engages with a 11% gear wheel. The gear wheel is wedged on the horizontal axis 12, which is seated in plates 1 and 17. On this axis there is a handwheel 13, by which the device the melt 20 may be set to any level relative to the closers. A counterweight 15 hangs on the cord 14, fastened by a pin 16 to the handwheel 13, thanks to which the device 20 is held at each level on which it is placed. On supports 3 and 43, vacuum lines 21 and 22 lie closed on both sides ends and pipe 23 connected to each other. Water 21 and 22 carry a certain number of vertical gates 24 and 25, the ends of which are equipped with closers 26 and 27, used to ensure tight closure around the evacuation pipes . In the apparatus shown in the figure, the number of vertical pipes from closing is six for each conduit; of course, this amount may be greater or less depending on the circumstances. The closure 26 has the following bud. A short tube 28 made of an elastic material, such as rubber, is slid onto the conical end of the tube 24 (Fig. 2). The tube is tightly clamped at both ends: the lower end is clamped between the conical end of the central tube 29 and the end of the tube 24, and the upper end of the tube is bent around the upper edge of the tube 29 and a small metal cap is pressed therein. The shaft 26 which springs 30 and 31 pull downwards. These springs are attached at the lower end to a ring 32 which fits on the tube 24. Inside the tube 24 is a tube 34 which can move vertically up and down a small lane 35. The rod 35, resting on the spiral spring 33, has a small ring 36 at its upper end so that the escape tube 42 can rest on the rod 35. Since the tube 28 should not reach a high temperature, it is fitted around the metal cover 26 conduit 37 through which a coolant, for example water, may circulate. As can be seen from Fig. 1, the cable runs around all closers. The coolant is supplied from the tube 38 via a tap 39; at its other end, the conduit 37 ends with two tubes 40 and 41, from which the water flows into the diffused upper part of the guide conduit 84, made of glass, for example. and the middle part of the spring 28 (FIG. 2) can move freely with respect to the wall of the metal tube 29; Hence, the tube 28 can be pressed tightly against the wall of the evacuation tube 42 by applying a gas or liquid under pressure. It is advisable to connect the space between the flexible tube 28 and the metal tube 29 with a vacuum when breaking the seal. 2, for example, through the wall of the tube 29, the end of the conductor 45, which at the other end connects to a horizontal tube 47, fixed on a support 48. Accordingly, closers 27 are connected to the tube 47 by conductors 46. down pipe 49, 2akono $ (# and & fsczyku three-outlet 5 & Kufek 5 @? Latin pipe 49 or with a pipe 5A, marked under pressure, or with a pre-vacuum line 53, thanks to which by the operator of the valve 50 space around the tube 28 may be connected alternately with a vacuum and a high pressure atmosphere. From the horizontal vacuum tube 21 a tube 55 is drained, which is connectable to the vacuum line 57 at the stop of the relief valve 56. be made in a known manner so that the vacuum line 57 can be connected to either a pre-vacuum or a large vacuum. The device may also be provided with a line for any gas, such as argon or nitrogen, to be filled the tube bank after evacuation, which, however, is not shown in the drawing. The melter 20 itself has the following design. The vertical axes 4 and 5 are supported at the upper ends by two beams 85 and 44 (Fig. 1), to which the bolts 60 and 61 (Fig. 2) of the plates 64 and 65 are attached, and the table 62. The space between the plates 64 and 65 is filled with a heat-insulating material 66, e.g. asbestos, thanks to the locks 26 and 27 are protected against the effects of high temperatures in the vicinity of the burners 69. A number of holes "67 and 68, corresponding to the number of openings, are made to pass the escape pipes through the plates 64 and 65. Above these openings are the holes yf on the table 62 on which the banks 63 rest. It should be noted that the drawing shows the evacuation tubes 42 X banks 63 after emptying and melting. At each hole there is a burner 69 or 70 with flames in the direction of the heating beam The mixture of gas and air enters the burners through pipes 71 and 72, surrounding plate 65 and connected to the conduit 73 of the 4 axis. In the conduit, the axes 4 and 5 at the lower ends move pipes 79 and 75. Sz Tight closure between axles 4 and 5 and lines 75 and 79 is effective by throttling 74 and 76. Pipes 75 and 79 are connected to pipe 77, connected in turn with valve 78, so that the gas-air mixture can be Locks 26 and 27 are located inside protective walls 82 and 83, filled with heat insulating material. A mobile heating box can be used in a known manner to heat the bubbles during the evacuation. , for example, flipped up and down over the melter 20 itself, not shown in the drawing, since its type of structure has no bearing on the spirit of the invention. The method of operation of the device shown in the drawing is briefly as follows. ; At the beginning of the operation, the appropriate melting device is in the lowest position. The lamp banks to be evacuated are placed with evacuation tubes in the appropriate openings 67, 68 of the device, with the lower ends of the evacuation tubes resting on the upper ends of the small tubes 34 in their closures. Under the weight of the bubbles, spring 33 compresses something. Compressed air is then supplied to the closers by turning the stopcock 50, thereby achieving a tight seal around the evacuation pipes. The pump-down can then be started, and for this purpose the overflow valve 56 is placed in the open position, whereby the pipes 21 and 22 are connected to a vacuum pipe 57 which can be connected first to a pre-vacuum and then to a high vacuum. When the lamps are empty, they are suitably heated by means of a heating box (not shown in the drawing) to as high a temperature as possible. If necessary, the lamp may also be filled with the appropriate gas. When a sufficient vacuum is reached or the lamp is filled with gas, the gas cock 78 opens and ignites the gas flames in the burners 69 and 70. As a result, the softness of the evacuation tube at the bend has softened and the evacuation tube melts. After all the tubes have been melted, the melter is lifted upwards while the evacuation tubes remain in their closers. The tap 56 can then be closed. At the same time, the bypass valve 50 is moved to the second position, which connects to the pre-vacuum and pulls the walls of the elastic hoses 28 from the evacuation tubes. The evacuation tubes are then free to move in the closers and are lifted upwards by the action of the springs 33 which were previously compressed due to the weight of the bank. In this way, the evacuation tubes can be easily removed from the closure. The finished banks are removed from table 62 and new banks are set up, and the operations and the above are repeated. PL PL

Claims (2)

1. Patent claims. 1. An apparatus for the simultaneous smelting of a number of glass tubes arranged in parallel, characterized by a frame that can be adjusted to one side and the other in the direction of the glass tube axis and takes the molten tube parts with it and into which has a separate burner for each pipe. 2. The device according to claim 1, characterized by the fact that gas is fed to the burners also during the displacement of the frame to one side and the other. 3. The device according to claim 1 and 2, the significant point that each burner is directed to the periphery of the glass tube in the direction of the rays - 4 - a certain number of flames, evenly spaced around the periphery of the burner, 4. The apparatus according to the present invention. 1 for the simultaneous melting of a certain number of evacuation tubes from the bulbs of electric lamps, etc., characterized by the fact that it has a table that can be moved vertically up and down, to which is attached a separate burner for each evacuation tube ¬na and which is provided with holes for evacuation tubes in such a way that it takes the banks with it when going up. 5. The apparatus according to claim 2, characterized by the fact that the gas is fed to the burners by means of straight pipes to which the table is attached and which have the direction of movement of the table. 6. Apparatus for the evacuation and blasting of a certain number of bubbles, characterized by the fact that the melting of the evacuation tubes is made using a table that moves vertically up and down, to which a separate burner is attached for each evacuation tube and which is provided with openings for evacuation tubes in such a way that when the table moves up and down it takes the banks with it, closers are placed under the table openings, which serve to provide a tight closure around the evacuation tubes inserted into them. openings, and which consist of a tubular body made of elastic material, a device for clamping the body at both ends, and a device for pressing the free part of the middle elastic body against the wall of the evacuation tube. 7, Device according to the alternative 4, the significant area is that below the burners there is a wall of heat insulating materials provided with passage openings for evacuation tubes. N. V. Philips1 G1 o e i i a m p e n f a b r i e k e n. Deputy: M. Zoch, patent attorney. For the description of towcgo No. 7925. Ark. i. * '69 T. 1. to Patent No. 7925. Ark. 2. 60- 71- fesnEssj sf9 '"' <" / "H - w ii \ ciii © ^ 6 / s. Print by L. Boguslawski, Warsaw. PL PL