DE1696034C - Device for separating the falling parts from the ends of freshly formed glass objects - Google Patents

Description

there are opposing heat sources. The device according to the invention is thereby marked draws that the in the direction of movement of the holder he

Direct ends (59) of the inner edges of the electrodes 25 are part of the heat sources and the gas burner are rounded, so that inner electrode discharge is connected in the direction of movement of the holder fertilize should be avoided. Part of the heat sources kept at a distance, plat

3. Apparatus according to claim 1 or 2, data-shaped electrodes with at the level of the separation, characterized in that on the movable inner edges arranged parallel to the web and holders (12) are at least one to -a compressed air- 30 the electrodes to a high voltage source pipe (31, 32) connected to the source (38) are connected so that between the electrodes Un ₁ ; is brought, whose open end (33 or 34) is directed to the moving glass in the holders along the path, the separation line (35) in the space between the objects an arc electrodes moved with the latter. is trainable. After a preferred execution

Form of the invention are the rear ends of the inner edges of the electrodes in the direction of movement

rounds so that internal electrode discharges are avoided

the will. Preferably, at least one is attached to a compressed air source on each of the movable holders.

The invention relates to a device for Au- 40 closed pipe attached, the open end Separate the waste parts from the ends, freshly formed, on the separation line in the space between the electrical devices Glass objects. which is directed.

So far it has been customary to use the detonation cap in the device from which the invention is based.

from the glass object using gas, only gas-fired heat sources are used Remove burners. In doing so, the burner used rotated, which resulted in the removal of the glass object under the influence of the burner, a considerable period of time until the waste part is recovered Glass was soft enough to require separation. The hot burner gases transmit their to allow the cap. This method is time-consuming and heat consuming relatively quickly on the glass surface, since it is necessary that the glass make the contact surface; the conduction and melting goes fenden heat rays and absorbed in the glass 50 then relatively slowly. Correspondingly, body forwards to the separation line up to the production lines for glass objects with gas timing, where the glass becomes soft and where burners are used as separators only with small dimensions melts that separation occurs. speed, d. i.e., the output There is already a melting machine for hollow parts - these machines are small. Will be a high output Known glass objects for which a 55 is desired as a heat source must be burner in several production lines is used. After another are processed, which in turn is high investment costs caused.

It has now been found that the separation of the waste parts of mechanically formed glass objects on production lines with the help of heat sources at the level of the cutting line can be accelerated that in the direction of movement of the glass objects first gas burner than Heat sources are arranged and then on

Arc is generated by an electromagnet or a 65 spaced, plate-shaped electrode Blowpipe directed towards the glass pipe. The glass tube must be arranged parallel to the web at the height of the parting line i .'- be scratched on the outside, or it must be provided after th inner edges, with the elec-heating the ring zone suddenly cooled. connected to a high voltage source

Known method is the separation of the blow cap from hollow glass objects with the help of a hot Gas flame, which is flanked by cooling air, causes.

Mention should also be made of a device for blasting off a part of a glass tube with the aid an electric arc. The electrodes are arranged on one side of the glass body, and the

Due to the gas burner initially provided, the rotating glass objects are only heated up along the dividing line to such an extent that, under the subsequent high voltage effect, current conduction through ions enters the glass and Joule heat is developed as a result. In contrast to heating with gas burners, this heat is developed directly inside the glass so that the heating of the glass is not determined by heat conduction bring about by the developed in the glass current heat. This allows a considerable acceleration of the conveying speed of Glascc- ^ nstände. Thus, the specific heat Joule "generating current can flow through the glass object during the conveying movement at the door Minstelle, iA the inventively provided El < ktnxkn K id side of the conveyor belt required. The interposing electrodes. ;: 1 in the space in between located glass-:, is and forming arc, which the current flow ν: i of the electrode through the gas circuit to the glass on->;;. wanders mi 'Jem glass object from electrical:. ipaar to pair of electrodes. The Förderges. The windiness of the glass object can be so great. will hit that glass article is removed later than the 'i / th pair of electrodes to ά ~ <detachment durchgehinolzen and the waste part. The device according to the invention allows the separation of ... r waste parts even held at speeds of 200, with the axis of the
runs right. In this f "^^ or Absprengkappenteil of th counter <^, so that after completion J" Atarennens to fall partly on the subject of Trash "au ι υ

Gravity falls straight down and disembark

can be.

Each of the cast bushings 14 μβιηπγ dial extending sprues 16 una ^l * ■ _{ _

of the gates 16 and 17 m, a ^ J ^ t "Off voltage t, through which e ^m shafts 18 and protrudes 19th Each of the shafts ^ f provided with a pair of wheels, the wheelsι-U and 21. which are carried by the shaft 18 ^ and the Ra

the 22 and 23, d ie from the switch U _e e ^r = _{d ß}

The wheels 20, 21, 22 and 23 "" d ^ a ^ gebj * et α they can run in which from the rails lO and "£ Sp on nal and the Jransp. Hergcs <; by the guide rails 10 and 11 _o egeDcn

Run train. . Drive

At the upper end of the shaft 13 ¹ ^ ¹ "* ¹¹ _f wheel 24 provided on the obean! J ⁰³ ™ ^ is mounted to an ^{on rlebsver} ^ _f ^U _f ^ _e w _from the drive wheel 24 and shaft 13 ^to-skin" s.

A ₅ the Fig.2 and \ ei ^ hen can be the upper end of the shaft 13 a 'f gear 25 on. of a transversely extending from the upper end channel -o S ^ 7 _A current channel 26öffnets.chm _"g shaped From

Take 27 m of the side of ^the ^^^ X ^ socket 28 surrounds the shaft 13 and take 27 effective the «

The invention should now be based on the drawings of the addition and then down, wowinre

d Gtds a little above

_t > cr device according to the invention, which in particular 40 the sides of the object, slightly above the HÄ a, z _U ^ and _el "de"'"" itSiSÄ

z a

's. the Büd ei " _es Q"" _S ch" _itB . the along ₄₅ wheel ", with plug - ^ M" that s, e mt Unie M in F i g. 2 is made and freely rotatable with respect to the shafts

\ l 1 st 'a IraufsÄ, «, the CD **. *? »· ^ '^

^g 'i

and cie air au, * sides of the too

gSt «device according to the invention itnt» and cie air au, *

«Tem» sch; it consists of one, pair of endless j. delenden Oeieralante .W «nchten,» ndj

"S ^d U bes, eh, from etnoo,

de ₀ Stror "" - ^ "* & £ SS

^From rrde ^ 'S? Aether, o _nr ^^ Α ^ the glaseeeenstand of the spring clip 15 on the floor nal 25 «m shaft 13 of one

fed. As in Fig. As shown in I, the air line 36 runs horizontally in line with the plurality of holders 12 which are set up in the separation zone of the device. The air line has how best in Fig. 2, a downwardly directed longitudinal slot 37, whereby the connection between the air distribution system 36, from which the air comes through the tube 38, and the channel 25 in the shaft 13 will be produced.

As shown in FIG. 1 easily seen, a plurality of holders 12 are connected to one another by rings 39, which by small sprues or protrusions

40 go through on each side of the radial sprues 16 and 17 are provided. These rings 39 keep the holder 12 at a precise distance from one another and provide the necessary relative movement between the brackets 12 so that they are the guide rails 10 and 11 can circulate.

The holders 12 are driven at a constant speed by the means shown in FIG. 1 system shown moves, and by a motor 40 carried by one of the holders; the motor drives a belt

41, which in turn drives a pulley 42 which is connected to the shaft 19 of the one holder is to rotate the shaft and drive the wheels attached to it. In this meadow will the whole train of holders with a preselected constant speed over the guide rails 10 and 11 moved.

As stated earlier, it is necessary for the glass object to rotate about its axis while it heated by the flame to form a conductive strip at sever line 35; It is also necessary that the object be rotated as it moves through the electrodes. This turning movement is given to the article-carrying shaft 13 by engaging the drive wheel 24 in a fixed frame 43 which is attached above and parallel to the direction of movement of the holder 12. When the transport racks are moved from left to right, as shown in FIG. 1, the drive wheel engages 24 into the frame 43, which leads to a rotation of the object, this being understood as that only the shaft 13 rotates around the guide body 28 and the bush 14 with respect to this rotational movement stop.

The in F i g. 1 initially consists of a pair of gas-heated burners 44 and 45, which is a pair of opposing narrow strips of flame that extend the length of the burner extend, generate. The flames are applied to the glass object at the predetermined separation line 35 to create a streak of heated glass on that line. It is necessary that that Glass is heated so that an electrically conductive path in the glass on the predetermined separation line 35 arises. As I said earlier, the object rotates so that the heat is evenly applied to the object is applied as it passes between burners 44 and 45. After Passiere.i der Burner and while the object is still rotating, the holders 12 are the object between a first pair of opposing plate-shaped electrodes 46 and 47 pass therethrough. This Plate electrodes come with a standard high voltage generator connected (not shown).

If the object is in the space between the Electrode 46 and 47 enters, generates the one located on it hot strips create a path that conducts electricity, so that it flows from one electrode plate to the other can flow through the glass object itself, with the hottest part of the glass being the path of the least Resistance is. When the object is in the zone or area between the plate electrodes 4b and 47 has been held for a sufficiently long line, the separation cap can be completely separated take place. However, to an arrangement

ίο for cutting off the separation cap on a large number of of glass objects one after another at a relatively high speed, it has been found necessary the plate electrodes, which would be much longer, have been divided into a variety of sections or individual pairs of electrodes 48, 49, 50, 51, 52, 53. 54 and 55 to be divided.

In practice and for high working speeds, the plates are each 12.7 cm long and have one Distance of 19.05 mm from each other. The panels are

ao arranged so that they leave a gap of 6.35 to 4.762 mm between their sides and that to be treated Form object. Usually the platk electrodes are placed on one side of the path that the Objects pass through in an insulating channel 56

as attached and the counter electrode plates that are on the other side of the object are arranged in a corresponding channel 57 made of insulating Material mounted.

As particularly in FIG. 4, the shape of the plate electrodes is such that an edge 58 is relatively is rectangular, while the opposite rear edge 59 is rounded. It's still on to point out that each of the plate pairs which form an arc-forming arrangement of its own and separate high frequency power generator (not shown) is carried. The front Edges 58 of the plates are pointed to a relatively thin edge formed by a conductive one Metal that is beveled in the opposite direction. to create an included angle of about 30 ". With the on the electrode pairs, e.g. B. 46 and 47, applied tension has the entry of a glass object with the hot strip on it results in an arc discharge or discharge with current flowing through the Glass is made. The time in which the object remains between the electrodes 46 and 47 is insufficient. complete the detachment cap. The object becomes out of the space between The electrodes are advanced to one position between the electrodes 48 and 49, then between the electrodes Electrodes 50 and 51 and finally in a position between electrodes 54 and 55; at that time isi enough current has flowed through the jar to complete the detonation cap.

It goes without saying that the separation occurs when the object is passed through the separation zone more slowly be reached before the position between the electrodes 54 and 55 is reached. It has been found that when the electrode plates do not have the rounded trailing edge 59. Skipping arcs between laterally adjacent electrodes, as well as between the electrodes 46 and 48, with the glass serving as a conductive bridge between the electrodes, it is to be found that when the rounded edges are provided, the arc is skipped outside the normal path on which the objects are moved will.

The voltage generators that are connected to each pair of Elektrolen are dimensioned so that they A voltage ruffles 10000 and 15000VoIt : a frequency in the range of 300 cycles to 1 me-; acyclus per second with a current output between ; chen generate 4 and 5 amps (rms). From the foregoing It can be seen that the present invention provides a method and apparatus for severing The detonation cap is created for Olas objects, through which the separation at one ', a large number of objects in the unit of time is necessary. With the proposed device and With the specified orders of magnitude, the separation can take place at more than 200 objects per minute be made.

It is readily apparent that after separation

nen the detonation cap, the object can be easily removed from the device, and also that the object with the detonation cap can be easily inserted into the holder.

Since the above description was of a specific embodiment, it should be noted that other holders with which the objects are guided through the heating zone and the high-frequency field, can be used. So could z. B. individual

ίο be mounted on each of the brackets and the motors Motors drive each holder individually. Furthermore, the holders could be themselves rather than being on a pair Guide rails are moved, are moved by a rotating turret, the

ts shafts 13 are mounted radially at a distance on the circumference ties turret head.

1 sheet of drawings 309620/258

Claims (2)

Claims: Electric current has also been used to separate a quantity of glass taken by an automatic glass processing machine from the large amount of molten glass. After all, you already have an endless glass tube in certain lengths by working together. hot burner gas and electrical continuity melted and cut. A hint for solving the problem the 1. Device for separating the waste parts
from the ends of freshly formed glass objects,
consisting .. several rotatable, along one
horizontal track movable holders and several in rows on both sides of the track opposing heat sources at height dci distance dividing line, characterized, io invention is based, and which consists in the that the mechanically shaped separation of the waste parts in the direction of movement of the holder (12) Gas objects on production lines increase significantly with the help of heat sources at the level of the separation line accelerate, can not be deduced from this state of the art. To solve the problem is of a known device for separating the waste parts from the Ends of freshly formed glass objects, which consist of several rotatable, along a horizontal Electrodes and the holders that are movable along the track 20 zontal track and several in moving glass objects (W) an arc can be formed with the last rows on both sides of the track at the level of the separating line. 2. Apparatus according to claim 1, characterized in that the back in the direction of movement ste part of the heat sources are gas burners (44, 45) and that in the direction of movement of the holder adjoining part of the heat sources, plate-shaped electrodes kept at a distance (46, 47; 54, 55) with inner edges arranged parallel to the web at the level of the parting line (35) are and the electrodes are connected to a high voltage source, so that between the