DE1801084C - Device for allocating single metal balls for use in a system of a moving glass band is in contact with a body made of molten metal - Google Patents

Description

1 2

The invention relates to a device that drives the ejector rod from a

for allocating individual metal balls for guiding the metal balls to the regulating head

Application in a system in which a moving control device is operated. After all, it's ί

Glass ribbon with a body made of molten material is useful if the feed tube consists of a with f Metal is in contact. s graphite-lined steel pipe, whose In methods of manufacturing flat glass, one end with the feed channel and the other

which glass in ribbon form along a bath made of end with the dispensing head made of graphite

is moved along narrow metal, a too- is connected,

additional element maintained in the bathroom to In the drawing is an exemplary embodiment

from this impurities, such as oxygen and io device illustrated according to the invention. In the

Sulfur, to remove. The bath is preferably made up of drawing

from molten tin or a molten fig. 1 is a central longitudinal section through a container

Tin alloy, in which tin predominates and the one for a bath of molten metal with a that

has a greater specific weight than glass. Metal bath covering hood and a body

The introduction of the additional element in the 15 made of molten material, which against the upper surface

molten metal bath can be held in the form of a metal ribbon of glass,

balls take place, which are above the bathroom level from- F i g. 2 a partial section along the line II-II of

supported by the warmth of the bath melt and F i g. 1, which comprises the device according to the invention

in this way next to the trajectory of the stops,

Glass ribbon along the bath into the metal bath. 3 is an enlarged section through the devices, device according to the invention and

It is also known to treat the upper F i g. Fig. 4 is a section through the feed tube that the

connects surface of a glass ribbon to achieve a certain dispensing device with a dispensing head,

Reflective properties or the emissivity of the molten metal spheres with one

A body of molten bodies in contact with the ribbon of glass is made up of the heat of the sun

zenem mutall in contact with the surface of the molten substance.

To hold the glass. For example, such a forehearth 1 can be a continuously operating Body of molten metal on the upper glass melting furnace has a control slide 2. The Surface of the glass are held in such a way that its forehearth 1 ends in a spout 3, the one in the Shape and its volume by a controlled to-30 has a substantial rectangular cross-section, through

drove molten metal into the body kon- a lip 4 and two side walls 5 is limited,

is kept constant, the allocation in the form of The spout 3 is above the bottom 6 of a

Metal balls are made. part elongated container, the side walls 7 and

The invention is based on the object of having an end wall 8 at the inlet end and an end device for allocating individual metal wall 9 at the outlet end. to improve kUgulchcn. In the container there is a bath 10 made of

The invention consists in that a hopper, molten metal, the mirror with 11 denotes

whose width is slightly larger than the diameter of the net. The bath consists, for example, of molten

Metal ball is, with an outlet channel, veneered tin or a molten tin alloy,

can be seen that the metal spheres in a row on- 40 predominate in the tin and that a greater specific-

takes, and is connected to a supply channel, has a weight than the glass.

with a locking member in the feed channel the metal balls - a hood is arranged above the container,

just holds back and each a metal ball consisting of a roof 12, side walls 13 and front

by ejector walls 14 and 15 movable in the feed channel at the inlet and outlet ends of the

Rod pushed over the lock and practiced a dining 45 bath. The end wall 14 at the inlet end of the

pipe is passed to a dispensing head, from which the hood extends down to close to

Metal ball melted the body from melted mirror 11 of the metal bath and determined with this

zenem metal is fed. an inlet 16 of limited height through which

In a preferred embodiment, premelted glass is moved forward. The front view shows that the supply channel is provided below the outlet wall 15 at the outlet end of the hood with the channel and the ejection rod at the side of the front wall 9 of the container has an outlet 17 through which the hopper is provided with a drive which is the final one Glass ribbon exits and is guided on angeihrc movement over the locking member in the feed channel driven support rollers 18, which causes outside out. In the filling funnel, the metal balls of the bath container can jam a little above the upper surface and thus form a bridge preventing the further allocation of the other end wall 9 of the bath container. In order to prevent this from happening so that the glass ribbon is free from the end wall 9, the hearing outlet 17 can be discharged according to a further feature. The recess provided that with the drive a vveiteie Tragwalcn 18 promote the glass ribbon is connected to a cooling rod, which is through a hole in the furnace of known design. They also exert a traction force hopper is insertable to the metal balls 60 of the glass ribbon to the forward movement of the break up in the hopper, whereas a metal glass Federal that along the surface of the bath 10 kiigelelien on the locking member into the feed tube overall slides, to support,
is pressed. The roof of the hood is through an extension

According to a further feature of the invention, 19 is extended to the rear cover 2 and forms with it

it is provided that the dispensing head surrounds the spout 3 in the region of a side wall 20

llalteeinriehtung for a body from gesehniolze chamber. On the bath 10 of molten metal

No metal is arranged so that an outlet is next to via the spout 3 through the back gate 2

which is made of molten metal and that regulated molten lime-soda-silicate glass 21

poured. The lip 4 of the spout is a few centimeters of material that wets and fits the holding rod

timeter Above the mirror 11 of the bath from melted this sticks.

zenem metal, so that the molten glass falls freely on the bath. As a result, a (lUcne is directed, for example, to the upper Bead 22 formed from molten glass, which curses itself δ to give a certain reflection or dio to increase radiation of solar heat up to the end wall 8 at the inlet end of the bath tank, for which purpose extends below the spout. Lead introduced into the upper surface of the glass ribbon

The temperature of the glass is increased while it is, whereupon the lead-enriched surface continues to move from the inlet to the outlet end of the bath in a reducing atmosphere above the bath tank by temperature control devices 23, io. In this case, the body 36, which is immersed in the bath 10 of molten metal from molten substance, from molten lead , and through temperature control devices, is an electric current from the retaining means 24, which is in the space above the bath rod 31 are located through the body of molten lead, regulated, the space above the bath and the glass ribbon directed to the metal of the bath. A protective gas is fed through the nozzle 26, the 15 holding rod 31 and thus the body 36 are arranged at a distance from each other distributed in the roof 12 of the molten substance extends over the entire hood. The nozzles 2fi are across the width of the glass ribbon, as a result of which a uniform branch line 27 is connected to supply lines 28 which conduct treatment of the surface by maintaining the protective gas. The protective gas can be a constant shape of the contact surface gas or a reducing component ao see the body of molten substance and the part, for example, hydrogen. The protective upper surface of the glass ribbon is achieved. New lead is added to the gas in the space above the bath with over-body 36 from time to time, pressure is maintained so that an outward flow and this is done by supplying lead pellets of the protective gas through inlet 16 and along a feed pipe 40 , at the end of which a ZuAuslaß 17 takes place. 35 part head 41 made of graphite is arranged. The dining

The temperature of the molten glass while tube 40 extends through a side wall of the bath

During its movement along the bath, a container is created where its outer end is connected to a device.

set that first a layer of molten for the allocation of metal balls connected

zenem glass is formed on the bath. This layer is. A downwardly sloping graphite outlet 42 is on

passes through the inlet 16 and spreads out under the dispensing head 41 and stands with a

hindered in the transverse direction under the influence of the containers in the dispensing head in connection, which is later

Surface tension and gravity up to the level shown in FIG. 4 will be described later.

Limit of the free flow, so that the dispensing head 41 causes a regulated feed

Surface of the bath from the layer 29 a swim of molten substance, in the example lead, in

mender body 30 forms from molten glass, ₃₅ a shallow depression 43 in the upper surface of

the holding rod 31 which then continues in the form of a band along the bath. A narrow hole 44 leads from this

is moved. The width of the bath tank in relation to the lower surface of the support rod 31.

The area of the level of the bath is greater than the width. The lead pellets are in a dispenser

of the floating body 30 so that the initial 45 (Fig. 2), which is detailed in FIG

lent lateral flow of the molten glass no way ₄₀ F i g. 3 is shown.

dennis stands in the way. In the exemplary embodiment, the manifold 46 includes a hopper between means for imparting properties to the upper surface of a back plate 47 and a corresponding one of the glass ribbon. in Fig. 3 front plate 48, not shown. For this purpose, the distance between the two plates 47 and 48 is maintained by surface tension, a molten substance in contact with the upper _{45 is} slightly larger than the diameter of the balls of the surface of the glass ribbon, while the lead shot, so that a vertical layer of a ribbon of glass moves along the bath. A holding ball strength is saved. Is the bottom of the filler rod 31, which may be an electrode, when a hopper is connected an outlet channel 50, immigration of parts of the molten pERSonal obliquely inclined downwardly and balls 49 of the Bleipers into the glass surface by electric current _So grits in a row one after the other. It is effected, is arranged transversely to the direction of movement of the opens into a feed channel 51, essentially glass ribbon 32. horizontal position, the extension of which is 52 after

The holding rod 31 is here just above the outside extends from the bottom of the distributor and to

upper surface of the glass so that a gap from feed tube 40 leads. The in the outlet channel 50

for example 6 mm between the lower surface of the ₅₅ lined up shotguns 49 are locked by a lock

Holding rod 31 and the upper surface of the glass member 53 are prevented from falling into the extension 52 via ·

band 32 remains. The holding rod 31 is kicked by. The locking member 53 is located in einci

a trap rod 33 held, which is in the space above = vertical hole that intersects the channel 51

half of the bath extends and through a side wall At the lower end, the locking member 53 has a head

the bath tank is led to the outside. It is at 60 54, which is against the lower outer surface of the manifold

the support rod 31 connected in the middle. Which is held by a leaf spring 55 with a

Support rod 33 can also be connected to the distributor as an electrical conductor screw 56.

be used. Like F i g. Figure 2 shows is a bolt An ejector rod 57 extends into the duct

34 inserted into the upper surface of the Haltestangc and driving channel 51. It sits on a plate 58, the Mit!

in the downwardly bent end 35 of the support 65 with one end of a piston rod 59 verbun

rod 33 screwed in. that is. The piston rod sits on a piston M.

On the lower surface of the support rod 31 adheres and slides displaceably in a cylinder 61

by surface forces a body 36 from gesehmnl- is held by a spring 62 in a position in de

Claims (5)

the ejector rod 57 is retracted. At the r pool 83 a hole 84 is drilled for the recording A further rod 63 is attached to plate 58, which rod serves as an outlet 42 which has a narrow channel 90 through a bore 64 parallel to the channel 51 in the contains. This is followed by a bore 85 in the Hopper opens to the balls 49 of the lead metering head, which extends to the upper surface 86 of the nose to loosen up grist. 5 extends towards and from an upwardly inclined Bph- Compressed air is cut from a compressed air line 65 via tion 87, which is from the top surface a solenoid valve 66 is fed to a line 67, the 86 of the nose towards the bottom of the bore is connected to the cylinder 61. When feeding 73 is drilled. Compressed air is the piston 60 in F i g. 3 to the right at the point where the two holes 85 moves, whereby the ejector rod 57 hit the bottom io and 87, a cutting edge 88 is formed, the one Lying lead ball in the outlet channel 50 below the desired level of the molten substance in the pressing the locking member 53 in the extension 52 container 89 and the bore 76 is determined. This presses. Only a single highest point given by the cutting edge 88 is allocated to the lead ball to the supply line 52. the supply of molten substance is balanced At the same time, the rod 63 penetrates the hopper 15 of the container through the outlet 42 into the outlet and prevents the balls of the recess 43 from jamming in the upper surface of the support rod 31. Lead shot. It is necessary to put molten lead in the body 36 In one embodiment, the magnet is supplied with molten lead, so it will valve 66 actuated an electrical pulse from about ¹ It Se solenoid valve 66 and a lead pellet in the announce duration for each bead that is fed 20 fed to the mirror in the manner described shall be. If the magnet is de-energized, it pulls the container 89 to increase the dispensing head. Here- Spring 62 pushes piston 60 back, causing the front to rise above the level of the cutting edge direction for the allocation of the next in the outlet 88, so that a feed via the bore 90 to laßkanal 50 downwardly reached ball recess 43 of the holding rod 31 takes place, from the is riding. »S via the bore 44 the further feed to the The extension 52 is made of heat-resistant, body 36 is made of molten lead,
stainless steel and is connected via a nut 68 (FIG. 4). In order to ensure the allocation of small amounts of the fluid with the end of the graphite-lined fluid, the guide tubes 40 made of steel are connected. The feed pipe cross-section in the bores is as small as possible and is strong enough to hold the metering head 41 in a position. The bore 76 can, for example, hold a desired position above the holding rod 31. Have a diameter of 3 mm, while the diameter at the other end is the feed pipe 40 with a diameter of the bore 90 in the outlet 42 is 2 mm. Annular flange 69 is provided, and the body 70 of the dispensing head 41, which consists of the graphite device according to the invention, is connected to this divided globule by screws 71 during its through-flange. 35 runs through the supply lines to melt, though In the dispensing head 41, from its upper surface, the melting in the area of the funnel is usually a hole 72 drilled, which takes place in the rushing lower part 73 ters 77 in the dispensing head. Definitely will ends with a smaller diameter, which results in a gradual feed in the container 89 Extends area of the bottom of the dispensing head. One aims so that an even allocation of Ring shoulder 74 between the two bore parts 40 ensures molten substance via outlet 42 72 and 73 supports a plug 75. This one has a power. r.cntrale bore 76, which in the upper part leads to a The movement of the globules along the elongation funnel 77 is expanded. The lining from tion 52 and the feed tube 40 can be made of pressure graphite The supply pipe c extends over the gas to be supported, which through outlet openings Flange 69 and fits into an inclined bore 78 on 45 95 (Fig. 4) through the graphite siding 79 and the rear surface of the allotment head. The end 79 of the steel pipe 40 from the feed pipe is drilled with a graphite lining extends into the bore. This gas can also be supplied via the Boh-72 of the metering head and ends just above the funnel 81 of the cap 80. The feeding of the 77. Balls of the substance to be fed get molten substance into the body of molten silver the feed pipe into the funnel 77 and fall, 50 nem substance takes place in a more slowly regulated manner, if they are small enough, through the bore 76 in which results from the allocation of individual balls in the the lower part 73 of the central bore in the supply supply line results. Through this gradual dispenser head. Larger balls melt while they are being fed into the body 36 of molten material rest on the funnel 77. not disturbed and thus maintains constant contact The lower part 73 of the central bore in the admission area with the glass ribbon. This effect will part head is nls container 89 for molten substance through the storage effect of the container 89 in the zu in which this part head and the recess 43 in the Haltcstangc for a certain time stays to the temperature of the room above the 31 still supports. Hades to assume, so that the supplied balls The device according to the invention can be used in glci- can be fully melted in the heat exchanger and, at the same time, can also be used to feed an additional early the chemical equilibrium among the elements in the bath of molten metal that Space above the Hades conditions prevailing with the lower surface of the ribbon of glass in contact unheard. The hole 72 is through a standing up, to be used.
Cap 80 closed, which has a bore 81 with is connected to the U im in above the Hildes. 65 claims The front hiichc of the / uteilkopf is uls forward Formed spouting nose 82, the lower I liiehe 1st lead for allocating one / one 83 is formed pending upwards. Through this Metullkllgelehen / ur use in an approach ί 80ί position in which a moving ribbon of glass contacts a body of molten metal stands, characterized in that a hopper (46, 47, 48), the width of which is somewhat is larger than the diameter of the metal balls (49), is provided with an outlet channel (50), which receives the metal balls in a row, and connected to a supply channel (Sl, 52) is, wherein a locking member (53) in the feed channel retains the metal balls and each one Metal balls by an ejector rod (57) movable in the feed channel over the barrier is pressed and passed via a feed pipe (40) to a dispensing head (41), from which the metal ball molten is fed to the body of molten metal. 2. Device according to claim 1, characterized in that the feed channel (51, 52) is provided below the outlet channel (50) and the ejector rod (57) to the side of the filling ao funnel is provided with a drive (59, 60, 61) that controls its movement via the locking member (53) causes out into the feed channel. 3. Device according to claim 1 or 2, there- characterized in that a further rod (63) is connected to the drive (59, 60, 61), which can be introduced through a bore (64) in the filling funnel to the metal balls (49) in the Loosen the hopper while inserting a metal ball over the locking member (53) into the feed tube (40) is pressed. 4. Device according to one of claims 1 to 3, characterized in that the dispensing head (41) in the area of a holding device (31) for a body (36) made of molten metal is arranged so that an outlet (42) is adjacent to the body of molten metal and that the drive (59, 60, 61) of the ejector rod (57) from one the transfer of the metal balls (49) to the metering head (41) regulating control device (66) is actuated. 5. Device according to one of claims 1 to 4, characterized in that the feed pipe (40) consists of a graphite (79) lined steel tube, one end of which is mil the feed channel (51, 52) and its other end with the feeder made of graphite head (41) is connected. 1 sheet of drawings