DE1421729C - Device for temperature control of the glass melt in a sheet glass drawing machine - Google Patents

Description

be increased, whereby a higher throughput amount of the cooling zone 22 is covered and adjacent per unit of time, which is stored a significant amount of time at the refining zone 21, consists of a firing step conditional. Here it is advantageous to use the cooling-resistant material. The second section 34 of the Abzone to be separated from the drawing zone, on the other hand, to air turbine cover is made of metal and with When the cooling zone and 5 intermesh, the end 35 of the heat-resistant section 33 is drawn away reliably prevent. . tied so that the first portion 33 and the second The drawing shows an example of execution section 34, a cover unit 31 for the Approximate form of the device according to the invention, and form furnace.

it means the metallic portion 34 of the cover 31 F i g. 1 is a partial section through a window or io for the furnace so extends from the output end Flat glass furnace from the side under particular 35 of the fire-resistant cover section 33 Consideration of the end of work where the glass passes over the exit end 36 of the cooling zone and over is removed, the pulling container 23, in which it is just in front of the Fig. 2 ends a cross section along line 2-2 in removal area 37. It must depend on it-F i g. 1 and 15 that the fire-resistant section 33 F i g. 3 shows a partial cross-section along the same line of the cover from a plurality of independent ones Sectional plane as in FIG. 2 consists in another fire-resistant hood 40 and that the leadership style. metallic section 34 also from a Mehrin F i g. 1 is the part of a glass furnace 20 between a number of independent, U-shaped profile members 41 beder The refining and removal zone is shown. The BE ao stands. In summary, one can say that Known furnaces for producing pane glass, the furnace cover 31 exists over the glass melt 42

P generally consists of a storage container for the molten glass through the cooling zone and through the glass melt adjoining it, from which one or more areas in the pulling container 23 consists of two melt flows clearly from one another to one or more cooling zones and different sections. The fire extraction containers are passed through suitable channels as the permanent section 33 covers the channel 30. Since the invention relates in particular to that when the melt enters the cooling zone, during that part of the glass furnace in which the metallic section 34 cools the channel area on the glass and the pane is drawn, the exit end of the cooling zone or at the entrance to the only this part of the furnace for understanding the invention pulling container 23 to almost the real development. This part is shown in the drawing, which covers the area taken from the drawing container,
represents. As shown in FIG. 2 shows the cover

In a glass furnace for continuous disc 31 carried by blocks 43 which are placed on the side ·

In glass production, the molten glass flows from the walls 44 to delimit the channel 30

Melting zone of the furnace into a refining zone 21 of are. In this way the molten glass is on his

there through the connected cooling zone 22, in 35 path through the channel 30 (the channel is from the

which the melt flow steadily on the working, d. H. Side walls 44 and the bottom 45 of the furnace ger

Removal temperature is cooled and finally forms) largely during its passage through

into the drawing container 23 in the drawing chamber 24, from the cooling zone 22 and into the drawing container 23 from

which surround the disks or the band 25 continuously away from walls.

is pulled. The pulling container 23 consists of 40 The metallic section 34 of the cover

the known window glass machine according to Colburn according to FIGS. 1 and 2 consists of individual

and is supported by a bracket 26. The container U-shaped metallic profile members 41, where the

§23 can, if necessary, open upwards with respect to the melt 42 by means of gas by means of a non-U-profile

shown burner are heated. is. Some or all of these profile members 41 are means

The glass pane or the band 25 is stiffened from the 45 of a stiffening rib 47 which extends along the Surface 27 of the molten glass in the drawing container 23 extends profile members to avoid any inclination of the steadily drawn upwards. While the limbs 41 to throw up due to increased furnace pane 25 is still in a semi-plastic state, switch off the temperature.

it is in a horizontal plane by bending the metallic section 34 of the cover has

roller 28 is deflected, which in the drawing chamber 24 has a high thermal conductivity, so that it has a good

is arranged. The belt then continues to run through heat transfer while its re-

a so-called stator 29 and further have a flexion properties for heat relative

Number of horizontally arranged and only partially bad. That way is great for one

shown rollers, which the tape for further irradiation of the from the underneath

conduct the action into a cooling furnace (not shown), 55 flowing glass stream provided heat given off,

in which the glass ribbon 25 can be removed in a suitable manner by this very rapid heat radiation

is cooled. the melt flow is cooled more effectively than before

The in the F i g. 1 and 2 designated channel 30 become. Due to the almost complete deactivation

forms the path along which the molten glass from the reflection heat from the cover over the

The refining chamber 21 flows into the drawing container 23. 60 glass back onto the glass and by the fact that

This channel 30 is provided with a cover or a pressure on the heat removal by radiation

Provided roof, which in F i g. 1 with 31 denotes simultaneous exclusion of heat losses through

is. Which is placed under the entrance arch 32 in the cooling convection or conduit, it is possible

zone inflowing fused glass flow flows under which an optimal temperature control is obtained. This

entire coverage 31 through the channel 30 in the «5 possibility is through the simultaneous avoidance

Draw container 23. The cover 31 consists in all of its disturbances in the prevailing over the molten glass.

Lower part of two different independent detached atmospheres, which will be discussed later

cut. The first section 33, which is the larger one, is improved. In particular, it is very

important to have a good temperature control in the play- a lock gate and is between

cut of the glass melt, which is in the flow 61 of the profile member 41 and the adjoining

K-anal 30 from the cooling zone 22 to the drawing container 23 is inserted the fire-resistant cover 40 and

is enough, since any deviation from the temperature is locked at the desired level. Each foot 61

run in the molten glass hotter or colder 5 of the profile members 41 extends transversely to the direction

Achieve spots in the pane of glass when pulling. of the melt, whereby the base areas of the profile

These points appear in the finished disk as links with respect to the surface 27 of the melt 42

Areas of lesser or greater thickness, d. H. than run horizontally. The partition wall 60 is in

Thickness fluctuations when pulling out the disc in their position held by a screw 62, the

in the removal area due to different viscosity io through the partition 60 and the foot or leg

the melt. 61 of the adjacent cover profile 41. screwed

The metallic portion 34 of the cover is is. The partition wall 60 serves to the atmosphere

usually pretty thin. The cover has over the melt 42 in the channel section 30, i. H.

for example a thickness between 6 and IS mm. i.e. the atmosphere under the metallic

Should it become necessary, a reinforced heating 15 cover 34 in the cooling zone 22 and inside the

at a particular point along the glass stream draw vessel 23, from the atmosphere of the furnace in

provide, so insulating blocks 48, as they are in the melting and refining zone and those in

Fig. 2 are shown on the exposed of the cooling zone 22 under the fire-resistant hoods

Complete cover surface 49 of any cover profile 40.

50 are placed in order to reduce the heat radiation.

this point to weaken and a certain reflection directions on the side 63 of the refining zone, d. H.

deF radiant heat back onto the surface of the entrance to the cooling zone under the arch 32

To effect melt flow. In such a way it is possible to arrange.- It has, however, been found that by

the amount of heat in the melt determined the omission of these known separation devices

Place or over a certain area after 35 at the entrance to the cooling zone 22 and by insertion

Desire to enlarge. the metallic partition wall 60 in the fused glass

Another embodiment for achieving flow 42 within the cooling zone 22 the development

this goal is also shown in FIG. 2, where one of convection currents or turbulent currents

Large number (in FIG. 2 there are two) movable tools in the immediate vicinity of the

burner or radiant heater 51 is shown, which the 30 draw container 23 avoided or at least far-

Heat going down onto the surface 49 of the cover- ing can be suppressed if through the

profile 50 leads. The heat from the burners 51 partition wall 60 releases the atmosphere above the drawing container

is through the base plate of the profile member 50 on ter 23 and over the rear part of the cooling zone of

the glass melt transferred, which is thereby separated in that of the rest of the furnace atmosphere. The-

desired area is heated up. 35 like turbulent convection currents

By using a material with a high level of heat, the formation of the glass pane has so far been proven

conductivity and poor heat reflection for the extremely detrimental. Your avoidance

second section 34 it is therefore possible to add more or manure contributes significantly to the improvement of the previous

less heat of the molten glass depending on the known deformation characteristics of the finished product

Desire to selectively withdraw in order to achieve a uniform 40 disc. This follows from the fact that it is now

To achieve temperature in the glass. after the elimination of these currents and

With the end of the cover in the rearmost going creating a calm atmosphere over or the drawing zone of the furnace cover 31 is one of the molten glass possible, the undesired continuation of the vertical upwardly extending housing 53 longitudinal line and to switch off the air currents, the edge 52 connected. This housing consists of 45 units previously convection heat losses from the glass A large number of vertical walls 54, 55, 56 caused.

which is essentially parallel to the path of the By using the above-described preferred Washer 25 extend. This vertical direction, in which the metallic cover 34 Walls are delimited by a roof plate 57, with over the cooling zone into the drawing container 23 itself the connection between the fire-resistant Ab- 50 is extended and wherein the partition wall 60 or a cut 58 of chamber 59 with the vertical other "atmosphere separation device Walls is made and a complete Um- is arranged directly within the cooling zone 22 is wrapping of the drawn glass sheet 25 is achieved. it is possible to use the overflow edge in the The machine case 53, which .; the drawing zone 24 drawing containers near the cooling zone and the previous one is made of metal with about the same 55 usual special cover over the spout To omit properties relating to heat conduction and reflection of the cooling zone. The omission of this like the metallic profile members 41. In this way parts means that the atmosphere within the is the glass ribbon 25 when pulling upwards and pulling container and within this container during transport over the deflection roller 28 continuously adjacent area of the cooling zone 22, which is through the borrowed cooled by uninterrupted radiation. 60 position of the partition wall 60 is determined, with respect to This cooling takes place evenly and, thanks to its uniform temperature, is easier to control, since the machine housing 53 is the special bar. This also results from the fact that the Has thermal conductivity properties described above. previously known systems the exit coverage

Now back to the cooling zone 22. In and the overflow edge usually tended to

this is a height-adjustable metallic separator 65 to cool the neighboring atmosphere, whereby

wall 60 arranged, the turbulent air currents and eddies in the glass melt the atmo-

and protrudes into the molten glass. The sphere deteriorated. Through the invention is a

Partition wall 60 acts in the same way as an effective method of creating the same

7 8

permanent conditions, d. h: same temperature, uniform temperature of melt 42 below that

and calm atmosphere, in which the air space above the metallic portion of the cover 34 is increased.

Melt in the critical area of the glass furnace, namely - In this context it is pointed out that

lent that drawing container and in the direct that all auxiliary devices for heat or

adjoining cooling zone. 5 Temperature control, such as insulating blocks 48, burners

A partition wall 64 separates the drawing zone and the 51 or lines 65, outside of the directly to the

Atmosphere above the pulling vessel 23 from the attack surface 27 of the glass melt 42 adjacent

or the influence of combustion gases from the atmosphere are arranged. Act this way

the burners used in these ovens. the control devices so that no turbulence in

A significant advance, which is due to the air that was previously in the duct 30, which forms the atmosphere Device is reached, its is impaired. The rule advance arranged outside the possible working speed. directions keep the necessary temperature through Covering the molten glass with materials, run along the flow of molten glass under the furnace itself no heat on the glass surface cover 31 upright to the formation of local reflect and subdistribute an uneven heat- 15 hot or cold spots in the glass flow due to the very fast emission of radiation from bind.

cause the glass melt, as well as by creating By omitting unwanted furnace elements,

a closed zone with little air - namely the exit cover at the end of the cooling

volume and calm atmosphere over the zone and the associated overflow edge,

Melt in its critical area can the ao as well as the cooler and the separation devices in

Speed with which from the drawing container to the lautering zone or at the entrance to the cooling zone,

is necessary, in comparison to the previous device, by extending the metallic

services are increased significantly. This cuts 34 of the oven cover 31 into the area

hotter and colder places in the glass through the top of the removal zone 37 of the glass pane (at least

The temperature control described largely relies on the base plate 50 of the FIG. 1 shown

avoided. This increase in speed for the U-shaped profile strips 41 is made of metal) as well

Pulling device means higher throughput by creating a quiet atmosphere in the

per unit of time and thus a significant advance of the zone lying above the glass melt

step, since the temperature auxiliary control devices manufactured in the unit of time, it is possible

The amount of pane glass has become larger and at the same time by 30, the causes of the undesirable

is better quality. Deformation phenomena in the drawn one

In Fig. 3 another exemplary embodiment of pane glass is to be largely eliminated,
a temperature control device for the glass melting The arrangement of a metallic machine flow 42 is shown. An air supply or housing is provided around the actual drawing zone 24 in a pipe 65 transverse to the direction of flow of the molten glass 35 and also creates a calm atmosphere around the strip by means of brackets 66 attached to blocks 43. This of the glass pane as it is being formed, as well as an air line 65, is connected via a hose line 67 with maximum heat radiation from the drawing zone, a compressed air source (not shown). About the same process takes place here as with compressed air: the pump is pumped through the pipe 65 and the heat radiation is blown out of the pulling container 23 and through a series of openings 68 in order to remove the surface 49 of the base 50 of a zone 22 from the associated area of the cooling run . By arranging the Ge profile rod 41 to act. This air cools the housing 53 around the zone in which the pane is described in its final selected area of a profile strip 41, which gives the valid solid shape, while utilizing the area of the actual pane formation, which is increased in heat loss through the cooled areas. This avoids locally preferred hot advantages, a further improvement in the quality of points in the glass flow and also that of the glass panes produced.

1 sheet of drawings

Claims (7)

- 1 2 to the patent claims arising above the glass ribbon: air turbulence. To solve this problem, the main patent suggests that this air turbulence is thereby 1. Device for temperature control to turn off that in the cooling zone of the heat extraction Glass melt in a sheet glass drawing machine, in the case of 5 mainly by radiation from the glass Glass melt through a surface with a cover over a closed air space and Made of heat-resistant material with high thermal conductivity - a non-reflective cover with high thermal capacity and low heat reflection, preferred conductivity takes place. This serves to achieve a wise silicon carbide, provided cooling zone in even cooling also the measure a drawing space flows, according to patent 1114,990, io delaying the cooling along the sides thereby characterized in that the edges of the glass ribbon by reflection of the abge cooling zone (20) overlapping cover (33) radiated heat onto these side edges. second, the drawing space (23) up to the vicinity of the The present application represents an advantageous Drawing point (24) overarching cover (34) is a further development of the main patent, insofar as adjoins, which is made of a metal of lesser thickness, 15 it is also based on the task of producing an equal preferably from 6 to 18 mm. moderate heat distribution in the glass ribbon 2. Apparatus according to claim 1, thereby ensuring an optimal throughput of the indicates that between the covers of the furnace. The applicant has recognized that the critical (33 and 34) an area in the molten glass is located in the vicinity of the drawing point when the submersible, height-adjustable partition (60) ao throughput of the sheet glass drawing system on its opti-arranged is. paint value should be increased. 3.'Vorrichtung according to claim 1 and 2, that this goal is achieved according to the invention, λ characterized in that the cover (34) that to the cover spanning the cooling zone * from transversely to the direction of flow of the glass melt, a second one, the drawing room up to the vicinity of the drawing room, adjoining each other, after 35 put overarching cover adjoins that from U-shaped profile members (41) open at the top in a metal of lesser thickness, preferably from stands. 6 to 18 mm. ' 4. Apparatus according to claim 1 to 3, there- Another feature of the invention is characterized in that the cover (34) that between the covers one in the Glasin the profile members (41) insertable device 30 melt-immersing, height-adjustable separators (48, 51) is arranged to delay the heat dissipation wall. and devices (68) for increasing the Next, the invention is characterized in that * Heat dissipation are assigned. that the cover from across the flow direction of the 5. The device according to claim 4, characterized by arranged molten glass, adjoining one another, indicates that the delay of the 35 upwardly open, U-shaped profile members consists. Heat dissipation serving devices from Next is essential that the cover in the Isolation blocks (48) and / or devices that can be used from auxiliary burners profile members for delayed) exist. heat dissipation and devices for 6. Apparatus according to claim 5, characterized in that an increase in heat dissipation is assigned. A indicates that the increase in heat 4 ° is another feature that the delay removal serving devices from with a tion of heat dissipation serving devices Coolant, for example air, fed on the insulating blocks and / or consist of auxiliary burners. Surface of one or more profile members (41) The invention is further characterized in that j directed nozzles (68) exist. that serve to increase the heat dissipation 7. Apparatus according to claim 1 to 6, characterized in that 45 devices with a .Kühlmittel, identified for example, that a to the cover (34) wise air, fed, on the surface of one or subsequent, the deflection roller (28) of the pulling several profile members are directed nozzles, put (24) overarching, in which the glass ribbon Finally, it is also important that a (25) receiving chamber (59) passing over, the cover adjoining, the deflection roller of the box-shaped cover (53) is provided. 5 ° Ziehstejle overlapping, in which the glass ribbon receiving Chamber transitional, box-shaped cover is provided. The cover that extends over the cooling zone subsequent, the drawing space up to the vicinity of the 55 The cover over the drawing point serves to prevent air turbulence in the drawing zone and on the other hand the purpose of creating one in the drawing zone The invention relates to an apparatus for accelerated heat extraction by use for temperature control of the glass melt in a metal cover is relatively lower Sheet glass drawing machine and represents a further development of the 60 strength to achieve, thereby a faster heat-main patent 1 114 990. Radiation is possible than through the cooling zone. The main patent is based on the task of the overarching cover. Through this additional so far when pulling glass ribbons in these uncovering is at the pulling point the emergence to largely eliminate standing distortions. prevented by air turbulence, on the other hand can The owner of the main patent has recognized that 65 due to the rapid emission of radiation from this second these distortions in an uneven cover in the critical area, namely in the cooling of the pulling point moving through the cooling zone, the speed with which the glass ribbon Glass ribbon to look for, which will be traced back from escaping from the drawing container, significant