DE2908998C2 - Process for increasing the temperature of the mold surfaces of a bending press for bending glass panes and a suitable bending press for carrying out the process - Google Patents

Description

The invention relates to a method for increasing the temperature of the molding surfaces of a bending press for bending glass panes, which are then fed to a tempering station. Such a decline is e.g. B. from DE-OS 17 96 123 known. Here, the heated to the bending temperature of glass mil a f ⁷ olge / eil du introduced individually into an opened bending press with male and female parts, whereas an opposite subsequently \ small pressing time dt that is pressed and then removed the glass blanks from the back geöffnelen bending press as well as in connection then fed to the prestressing station. The subsequent time dt \ results from the preceding glass sheet production and indicates the rhythm in which the glass sheets to be bent follow one another. It is within the scope of the invention to carry out the press bending on lying, suspended or standing panes of glass. In general, the female part and the male part are unheated. However, it is within the scope of the invention to work with a heated hiatric mold and / or heated male mold. It is sufficient that one of these tools is a so-called full tool. Full matrix or full male mold means that it is not just a matter of frame or roller arrangements, but rather of tools that have closed tool surfaces facing the glass pane. Unheated means that heating devices are not integrated with the die. Heated and unheated tools are heated during press bending. The term follow-up time

indicates, as mentioned, the time interval at which the glass panes to be bent follow one another. To avoid misunderstandings, it should be noted that press bending and toughening of glass panes are also referred to as a work cycle time, or short cycle time. It practically corresponds to the subsequent time and is defined as the time that elapses from leaving the glass pane from the preheating furnace to leaving the glass pane from the tempering station. This time includes the transportation of the oven door to the empty bending press, closing, holding and opening of the press brake, dtn transport to the blowing station, blowing off and the beginning of transported away. The latter begins exactly with the beginning of the transport of the next heated pane of glass from the preheating

J5 oven. In principle, the disc could also end earlier can be removed from the blowing station without having to fear any influence on the degree of prestressing.

In the known method, the bending press operates to open with respect to and closing mil a pressing time ie, and thus a Preßtaktzeit which is small with respect to the following time you. Has left the press brake according to a bending operation a glass sheet blank, the bending press remains open until another to bending sheet of glass is inserted. In terms of the statistical time average, the bending press is therefore mainly open. This is disadvantageous: in the context of the known procedure, the glass panes that are to be bent and heated to the bending temperature give off heat to the die and / or the male die. Such tools have already been made heat-insulating within the framework of the known measures (DE-PS 8 32 047). If the generic method is carried out over a longer period of time, a temperature equilibrium is established after a start-up time in the matrix or in the male mold from the interaction of these tools with the environment on the one hand, and with the glass panes heated to the bending temperature on the other hand.

However, the temperature of the die or male die is when the temperature equilibrium is reached generally well below the bending temperature with which the glass panes in the context of the known Measures are introduced into the brake press. This is especially true when the gen: inten tools

t '> are unheated. In fact, the matrix and / or the patrix radiate a considerable amount of heat to the surrounding area because of the long opening times that are predetermined by the subsequent time dt \. In addition

there are heat losses through convection.

As a result, the temperature is at least that of the surface areas with which the glass sheet moldings leave the bending press as part of the known method, below the bending temperature, with to which the glass sheets have been fed, and regularly below the temperature in the tempering station is needed. If the glass panes are relatively thick, this effect is disruptive not because only the surface areas are cooled in the manner described and the shaped glass panes itself represent a heat accumulator that puts the glass sheet moldings back on the whole Brings the temperature required by the prestressing station. However, if it is relatively thin glass panes and shaped glass panes of z. B. only 3 mm thick, the molded glass sheet cools in the bending press as part of the known measures as it were through and through so far that the temperature in the tempering station for the tempering treatment no longer sufficient This has the consequence that either before the introduction of the glass pane moldings the prestressing station has to be re-heated. You could, if with When working with heated tools, remember to set the die and the patrix on a higher level Temperature and higher heating, however, fails because of the fact that the bending temperature is specified depending on the material.

In contrast, the invention specified in claim 1 has the object that glass panes that are introduced into the bending press at the bending temperature, when entering the immediately downstream Tempering station still have a sufficient temperature, even if it is the Press bending of thin glass sheets and consequently thin glass sheet moldings is concerned, and the bending press is not additionally heated.

According to claim 2, the bending press when inserting a sheet of glass to be bent as well as when Discharge of a shaped glass pane only opened on the glass pane contour, so that the opening gap is small is. Of course, the introduction of a glass pane to be bent or the Removal of a glass sheet molding will be possible with the usual funding.

In the context of the method according to the invention, the number of opening movements and closing movements of the bending press is doubled compared to the known measures, in such a way that the bending press no longer mainly open and only closed during the pressing time, but rather mainly closed and only for inserting a pane of glass or for removing a :; Glass sheet molding is open. In the context of the compensation processes described above, this leads to a temperature of the tools in the equilibrium state that is considerably higher than what occurs in the known procedure, and which is regularly so high that the glass sheet moldings are easily introduced into the tempering station and there can be biased. This also applies when it comes to thin and very thin panes of glass. The reduction of the opening movement of the bending press on glass pane trims further reduces heat losses. - In Ansbach ^r '' ch 3 is shown a bending machine that is particularly well suited for carrying out the process.

According to the invention, the simple bending press thus becomes a double-cycle press with a closed idle cycle for the purpose of temperature stabilization. you mean the time for the closing movement, dk means the time for the opening movement. It goes without saying that, within the scope of the invention, the matrix and the male mold are expediently designed to be thermally insulating, if necessary also to be thermally insulating up to the bending surfaces, while circumferential heat locks can also be assigned to the female mold and / or the male mold. According to a preferred embodiment of the invention, the additional control pulse generator is equipped with sensors arranged behind and in front of the bending press, which respond to a glass sheet blank moving away or to a glass sheet moving inwards. It can be a touch sensor or a non-contact sensor. In large plants with very defined sequence times you can press brake'll also controlled by the program. "-? The kinematics of the press brake described ia H easy to realize mi ·, the tools of modern drive and control technology for bending presses and in detail, therefore, does not require the It goes without saying that further measures known per se can be implemented to achieve the highest possible temperature of the glass sheet preforms entering the tempering station, namely shielding the intermediate sections between the furnace for heating the glass sheets to be bent and the press or between the press and the tempering station, where you can work with reflective surfaces and / or heated surfaces. However, you can also isolate the back of the pressing surfaces of the die and male mold and increase the thermal resistance of all connections leading away from the pressing surfaces Losses are avoided and it is prevented that the open press brake radiates heat in a disruptive manner to the environment, the procedure described is also advantageous when the die and the male die are equipped with heating devices.

In the following the invention is illustrated by means of a drawing which shows only one exemplary embodiment explained in more detail. It shows in a schematic representation

Fig. 1 shows a bending press for performing the method according to the invention in plan view and in open state,

F i g. 2 shows a time diagram for the operation of the bending press according to FIG. 1 in accordance with the inventive concept. Procedure.

The in F i g. I, the bending press 1 shown consists in its basic structure of a press frame 2 with a front press beam 3 and a rear press beam 4. The movable press beams 3, 4 are assigned conventional drive cylinder piston arrangements 5. The tools are connected to the press bars 3, 4, namely, in the exemplary embodiment, the die 6 is connected to the rear press bar 4 and the template 7 to the front press bar 3. The drive device for the press bars 3, 4 already described includes a control device 8 The control device £ controls the bars 3, 4 to open and close in accordance with the pressing time dt _2.

The time scheme of FIG. 2 makes it clear that the drive and control device 8 is designed as a short press cycle device. This means that their closing time du and their opening time dta are small compared to the following time dl \. Closing time denotes the time for the closing movement. Opening time the time for the opening movement. The ordinate indicates the path s. which the tools or Prcssenholme 3 and 4 put back when opening and closing. In position I the press brake 1 is open, in position II it is closed. The control device 8 has an additional control pulse generator II. This causes an additional closing movement when a glass sheet molding 12 is removed. The control pulse generator II also causes an additional opening movement when a glass pane 10 to be bent is due to be introduced into the bending press I. Exactly this situation has been illustrated in FIG. 1. The additional Sleucrimpulsgeber It works in the exemplary embodiment with behind or in front of the bending press
arranged sensors B, 14, which respond to a drawn glass sheet 10 or to a discharged glass sheet molding 12 in such a way that this is described! Procedure is realized.

The F i g. 2 is immediately understandable with the above statements and their labeling. It shows that clii Bending press 1 immediately after discharging each

to glass sheet molding 12 is closed again and it is opened again immediately before the introduction of a further to be bent glass sheet 10. So it is closed over a relatively long period of time dli in the emptied state - the bending press I is zi

! ^r > a double-cycle press with a closed l.ccrtak for the purpose of increasing the temperature and stabilizing the temperature of the die 6 and male die 7 further.

1 sheet of drawings

Claims (5)

Patent claims: 1. A method for increasing the temperature of the mold surfaces introduced into an opened bending press with male and female parts during a dt of a bending press for bending glass sheets which thereafter a Vorspqnnstatjon be supplied, the heated to the bending temperature of glass dt with a repetition time] individually to subsequently] small Pressing time dti and the produced glass sheet blanks are removed from the reopened bending press and then fed to the prestressing station, characterized in that the bending press is closed again immediately after each glass sheet molding is emptied and only again immediately before the introduction of another glass sheet to be bent is opened. 2. The method according to claim 1, characterized in that the bending press when inserting a glass pane to be bent as well as when removing a casting pane formation only on the casting pane contour is opened. 3. Bending press for carrying out the method according to one of claims 1 or 2, with a press frame, press bars, die or male mold connected to the press holine, at least one of which is designed as a full tool, as well as drive and control device for the press bars, which control device controls the press bars according to the pressing time ie to close or open, characterized in that the drive and control device (8) is depicted as a Kurzpreßakt device, the closing time dts and the opening time, ie small compared to the subsequent time dt] , and that the control device (8) has an additional control pulse generator (11) (13, 14) which causes an additional closing movement of the bending press (1) when a glass sheet molding (12) is removed, and an additional opening movement when another Glass pane (10) is due for introduction. 4. bending press according to claim 3, characterized in that the die (6) and the male die (7) are designed to be heat-insulating and have a circumferential heat lock. 5. bending press according to one of claims 3 or 4, characterized in that the additional control pulse generator (U) is equipped with sensors (13, 14) arranged behind and in front of the bending press (1), which on a moving glass sheet molding (12) or quf moving in an introducing manner Address the glass pane (10).