DE645699C - Device for hardening objects, especially those made of glass - Google Patents

Description

Bur « Ind. Eigendom

19 JUL. 193?

ISSUED ON JUNE 2, 1937

The invention relates to a device for hardening objects various substances, such as glass, metal, etc., by inflating a gaseous or liquid Coolant on their surface from nozzles or openings, which in a small Distance from the surface of the object to be hardened arranged in a wall which has openings in the immediate vicinity of the blower nozzles for discharging the used cooling air, and aims to remedy the disadvantages inherent in the previously known devices of this type.

As is well known, in order to achieve perfect hardening, it is not only necessary Inflating the coolant, but also its re-discharge after it has its effect has fulfilled in a certain regulated and appropriate manner, namely so that it is prevented that by their first impact on the object to be hardened already heated gases ο. Like. Then in other places on its surface can sweep past and so in an uncontrollable way the working conditions influence.

In order to prevent such currents as far as possible, it has already been proposed when using a plurality of at a short distance over the to be hardened Outlet nozzles for the hardening agent arranged in a distributed manner in the vicinity of each of these Nozzles provide one or more suction openings, which the air after using them has come into contact with the glass object, vacuum and immediately out of the zone the other coolant jets are supposed to discharge. The known devices exist from box-shaped containers, which are arranged to the side of the glass object to be hardened are and have blowing and suction nozzles on the side facing this; these devices but fulfill their purpose only imperfectly, because with them a discharge of the blown air only then to a sufficient extent occurs when there is a relatively high suction effect. But this will again uncontrolled air sucked in from the sides between the box-shaped bed can flow in, and on the other hand also air from the blower nozzles, which so without at all to come into contact with the glass plate and thereby become effective again enters the suction nozzles. Not at all Here, the amount of inflated and evacuated air can be used for the induction a perfect effect or

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Avoidance of uncontrollable currents brought the necessary exact match will.

This success is only achieved through the invention, according to which every entry is uncontrolled Air is avoided during the whole hardening process that the walls in which the nozzles and Discharge or suction openings are arranged, parts of the object to be hardened Form completely surrounding closed container or box, so that the whole hardening process takes place inside a closed container. This training the new device also makes it possible, in contrast to known arrangements, to effect the withdrawal of the used coolant without a negative pressure on the Having to bring vent openings to act because the coolant because of the lack other exit options from the closed container inevitably from the for this purpose must emerge certain openings. The dimensions of the discharge openings are expediently adapted to those of the openings of the blower nozzles in such a way that, for example, if for some reason the cross-section of the blower nozzles is in one place is different from another, for example in a place where there is a greater impact is to be achieved is larger than on another, including those associated with these nozzles Discharge openings are sized accordingly differently. Under this condition· will! under all circumstances, the amount of coolant delivered by each of the air nozzles discharged through those openings which are in the immediate vicinity the corresponding air nozzle. In general, the new device every circulation of air or the like after it hits the surface of the material to be hardened Object prevented.

The discharge openings can either directly into the open air or, as is known, open into a vacuum chamber. In this latter case the discharge can be as Make the whole thing easier and thereby increase the effectiveness of the entire arrangement.

The individual embodiments of the invention may vary depending on the intended Hardening effect and the shape and type of objects to be treated, to be different.

In the figures are two example embodiments of devices shown according to the invention, namely shows

Fig. Ι a section through the entire arrangement,

■ Fig. 2 a section along the line AA of Fig. 1 and

Fig. 3 is a section through a modified embodiment.

According to Fig. R, the new device for uniform hardening, for example a vertically suspended glass plate by blowing air jets, consists of a wooden container composed of two half-equal shells α, which is attached to support devices or frames, not shown. The two shells are mutually displaceable so that, after they have been pushed apart, the glass plate b, which has previously been heated to a suitable temperature, can be inserted between them and then pushed together again so that the parts c, which represent the sealing surfaces, come to rest on each other. Fast-acting locking devices can be used to press the two shell parts together and to hold them in this state. The glass plate is carried by suspension devices of the usual type, for example tongs (/ or suspension frames.

The shells 0 form parts of the boxes e to which air is supplied under pressure through flexible lines / 'which are connected to a supply line /.

The inner walls of the shells are provided with Düsenöffnungeii g, through which the air is blown onto the plate. More openings /; serve to evacuate the air that has acted on the glass plate. These openings /; open into tubes left ¹ , which discharge the air to the outside. Each blow nozzle g is of several discharge openings /; surround.

Under the conditions created by this arrangement, each jet of air impinges directly on the plate, and the air, as soon as it has come into effect, is discharged through the openings Ii and the ducts h ^1. Provided that the openings are evenly distributed, a completely uniform and also controlled hardening is achieved in this way.

If it is not desired, all parts of the n » To harden glass plate evenly, but if on the contrary one locally a different Degree of hardening wants to achieve; it is sufficient to use the individual air nozzles or openings and at the same time also the corresponding discharge openings different from one another To give dimensions according to the desired effect. Also due to the special distribution of the outflow openings One can achieve similar success, especially by changing their number The unit of area of the surface changes, where

Claims (2)

but the size of the discharge openings always, as already described above, must be adapted to that of the associated blow openings at every point.
By using basically the same means and suitably modifying the device, it is also possible to achieve uniform hardening of an object which has an irregular shape, thickness, etc., into which, for this purpose, various effects are allowed to take place on the surface of the object in zones. If it z. B. is required to achieve uniform hardening, certain If parts of the oil surface are to be cooled to a greater extent than other parts, one becomes this Arrange places opposite blower nozzles with a larger cross-section and in larger numbers and in their vicinity discharge openings, which are in terms of size and number are dimensioned accordingly. The same principles can be applied to the hardening of hollow objects will. Fig. 3 shows an example of the application of the new hardening process to such workpieces and shows a box-shaped device suitable for hardening a hollow workpiece η. This box l) consists of a lower part 0, which encloses the object from below, and an upper part p, which protrudes into the hollow interior of the object, in such a way that the inner walls of the two box parts are adapted to the shape of the workpiece and to a small extent constant distance from him. The workpiece rests on the floor . not directly on the surface, but with the interposition of supports q that secure the distance from the ground. Bottom and top together form the container. The cooling air is blown onto the glass through the nozzles g and discharged through the openings h and lines Ii ¹ , as in the arrangements already described above. Depending on the shape of the object will be these nozzles, openings and lines are arranged in a corresponding manner, It should always be noted that both the blower openings and the discharge openings be at a uniformly small distance from the surface to be hardened. This requires Objects with a curved or irregularly shaped surface instead of a flat surface a corresponding design of the bubble container, so that the openings of the Nozzles lie in a surface similar to the object to be hardened. In the embodiment shown in Fig. 3, it is assumed that a uniform Hardening is to be brought about. For this purpose, the air nozzles and the discharge openings are evenly distributed. In order to achieve uneven hardening, if desired, one uses logically the various possibilities indicated above for this. Of course, the described arrangements are also for hardening objects Made of materials other than glass can be used, and gaseous or liquid substances can be used as coolants for hardening various types used alone or in a mixture with others or with air will. Ρλ ten τ λ ν s ρ r ϋ C ιι ε: ι. Device for hardening objects, especially those made of glass, by blowing a gaseous or liquid coolant onto their surface from nozzles or openings, which are at a small distance from the surface of the object to be hardened are arranged in a wall, and discharge of the used coolant through in the openings arranged in the same wall, which are in the immediate vicinity of the blower nozzles are, characterized, dati the walls in which the air nozzles and discharge openings are arranged, parts of an object to be hardened Form completely surrounding closed container. 2. Apparatus according to claim 1, characterized by one to be hardened Object enclosing, formed from two or more shell-shaped mutually displaceable parts Cavity, the inner walls of which dej the shape of the object to be hardened are adapted. 1 sheet of drawings