DE479928C - Glass blowing machine - Google Patents

Description

Glass blowing machine In the machine production of hollow glass under Use of upside-down, d. H. with the head end facing down Preforms and upright finished forms have already been used to improve the Product hit the facility, the head shape with the glass body sitting on it both in the manufacture of the parison and in the blowing out to the finished glass object to turn. For machines with two on one pivotable around a horizontal axis Mold carrier head molds sitting opposite each other, in which VcW molds and finished molds above and below the axis are arranged diametrically opposite one another, so that at the same time a parison is prepared in the inverted preform and a other parison can be blown out in the upright finished mold you limit yourself to providing a single drive for the head shapes, which in successive times for the rotation of the head shape of the preform and that of the finished form was used. This arrangement not only sets the Performance of the machine, but it also affects the quality of the product, as it does not allow the rotation, especially the Head shape in the formation of the parison, the changing conditions, in particular to adapt to the more or less large thin liquid of the glass.

In accordance with the present invention, this disadvantage is overcome by prior art machine designs with foldable mold carrier and rotary drive for the head molds eliminated, that the machine is equipped with independent drives for both head shapes, which allow the head molds to rotate during the manufacture of the parison the top of the axis of rotation of the mold carrier and when blowing it out on the To regulate the underside of the axis of rotation completely independently of each other.

An important point here is the convenient control of the torque the drive mechanism. To achieve this, according to the invention for the Drive the head moldings used pneumatic wheels whose torque is controlled by the Exposure or the jet intensity can be regulated in the simplest way, and which in particular offers the possibility of starting it up very gradually leave, for which it only needs a cock adjustment to regulate the air flow. These The shape of the drive is still the same for a machine with a foldable mold carrier special advantage that no special gear training is required to drive the drive device to keep permanently in operation, unaffected by the relocation of the mold carrier, since the air hoses supplying the compressed air without difficulty in rotating of the mold carrier are able to participate.

The invention is illustrated on the accompanying drawing, namely, Fig. i shows in an axial section the parts belonging to a head shape a glass blowing machine and those forming the subject of the invention Rotary drive for the molded parts.

Fig. 2 is a plan of Fig. Z.

Fig.3 is an overall side view of a glass blowing machine which is equipped with the device according to the invention.

On the drawing, r denotes the pre-blown, free in the air floating parcels. 2 denotes the head shape, which is divided vertically through the middle is. 3 denotes the holder of the head shape, on which the latter is fastened by bolts q. attached is. 5 and 6 denote the upper and lower parts of a bearing housing for a Drive worm 7, which engages in a worm gear toothing of part 3. The part 3 is divided in the same plane as the neck shape 2 and rotatable placed the pin 8, which is pivotable about the horizontal transverse axis. The cone is in engagement with the upper part s of the guide housing 5, 6, its divided Lower part 6 with each of its two sections, each with one for opening the head shape serving, attached to the mold carrier slide g is connected, for. B. by screws, of which only one at 1q. for the left-hand section in Fig. = indicated is. io denotes a piston under pressure from a spring zz, which in a cylinder closed by a cap = 2 is slidably mounted and serves the part 5, which is formed in one piece with the cylinder of the piston io of the bearing housing with the rotatable carrier 3 at a certain position of the latter to be coupled to the neck shape 2, which is firmly seated on the part 3, in a certain position to be locked so that the opening can take place. The piston OK with the locking pin is held in its rest position by compressed air against the pressure of the spring zz, which occurs through the channel 13 in front of the piston io. = 5 denotes that for glass machines of the type in question here, customary thorn or level. = 6 (Fig. 3) an air turbine, which sits on the shaft of the screw 7 and by compressed air in Operation is set.

According to Figure 3, the head mold mechanism sits on a support body 17, which is supported by means of pin 18 in two lateral uprights = g. The cones 18 are centrally penetrated by air lines 2o, which are used to supply operating air serve, here only airways for the turbines 16, as solely for the invention come into consideration, are indicated. The preform halves are denoted by 21, which are guided by means of support arms in the uprights and through a gear connection can be opened and closed by a shaft mounted in the machine base. 23 denotes the bottom of the finished molds and 24 a finished blown bottle. the Operation of the device described is as follows Level 15, the preform, not shown in the drawing, is closed around the head shape 2 is, glass is filled in the usual way and by sucking off the air at the level z5 iiz sucked the form. The level is then withdrawn and the parison first pre-blown in the preform and then free-standing after the latter has been opened. While this time, the air turbine 16 by suitable charging with compressed air in Rotation obtained so that the worm 7 through the part 3, with its teeth it is engaged, the neck shape 2 rotates and thereby also the Külbel rotates, unless the friction of the glass mass on the wall is so great, that the air drive of the air turbine = 6 is insufficient for the rotation. By matching Movement of the drive air jet for the air turbine 16 or regulation of the jet intensity So if you have it in your hand, the shape of the neck with the bulb only has such a torque to allow no undesirable deformation of the parison due to excessive pressure can occur on the wall of the fixed preform. After opening the preform in this case, the resistance of the parison to rotation is reduced so much that that the neck shape is set in rotation with the parison, so that when it is free standing Külbel this gets the desirable rigidity through the rotation.

After the preform has been opened, the swiveling mold carrier becomes with the parison rotated by 180 ° so that the finished form is closed around the parison can be.

The blowing out then takes place, the compressed air turbine 16 continuously is in rotation so that the parison is at least from the time of opening the preform to the closure of the finished mold and the start of blowing is maintained in rotation and only comes to a standstill as soon as the friction between the blown parison and the wall of the finished form is so large that the compressed air turbine 16 they can no longer overcome.

Of course you can, if you wish, the air turbine 16 can also be turned off while the molds are closed. After finished blowing the finished form is opened in the usual way. Then you shut off the compressed air the channel z3 from so that the piston io the rotatable part 3 in the for the opening able to lock the head shape suitable position, whereupon the opening of the head shape takes place by appropriate movement of the slide g, so that the finished blown Glass object can be removed.

It is preferable to work in such a way that, during above the top; directional level 15 a parison prepared wiild, a pre-blown one Külbel, which hangs in the downwardly directed head shape 2, in a finished form is finished blown, so that uninterrupted operation comes about.

Claims (2)

PATEN T.1 \ SPRL CHE: -i. Glass blowing machine with two for the purpose of transfer of the parison from the pre-form into the finished form on a pivotable about a horizontal axis Carrier attached opposite head shapes and device for rotating the head shapes around its longitudinal axis in each position, characterized in that for each head shape a special independent drive is provided. 2. Glass blowing machine according to claim i, characterized in that the drive devices for rotating the head molds are formed by pneumatic wheels, the torque of which is controlled by the driving force Can be changed by means of.