DE102004041282B4 - Blow head and Blaskopfarm for a glass container forming machine - Google Patents

Abstract

blow head for one Glass container forming machine with a carrier and with one in the carrier held fluid line, wherein the fluid line to a fluid supply connectable Fluid inlet and a fluid outlet for injecting the fluid Fluid supply in a glass container and wherein the fluid outlet by means of a drive device relative to the carrier and in a container opening of the glass container into it regardless of the blowing of the fluid is movable into the glass container, characterized in that the drive device (4) has a proximity switch (29) for controlling the movement of the fluid outlet (25).

Description

The The invention relates to a blowing head for a glass container molding machine with a carrier and with one in the carrier held fluid line, wherein the fluid line to a fluid supply connectable Fluid inlet and a fluid outlet for injecting the fluid Fluid supply in a glass container and wherein the fluid outlet by means of a drive device relative to the carrier and in a container opening of the glass container into it independently from the blowing of the fluid into the glass container is movable.

One such blow head is for example for final blowing a hollow glass article from a paring known in a glass forming machine. The blow head is with a Recess over an estuary of the parabola inverted and on an outer surface of a Finish mold attached. Through a channel of compressed air is supplied, the introduced on the one hand through a blowpipe of the blow head in the parison and on the other hand by a duct system for cooling the blow head and the muzzle radially from the outside is used. An extension of a sleeve engages behind holding organs of the blow head with stop elements. The short blowpipe is rigid connected to the blow head and immersed in the mouth of the parison, whereupon compressed air is introduced through the blowpipe into the interior of the parison. The Compressed air blows the parsley to a finished hollow glass article.

Furthermore is a finishing station of a so-called IS (= Individual Section) glass forming machine with a two mold halves having finished mold known. Through an invert mechanism of IS glass forming machine becomes a parabola a preforming station transported to the preforming station and by opening a muzzle tool passed to the previously closed mold halves. Over an orifice of the parfum and in contact with the finished mold halves a blow head with a nozzle is slipped, by the compressed air in the inside of the parfum supplied will and the parabola finished blowing. In the parlor the neck does not protrude.

It was also already tried by means of a mouth cooling having telescopic constructed Blaskopfes for feeding of cooling compressed air in a glass container a cooling of the glass container at its final molding by simultaneous use of the cooling compressed air to improve the movement of the blow head.

The DE 535 013 A discloses an apparatus and a method for producing hollow glass bodies by blowing, wherein a tube having a fluid outlet and being fixedly connected to a pipe and supported by the pipe is insertable into the glass body. The serving as a carrier tube, which is rigidly connected to a blow head and not inserted into the glass body, is part of a drive device with a piston and a cylinder which serves a common movement of the tube and tube. By means of the tube, the tube is arranged rigidly relative to the blow head. A supply of coolant is controlled in response to the common position of pipe and tube via a valve.

From the US 3,236,620 A a generic Blaskopf for a glass container molding machine is known. This is lowered first, then opened a valve for introducing air into a glass bucket, closed the valve, then raised the blow head, then lowered the cooling air supply pipe, then opened a valve for introducing cooling air, this valve closed and ultimately raised the cooling air supply pipe again.

The in the US 4 261 724 A The invention is based on the prior art, the object of the invention to provide a blow head of the type mentioned, with which improves the quality of the glass container and the production time of the glass container can be shortened ,

These Task is according to the invention accordingly the characteristics of the independent Claim 1 solved with a blow head of the type mentioned, at the drive means a proximity switch for control having the movement of the fluid outlet. The dependent claims relate particularly expedient developments the invention.

The blow head according to the invention is generally suitable for use in processes which use any gas or liquid as the fluid. However, it is particularly advantageous if the fluid is air, in particular compressed air, in a simple manner. The fluid serves, in particular, to cool and thus harden the glass container - especially as a result of a convection flow of the fluid generated by the injection - towards the end of the production process of the glass container. In such a prefill, optionally also a final shaping of the glass container takes place. The invention is particularly suitable for blowing out deep glass containers, for example glass bottles, since the fluid outlet can be moved into the glass container, in the limit case until just before striking the die to a container bottom of the glass container. Thus, by spatially and temporally targeted injection of fluid advantageously also in a lower region of the glass container effective cooling and thus a sustained hardening and quality improvement of the glass container. Due to an accelerated solidification of the glass container, moreover, the cycle time of the production of the glass container can be shortened with the aid of the invention and thus the production can be made cheaper. Of particular importance is that the mobility of the fluid outlet is independent of the actual blowing of the fluid into the glass container. Therefore, for example, if necessary, a blowing fluid can only be made when the fluid outlet has reached its intended end position in the glass container; or the injected volume flow may change, for example, with the movement of the fluid outlet into the glass container. Furthermore, it is also conceivable, for example, for fluid to be injected only during a movement in and / or during a movement out of the fluid outlet into the glass container or out of the glass container. By virtue of these possibilities, which are open to virtually any control and regulation of the fluid injection process, the blow head according to the invention is also particularly suitable for producing glass containers which deviate from a simple cylindrical shape. With the invention uncontrolled fluid losses, which could complicate a reliable control and / or regulation of fluid flow rates at least not insignificantly, safely avoided, and the die has a high efficiency. The blow head according to the invention enables a particularly uniform distribution of the injected into the glass container fluid. By means of the proximity switch, which may be a mechanical, inductive or optical switch, for example, an immersion depth of the fluid outlet into the glass container can be controlled and controlled

you could Imagine that the drive device as an energy converter for making available of mechanical kinetic energy for the fluid outlet, for example having an electric motor. According to one advantageous development of the invention, the drive device however, a fluid cylinder, in particular one operable with air Pneumatic cylinder, on, by means of which the fluid outlet into the glass container inside is movable. This results in a particularly simple, cost-effective, low-maintenance and lightweight drive for the fluid outlet.

According to one advantageous development of the invention is the fluid cylinder a linear cylinder with a maximum stroke in the range of 20 mm to 150 mm. Thus, the Blaskopf invention is suitable with a simple structure especially for use in methods of making in very big series and mass-produced glass containers such as beverage bottles. Furthermore such a blown head without complicated Maschinenumbau th in common glass container molding machines, especially for bottle production.

According to one Another advantageous development of the invention is the fluid inlet the fluid line with a first fluid port for the fluid supply and the fluid cylinder having a separate one from the first fluid port second fluid connection for the fluid supply connected. This is - compared to for example one basically conceivable provision of a common fluid connection, of which from a fluid volume flow by means of a controllable valve to fluid outlet and fluid cylinder controlled fed is - in particularly simple way a targeted and independent control and feeder both a fluid volume flow to the fluid outlet and to the fluid cylinder possible. Also can so without additional Structural effort optionally different fluids for blowing in the glass container on the one hand (for this for example air) and for operating the fluid cylinder on the other (therefor for example hydraulic oil) be provided and handled.

you could imagine that the fluid outlet, for example, at a arched and / or flexible end portion of the fluid line is located. On the other hand, according to a advantageous development of the invention, the fluid line a rigid, with the blower pipe ending in the fluid outlet. Such a trained inventive blow head is suitable especially for the manufacture of glass containers, which have only a small container opening, into which the fluid outlet must be guided, and / or of glass containers with a comparatively long and slender, ending with the container opening Container neck, such as special beer bottles with 0.33 l capacity.

According to one Another advantageous embodiment of the invention is a for sealing the container opening determined, to the glass container can be applied stop element, so that both an uncontrolled Avoidance of fluid avoided as well as a defined end position the blowing head is ensured.

Around a fluid congestion and optionally an overpressure in the glass container prevent, according to one advantageous development of the invention, the stop member a Vent to the vent Escape excess fluid from the glass container on.

Ensuring a tightness of the transition of Blaskopf and glass container in the container opening it also serves according to another advantageous embodiment of the invention, when a compression spring for biasing the Blaskop Fes is provided against the Glasbe container. The compression spring may be in a cost effective design with good durability and low maintenance preferably a coil spring.

From particular advantage is according to a development invention a Blaskopfarm with a first Blaskopf invention, with a second blowing head according to the invention and with a drive means for simultaneous common Move one fluid outlet of each blow heads. Basically each blow head having its own drive device. An aforementioned Blaskopfarm, however, is particularly in a Use only a drive device for the fluid outlets, the is called only a single drive means for simultaneous common Move each one fluid outlet of both blow heads, especially compact and light in construction and leads to a further reduction the glass container manufacturing costs.

A additional advantageous development of the invention results from an aforementioned Blaskopfarm with a third blowing head according to the invention and a drive means for moving a respective fluid outlet the three blow heads. in principle each fluid outlet can by means of its own drive device be movable, or it can two fluid outlets be movable by means of a common drive means. From By contrast, it is particularly advantageous if only a single drive device for simultaneously moving one fluid outlet at a time the three blow heads is provided. In this way you get a very light and low-maintenance blow head.

The Invention leaves different embodiments to. To further clarify its basic principle is one of them schematized shown in the drawing and will be below described. The drawing shows in

1 a perspective view of a Blaskopfarmes with two blow heads,

2 a sectional side view of the Blaskopfarmes with two Blasköpfen after 1 and

3 a sectional perspective view of a part of a blow head after 1 ,

Yourself corresponding elements are the same in all figures Provided with reference numerals.

1 shows a Blaskopfarm 1 with a first blow head 2 and a second blowing head 3 that is a common drive device 4 exhibit. The two blow heads 2 . 3 are the same structure, and the Blaskopfarm 1 is at his blowing heads 2 . 3 opposite end with a recess 5 provided for attachment to a glass container molding machine, not shown here. By means of hexagon screws 6 and the Blaskopfarm 1 protective discs 7 is the Blaskopfarm 1 attachable to the glass container forming machine. The blow heads 2 . 3 serve a so-called prefilled blowing of glass containers. With the blow heads 2 . 3 compressed air is blown into the glass container, and for example with a pressure of 2.2 bar or 3 bar.

At the Blaskopfarm 1 is by means of cylinder screws 8th and slices 9 a tab 10 attached, which has a flange attachment 11 the drive device 4 carries, which is designed as a pneumatic cylinder fluid cylinder 12 having. The flange fastening 11 is with the help of cylinder screws 17 at the flap 10 attached.

The piston of the fluid cylinder 12 is by means of a central hexagon screw 13 over a guide disc 14 and four cylinder screws 15 with a spacer plate 16 connected. A total of eight cylinder screws 18 are for screwing each one designed as a compressed air line fluid line 19 the blow heads 2 . 3 with the spacer plate 16 intended.

Side of the blowhead arm 1 , each one of the blow heads 2 . 3 assigned are located around bolts 20 swiveling, of compression springs 21 acted locking lever 22 ,

A cut of Blaskopfarmes 1 along line II-II in 1 shows 2 , With reference to the left blowhead in this view 2 the two blow heads 2 . 3 it can be seen that the blowhead 2 a carrier 23 at the same time a central component of Blaskopfarmes 1 is. In the carrier 23 is the fluid line 19 held, the one to a fluid supply, in this embodiment, a compressed air supply, connectable compressed air inlet as a fluid inlet 24 having. In addition, the fluid line has 19 a fluid outlet 25 , here compressed air outlet, for blowing fluid of the fluid supply in a glass container, not shown here. fluid inlet 24 and fluid outlet 25 are directly, that is connected without access and / or outlets for fluid.

By means of the drive device 4 is the fluid outlet 25 relative to the carrier 23 movable, in the direction of a double arrow symbolizing the movement 26 , In the in 2 shown position is the fluid outlet 25 in its maximum extended position, in which a piston 27 into the fluid cylinder 12 the drive device 4 is completely retracted. In this position is the fluid outlet 25 maximum through a container opening of the glass container is moved into the glass container.

The maximum stroke H of the formed as a linear cylinder fluid cylinder 12 is in this embodiment in about 50 mm. With the help of a proximity switch 29 can the movement of the fluid outlet 25 be controlled, so that the drive device 4 For example, already in a counter standing of the two illustrated elements of the proximity switch 29 comes to a standstill and the fluid cylinder 12 therefore not reached its maximum stroke in the case of such a control.

The movement of the fluid outlet 25 in the direction of the double arrow 26 is independent of one by an arrow 28 symbolized blowing fluid into the glass container. The fluid inlet 24 the fluid line 19 is with a first fluid connection 30 for the fluid supply and the fluid cylinder 12 with one of the first fluid port 30 separate second fluid port 31 connected for the fluid supply. As a result, the finished blowing of the glass container can be regulated and / or controlled independently of a stroke movement of the pneumatic cylinder.

An enlarged, perspective and sectional view of a part of a blow head 2 to 1 . 2 shows 3 , where the cut according to those 2 equivalent. It can be seen that the fluid line 19 a connection pipe 32 with the fluid inlet 24 and the fluid connection 30 having. An end clamping bush 33 for connection to the spacer plate 16 (please refer 1 ) is by means of grub screws 34 on the connection pipe 32 attached. A rigid, with the fluid outlet 25 ending blowpipe 35 is by means of a threaded piece 36 into the connection pipe 32 screwed.

In addition, one is a single component forming with a socket 37 connected stop component 38 provided, which can be applied to the glass container and intended for sealing the container opening of the glass container. Furthermore, the stop member 38 a vent 39 to escape excess fluid from the glass container.

The fluid line 19 is in the form of a piston 40 formed in the socket 37 when driven by the drive device 4 (please refer 2 ) and thus directly a movement of the fluid outlet 25 causes. A trained as a helical spring compression spring 41 (see also 2 ) is provided for biasing the blow head against the glass container. The compression spring 41 is with a shaft nut 42 and a locking plate 43 at the socket 37 arranged.

Claims (10)

A blowing head for a glass container forming machine having a carrier and having a fluid conduit held in the carrier, the fluid conduit having a fluid inlet connectable to a fluid supply and a fluid outlet for injecting fluid from the fluid supply into a glass container, and wherein the fluid outlet by means of a drive means relative to the carrier and in a container opening of the glass container is movable independently of the injection of the fluid into the glass container, characterized in that the drive device ( 4 ) a proximity switch ( 29 ) for controlling the movement of the fluid outlet ( 25 ) having. Blowing head according to claim 1, characterized in that the drive device ( 4 ) a fluid cylinder ( 12 ) having. Blowing head according to claim 2, characterized in that the fluid cylinder ( 12 ) is a linear cylinder with a maximum stroke (H) in the range of 20 mm to 150 mm. Blowing head according to at least one of the preceding claims, characterized in that the fluid inlet ( 24 ) of the fluid line ( 19 ) with a first fluid connection ( 30 ) for the fluid supply and the fluid cylinder ( 12 ) with one of the first fluid port ( 30 ) separate second fluid port ( 31 ) is connected to the fluid supply. Blowing head according to at least one of the preceding claims, characterized in that the fluid line ( 19 ) a rigid, with the fluid outlet ( 25 ) ending blowpipe ( 35 ) having. Blower head according to at least one of the preceding claims, characterized in that a stop member (especially for sealing the container opening, which can be applied to the glass container) (US Pat. 38 ) is provided. Blaskopf according to at least claim 6, characterized in that the stop member ( 38 ) a vent ( 39 ) for the escape of excess fluid from the glass container. Blower head according to at least one of the preceding claims, characterized in that a compression spring ( 41 ) for biasing the blow head ( 2 ; 3 ) is provided against the glass container. Blower head arm ( 1 ) with a first blow head ( 2 ) according to at least one of the preceding claims, with a second blowing head ( 3 ) according to at least one of the preceding claims and with a single drive device ( 4 ) for simultaneously moving one fluid outlet at a time ses ( 25 ) of both blow heads ( 2 . 3 ). Blaskopfarm according to claim 9 with a third Blaskopf according to at least one of the claims 1 to 8 and with a drive means for moving one each Fluid outlet of the three blow heads.