DE8715304U1 - jet - Google Patents

Description

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ImpeX Polystyrene Machine Accessories Inc. Suite 1700, New World Tower, 100 North Biscayrie Boulevard Miami 33 132, Florida/USA

The innovation relates to a nozzle, in particular for venting and dampening the mold cavity of molds for producing molded parts made of expandable polystyrene, consisting of a sleeve-like nozzle body which has a base with several outlet openings at one end.

When producing molded parts from expandable polystyrene, the granular polystyrene is introduced into a mold using an air stream. It is necessary for the mold cavity to have a large number of openings through which the air used as a transport medium can escape. Each given size of an area is assigned such an opening through which hot steam can also be introduced into the mold, causing the polystyrene to swell or expand. In order to prevent the filled, granular polystyrene from escaping through the openings, nozzles made of aluminum or brass are driven into them, which should have the largest possible free outlet cross-section. Each nozzle consists of a sleeve-like nozzle body, which has a base with several outlet openings at one end.

A large outlet area in relation to the nozzle cross-section is achieved with a so-called slot nozzle, in which several slots running parallel to one another are machined into the ground by a milling process. The disadvantage of such a slot nozzle is that the

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when the nozzle is driven in, they can become deformed, which impairs the free exit cross-section. In addition, when such a nozzle is driven in, it can happen that, for example, a gate becomes deformed in such a way that its width becomes so large that polystyrene fed through this gate can either escape or become stuck in the slot. tr &tgr;&idiagr;&Kgr; r\\\¥ ·&iacgr; _cr\r inaKaä/Snrloma /4&agr;&eegr; Pit 1 1 ir /S Mrtö y\cr

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Nozzles are also known in which a large number of punched holes are provided in the base. Such a nozzle has only a relatively small, free outlet cross-section, since the distance between the individual holes must be large enough that the base does not deform during the punching process.

In a further design of such a nozzle, which is referred to as a ring-web nozzle, the base has several slots arranged concentrically to one another, which are interrupted by radial webs at specified angular intervals. Since the slots are also produced by a punching process, the distance between the individual slots must not be less than a specified dimension so that undesirable deformation of the base is excluded, especially during the punching process. This means that the free outlet cross-section of the nozzle is also relatively small here.

The innovation is therefore based on the task of designing a nozzle of the type described at the beginning in such a way that it is stable and thus not deformable with a relatively large, free outlet cross-section and, moreover, cannot become clogged with polystyrene grains.

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To solve this problem, according to the innovation, it is proposed that the nozzle body has at least two channels extending to the bottom and that the outlet openings

are designed as concentrically arranged, ring-shaped slots. Such a nozzle has a relatively large, free opening for a given cross-section of the nozzle body and is so stable that it does not deform, especially when the nozzle is hammered into the opening of the mold. Clogging of the nozzle with polystyrene grains is impossible.

Further features of a nozzle according to the innovation are disclosed in claims 2-6.

The innovation is explained in more detail below using an example shown in a drawing.

Fig. 1 is a plan view of a nozzle according to the innovation and Fig. 2 is a section through the nozzle of Fig. 1 along the line H-II.

The nozzle 1 shown in Figures 1 and 2 of the drawing consists of a nozzle body 2, for example made of aluminum, which in this embodiment has a cylindrical outer surface 3. In order to avoid a special fit of this nozzle into the opening of a mold, the outer surface 3 is roughened or provided with a special knurling. In the embodiment shown, the nozzle body 2 has a sleeve-like shape and is provided with a base 4 ^c at its upper end according to Figure 2.

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In the embodiment shown, three cylindrical bores 5 are machined into the base 4 from one side of the nozzle body 2; they are evenly distributed over the cross section of the sleeve-like nozzle body 2 and extend in depth approximately to the middle of the base 4. The cross section of the bores 5 is selected such that they are separated from one another by webs 6 formed in the base 4 .

In the remaining area of the base 4, concentrically arranged, ring-shaped slots 7 are incorporated, each of which is completely continuous. The individual ring-shaped slots 7 are separated from one another by ring-shaped webs 8.

which in turn are supported by the webs 6 and

j thus ensure that the annular webs 8 retain their position and thus the annular * slots 7 retain their cross-section even under sudden loading.

In a modification of the embodiment described, it is possible for the channels 5 to extend to the lower end of the nozzle body 2 (Fig. 2), i.e. the nozzle body 2 then no longer has a cylindrical interior. It is also possible to provide more than three channels 5 in the nozzle body 2. ^However , this has the consequence that the channels 5 no longer extend approximately to the axis of the nozzle body 2, which brings with it a reduction in the ^free outlet cross-section. Finally, it is possible for the channels 5 to have a different cross-section, so that only narrow webs 6 are present between the adjacent channels 5. Such a nozzle does have a larger, free outlet cross-section with the same outside diameter, but this makes the production of such a nozzle 1 more difficult.

Claims (1)

Impex Polystyrene Machine Accessories Inc. Suite 1700, New World Tower, 100 North Biscayne Boulevard Miami 33 132, Florida/USA Protection claims 1. Nozzle, in particular for venting and steaming the mold cavity of molds for producing molded parts from expandable polystyrene, consisting of a sleeve-like nozzle body which has a base with several outflow openings at one end, characterized in that the nozzle body (2) has at least two channels (5) extending to the base (b) and that the outflow openings (7) are designed as concentrically arranged, ^annular nozzles (7). 2. Nozzle according to claim 1, characterized in that the channels (5) are separated from one another by radial webs (6). 3. Nozzle according to claim 1 or 2, characterized in that the channels (5) have a circular cross-section. l|. Nozzle according to one of claims 1-3, characterized in that the nozzle body (2) has at least three channels (5) evenly distributed over the cross section of the nozzle body (2). > a 1 &igr;&Igr; 1 1 1 I I f · I 1 1 I 5. This according to one of claims 1-4, characterized in that the nozzle body (2) has a cylindrical outer surface (3). 6* Nozzle according to one of claims 1-4, characterized in that the nozzle body (2) has a regular polygonal, preferably hexagonal, external cross-section. II K > till 4 1 III tt lllll lll · I I« ·