DE7706823U1 - SECURITY LOCKING ON AN UNDERWATER GRANULATOR AGAINST PREMATURE OPENING OF THE HOUSING - Google Patents

Description

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BASF Aktiengesellschaft

Our reference: O.Z. 32 463 Sp / ah 67OO Ludwigshafen, March 2nd, 1977

Safety lock on an underwater granulator against early opening of the housing

The invention relates to a safety lock to prevent premature opening of the housing of the water-bearing sessile box or underwater granulator, into which thermoplastic melt ( from a multi-hole nozzle is extruded from a downstream Rofcorschneidetrichtune and in which a housing opening through a hinged on the housing or a replaceable flap by means of a thread or bayonet Part or by a surface part of the multi-hole nozzle bulk unit can be closed "The lock is intended to increase safety for people working on underwater granulators."

In underwater granulators, the melt to be processed into granules is pressed through multi-hole nozzles with the help of extruders or other pressure-building devices, 2 "B" gear pumps. From this cutting device ./ the thermoplastic melt particles get into the cutting box, through which water flows. «The water has two tasks to fulfill, namely to cool the melt particles formed and at the same time to transport them out of the cutting box.

The parts forming the nozzles are heated so that the melt can flow easily. When the water flowing through the cutting box comes into contact with these parts, it can be heated up to the boiling point, especially when the water circulation has stopped. However, a large part of the heating energy is transferred to the water through the thermoplastic melt itself.
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In the operating state, the described system of the underwater granulator is closed. The high water temperatures therefore do not pose a threat to the operating crew. It is different in the case of malfunctions or maintenance. The system, more precisely the housing of the cutting box in which the water and the thermoplastic material particles come together, must be opened after the water has been drained off. In practice it has been shown that critical dangerous situations can arise for the operators. This has already been pointed out by RP Murphy in "Chemical Engineering Progress" Vol. 70, No. 9, Sept. 197 ² I-, pages 5-56. This can happen if no more water escapes from the existing drains, for example because they are clogged with thermoplastic lumps or because the view through a control window is blocked as a result of thermoplastic melt deposited on it. The operator can then no longer see to what extent the housing still contains hot water. In such cases there is a risk that the housing will be opened prematurely and the hot water still contained in it will suddenly and in large quantities escape. The danger to the person engaged in opening the housing is recognizable.

Another risk to the workforce is from operating errors if, for example, the housing is opened by mistake without first draining the water.

Well-known locking systems working according to the Sehwiminer principle have therefore already been used on a trial basis. However, they were caused by gluing the functional parts with thermoplastic melt or soon not due to blocking thermoplastic blocks more operational.

Attempts have also been made to build sensors into the housings of underwater granulators, which measure the conductivity of the water or address the dielectric constant and electromechanically ^ or hydraulic or pneumatic locking

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control successfully. They cannot withstand the rough use in the case in the long run and also cope with it very quickly '' Thermoplastic melt added.

The invention was therefore based on the object of the housing closures to design of underwater granulators in such a way that in the housing still remaining water before opening the Housing is displayed with certainty, so that premature opening of the locks, even by mistake, are excluded can.

According to the present invention, the object is achieved in that one of the housing walls and the flap or the insertable Part or the surface part of the multi-hole nozzle cutting unit below the housing opening have holes that are aligned with one another, the hole in the housing wall is provided with a thread, and that the flap or the surface part of the unit by means of a cap screw is set against the housing wall.

In a further embodiment of the invention, the flap or the insertable part or the surface part is at the lower edge with a Provided tab which is pierced at least in the diameter of the shaft part of the head screw.

ζ The safety lock according to the invention is shown below

an embodiment shown in the drawings explained in more detail.

It shows in a hematic representation

Fig. 1 and 2 different housing locks with the security

Closure in longitudinal section. FIG. 3 is a longitudinal section of the safety closure.

The housing wall 1 of the water-bearing Sehneidkastes 2 is pierced and provided with a thread (Fig. 1). The diameter knife

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this bore 3 is preferably 10 to 20 mm. He can basically also be bigger. Smaller diameters, on the other hand, can easily be clogged by lumps of thermoplastic. The hole 3 is attached below the housing opening 4, which in a common embodiment is hinged to the housing by a Flap 5 can be closed. The flap is provided at the level of the bore 3 with a tab 6 which is aligned with the bore 3 Has bore 11. Of course, if the flap rim is sufficiently wide, the tab 6 and the hole 11 in the flap rim can be omitted are provided. When the flap 5 is closed, a head screw 7 leading through its tab opening 11 is inserted into the thread of the Bore 3 screwed. As shown in Figure 3 in longitudinal section the head screw 7 tapers for screwing into the bore 3. The tapered part 8 of the head screw expediently protrudes approximately 50 mm into the granulator space, so that no thermoplastic melt can deposit over the inner opening of the housing wall bore 3. The annular face of the formed by the taper Gradation on the screw shaft 10 of the head screw 7 is to seal the housing bore 3 with a sealing ring, for example made of soft rubber. For better handling of the head screw 7, the screw head 9 is designed to be toggle-shaped. the Diameter of the screw shaft leading through the lug opening 10 of the head screw 7 is preferably 15 to 30 mm.

The opening of the flap 5 is by the one described above Measures only possible after removing the head screw 7, so that if the flap 5 is accidentally opened prematurely, the water still standing above the level of the bore 3 in the housing is initially emerges from this hole in a fine jet. This signals in an unmistakable way that the solving of the real Flap lock 12 may not yet be made. The risk of scalding accidents with hot water, see so far in such cases in large quantities after opening the housing cover suddenly poured out of the housing opening is significantly reduced.

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In Pig. 2 is the security lock according to the invention on one also with underwater granulators; common housing construction shown in the subsection. Here is the housing from a hood 20 which is detachably connected to an annular surface part 21. The surface part 21 surrounds that at the beginning Mentioned multi-hole nozzle cutting unit (indicated in the drawing only with the reference number 22), through the bores of which the Thermoplastic melt is pressed. An O-ring 23 between the hood and surface part 21 ensures the seal between the contact surfaces. At the lowest point of the surface part 21 is at right angles to this a tab 24 by means of a welding or Screw connection attached. Have tab 24 and hood 20 congruent bores 25, 26, the hood 20 having a thread. To secure against premature loosening of the hood 20 of the surface part 21, the head screw described above is then inserted through the bracket hole 25 and into the thread screwed in.

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Claims (1)

O.Z. 32 463 claims for protection 1. Safety lock against premature opening of the housing of the water-bearing cutting box of an underwater grapher: * into which the thermoplastic melt is extruded from a multi-hole nozzle with a nearby rotor tendon device and "with a housing opening through a flap hinged to the housing or a part that can be inserted by means of a thread or a bayonet lock Pläehenteil of Mehrlochdüsen- Scnneiaaggregats closable ± at _t characterized in Dall one of üehäusewiLnds (1) and the flap (5) or the einsettbare part or dae Pläehenteil (21) of the unit (22) to hall 'the QehAueeoffnune (4) tueinander aligned bores O> 11) aufweisGh, the bore (3) in the dehäusetta & d (1) is provided with a thread> and that the flap (3) bed «the surface part (21) of the unit (22) by means of a head cap (7) against the Qehäuaewand (1) is set » 2 »Safety valve according to claim 1, characterized in that the flap (5) or the insertable part or the flat part (21) of the multi-hole nozzle cutting unit (22) is provided with a tab (6) on the lower edge.» which is drilled through at least in the diameter of the shaft part (10) of the head screw (7), BASF Aktiengesellschaft sign.