DE4223437A1 - Device for producing a flowable reaction mixture which forms solid or cellular plastic - Google Patents

Description

The invention relates to a device for manufacturing a solid or cellular plastic, flowable reaction mixture of at least two flowable reaction components and at least one Additional component, consisting of storage containers, from which supply lines for reaction components via dosing pump lead to a mixing head, and a supply line for the additional component before or in a in a premixer arranged in one of the feed lines Agitator shaft opens as known from US-A-3 617 029.

Such devices are used in particular in the Ver Work of polyurethane systems of all kinds puts to one or both main components - it is usually a polyol and an iso add cyanate components. Such addition components are activators, flame retardants, paints pastes, etc., but also low-boiling blowing agents, such as  in the "Kunststoff Handbuch", Volume 7, Polyurethane, Carl Hanser Verlag, Munich, Vienna (1983), page 103, be wrote; but also explosive blowing agents, such as Pentane. After all, it can also be fibrous and act powdery additives.

Such additives are added in the usual way Systems via pre-mixers in the low pressure range. Night egg lig is that unpleasant on the shaft seals Leaks can occur. Frequent are the premixers subordinate intermediate containers, in which the mixture until it is temporarily stored for processing. If the Additional component is a blowing agent, this can be in the Escape the intermediate container into the gas space. Around To avoid disadvantages, it is advantageous to drive medium to be added on the high pressure side. This is fundamental known. The by metering using static Mixing quality achieved by mixers is however not sufficient chatting. The use of a high quality mechanical stirrer but is because of the inevitably necessary drive shaft bushing due to the increased leakage danger not possible on the high pressure side.

It is therefore the task of a device to design the premixer at the beginning that he works leak-free and the desired Ver degree of mixing guaranteed.

This object is achieved in that the premixer two intermeshing, working as a hydraulic motor Gears are arranged, the agitator shaft of the  Premixer has an extension on which one of the two gears is arranged, the Drain of the hydraulic motor opens into the premixer and the bearings of the gears and the agitator shaft are encapsulated to the outside.

The gears working as hydraulic motors make one superfluous external drive with shaft bushing. It's over surprising that the reaction component itself and - depending after entering in front of or behind the hydraulic motor also the Zu set component - can drive the premixer and there also cause their sufficient mixing. The new arrangement creates a larger one Pressure drop that is not significant. In particular works especially with high pressure operation of several 100 bar the pressure loss that occurs when driving the hydraulic motor hardly occurs. The premixer can be particularly use advantageously on the high pressure side. It goes without saying that it can also be used on the low pressure side the avoidance of leakage has advantages. The arriving current of the main component, to which the additional comm component in front of the tooth that acts as a hydraulic motor wheels is added or which is only behind in the Pre-mixer is inserted, drives the gears, whereby the liquid is transported in the tooth gaps and directly on the outlet side into the premixer to be led. Are the additives non-abrasive materials, so they will be in front of the Hy Feed the dromotor into the supply line of the main component because premixing then already takes place. Abrasive additives are used because of the inevitable Wear advantageously only in the premixer  a. Suitable as agitator shafts are those with Spikes, shovels, paddles and the like occupied are. It is also possible to use such spikes, shovels and paddle also stationary on the inner wall of the To arrange premixer.

An initiator is preferably assigned to the gear wheels net, which is coupled to a tachometer.

This allows the effective speed and thus, un taking into account the delivery volume per revolution, determine the effective delivery rate. If necessary can be depending on the measured effekti ven speed via a control unit the speed of the do Sierpumpen for the main component and the additional compo tax.

In the drawing, the new device is in an off management example shown purely schematically and after standing explained in more detail. Show it:

Fig. 1 shows the device in the schema

Fig. 2 shows the detail A symbolically shown in Fig. 1 in detail and enlarged in section and

Fig. 3 is a section according to line BC in Fig. 2.

The device works with high pressure metering of 200 bar and has a reservoir 1 for isocyanate, a reservoir 2 for polyol, a reservoir 3 for a propellant and a reservoir 4 for an abrasive substance. Polyol and isocyanate are the main or reaction components and the blowing agent as well as the abrasive substance additional components. Supply lines 5 , 6 , which contain high-pressure metering pumps 7 , 8 , lead from the storage containers 1 , 2 to a high-pressure mixing head 9 . In the feed line 6 , a mixer 10 with a mechanical agitator shaft 11 is arranged between the high-pressure metering pump 8 and the high-pressure mixing head 9 . A pre-mixer 10 is preceded by a hydraulic motor 12 . In front of him a discharge from the storage container 3 , a high pressure metering pump 13 ent supply line 14 opens into the supply line 6 . A second line 16 , which also contains a high-pressure metering pump 15 , leads from the storage container 4 and opens before the stirring area of the agitator shaft 11 into the premixer 10 . An initiator 17 is associated with the hydraulic motor 12 and is connected to a speed measuring device 18 .

In Fig. 2, 3 of the premixer 10 and the hydraulic motor 12 have a common, consisting of two tightly screwed together housing parts 19, 20 housing 21. The agitator shaft 11 , which is equipped with stirring spikes 22 , and two gear wheels 23 , 24 which form the hydraulic motor 12 and mesh with one another are arranged therein. The gear 24 sits on the extension 25 of the agitator shaft 11 . All shaft bearings 26 are completely encapsulated from the outside. The feed line 14 opens into the feed line 6 . The feed line 6 opens on one side between the two gears 23 , 24 and leads opposite on the other side as an outlet 27 which opens into the mixer 10 before. The feed line 16 opens directly into the premixer 10 . The feed line 6 then leads from the outlet 28 of the premixer 10 to the mixing head 9 .

It would also be possible to provide an intermediate container and optionally a further metering pump, in particular a high-pressure metering pump, between the premixer 10 and the mixing head 9 . In this case, the metering pumps 8 , 13 and 15 could be designed as low-pressure pumps, so that the premixer 10 operates in the low-pressure range.

Claims (2)

1.Device for producing a solid or cell-forming plastic, flowable reaction mixture comprising at least two flowable reaction components and at least one additional component, consisting of storage containers ( 1 , 2 ), of which feed lines ( 5 , 6 ) for reaction components via metering pumps ( 7 , 8 ) lead to a mixing head ( 9 ), and a feed line ( 14 , 16 ) for the additional component, which opens into or into a premixer ( 10 ) with agitator shaft ( 11 ) arranged in one of the feed lines ( 6 ), characterized in that the premixer ( 10 ) two intermeshing, as a hydraulic motor ( 12 ) working gears ( 23 , 24 ) are arranged upstream, the agitator shaft ( 11 ) of the premixer ( 10 ) having an extension ( 25 ) which is one of the gears ( 24 ), the outlet ( 27 ) of the hydraulic motor ( 12 ) opening into the premixer ( 10 ) and the bearings ( 26 ) of the gears ( 23 , 24 ) and the agitator shaft ( 11 ) are encapsulated to the outside. 2. Device according to claim 1, characterized in that the gears ( 23 , 24 ) is associated with an initiator ( 17 ) for a speed measuring device ( 18 ).