DE19954455A1 - Actuator for generating variable charge movements in the cylinder of a piston internal combustion engine - Google Patents

Abstract

The invention relates to a piston internal combustion engine whose cylinders (1) are each provided with at least one gas exhaust valve (6) and at least one gas intake valve (5), whereby the gas intake valve (5) is connected to a gas intake channel (7), which is subdivided into two partial channels (7.1, 7.2). Two intake tubes (10, 11), which have different intake tube lengths, and a setting unit (9) are assigned to said partial channels. Either the free flow cross-section of the partial channels (7.1, 7.2) and/or the intake tubes (10, 11) and/or the assignment of the intake tubes (10, 11) to the partial channels (7.1, 7.2) can be set by said setting unit by means of at least one setting element.

Description

The invention relates to a mixer tap, in particular for arrangement on sink tables or the like, with a Battery housing, in which an inflow channel for warm and cold water, an outlet channel for hot, cold or Mixed water and another outlet channel are provided is, the further outlet channel via a Shut-off valve with a switching device and each a branch channel either with the cold or Hot water inlet channel can be connected so that an additional one via the further outlet channel Consumers, for example a dishwasher, either cold or hot water can be supplied.

Such a mixer tap is from the document DE 30 13 651 A1 known. In this mixer tap is in the battery housing has a special rotary slide valve provided with which the inflow channels of cold and Warm water via roughly parallel branch channels optionally connected to another outlet channel can be.  

Rotary slide valves with multi-way changeover are relative complex to manufacture and therefore proportionate expensive. In addition, such multipaths are required diverter valves not insignificant space in the Battery case that is not always, in particular Design reasons, is available.

Furthermore, rotary slide valves have the disadvantage of one possible mixed water position. This means that one open connection between the cold and hot water installation can exist (cross flow).

The invention is based, which in The preamble of claim 1 specified mixer tap so train that with simple and inexpensive Measures a safe switchover is made possible.

This object is achieved in that the two branch channels in an annular valve seat the battery housing for the shut-off valve, with a receptacle for a closure piece is formed, so that optionally one of the two branch channels with the closure piece is lockable.

Further embodiments of the invention are in the Claims 2 to 7 specified.

With the measures according to the invention Switching device proposed that extremely simple and is inexpensive to manufacture. It is with the Changeover device according to the invention hardly more space  needed as for a non-switchable Outlet channel.

Another advantage is that a unintentional switching of the other outlet channel on hot water or on cold water with the Switching device proposed according to the invention is largely excluded. Beyond that commercial dishwashers generally either via a hot water connection or via a Cold water connection supplied with water. It can therefore usually only with a new installation Dishwasher switch required become. A possible switchover from the Install the dishwasher cheaply speaking with.

An embodiment of the invention is in the Drawing shown and will be described in more detail below described. It shows

Figure 1 is a mixer tap for a sink in front view, partially cut.

FIG. 2 shows the mixer tap shown in FIG. 1 in the sectional plane II in an enlarged representation;

Fig. 3 shows the closure piece shown in Fig. 2 in side view.

The mixer tap shown in the drawing has a battery housing 1 , to which a pipe 4 for the hot water supply and a pipe 5 for the cold water supply is connected. In addition, a pipe 6 for the connection of another consumer, for. B. a dishwasher, connected to the battery case 1 .

The battery housing 1 is fastened in a known manner on a sink - not shown in the drawing - the pipes 4 , 5 , 6 being passed through an opening in the sink.

In the battery housing 1 , the pipeline 4 opens into an inflow channel 10 for hot water and the pipeline 5 into an inflow channel 11 for cold water. The two inflow channels 10 , 11 open into a known mixing valve cartridge 16 , with which the flow rate and in a second degree of freedom the mixing ratio of the inflowing cold and warm water can be adjusted via an adjusting handle 15 in a first degree of freedom. The mixed water generated in the mixing valve cartridge 16 is fed via an outlet channel 12 in the battery housing 1 to a swivel spout 120 and then emerges from a mouthpiece 121 as a free jet.

At the two vertically extending in the battery housing 1 inflow channels 10 , 11 each have an approximately horizontally arranged branch channel 100 , 110 is connected, as can be seen in particular from FIG. 2 of the drawing. The two branch channels 100 , 110 are arranged in a V-shape and open into an annular valve seat 14 in the battery housing 1 . The two branch channels 100 , 110 can be produced by the V-shaped arrangement by drilling from an opening 17 in the battery housing 1 . A shut-off valve 3 designed as a structural unit with a corresponding sealing element is connected to the valve seat 14 . The shut-off valve 3 designed as a unit is screwed into a thread 170 of the opening 17 . Here, an outlet chamber 171 is formed in the opening 17 . A further outlet channel 13 is provided in the battery housing 1 from the outlet chamber 171 and opens into the pipeline 6 .

In each of the branch channels 100 , 110 , a thread 101 and a shoulder 102 are formed on the downstream end region as a receptacle for a closure piece 2 . From the downstream end region, the closure piece 2 in the form of a threaded plug can be placed in one of the two branch channels 100 , 110 . The closure piece 2 is screwed with its external thread into the internal thread of a puncture channel 100 , 110 until it comes into sealing contact with the shoulder 102 . So that a good seal can be achieved, an O-ring 20 is arranged on the closure piece 2 , which comes to bear against the shoulder 102 in the closed position. In addition, a slot 21 or hexagon socket is formed on the downstream end face of the closure piece 2 for receiving a turning tool.

Switching on the mixer tap can be done in the following way:
When installing the mixer tap on the sink, first determine whether the dishwasher needs a hot or cold water connection. The mixer tap is factory-set to a cold water connection. If a hot water connection is required, the shut-off valve 3 is first screwed out of the battery housing 1 as a structural unit. Thereafter, the closure piece 2 can be unscrewed from the tap channel 100 for hot water and screwed back into the tap channel 110 for cold water, as can be seen from FIG. 2 of the drawing. Then the assembly of the shut-off valve 3 is screwed in again, whereupon the mixer tap is switched over to deliver hot water to the dishwasher.

If the mixer tap is to be reset to the supply of cold water for the dishwasher, a corresponding procedure must be followed, in which case the closure member 2 must be unscrewed from the branch channel 110 for cold water and then screwed back into the branch channel 100 .

Claims (7)

1. Mixer tap, in particular for arrangement on sinks or the like, with a battery housing, in each of which an inflow channel for hot and cold water, an outlet channel for hot, cold or mixed water and a further outlet channel is provided, the further outlet channel via a shut-off valve with a switching device and one branch channel each can be optionally connected to the cold or hot water supply channel, so that additional cold water or hot water can be supplied to an additional consumer, for example a dishwasher, via the further outlet channel, characterized in that that the two branch channels ( 100 , 110 ) open into an annular valve seat ( 14 ) of the battery housing ( 1 ) for the shut-off valve ( 3 ), a receptacle for a closure piece ( 2 ) being formed in each of the two branch channels ( 100 , 110 ) , so that either one of the two branch channels ( 100 , 110 ) with the closing piece ( 2 ) vers is closable. 2. Mixer tap according to claim 1, characterized in that the receptacle is arranged at the downstream end region of the branch channel ( 100 , 110 ). 3. Mixer tap according to claim 1 or 2, characterized in that the branch channels ( 100 , 110 ) V-shaped in the battery housing ( 1 ) are arranged so that they from an opening ( 17 ) in the battery housing ( 1 ) for the use of the shut-off valve ( 3 ) can be produced from a drilling process. 4. Mixer tap according to one of claims 1 to 3, characterized in that the closure piece ( 2 ) is designed as a screw stopper and is held in the closed position by a thread ( 101 ) in the branch channel ( 100 , 110 ). 5. Mixer tap according to one of claims 1 to 4, characterized in that the closure piece ( 2 ) is pressed in the closed position on a shoulder ( 102 ) in the puncture channel ( 100 , 110 ). 6. Mixer tap according to one of claims 1 to 5, characterized in that the closure piece ( 2 ) carries an O-ring ( 20 ) with which the sealing takes place in the closed position. 7. Mixer tap according to one of claims 1 to 6, characterized in that the closure piece ( 2 ) on the downstream end face carries a slot ( 21 ) or a polygonal profile for the approach of a turning tool.