DE102009021900A1 - Fluidic control component - Google Patents

Abstract

The invention relates to a fluid control component with a main body. The invention is characterized in that the base body is formed from a plastic material.

Description

The The invention relates to a fluid control component with a basic body.

fluid Power Control components are mainly used in the automotive sector Made of aluminum. Control plates can be made, for example, in die-cast aluminum or from solid blocks be made.

task The invention is the production cost of fluid technology To reduce control components with a basic body.

The Task is with a fluid control component with a basic body solved by that the main body is formed of a plastic material. In the fluidic Control component is preferably a hydraulic Control component, such as a control plate or a valve plate with a valve spool or an actuator plate with an actuator.

One preferred embodiment the fluidic control component is characterized that the main body is formed of a thermosetting plastic material. The thermoset Plastic material allows with high accuracy sufficient thermal stability. The thermoset Although raw material is more expensive than aluminum, due to the omission of a However, the basic body can be far cheaper be prepared as a machined aluminum plate. About that In addition, weight and thus a large part of the raw part costs can be saved become.

One Another preferred embodiment the fluidic control component is characterized that the main body molded from the plastic material and / or pressed. The main body is preferably executed tool falling or finished.

One Another preferred embodiment the fluidic control component is characterized that the fluid power control component as a hydraulic control component with a system pressure of 20 to 35 bar. The inven tion proper control component finds preferably in dual-clutch transmissions with system pressures around 20 bar application.

One Another preferred embodiment the fluidic control component is characterized that the main body a channel plate with channels includes. The channels allow one defined passage of hydraulic medium.

One Another preferred embodiment the fluidic control component is characterized that the main body at least one recording room for at least one in the receiving space movable back and forth control element or actuator comprises. The recording room basically has the shape of a straight circular cylinder. The shape of the control element is adapted to the shape of the recording room.

One Another preferred embodiment the fluidic control component is characterized that the control element or actuator in a sleeve out and is movable forth, which in turn received in the receiving space is. A valve with a in a sleeve reciprocally accommodated Control element is also referred to as a cartridge valve. In the cartridge valve can be an electromagnet integrated.

One Another preferred embodiment the fluidic control component is characterized that the main body a valve plate comprising a valve spool. The valve spool, designed as a valve piston can be made of aluminum, for example.

One Another preferred embodiment the fluidic control component is characterized that the main body an actuator plate comprising at least one actuator, which in one Aktoraufnahmeraum is movable back and forth. Acting at the actor It is for example a switching piston of a gear actuator.

A further preferred embodiment of the fluid power control component is characterized in that the actuator is guided by means of at least one barrel sleeve movable back and forth in the Aktoraufnahmeraum. Preferably, the two ends of the actuator are each in a barrel sleeve and guided movable.

One Another preferred embodiment the fluidic control component is characterized that the Aktoraufnahmeraum is closed by a lid. The preferably removable lid simplifies the insertion of the Actors in the recording room.

One Another preferred embodiment the fluidic control component is characterized that the lid is formed of a plastic material. Preferably the lid is also made of a thermosetting plastic material educated.

One Another preferred embodiment the fluidic control component is characterized that the lid has at least one opening having. The opening allows a shift fork the penetration. The shift fork serves to the Actuator to operate.

One Another preferred embodiment the fluidic control component is characterized that the actuator is designed as a switching piston with at least one groove. The groove creates a possibility of intervention for the Shift fork.

One Another preferred embodiment the fluidic control component is characterized that in the main body inserts are embedded. The threaded inserts are preferably made of one formed metallic material.

One Another preferred embodiment the fluidic control component is characterized that in the main body Nuts are inserted. The nuts are preferably also made of metal.

Further Advantages, features and details of the invention will become apparent in the following description, with reference to FIGS Drawing various embodiments are described in detail. Show it:

1 a main body of a fluid power control component in longitudinal section through a receiving space according to a first embodiment;

2 a similar body as in 1 according to a second embodiment;

3 a main body of a fluid power control component according to a third embodiment in plan view;

4 the view of a section along the line IV-IV in 3 and

5 the main body out 3 in a side view from the left.

In 1 is a basic body 1 a hydraulic control component in longitudinal section through a receiving space 4 shown. The recording room 4 has been presented with a slightly wavy surface to make it clear that this surface is no longer machined.

In the recording room 4 is an actuator or control element 18 moved back and forth. At the actuator 18 it is a valve spool 19 , the four league 21 to 24 has, which cooperate with (not shown) terminals. At one end of the valve spool 19 is a guide pin 26 for a valve spring 28 educated. The valve spring 28 serves to the valve slide 19 against a magnet 30 to bias, with the help of the valve spool 19 against the biasing force of the valve spring 28 in the recording room 4 is movable.

The valve plate 2 with the valve slide 19 and the magnet 30 represents a longitudinal slide valve, which is also referred to as a piston valve. The longitudinal slide valve is a directional control valve with various connections and switching positions.

In 2 is a similar basic body 41 as in 1 shown in longitudinal section. The main body 41 includes a valve plate 42 with a recording room 44 that is slightly larger than the recording room 4 the in 1 illustrated valve plate 2 is. The recording room 44 is shown with a slightly wavy surface has been made to make it clear that this surface is no longer machined.

In contrast to the previous embodiment is in the receiving space 44 a sleeve 46 added. The sleeve 46 limits an annulus in the receiving space 44 that by sealing elements 47 . 48 . 49 is divided. Through these subdivisions connection areas are created, which fulfill the same function as connecting grooves in conventional longitudinal slide valves. In the sleeve 46 is an actuator 18 in the form of a valve spool 19 moved back and forth, with a spring 28 and a magnet 30 just like the one in 1 illustrated embodiment.

For valves with low valve leakage requirements, it is possible to use the valve spool or valve spool 19 how to get in 1 sees to run directly in the tool-made receiving space. The ripple of the recording room 4 is exaggerated to the comparison between the tool-receiving space produced 4 and a conventional machined bore. For valves with higher requirements it is necessary to use a sleeve 46 to use as they are in 2 is shown.

According to an essential aspect of the invention, the valve plates 2 ; 42 molded or pressed from a duroplastic plastic material. In so-called slide boxes there are screw connections in several places. On the one hand, control plates or valve plates and / or channel plates must be screwed together. On the other hand, other components, such as magnets, have to be screwed on. In order to realize these screw connections in a thermosetting plastic material, there are various possibilities.

To the one can for thermosets known special screws are used. Alternatively, threaded inserts can already be placed in an injection mold, which is used to manufacture the Plate serves. Alternatively you can the threaded inserts later be used in tool-receiving bores.

The Screwing the plates against each other should, if only one plate made of a thermosetting plastic material and the other plate Made of aluminum, be careful that the threads be produced in the plate of aluminum. In this way can Problems with the screw connection can be reduced. If both plates are formed from a thermosetting plastic material, then can resorted to the previously described Verschraubungsmöglichkeiten become. One more way results from inserting nuts on the back a plate. Corresponding recesses for the nuts can do so be construed that when tightening the screws no resistance is required.

In the 3 to 5 is a basic body 51 a hydraulic control component according to another embodiment of the invention in various views. In this embodiment, it is an actuator plate 52 a geared actuator. In the actuator plate 52 are a total of four equally trained recording rooms 54 to 57 spared. In each of the recording rooms 54 to 57 is an actor 60 moved back and forth. At the actor 60 it is a switching piston 61 that with the help of two barrel sleeves 63 . 64 in the associated recording room 55 is guided back and forth movable.

The two receiving spaces in the actuator plate 52 are open and by a common cover 66 closable. In the same way are the two recording rooms 56 . 57 through another lid 68 closable. On the control piston 61 is an annular groove 69 provided by a recess 70 through the lid 66 is accessible from the outside. The recess 70 allows a shift fork the penetration to the annular groove 69 , The shift fork engages in the mounted state so in the annular groove 69 one that the associated control piston 61 via the shift fork (not shown) can be actuated. The lids 66 . 68 are each with the help of six screws 72 on the actuator plate 52 attached.

According to a further aspect of the invention, both the actuator plate 52 as well as the lids 66 . 68 formed from a thermosetting plastic material. The actuator plate 52 can, as well as in the 1 and 2 illustrated valve plates 2 and 42 , equipped with channels that allow the passage of hydraulic medium. The channels are produced according to a further aspect of the invention directly in the manufacture of the respective parts of the thermosetting plastic material.

According to a further essential aspect of the invention, the illustrated control plates or valve plates 2 ; 42 , the actuator plate 52 and the lids 66 . 68 and optionally the valve slide about 19 and the actors 60 tool falling or executed precipitated. This means that the plastic parts fall after the transfer molding and / or injection molding from the tool and do not need to be further processed. LIST OF REFERENCES 1 body 54 accommodation space 2 valve plate 55 accommodation space 4 accommodation space 56 accommodation space 11 section 57 accommodation space 12 section 60 actuator 13 section 61 switching piston 14 section 63 running sleeve 15 section 64 running sleeve 18 actuator 66 cover 19 valve slide 68 cover 21 Federation 69 ring groove 22 Federation 70 recess 23 Federation 72 screw 24 Federation 26 guide pin 28 valve spring 30 magnet 41 body 42 valve plate 44 accommodation space 46 shell 47 sealing element 48 sealing element 49 sealing element 51 body 52 actuator plate

Claims (16)

Fluidic control component with a basic body ( 1 ; 41 ; 51 ), characterized in that the basic body ( 1 ; 41 ; 51 ) is formed of a plastic material. Fluidic control component according to claim 1, characterized in that the basic body ( 1 ; 41 ; 51 ) is formed of a thermosetting plastic material. Fluidic control component according to one of the preceding claims, characterized in that the basic body ( 1 ; 41 ; 51 ) is injected and / or pressed from the plastic material. Fluidic control component according to one of previous claims, characterized in that the fluidic control component as a hydraulic control component with a system pressure of 20 to 35 bar executed is. Fluidic control component according to one of the preceding claims, characterized in that the basic body ( 1 ; 41 ; 51 ) comprises a channel plate with channels. Fluidic control component according to one of the preceding claims, characterized in that the basic body ( 1 ; 41 ; 51 ) at least one recording room ( 4 ; 44 ; 54 - 57 ) for at least one in the receiving space movable back and forth control element or actuator ( 18 ). Fluidic control component according to one of claims 6 to 8, characterized in that the control element or actuator ( 18 ) in a sleeve ( 46 ) is movable back and forth, which in turn is received in the receiving space. Fluidic control component according to one of the preceding claims, characterized in that the basic body ( 1 ; 41 ) a valve plate ( 2 ; 42 ) with a valve slide ( 19 ). Fluidic control component according to one of the preceding claims, characterized in that the basic body ( 51 ) an actuator plate ( 52 ) with at least one actuator ( 60 ) located in an actuator accommodation room ( 54 - 57 ) is movable back and forth. Fluidic control component according to the preceding claim, characterized in that the actuator ( 60 ) by means of at least one barrel sleeve ( 63 . 64 ) movable in the Aktoraufnahmeraum ( 55 ) is guided. Fluidic control component according to one of claims 12 to 13, characterized in that the Aktoraufnahmeraum ( 54 - 57 ) through a lid ( 66 . 68 ) is closed. Fluidic control component according to the preceding claim, characterized in that the cover ( 66 . 68 ) is formed of a plastic material. Fluidic control component according to the preceding claim, characterized in that the cover ( 66 . 68 ) at least one opening ( 70 ) having. Fluidic control component according to one of claims 12 to 16, characterized in that the actuator ( 60 ) as a control piston ( 61 ) with at least one groove ( 69 ) is executed. Fluidic control component according to one of the preceding claims, characterized in that in the main body ( 1 ; 41 ; 51 ) Threaded inserts are embedded. Fluidic control component according to one of the preceding claims, characterized in that in the main body ( 1 ; 41 ; 51 ) Nuts are inserted.