DE202021105422U1 - Actuator for a hydraulic valve and hydraulic valve - Google Patents

Abstract

Actuator (10) for a hydraulic valve (12), in particular for a hydraulic directional control valve or pressure control valve for a motor vehicle, with an actuator housing (17) which encloses a magnetic coil (16), and with one in a housing receiving opening (23) of the actuator housing ( 17) arranged pole group (24), wherein the pole group (24) comprises at least one pole core (28) and a pole tube (30), and wherein an axially movable armature (40) is arranged in an interior (36) of the pole group (24) , and the armature (40) being axially movable with the aid of a pin (48) which is axially movably received and mounted in the pole group (24), a movable piston (15) of the hydraulic valve (12) and a passage opening (56) for the flow of Hydraulic fluid, with a damping insert (72) being arranged in the passage opening, which has a cross-shaped or star-shaped cross section.

Description

Technical area

The invention relates to an actuator for a hydraulic valve and a hydraulic valve, in particular a hydraulic directional control valve or pressure control valve for a motor vehicle.

State of the art

It is known to use electromagnetic actuators for the axial movement of a piston, for example a piston of a hydraulic directional control valve or pressure control valve, a hydraulic valve. The actuator has an armature which is received in an essentially hollow-cylindrical pole group so as to be axially movable. The armature can thus move axially in the cylindrical space enclosed by the pole group, this space being filled with hydraulic fluid. The space is essentially closed, i.e. This means that when the armature moves, the hydraulic fluid must flow from one side of the armature to the other side of the armature, which leads to a pressure loss. This creates a force on the armature which is directed against the movement of the armature and which is speed-dependent and is referred to as damping. So that the dynamic stability of the movement of the armature can be controlled, it is necessary for the damping to be adjustable. Furthermore, no undesirable high damping should occur, since this affects the dynamics and thus the operation of the hydraulic valve. The movement of the armature is transmitted to the piston of the hydraulic valve with the aid of an axially movable pin, the pin preferably being in operative connection with the piston through surface or point contact.

From the published patent application DE 10 2011 053 033 A1 an actuator is known which has a damping element fixed in a through opening that penetrates the armature completely in the axial direction, the damping element being designed in the form of a disk which has a through-opening in the area of the through-opening. The damping element is pressed into the through-opening with the aid of webs which protrude into the through-opening. The pin is made in one piece with the piston.

The patent specification DE 10 2006 054 941 B3 an actuator can be removed which has a pin received in an armature of the actuator, the armature having a damping element in the form of a pressure compensation opening for damping. The pin has a non-stick element which is designed to release the pressure equalization opening received in the armature.

From the published patent application DE 10 2009 049 109 A1 shows an actuator which has a non-stick element made in one piece with a pin, the pin and the damping element being made from sheet metal. To fix it in the anchor, the pin has clip elements that establish a firm connection with the anchor. The damping element is implemented in the form of a pin that can flow through.

Disclosure of the invention

One object of the invention is to provide an actuator which is inexpensive to manufacture and at the same time has a high control quality. Another task is to specify a cost-effective and easily controllable hydraulic valve.

The aforementioned objects are achieved with the features of claim 1 or with the features of claim 9. Favorable configurations and advantages of the invention emerge from the further claims, the description and the drawing.

An actuator for a hydraulic valve, in particular for a hydraulic directional control valve or pressure control valve for a motor vehicle, is proposed, with an actuator housing which encloses a magnetic coil. A pole group is arranged in a housing receiving opening of the actuator housing, the pole group comprising at least one pole core and one pole tube. An axially movable armature is arranged in an interior space of the pole group, the armature embodies a movable piston of the hydraulic valve so that it can move axially with the aid of a pin which is axially movably received and mounted in the pole group and has a passage opening for hydraulic fluid to flow through. According to the invention, a damping insert is arranged in the passage opening which has a cross-shaped or star-shaped cross section. With such a cross section, the flow rate of the hydraulic fluid and thus the damping can be adapted in a simple manner to predetermined parameters of the actuator.

The damping insert can preferably be provided pressed into the passage opening, which enables an armature assembly to be manufactured easily.

According to an advantageous embodiment of the invention, inexpensive production is achieved by producing the damping insert from a sintered material.

According to an advantageous development, the pin has at least one anti-loss device. This loss protection secures the pen Assemble the actuator before falling out. The protection against loss can be provided in a simple manner, for example, by means of at least one widening of the outer diameter of the pin.

If the expansion of the outer diameter is provided in the region of a recess in the pole group, the installation space for the actuator can be kept small.

According to a further advantageous embodiment of the invention, the actuator has a non-stick element. The non-stick element prevents the magnetizable armature from sticking to the magnetizable pole core. The non-stick element can preferably be designed in the form of a disk and be designed in one piece with the pin or the damping insert.

The actuator thus advantageously has a simple structure overall, which is also significantly reduced in its production costs by reducing production steps and components.

According to a further aspect, the invention relates to a hydraulic valve comprising a control valve and an actuator which moves the control valve, the actuator being designed according to one of Claims 1 to 8. The hydraulic valve advantageously has the advantages assigned to the actuator, as a result of which a well controllable hydraulic valve can be implemented, which can furthermore be produced inexpensively.

Figure list

• Es zeigt beispielhaft 1 in einem Längsschnitt einen erfindungsgemäßen Aktuator für ein Hydraulikventil.

Further advantages emerge from the following description of the drawings. An exemplary embodiment of the invention is shown in the drawing. The drawing, the description and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

• It shows by way of example 1 in a longitudinal section an actuator according to the invention for a hydraulic valve.

Embodiments of the invention

The figures show only examples and are not to be understood as restrictive.

In 1 is an actuator in a longitudinal section 10 a hydraulic valve 12th shown. The hydraulic valve 12th , which starting from the actuator 10 is shown reduced in its components designed for hydraulic function, further comprises a control valve 13th with a housing 14th , which has connections not shown. In the case 14th is a hydraulically flowable piston 15th arranged, which is axially displaceable in the housing for releasing and closing the connections and associated flow openings 14th is recorded. The piston 15th is made with the help of the actuator 10 axially positioned.

The actuator 10 includes an actuator housing 17th , which is a solenoid 16 on their outer circumference 18th and on at least one of their end faces 20th encloses. The solenoid 16 is in a carrier body 22nd , preferably made of plastic, for reasons of electrical insulation, embedded or cast. The one with the solenoid 16 equipped carriers 22nd is in a housing receiving opening 23 of the actuator housing 17th recorded.

The carrier body 22nd is between the solenoid 16 and a pole group 24 arranged, he being the pole group 24 over their outer surface 26th at least partially included.

The pole group 24 , which is designed as a hollow cylinder in this embodiment, is formed from a pole core 28 and a pole tube 30th , which in the axial direction with each other with the help of a connecting web 32 are connected. The pole core 28 , the pole tube 30th and the connecting bridge 32 are made in one piece. The pole core 28 is the piston 15th arranged facing, whereas the pole tube 30th which on the piston 15th facing away from the end face of the pole group 24 from the piston 15th is arranged facing away. An end cover 66 closes the actuator housing 17th .

The connecting bridge 32 is designed as a hollow cylinder and is on its the pole core 28 facing trained side with a pole core cone 34 connected. Likewise is the connecting bridge 32 on his the pole tube 30th facing trained side with a pole tube cone 35 of the pole tube 30th connected. It could also be just one of the cones 34 ; 35 be trained. In an interior 36 the pole group 24 which has a longitudinal axis 38 has is an anchor 40 in the direction of the longitudinal axis 38 movably recorded.

The actuator housing is used to simplify assembly 17th designed as a hollow cylinder and has the piston in the area of its 15th facing trained end a the pole core 28 comprehensive pole disc 42 on, which is in the axial direction of the carrier body 22nd and the actuator housing 17th Is arranged in a supporting manner. Likewise, the pole disc could 42 also in the actuator housing 17th be pressed in.

The advantage is that the actuator housing 17th hat-shaped, or in other words pot-shaped, and wherein the Solenoid 16 load-bearing bodies 22nd simply into the actuator housing 17th can be inserted and this with the pole disc 42 that are used to accommodate the pole group 24 is designed, can be covered.

The interior filled with hydraulic fluid 36 , which can also be referred to as the armature space, is opposite the piston 15th with the help of a bearing washer 44 essentially closed. The bearing washer 44 - also called pole plug - is in addition to limiting the axial movement of the armature 40 to avoid excessive leakage from inside 36 arranged hydraulic fluid received. So the hydraulic fluid, which is used for the low-friction movement and damping of the armature 40 is provided, although the hydraulic piston via corresponding movement gaps 15th and / or cross the housing, however, with the help of the bearing washer 44 prevents excessive or complete emptying.

At this point it should be noted that the bearing washer 44 even after possible one-piece production of the at least consisting of pole tube 30th , Pole core 28 and connecting bridge 32 trained pole group in the pole core 28 can be joined, thereby producing the in the bearing washer 44 lying bearing point is further simplified. A one-piece pole group also improves the coaxiality of the components.

The piston 15th is with the anchor 40 executed operatively connected, where he with his the anchor 40 facing trained face 46 on one axially along the longitudinal axis 38 movable pen 48 , which is in the form of a cylindrical pin, is formed adjacent. The pencil 48 is due to his from the piston 15th facing away trained pin surface 50 on a non-cut damping insert described in more detail below 72 on, which in a passage opening 56 of the anchor 40 is arranged. Thus there is an axial movement of the armature 40 on the valve piston 15th transferable.

The bearing washer 44 is next to the secure storage of the pen 48 provided and is used to spatially separate the magnetic part and the hydraulic part of the hydraulic valve 12th and is preferably by means of a press fit and a flush finish with the pole group 24 in the receiving opening 18th recorded.

The displacement of the anchor 40 takes place electromagnetically, the magnetic coil being used to apply an electromagnetic field 16 is trained. An energization of the magnet coil 16 leads to the axial displacement of the piston 15th , being on one of the face 46 facing away formed further end face of the piston 15th , a retaining element, for example in the form of a helical spring, a retaining force on the piston 15th exerts against which the piston 15th is to be postponed.

In the illustrated position of the anchor 40 is between the anchor 40 and the bearing washer 44 an annular space 58 in the interior 36 educated. This room 58 is via the flow opening 56 of the anchor 40 and the cushioning insert 72 with an annular further space 62 in the interior 36 connected through flow, the further space 62 on one of a first anchor face 54 facing away formed second anchor face 64 of the anchor 40 between the other anchor face 64 and one the interior 36 on that of the bearing washer 44 remote end with the help of the end cover 66 is limited. This means that there is always a pressure equalization between the rooms 58 , 62 in front of and behind the anchor 40 is possible. So the anchor must 40 only a shift work due to the piston 15th when the piston moves 15th into that of the actuator 10 Exercise away from the direction and thus points to the adjustment of the piston 15th a fast response time.

The cushioning insert 72 which in 1 is not shown in section, is formed with a cross or star-shaped cross section. That is, the cushioning insert 72 has several evenly distributed webs directed radially outward from its longitudinal axis 76 on. The bridges 76 run axially in the direction of the longitudinal axis 38 of the actuator 10 and thus form fluid channels 78 which allow the hydraulic fluid to flow between the spaces 58 and 62 are provided. With such a cross section, the flow rate of the hydraulic fluid and thus the damping can be adjusted to predetermined parameters of the actuator in a simple manner 10 be adjusted. This can be done by the number of ridges 76 and / or their thickness vary. Also the control quality of the actuator 10 and thus the valve 12th can be improved as a result.

The damping insert is advantageous 72 , which is designed, for example, inexpensively as a sintered component, into the passage opening 56 provided pressed in, so that a simple production of an anchor assembly is made possible.

The pencil 48 has at least one protection against loss in the form of an expansion of the outer diameter 74 on which the pen 48 after assembling the actuator 10 secures against falling out. How out 1 can be seen is the expansion of the outer diameter 74 or are the two outer diameter expansions 74 in the area of a recess 80 the Pohlgruppe 24 arranged provided so that the installation space of the actuator 10 can be kept low.

The actuator 10 may also have a non-stick element, not shown, which allows the magnetic gluing of the magnetizable armature 40 on the magnetizable pole core 28 or the bearing washer 44 prevented. For example, the non-stick element can be designed in the form of a disk and in one piece with the pin 48 or the damping insert 72 be trained.

The actuator 10 Overall, it advantageously has a simple structure, which is also significantly reduced in its production costs by reducing production steps and components.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102011053033 A1 [0003]
• DE 102006054941 B3 [0004]
• DE 102009049109 A1 [0005]

Claims (9)

Actuator (10) for a hydraulic valve (12), in particular for a hydraulic directional control valve or pressure control valve for a motor vehicle, with an actuator housing (17) which encloses a magnetic coil (16), and with one in a housing receiving opening (23) of the actuator housing ( 17) arranged pole group (24), wherein the pole group (24) comprises at least one pole core (28) and a pole tube (30), and wherein an axially movable armature (40) is arranged in an interior (36) of the pole group (24) , and the armature (40) being axially movable with the aid of a pin (48) which is axially movably received and mounted in the pole group (24), a movable piston (15) of the hydraulic valve (12) and a passage opening (56) for the flow of Hydraulic fluid, with a damping insert (72) being arranged in the passage opening, which has a cross-shaped or star-shaped cross section. Actuator (10) Claim 1 , characterized in that the damping insert (72) is provided pressed into the passage opening (56). Actuator (10) according to one of the preceding claims, characterized in that the damping insert (72) is provided made from a sintered material. Actuator (10) according to one of the preceding claims, characterized in that the pin (48) has at least one anti-loss device. Actuator (10) Claim 4 , characterized in that the pin (48) has at least one outer diameter widening (74) to prevent it from being lost. Actuator (10) Claim 5 , characterized in that the outer diameter widening (74) is provided arranged in the region of a recess (80) of the pole group (24). Actuator (10) according to one of the preceding claims, characterized in that the actuator (10) has a non-stick element. Actuator (10) Claim 7 , characterized in that the non-stick element is disc-shaped and is formed in one piece with the pin (48) or the damping insert (72). Hydraulic valve, comprising a control valve and an actuator (10) moving the control valve, the actuator (10) according to one of the Claims 1 until 8th is trained.

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