DE102005036404A1 - Electromagnetic control, has inflow and outflow areas designed for fluid paths, where path of in flow area is downwardly guided via feedback channel to outflow areas and channel is formed in winding carrier - Google Patents

Abstract

The control has inflow and outflow areas designed for fluid paths in a common axial side of housing. The fluid path of the inflow areas is downwardly guided via an area of an armature and a feedback channel to the outflow areas. The feedback channel is integrally formed in a winding carrier (14). The armature is directly guided in the winding carrier. The winding carrier is made of sprayable plastic or metal material.

Description

The The present invention relates to an electromagnetic actuator according to the preamble of the main claim.

adversely in the generic art, known from the prior art, especially for a configuration in the context of an interconnection of several such Devices, is that inlets and outlets for the fluid to be switched on opposite Ends (in the axial direction) of the device are provided. This leads to complicated interconnections.

In addition is often the mechanical implementation of generic devices consuming because within a bobbin usually a separate armature guide tube is provided to the anchor unit in their relative movement to stationary Lead coil device.

task The present invention is the generic technology with a view to simpler connectivity through inflow and outflow lines to simplify and in addition to make the production easier and more suitable for serial production.

The The object is achieved by the device having the features of the main claim and the use according to the independent use claim 5 solved. Advantageous developments of the invention are described in the subclaims.

In According to the invention advantageously Way allows it the one-piece Realization of the coil carrier, that not only the winding can be fixed on this, but additionally and immediately the anchor guide (especially without intermediary anchor guide unit) can be done, and within the scope of the invention is advantageous and additionally within of the one piece Coil support, in the region of the anchor and ideally this laterally immediately adjacent, a return channel for the Fluid is formed so that from a common side of the device also the inflow and outflow of the fluid can take place. This will be a traditionally necessary external return line unnecessary.

simultaneously allows it the device, the coil carrier as an essential element suitable for mass production and reasonably priced by injection molding od. Like.

In addition will in the context of the present invention as belonging to the invention any feature claimed, which is apparent from the accompanying drawings and the associated Description singly or in combination, also with the adjacent ones claims, results.

Further Advantages, features and details of the invention will become apparent the following description of preferred embodiments and by reference the drawings; these show in:

1 a schematic sectional view through the bobbin according to a first preferred embodiment of the invention;

2 a sectional view along the section line KK in 1 ;

3 FIG. 4 is a sectional view taken along section lines H / D in the illustration of FIG 1 ;

4 FIG. 2: a sectional view along the section line EE in FIG 1 ;

5 FIG. 4 is a sectional view taken along the line FF in FIG 1 ;

6 : a sectional view analog 1 with representation of the armature in the de-energized state of the coil carrier (in contrast, shows 1 the energized state);

7 : a schematic diagram analog 1 to clarify the fluid flow through the switching state according to 1 and

8th : a schematic drawing analog 6 to clarify the fluid flow through the device in the switching state according to 6 ,

In the figures, the reference number illustrates 10 the fluid flow as a pressure line, the reference numeral 12 the outlet to the working line (corresponding, as shown in the figures, inflow and outflow on a common side of the device). The coil carrier body 14 is made in one piece as a plastic injection molded part in the manner shown and forms in addition to inflow and outflow 10 . 12 a centric leadership 17 for an anchor (shown schematically) 16 out, with the anchor 16 Made of magnetically conductive material by energizing the coil 18 is driven; the 1 shows the energized state of the coil and according to the timely movement stop of the anchor 16 , in contrast, shows the analog 6 the de-energized state with left-side stop state of the anchor 16 , which by means of a seal 20 the inflow 10 locked, but at the same time a venting the work management 12 opposite a vent outlet through a in the bobbin 14 formed return flow or return channel 22 allowed. In the de-energized state of 6 (respectively. 8th ) is the path along the anchor 16 and through a core 24 to the reflux channel 22 opened while the energized state ( 1 respectively. 7 ) by right-sided position of the anchor 16 and another there provided end seal 26 the return path through the core 24 or the channel 22 barred; Accordingly, the direct connection to the outlet takes place here 12 ,

Claims (5)

Electromagnetic actuator device with an axially guided in a housing, by energizing a on a coil carrier ( 14 ) provided coil device ( 18 ) and relative to this movable anchor unit ( 16 ), wherein the coil carrier forms a fluid path for fluid to be switched by means of the armature unit, characterized in that the coil carrier ( 14 ) is realized in one piece from a particularly sprayable plastic or metal material, an inflow ( 10 ) and an outflow area ( 12 . 22 ) for the fluid path on a common axial side of the housing and is arranged such that the fluid path downstream of the inflow region through a region of the anchor unit, in particular laterally of the anchor unit, and a return channel ( 22 ) is directed to the discharge area, wherein the return channel integrally into the coil carrier ( 14 ) is formed. Apparatus according to claim 1, characterized in that the return channel in the radial direction outwardly from an armature guide formed centrally in the coil carrier ( 17 ) is provided. Device according to claim 2, characterized in that that the fluid path as a plurality of radially outwardly facing and each other cross-section diametrically opposed channels is realized. Device according to one of claims 1 to 3, characterized in that the anchor unit ( 16 ) directly in the coil carrier ( 14 ), without a separate armature guide element, in particular armature guide tube, is provided. Use of the device according to one of claims 1 to 4 as a pneumatic valve or hydraulic valve.