Filter Element, Filter System Comprising a Filter Element, and Method for Producing a Filter Element

Abstract

A filter element has a filter body which is closed on at least one end face by an end disc, wherein the end disc is formed from a potting compound, and has a stabilization device which is surrounded at least in some areas by the potting compound. At least one data storage unit is arranged on or in the stabilization device.

Claims

1. A filter element or filtering a fluid, comprising: a filter body which is closed on at least one end face by an end disc; wherein the end disc is formed from a potting compound; a stabilization device surrounded by the potting compound of the end disc; wherein at least one contactless readable data storage unit is arranged on or arranged in the stabilization device and is at least partially surrounded by the potting compound.

2. The filter element according to claim 1, wherein the stabilization device has a central support tube at one end of which a stabilization ring is arranged that opens towards the support tube; wherein the stabilization ring has an end face and/or a radially outside lying sidewall.

3. The filter element according to claim 1, wherein the data storage unit is arranged in a receptacle formed as a recess in the stabilization device.

4. The filter element according to claim 3, wherein the data storage unit is fixed into the receptacle in the stabilization device before introducing the potting compound.

5. The filter element according to claim 3, wherein the data storage unit is latched, clamped or clipped to secure the data storage unit in the receptacle in the stabilization device.

6. The filter element according to claim 3, wherein the data storage unit is arranged on or within a radially outside lying sidewall of the stabilization ring.

7. The filter element according to claim 2, wherein the data storage unit is arranged on or in the end face of the stabilization ring.

8. The filter element according to claim 2, wherein the data storage unit is arranged on or in an outer wall of the support tube.

9. The filter element according to claim 1, wherein the data storage unit comprises a RFID transponder.

10. The filter element according to claim 1, wherein the potting compound is a foamed polyurethane.

11. An air filter system, comprising: at least one filter element according to claim 1; a filter housing in which the at least one filter element is arranged, the filter housing having an inlet and an outlet for the fluid; wherein the filter element includes a data storage unit; and wherein an antenna for electronically communicating with the data storage unit is arranged on the filter housing.

12. The air filter system according to claim 11, wherein the antenna is ring-shaped and arranged on one end face of the filter housing, the antenna arranged annularly around a longitudinal axis of the filter housing.

13. The air filter system according to claim 12, wherein the antenna is arranged to encompass the outlet.

14. A method for producing a filter element according to claim 1 for a filter system, wherein the filter element includes a data storage unit; and wherein the method comprises at least the steps: joining of a filter body with a stabilization device; arranging the data storage unit on or in the stabilization device; forming an end disc on at least one end face of the filter body by at least partially overmolding the stabilization device with a potting compound; wherein the data storage unit is at least partially surrounded by the potting compound.

15. The method according to claim 14, wherein the data storage unit is latched, clamped or clipped to secure the data storage unit into or onto the stabilization device.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0041] Further advantages will become apparent from the following drawing description. The drawings show examples of an embodiment of the invention. The drawings, the description and the claims contain numerous features in combination. A person of skill in the art will expediently consider the features also individually and combine them to other meaningful combinations. Examples are shown in:

[0042] FIG. 1 an example of an embodiment of a stabilization device with possible recesses for arranging a data storage unit according to an embodiment of the invention in isometric representation;

[0043] FIG. 2 a longitudinal section through a filter system according to an embodiment of the invention with inserted filter element;

[0044] FIG. 3 a detailed view of the end disc of the filter element according to FIG. 2;

[0045] FIG. 4 the filter system according to FIG. 2 in isometric representation with partially cut filter housing; and

[0046] FIG. 5 an overview of an overall system for electronically communicating between the data storage unit and the internal combustion engine according to an embodiment of the invention.

DETAILED DESCRIPTION

[0047] Identical or similar components in the figures have the same reference numerals. The figures only show examples and are not to be understood in a restrictive way.

[0048] FIG. 1 shows an example of an embodiment of a stabilization device 40 with possible recesses 32 for arranging a data storage unit 20 according to an embodiment of the invention in isometric representation. The stabilization device 40 features a central support tube 22 at one end of which a stabilization ring 30 is arranged that opens towards the support tube 22. The stabilization ring 30 features an end face 26, which is closed off radially outside lying by a side wall 24. The end face 26 is formed by stabilizing struts 18, which connect the central area of the support tube 22 to the sidewall 24.

[0049] The stabilization device is made of plastic. In the end face 26, in the side wall 24 and in the area of the support tube 22 adjacent to the stabilization ring 30, recesses 32 are arranged for mounting a data storage unit 20, which is not shown in the figure. The data storage unit 20 can, for example, be clipped or glued into the corresponding recess 32 serving as a receptacle for the data storage unit 20 and is thus securely fixed for the subsequent potting process.

[0050] FIG. 2 shows a longitudinal section through a filter system 100 according to an embodiment of the invention with inserted filter element 10. The filter system 100, which is designed as an air filter system, features a filter housing 110, which comprises two housing components 112, 114, in which the filter element 10 is arranged fluid-tightly between a raw side 60 and a clean side 62. The filter housing 110 features an inlet 102 concealed in the representation and a central outlet 104 for the fluid. The raw fluid flows towards the filter element 10 radially from the outside, which is filtered by the filter body 12 and discharged centrally inside the filter body 12 as clean fluid into the outlet 104.

[0051] The filter element 10 is closed on one end face 14 by an end disc 16, which is, similar to the opposite end disc 17, formed from a potting compound. The filter element 10 is supported in the filter housing 110 by both end discs 16, 17, which are provided with supporting elements by appropriate shaping during the potting process, inside the filter housing 110. A radial circumferential seal 50 is provided for sealing between clean side 62 and raw side 60 of the filter system 100. The seal 50 is fitted between a transition piece 52, which connects the central tube 54 and the outlet 104, and the filter housing 110. The central tube 54 is located centrally inside the filter element.

[0052] The filter element 10 features a stabilization device 40 which is at least partially surrounded by the potting compound. At least one data storage unit 20, for example an RFID transponder, which is surrounded at least partially by the potting compound, is arranged on or in the stabilization device 40. FIG. 2 shows a possible position of a data storage unit 20 in a recess 32 on the end face 26 of the stabilization ring 30 as well as on the radially outside lying sidewall 24 of the stabilization ring 30. Both positions are only alternatives. Only one data storage unit 20 is required to implement the function. The data storage unit 20 is positively arranged in the recess 32 of the stabilization device 40 before overmoulding it with the potting compound, thus fixing it before applying the potting compound. As an alternative, the data storage unit 20 can also be arranged on or in an outer wall 28 of the support tube 22.

[0053] The potting compound can advantageously comprise foamed plastic such as polyurethane (PUR). The stabilization device 40 can thus be at least partially overmoulded or foamed with the potting compound to form the end disc 16. Since the data storage unit 20 is arranged in or on the stabilization device, it can be expediently overmoulded or foamed.

[0054] The method for producing the filter element 10 comprises at least the steps:

[0055] Joining of the filter body 12 with at least the stabilization device 40,

[0056] Arranging the data storage unit 20 on or in the stabilization device 40, and finally

[0057] Forming the end disc 16 on at least the end face 14 of the filter body 12 by at least partially overmoulding the stabilization device 40 with the potting compound, wherein the data storage unit 20 is at least partially surrounded by the potting compound.

[0058] The overmoulding of the stabilization device 40 can advantageously be carried out by foaming a plastic. The data storage unit 20 is positively inserted into the stabilization device 40 before overmoulding so that it cannot float when overmoulding it with the potting compound.

[0059] An antenna 120 for electronically communicating with the data storage unit 20 is arranged on the filter housing 110. The antenna 120 is ring-shaped and arranged on the end face 106 of the filter housing 110 around the longitudinal axis L, encompassing the outlet 104. In this way, a sufficient field strength for electronically communicating with the data storage unit 20 can be achieved in both installation positions shown.

[0060] FIG. 3 shows a detailed view of the end disc 16 of the filter element 10 according to FIG. 2. The complete embedding of the data storage unit 20 into the overmoulded end disc 16 is clearly visible in this example. The stabilization device 40 with stabilization ring 30 consisting of stabilizing struts 18 and sidewall 24 accommodates the data storage unit 20 in the recess 32. The stabilization device 40 continues in the support tube 22, which protrudes from the cast end disc 16. Inside the support tube 22, the central tube 54 can be seen, which leads into the transition piece 52, which is sealed with the seal 50 against the first housing component 112.

[0061] FIG. 4 shows the filter system 100 according to FIG. 2 in isometric representation with partially cut filter housing 110. The first housing component 112 is cut in half so that the filter element 10 arranged inside can be seen. The round antenna 120 is arranged radially outside around the outlet 104 on the end face 106 of the first housing component 112. Schematically, FIG. 4 shows magnetic field lines 126 to illustrate the radiation characteristics of the antenna 120. If a current flows in the round antenna 120, the magnetic field lines 126 encompass the round antenna 120 with the current direction clockwise. Thus, it can be seen that the data storage unit 20 arranged in the sidewall 24 of the stabilization ring 30 is located in the area of the field lines 126, which enables the electronic communication between antenna 120 and data storage unit 20 in a favourable way.

[0062] FIG. 5 shows an overview of an overall system for electronically communicating between the data storage unit 20 and the internal combustion engine 130 according to an embodiment of the invention. The individual components of the overall system are shown schematically and not to scale. The filter system 100 is divided into the components filter housing 110, filter element 10 and data storage unit 20. The antenna 120 is not located directly on the filter housing 110, but is indicated as nearby, at least so close that the antenna 120 can establish with the field lines 126 the electronic communication to the data storage unit 20. The signals read out from the data storage unit 20 can then be recorded with the reading/recording device 122 and forwarded to the engine control unit 124. There the data can be processed further and forwarded to sensors and actuators of the internal combustion engine 130.

[0063] Data that can be stored in the data storage unit 20 can advantageously comprise production data in the as-delivered state of the filter element 10, such as batch number etc., to identify the filter element 10. However, operating data such as running time, machine type, load status and the like can also be stored in it. Thus, the control of the engine 130 can be adapted accordingly. The reading/recording device 122 for the data storage unit 20 can advantageously be integrated into the engine control unit 124.