Exchangeable Oil Filter With Spring-Operated Pin For Drainage

Abstract
The invention relates to a device for filtering of oil circulating in an internal combustion engine, comprising an oil filter adapter 2 for detachable fastening of an exchangeable oil filter 3 to the engine block 1 of the internal combustion engine. The invention is characterized in that the oil filter adapter 2 has a receptacle 13 with an inserted pin 14, the receptacle 13 having an outflow 10 for returning the oil flowing from the exchangeable oil filter 3, the receptacle 13 having a channel 11 which leads in particular to an oil pump, and the receptacle 13 having a drain 12 which leads in particular to the cylinder crankcase, the pin 14 being inserted elastically pretensioned such that during operation the pin 14 clears the outflow 10 and closes the channel 11 and the drain 12, and, when the exchangeable oil filter 3 is loosened from the oil filter adapter 2, the pin 14 is displaced by spring force and clears the outflow 10, the channel 11, and the drain 12. Furthermore the invention includes a pin which is designed for use in the device according to the invention.
Description

The invention relates to a device according to the preamble of claim 1.


Internal combustion engines of motor vehicles have exchangeable oil filters for cleaning the oil; they are connected to the internal combustion engine so that the oil from the internal combustion engine can circulate through the exchangeable oil filter and back again to the internal combustion engine. Exchangeable oil filters such as these, for example, have a filter insert which can be completely incinerated and are generally changed or replaced at fixed intervals together with the oil of the internal combustion engine. For this purpose the exchangeable oil filter has a thread for simple replacement, with which it can be inserted and screwed tightly into a corresponding opening of the oil filter adapter on the engine block of the internal combustion engine. In addition, seals for improving the seal before installing the exchangeable oil filter are used. Furthermore, exchangeable oil filters are known from the prior art which have a drainage pin.


But the disadvantage is that residual oil remains in the engine when the exchangeable oil filter is replaced.


Therefore the object of the invention is to make available a device in which residual oil does not remain in the engine when the exchangeable oil filter is replaced.


This object is achieved according to the invention in the characterizing features of the main claim. Advantageous embodiments of the invention are described by the dependent claims.


The invention is based on the elastically pretensioned pin acting as a valve which during operation, that is, when oil is circulating, holds an outflow open through which cleaned oil coming from the exchangeable oil filter is returned again to the engine; while a channel which leads in particular to the oil pump and a drain which leads to the crankcase are closed. If, however, the exchangeable oil filter is separated or removed from the oil filter adapter, the pin which acts as a valve automatically opens the channel which leads to the oil pump and the drain which leads to the cylinder crankcase so that a first connection from the outflow to the drain and a second connection from the channel to the drain are cleared, so that the residual oil in die region of the outflow and in the region of the channel as well as within the pin can automatically run out, i.e., under the action of gravity.





One embodiment of the invention is explained below using the drawings.



FIG. 1 shows in a sectional view an engine block with an oil filter holder into which a pin is inserted and to which an exchangeable oil filter is attached in its mounting position,



FIG. 2 shows in a sectional view an engine block with an oil filter holder into which a pin is inserted, in which in contrast to FIG. 1 an exchangeable oil filter has been loosened for replacement,



FIG. 3 shows a perspective view of a pin.





Reference is made first to FIGS. 1 and 3.


The engine block 1 of an internal combustion engine has an oil filter adapter 2 which can be mounted detachably or non-detachably on the engine block 1. Above the engine block 1 an exchangeable oil filter (shown in a section) is detachably mounted, for example, by means of a thread and, for example, has a filter insert (not shown) which can be completely incinerated. The exchangeable oil filter 3 has an inlet 4 and an outlet 5 which are both pointed down, the outlet 5 being located on a connecting piece which projects in the screw-in direction 6.


The engine block 1 furthermore has a first space 7 with an inflow 8 which establishes a connection to an oil pump (not shown) for the circulating oil. A second space 9 of the engine block 1 is located above the first space 7 and establishes a connection to the inlet 4 of the exchangeable oil filter 3 for the circulating oil.


The oil filter adapter 2 has a receptacle 13 which has an annularly made collar 15 on which a pin 14 which is inserted in the receptacle 13 rests. The receptacle 13 of the oil filter adapter 2 has an outflow 10 through which oil coming from the exchangeable oil filter 3 can be returned to the engine. Underneath the outflow 10 there is a channel 11 which can establish a connection from the receptacle 13 to the first space 7 of the engine block 1. Furthermore the receptacle 13 of the oil filter adapter 2 has a drain 12 which is located underneath the channel 11 and which can establish a connection to the cylinder crankcase (not shown).


The pin 14 in the receptacle 13 consists essentially of a base body of cylindrical shape and has a passage 16 which establishes a connection to the outlet 5 of the exchangeable oil filter 3 for the circulating oil. The passage 16 of the pin 14 is connected to a plurality of slot-like radial openings 17 so that oil from the outlet 5 of the exchangeable oil filter 3 can flow through the passage 16 and the radial openings 17 of the pin 14 to the outlet 10.


On its lower end (see FIG. 3) the pin 14 has a first seal 18 and a second seal 19, the first seal 18 of the pin 14 and the receptacle 13 being made such that in the mounting position shown in FIG. 1 the channel 11 is closed. Furthermore the second seal 19 and the receptacle 13 are made such that the drain 12 is closed in the mounting-position shown in FIG. 1.


The pin 14 (see FIG. 3) on its upper end has a contact surface 20 and underneath it an annularly made bearing surface 21. Between the contact surface 20 and the bearing surface 21 of the pin 14 there is a helical spring which is dynamically connected to the contact surface 20 and the bearing surface 21 such that the helical, spring 22 can be compressed by reducing the distance between the contact surface 20 and the bearing surface 21. The helical spring 22 can, for example, have a diameter of 23×2 mm. Instead of the helical spring 22, however, other suitable spring elements can also be used. Furthermore the pin 44 has three stop means 23 which are spaced uniformly on the periphery of the bearing surface 21, which are made in the shape of projections and in the positions shown in FIG. 3 adjoin the bearing surface 21 and prevent further release of the helical spring 22.


In the mounting position (see. FIG. 1) the contact surface 20 is in contact with the connecting piece 6 of the exchangeable oil filter 3 while the annular bearing surface 21 engages the corresponding collar 15. In this mounting position the helical spring 22 is compressed so that the helical spring 22 is elastically pretensioned, for example, with 15 mm.


During operation, with the channel 11 closed and the drain 12 closed, the oil which is under a pressure p1 flows out of the inflow 8, for example, coming from an oil pump, into the first space 7 from which the oil is routed, for example, through an oil cooler (not shown). Coming from the oil cooler the oil which is under a pressure p2 flows into the second space 9, from which it is routed through the inlet 4 into the exchangeable oil filter 3. The oil leaving the exchangeable oil filter 3 through the outlet 5 is under a pressure p3, p3<p2<p1 applying to the ratio of the magnitudes of the pressures p1 to p3. From the outlet 5 of the exchangeable oil filter 3 the circulating oil flows down through the pin 14 with its passage 16 and the radial openings 17 into the channel 11 and is then routed to the engine.


At this point reference is additionally made to FIG. 2.


When the exchangeable oil filter 3 is loosened, for which, for example, several turns are necessary, the position of the exchangeable oil filter 3 shown in FIG. 2 is reached. In this position the helical spring 22 of the pin 14 is relieved so that in the unscrewing direction of the exchangeable oil filter 3 the pin 14 is automatically displaced axially.


As a result of this motion, the first seal 18 of the pin 1 no longer closes the channel 11 so that residual oil 11 which is located in the channel 11 and/or in the first space 7 can automatically travel to the drain 12 which is likewise opened by this motion. The second seal 19 as a result of this motion furthermore no longer closes the outflow 10 so that the residual oil which is located in the outflow 10 can likewise travel automatically past the opened first seal 18 to the drain 12. Furthermore, the residual oil which is located in the receptacle 13 or within the pin 14, for example, in the passage 16, can run out automatically through the drain 12 through which the residual oil can travel into the cylinder crankcase (not shown). When the residual oil has run out, the exchangeable oil filter 3 can be removed.


Finally, a new exchangeable oil filter 3 is mounted and screwed tight so that again the position shown in FIG. 1 is reached. The pin 1 is designed such that when the new exchangeable oil filter 3 is mounted, first roughly 2 turns of the thread engage and then, as turning continues, the face surface of the connecting piece 6 comes into contact with the pin 1 and then the pin 1 is displaced against the spring 22.


REFERENCE NUMBER LIST




  • 1 engine block


  • 2 oil filter adapter


  • 3 exchangeable oil filter


  • 4 inlet


  • 5 outlet


  • 6 connecting piece


  • 7 first space


  • 8 inflow


  • 9 second space


  • 10 outflow


  • 11 channel


  • 12 drain


  • 13 receptacle


  • 14 pin


  • 15 collar


  • 16 passage


  • 17 radial opening


  • 18 first seal


  • 19 second seal


  • 20 contact surface


  • 21 bearing surface


  • 22 helical spring


  • 23 stop means


Claims
  • 1. A device for filtering of oil circulating in an internal combustion engine, comprising an oil filter adapter (2) for detachable fastening of an exchangeable oil filter (3) to the engine block (1) of the internal combustion engine, characterized in that the oil filter adapter (2) has a receptacle (13) with an inserted pin (14), the receptacle (13) having an outflow (10) for returning the oil flowing from the exchangeable oil filter (3), the receptacle (13) having a channel (11) which leads in particular to an oil pump, and the receptacle (13) having a drain (12) which leads in particular to the cylinder crankcase, the pin (14) being inserted elastically pretensioned such that during operation the pin (14) clears the outflow (10) and closes the channel (11) and the drain (12), and, when the exchangeable oil filter (3) is loosened from the oil filter adapter (2), the pin (14) is displaced by spring force and clears the outflow (10), the channel (11) and the drain (12).
  • 2. The device according to claim 1, characterized in that in the inserted state the pin (14) can be axially displaced in the direction of the loosening motion when the exchangeable oil filter (11) is loosened.
  • 3. The device according to claim 1 or 2, characterized in that the spring force is made available by a helical spring (22).
  • 4. The device according to one of claims 1 to 3, characterized in that the pin (14) has a bearing surface (21) which is made for interaction with a connecting piece (6) of the exchangeable oil filter (3).
  • 5. The device according to one of claims 1 to 4, characterized in that the pin (14) has a first seal (18) which during operation is located between the channel (11) and the drain (12) and that the pin (14) has a second seal (19) which is located between the outflow (10) and the channel (11) during operation.
  • 6. The device according to one of claims 1 to 5, characterized in that the outflow (10) is located above the channel (11) and that the channel is located above the drain (12).
  • 7. The device according to one of claims 1 to 6, characterized in that with the outflow (10), channel (11), and drain (12) cleared the oil can essentially drain automatically.
  • 8. A pin which is designed to be used in a device according to one of claims 1 to 7.
Priority Claims (1)
Number Date Country Kind
11/065082 Feb 2005 US national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/EP06/11450 11/29/2006 WO 00 10/20/2008