KR102403902B1 - Oil filter apparatus - Google Patents

Abstract

An oil filter device is disclosed. In the oil filter device according to an embodiment of the present invention, a deformation preventing unit may be provided in the oil filter housing to prevent thermal deformation due to thermal expansion.

Description

Oil filter apparatus

The present invention relates to an oil filter device for preventing oil leakage and stable operation of an oil filter provided in a vehicle.

In general, a vehicle is provided with an engine for generating a driving force in the vehicle, a fuel line for supplying fuel to the engine, and an engine oil supply line for supplying engine oil for stable operation of the engine.

The internal combustion engine used as a power source for automobiles and the like must use engine oil, which is a lubricating oil, for smooth operation of sliding parts, such as each rotating part and friction part, to prevent wear due to friction.

The engine oil is stored in the oil pan at the bottom of the engine and filtered through the engine oil filter by pumping the oil pump. it works Then, it is returned to the oil pan with contaminants such as engine wear and tear.

In this series of processes, it filters pollutants such as iron powder generated from each sliding part of the engine or carbon generated by combustion, as well as oxides generated from oil deterioration and aging, and dust that enters the cylinder along with intake air and is trapped in the oil. An engine oil filter device is a device that always keeps the oil clean.

The engine oil filter device is provided to effectively remove foreign substances and improve vehicle performance and fuel efficiency, and a conventional engine oil filter device will be described with reference to the drawings.

1 , a conventional engine oil filter device includes a housing 2 having an inner space, an oil filter cap 4 coupled to an upper side of the housing 2 , and an interior of the housing 2 . An oil inlet pipe (not shown) for guiding oil into the space, a filter member F provided in the inner space of the housing 2 to remove foreign substances from the oil flowing through the oil inlet pipe, and the filter member (F) includes an oil outlet pipe (not shown) for guiding the oil from which foreign substances are removed to the downstream part of the oil line.

In the conventional oil filter device configured as described above, the housing 2 and the oil filter cap 4 coupled to the housing 2 due to the change in the pressure of the oil passing through the inside of the housing 2 and the change in the temperature of the oil. There were problems in that deformation or expansion occurred.

The cause of the deformation or expansion of the housing 2 and the oil filter cap 4 is due to changes in temperature and pressure of the oil. The thermal stress caused by thermal expansion increased, causing a problem of oil leakage.

Republic of Korea Patent Publication No. 10-2006-0033290

SUMMARY Embodiments of the present invention provide an oil filter device in which leakage due to high temperature and high pressure oil and thermal expansion in the oil filter housing are minimized.

The oil filter device according to the first embodiment of the present invention includes a filter unit 50 for filtering foreign substances contained in engine oil; an oil filter housing 100 having one side of the filter unit 50 housed inside, and having a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil; and an oil filter cap 200 that is accommodated in the other side of the filter unit 50 and is coupled to the oil filter housing 100 to face each other.

The deformation preventing units 110 are disposed at predetermined intervals along the entire circumferential direction of the oil filter housing 100 to prevent deformation in the outer circumferential direction of the oil filter housing 100 and face each other in the longitudinal direction. The first deformation-preventing piece 112 spaced to see; In order to prevent deformation in the longitudinal direction of the oil filter housing 100, a second deformation preventing piece 114 having both ends connected to the extended ends of the first deformation preventing piece 112 spaced apart from each other is included.

The first deformation preventing piece 112 extends longer than the second deformation preventing piece 114 .

The oil filter housing 100 includes a support member 10 inserted outward in the circumferential direction in a section coupled to the oil filter cap 200 .

The support member 10 is characterized in that when heat is transferred due to an increase in the temperature of the engine oil, thermal expansion is made toward the inner side of the oil filter housing 100 in the circumferential direction.

The oil filter housing 100 is provided with a first rib 20 integrally formed inside the oil filter housing 100 to prevent radially outward expansion together with the deformation preventing unit 110 .

The oil filter cap 200 is provided with a second rib 30 integrally formed inside the oil filter cap 200 to prevent radially outward expansion together with the deformation preventing part 110 .

The oil filter device according to the second embodiment of the present invention includes a filter unit 50 for filtering foreign substances contained in engine oil; an oil filter housing 100 having one side of the filter unit 50 housed inside, and having a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil; an oil filter cap 200 accommodating the other side of the filter unit 50 inside and coupled to the oil filter housing 100 to face each other; and an anti-deformation ring 300 integrally injection-molded with the oil filter housing 100 in a section coupled to the oil filter cap 200 .

The deformation preventing units 110 are disposed at predetermined intervals along the circumferential direction of the oil filter housing 100 to prevent deformation in the outer circumferential direction of the oil filter housing 100 and face each other in the longitudinal direction. Spaced apart first deformation prevention piece (112); In order to prevent deformation in the longitudinal direction of the oil filter housing 100, a second deformation preventing piece 114 having both ends connected to the extended end of the first deformation preventing piece 112 spaced apart from each other is included, The deformation preventing unit 110 is formed in any one of an embossed shape or an engraved shape.

The deformation prevention ring 300 is made of a material different from that of the oil filter housing 100, and is contracted from the circumferential direction of the oil filter housing 100 toward the inner center when the temperature of the engine oil increases. do it with

The deformation prevention ring 300 is a ring body 310 formed in the form of a wire; The ring body 310 includes an elastic member 320 that is elastically deformed in the circumferential direction to adjust the expansion rate in the circumferential direction of the oil filter housing 100 .

The elastic members 320 are spaced apart from each other at equal intervals in the circumferential direction of the ring body 310 .

As the elastic member 320, any one of a coil spring or a plate spring is selectively used.

The oil filter device according to the third embodiment of the present invention includes a filter unit 50 for filtering foreign substances contained in engine oil; an oil filter housing 100 having one side of the filter unit 50 housed inside, and having a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil; The other side of the filter unit 50 is accommodated inward, and an oil filter cap 200 is coupled to the oil filter housing 100 to face each other, and the oil filter housing 100 has the oil filter housing 100 along the longitudinal direction. A plurality of deformation prevention rings 300 integrally injected at predetermined intervals are provided.

The deformation prevention ring 300 may include a first deformation prevention ring 302 positioned in a first section S1 in which the oil filter housing 100 is coupled to the oil filter cap 200; and a second anti-distortion ring 304 disposed in a second section S2 extending in the longitudinal direction other than the first section S1, wherein the first and second anti-deformation rings 302 and 304 include It is characterized by having different thermal conductivity.

In the embodiments of the present invention, durability of an oil filter device is improved and problems due to thermal deformation are prevented, thereby improving product stability.

Embodiments of the present invention can prevent the oil filter housing from being deformed, so that it can be used stably even under complex conditions caused by high external air temperature and high oil temperature.

1 is a longitudinal sectional view showing a conventional engine oil filter device.
Figure 2 is a view showing the distribution of thermal stress according to the operating state of Figure 1;
3 is a view showing a movement path of oil through the oil filter device according to the first embodiment of the present invention.
4 is a longitudinal cross-sectional view of the oil filter device according to the first embodiment of the present invention.
5 to 6 are views illustrating a deformation preventing unit formed in the oil filter device according to the first embodiment of the present invention.
7 is a view visualized by experimenting with a thermal stress state in the oil filter device according to the first embodiment of the present invention.
8 is a perspective view illustrating a first support member provided in the oil filter device according to the first embodiment of the present invention.
9 is a longitudinal cross-sectional view illustrating a state in which first to second ribs are formed in the oil filter device according to the first embodiment of the present invention;
10 is a longitudinal cross-sectional view illustrating a state in which a third rib is formed in the oil filter device according to the first embodiment of the present invention.
11 is a longitudinal cross-sectional view showing an oil filter device according to a second embodiment of the present invention.
12 to 13 are views illustrating an oil filter device and a deformation prevention ring according to a second embodiment of the present invention.
14 is a view visualized by experimenting with a thermal stress state in the oil filter device according to the second embodiment of the present invention.
15 is a longitudinal cross-sectional view showing an oil filter device according to a third embodiment of the present invention.
16 to 18 are views illustrating an oil filter device and a deformation prevention ring according to a third embodiment of the present invention.
19 is a diagram visualized by experimenting with a thermal stress state in the oil filter device according to the third embodiment of the present invention.
20 is a view showing a comparison of thermal stress states in the oil filter housings according to the first to third embodiments of the present invention.

An oil filter device according to a first embodiment of the present invention will be described with reference to the drawings. 3 is a view showing a movement path of oil through the oil filter device according to the first embodiment of the present invention, and FIG. 4 is a longitudinal cross-sectional view of the oil filter device according to the first embodiment of the present invention. 5 to 6 are views illustrating a deformation preventing unit formed in the oil filter device according to the first embodiment of the present invention.

3 to 6 , the oil filter device 1 includes a filter unit 50 that filters foreign substances contained in engine oil, and one side of the filter unit 50 is accommodated inside, and the engine oil The oil filter housing 100 provided with a deformation preventing unit 110 and the other side of the filter unit 50 are accommodated inside to prevent deformation due to changes in pressure and temperature, and the oil filter housing 100 and and an oil filter cap 200 coupled to each other to face each other.

In the oil filter device 1 , the oil filter housing 100 and the oil filter cap 200 are assembled with each other to form an overall external shape, and the filter unit 50 is inserted therein.

In the present embodiment, when the oil filter housing 100 expands outward in the radial direction due to the pressure of the engine oil or the rapid temperature change of the oil, the expansion in the circumferential direction is prevented through the deformation preventing unit 110 . can do.

In this case, the oil filter cap 200 maintains coupling stability with the oil filter housing 100 to prevent the oil filter housing 100 from spreading outward in the radial direction, and increases the stability according to various temperature changes of the oil. more improved

The oil filter housing 100 may be thermally expanded radially outward in the first to second sections S1 and S2 coupled to the oil filter cap 200 , but thermal expansion is prevented through the deformation preventing unit 110 . do.

In the filter unit 50, a nonwoven fabric having a predetermined mesh is used to filter foreign substances contained in engine oil, and the oil in which the foreign substances are filtered may be moved through a passage formed in the center.

As shown by the arrow, the oil flows into the oil filter housing 100 , moves from the outside to the inside in the radial direction of the filter unit 50 , and then moves along the center to be re-supplied to the engine.

A first screw thread 102 is formed in the outer circumferential direction of the oil filter cap 200 to be coupled to the oil filter housing 100 with each other. The first screw thread 102 is formed in a first section (S1) that is extended with a predetermined interval from one end (lower side of the drawing) toward the upper side, and ends at the upper end of the first section (S1). The second screw threads 202 are formed in the second section S2 at predetermined intervals.

The first screw thread 102 and the second screw thread 202 are maintained at different intervals, for example, the interval of the second screw thread 202 is kept narrower than that of the first screw thread 102 .

In this way, when the interval between the second screw thread 202 is kept narrow, the probability that the oil moves along the first screw thread 102 and the second screw thread 202 portion is lowered, so it may be advantageous to stably maintain the airtightness.

In this case, thermal stress due to various temperature changes of the oil is concentrated at the joint portion of the oil filter housing 100 and the oil filter cap 200, and the expansion force to expand radially outward is prevented by the deformation prevention unit 110 to prevent malfunction of the oil filter unit.

In this case, the oil filter device can prevent oil from leaking even when the temperature and pressure of the oil are rapidly increased, and the durability of the oil filter device can be improved, so that it can be used safely even when used for a long period of time.

In the present embodiment, the deformation preventing unit 110 for preventing the oil filter housing 100 from being deformed by the expansion force that spreads outward in the radial direction due to the rapid temperature change of the oil in the first and second sections S1 and S2. ), it can be used safely by minimizing the occurrence of deformation due to stress concentration. The deformation preventing unit 110 is formed in the outer longitudinal direction of the oil filter housing 100, but may be formed only in a specific section or may be formed in another shape.

The deformation preventing units 110 are disposed at predetermined intervals along the entire circumferential direction of the oil filter housing 100 to prevent deformation in the outer circumferential direction of the oil filter housing 100 and face each other in the longitudinal direction. Both ends of the first deformation preventing piece 112 that are spaced apart while looking at each other and the extended end of the first deformation preventing piece 112 spaced apart from each other in order to prevent deformation in the longitudinal direction of the oil filter housing 100 are provided, respectively. It includes a connected second deformation preventing piece (114).

The deformation preventing unit 110 is formed in a polygonal honeycomb shape as an example, but it may also be formed in other shapes. The reason why the deformation preventing part 110 is formed in a honeycomb shape is advantageous in stably supporting it when an external force due to expansion is applied. In this case, the oil filter housing 100 is stably maintained in structural rigidity even when an expansion force to expand in the radial direction is applied to prevent oil leakage, thereby enabling stable use.

The first deformation preventing piece 112 extends a predetermined length in the circumferential direction of the oil filter housing 100 and is disposed to face each other in the longitudinal direction, and the second deformation preventing piece 114 is spaced apart from the first deformation It is connected to the extended end of the prevention piece (112).

The second deformation preventing piece 114 prevents deformation in the longitudinal direction of the oil filter housing 100 and prevents deformation due to expansion of the oil filter housing 100 together with the above-described first deformation preventing piece 112 . can do.

The deformation preventing unit 110 is, for example, formed in either an embossed shape protruding outward of the oil filter housing 100 or an intaglio concave shape concave toward the inside of the oil filter housing 100 , and is not limited to a specific shape and may be changed in various ways. can be

Since the oil filter housing 100 is manufactured by injection molding, the deformation preventing unit 110 is formed in an advantageous shape for injection molding.

The first deformation preventing piece 112 extends longer than the second deformation preventing piece 114 . In this case, even when thermal expansion occurs radially outward from the oil filter housing 100, deformation (tearing or cracking) in the circumferential direction can be prevented, thereby preventing breakage and leakage due to temperature change of oil. .

The deformation preventing unit 110 is formed to have the same size in the longitudinal direction from the first and second sections S1 and S2 in which the oil filter cap 200 is inserted, or the first and second sections having a relatively high probability of deformation. Although it may be formed in a small size in the sections S1 and S2, it is not necessarily limited to such arrangement.

Referring to FIG. 7 , when the oil filter device 1 according to the above-described first embodiment moves actual oil to check the thermal expansion state of the oil filter housing 100, the first and second sections indicated in red ( Even when thermal expansion due to high temperature and high pressure oil occurs in S1 and S2 (refer to FIG. 4 ) and thermal stress is partially concentrated, the expansion force that is intended to expand radially outwardly by the first and second deformation prevention pieces 112 and 114 This is minimized to prevent oil leakage.

Referring to FIG. 8 , the oil filter housing 100 according to the present embodiment is provided with a support member 10 in a circumferential direction in a section coupled to the oil filter cap 200 .

The support member 10 prevents deformation of the oil filter housing 100 while thermal expansion is made inward in the circumferential direction of the oil filter housing 100 when heat is transferred due to an increase in the temperature of the engine oil.

The support member 10 is installed in the coupling section of the oil filter cap 200 coupled to the inside of the oil filter housing 100 as shown in the drawing. For example, the coupling section corresponds to the second section S2, and the second section S2 is a place where thermal expansion of the oil filter housing 100 intensively occurs outward in the radial direction, and the support member 10 is positioned at the position. When is installed, even when thermal expansion occurs in the oil filter housing 100, deformation due to thermal deformation can be minimized.

Since the support member 10 undergoes thermal expansion in the radial direction of the oil filter housing 100 , thermal stress applied to the radially outward side of the oil filter housing 100 can be reduced even when the temperature of the oil is abruptly changed.

The support member 10 is formed, for example, in a ring shape, but may be changed to another shape. The support member 10 is formed of a material different from that of the oil filter housing 100 . For example, it is formed of a metal or non-metal material, and when it expands at a specific temperature, the expansion direction expands inward in the radial direction, so that deformation due to thermal expansion of the oil filter housing 100 can be minimized.

9, the oil filter housing 100 according to the present embodiment has the anti-deformation part 110 integrally inside the oil filter housing 100 to prevent radially outward expansion. A molded first rib 20 is provided.

The first rib 20 extends over a portion of the first and second sections (S1, S2) or the first and second sections (S1, S2), for example, is configured in a mesh shape arranged in a horizontal and vertical grid or , may be configured in the form of a bar (BAR).

When the first rib 20 is configured in a mesh shape, the oil filter housing 100 reduces the expansion force that expands outward in the radial direction in the first and second sections S1 and S2 engaged with the oil filter cap 200 . It can prevent leakage.

In this embodiment, the second rib 30 is provided on the oil filter cap 200 together with the first rib 20 described above. The second rib 30 is integrally formed inside the oil filter cap 200 together with the deformation prevention part 110 and the first rib 20 to prevent radially outward expansion.

The second rib 30 may be installed in the first and second sections S1 and S2 like the first rib 20 or installed over a partial section of the first and second sections S1 and S2, It may be configured in the form of a mesh arranged in a horizontal and vertical grid, or may be configured in the form of a bar (BAR).

The first and second ribs 20 and 30 may be formed to have the same thickness or different thicknesses, and may prevent thermal deformation due to an increase in oil temperature, thereby maintaining a stable oil filter function.

10 , the oil filter housing 100 according to the present embodiment includes the oil filter housing 100 and the oil filter cap to prevent radial outward expansion together with the deformation preventing unit 110 . A third rib 40 integrally formed inside the 200 is provided.

The third rib 40 is provided in the inner circumferential direction of the oil filter housing 100 and the oil filter cap 200 , and more particularly, includes a second section S2 of the oil filter housing 100 , A plurality of predetermined intervals are disposed over a section in which the second screw thread 202 is formed and a partial section above the second screw thread 202 .

In this way, when the third rib 40 is provided, thermal deformation of the oil filter housing 100 and the oil filter cap 200 is prevented, so that it can be used more stably.

An oil filter device according to a second embodiment of the present invention will be described with reference to the drawings. In this embodiment, unlike the first embodiment described above, the deformation prevention ring 300 is provided to prevent thermal expansion in the first and second sections S1 and S2 to prevent oil leakage.

11 to 14, the oil filter device 1a according to the present embodiment includes a filter unit 50 that filters foreign substances contained in engine oil, and one side of the filter unit 50 is turned inside. The oil filter housing 100 provided with a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil, and the other side of the filter unit 50 are accommodated inside, and the oil The oil filter cap 200 is coupled to the filter housing 100 while facing each other, and the anti-deformation ring 300 is injection-molded integrally with the oil filter housing 100 in a section coupled to the oil filter cap 200 . includes

The deformation prevention ring 300 is molded together inside when the oil filter housing 100 is injection-molded and is made of a material different from that of the oil filter housing 100 , and when the temperature of the engine oil increases, the oil filter Heat deformation of the oil filter housing 100 is prevented by shrinking from the circumferential direction of the housing 100 toward the inner center.

The deformation prevention ring 300 includes, for example, a ring body 310 formed in a wire shape, and elastically deformed in the circumferential direction of the ring body 310 to adjust the expansion rate in the circumferential direction of the oil filter housing 100 . It includes an elastic member 320 that does.

Although the overall shape of the deformation prevention ring 300 is a ring shape, the radial expansion rate of the oil filter housing 100 is reduced to prevent an increase in oil leakage due to thermal deformation of the oil filter housing 100 radially outward. can be adjusted

The ring body 310 is formed of a wire having a predetermined diameter and has a diameter corresponding to that of the oil filter housing 100 . The ring body 310 is formed of a common metal or non-metal material and is contracted radially inward when thermal expansion occurs.

The ring body 310 serves to maintain the overall shape of the oil filter housing 100 and provides the directionality of the elastic member 320 at the same time to prevent deformation of the oil filter housing 100 and prevent the oil filter cap 200 from being deformed. ) to simultaneously improve the binding stability of

As the elastic member 320, any one of a coil spring or a leaf spring is selectively used, and it is advantageous to use a spring in a compressed state, but it is not limited to a particular type of spring and may be variously changed.

Since the elastic member 320 is already elastically compressed in the circumferential direction of the ring body 310, thermal expansion of the oil filter housing 100 by internal pressure of high temperature and high pressure is generated in the arrow direction (radial outside). Even in this case, it is possible to convert the expansive force that expands outward in the radial direction of the ring body 310 into an elastic restoring force.

That is, the elastic member 320 maintains a tensile force in the circumferential direction Fc when an expansion force to expand radially outward Fr is applied to the ring body 310 so that the oil filter housing 100 is heated by high temperature and high pressure. Thermal expansion and thermal deformation are prevented.

A plurality of the elastic members 320 are divided at equal intervals along the circumferential direction of the ring body 310 , so that even when thermal deformation occurs in any direction of the oil filter housing 100 , the restoring force to be restored to a circular state This ensures stable operation even when thermal stress is generated at a specific location.

Accordingly, the deformation prevention ring 300 can minimize the deformation by reducing the deformation force that the oil filter housing 100 is deformed outward in the radial direction through the elastic restoring force.

In the present embodiment, when the oil filter housing 100 expands outward in the radial direction due to the pressure of the engine oil or the rapid temperature change of the oil, the expansion in the circumferential direction is prevented through the deformation preventing unit 110 . can do.

In this case, the oil filter cap 200 maintains coupling stability with the oil filter housing 100 to prevent the oil filter housing 100 from spreading outward in the radial direction. Stability is further improved.

In the filter unit 50, a nonwoven fabric having a predetermined mesh is used to filter foreign substances contained in engine oil, and the oil in which the foreign substances are filtered may be moved through a passage formed in the center.

The oil flows into the inside of the filter housing 100 and moves from the outside to the inside of the filter unit 50 in the radial direction, and then moves along the center and is re-supplied to the engine.

A first screw thread 102 is formed in the outer circumferential direction of the oil filter cap 200 to be coupled to the oil filter housing 100 with each other. The first screw thread 102 is formed in a first section (S1) that is extended with a predetermined interval from one end (lower side of the drawing) toward the upper side, and ends at the upper end of the first section (S1). The second screw threads 202 are formed in the second section S2 at predetermined intervals.

The first screw thread 102 and the second screw thread 202 are maintained at different intervals, for example, the interval of the second screw thread 202 is kept narrower than that of the first screw thread 102 .

In this way, when the interval between the second screw thread 202 is kept narrow, the probability that the oil moves along the first screw thread 102 and the second screw thread 202 portion is lowered, so it may be advantageous to stably maintain the airtightness.

In this case, thermal stress due to various temperature changes of the oil is concentrated at the joint portion of the oil filter housing 100 and the oil filter cap 200, and the expansion force to expand radially outward is prevented by the deformation prevention unit 110 to prevent malfunction of the oil filter unit.

In this case, the oil filter device can prevent oil from leaking even when the temperature and pressure of the oil are rapidly increased, and the durability of the oil filter device can be improved, so that it can be used safely even when used for a long period of time.

In the present embodiment, the deformation preventing unit 110 for preventing the oil filter housing 100 from being deformed by the expansion force that spreads outward in the radial direction due to the rapid temperature change of the oil in the first and second sections S1 and S2. ), it can be used safely by minimizing the occurrence of deformation due to stress concentration. The deformation preventing unit 110 is formed in the outer longitudinal direction of the oil filter housing 100, but may be formed only in a specific section or may be formed in another shape.

The deformation preventing units 110 are disposed at predetermined intervals along the entire circumferential direction of the oil filter housing 100 to prevent deformation in the outer circumferential direction of the oil filter housing 100 and face each other in the longitudinal direction. Both ends of the first deformation preventing piece 112 that are spaced apart while looking at each other and the extended end of the first deformation preventing piece 112 spaced apart from each other in order to prevent deformation in the longitudinal direction of the oil filter housing 100 are provided, respectively. It includes a connected second deformation preventing piece (114).

The deformation preventing unit 110 is formed in a polygonal honeycomb shape as an example, but it may also be formed in other shapes. The reason why the deformation preventing part 110 is formed in a honeycomb shape is advantageous in stably supporting it when an external force due to expansion is applied. In this case, even when an expansion force to expand radially outward is applied to the oil filter housing 100 , structural rigidity is stably maintained, oil leakage is prevented, and stable use is possible.

The first deformation preventing piece 112 extends a predetermined length in the circumferential direction of the oil filter housing 100 and is disposed to face each other in the longitudinal direction, and the second deformation preventing piece 114 is spaced apart from the first deformation It is connected to the extended end of the prevention piece (112).

The second deformation preventing piece 114 prevents deformation in the longitudinal direction of the oil filter housing 100 and prevents deformation due to expansion of the oil filter housing 100 together with the above-described first deformation preventing piece 112 . can do.

The deformation preventing unit 110 is, for example, formed in either an embossed shape protruding outward of the oil filter housing 100 or an intaglio concave shape concave toward the inside of the oil filter housing 100 , and is not particularly limited to a specific shape. can be

Since the oil filter housing 100 is manufactured by injection molding, the deformation preventing unit 110 is formed in an advantageous shape for injection molding.

The first deformation preventing piece 112 extends longer than the second deformation preventing piece 114 . In this case, even when thermal expansion occurs radially outward from the oil filter housing 100, deformation (tearing or cracking) in the circumferential direction can be prevented, thereby preventing breakage and leakage due to temperature change of oil. .

The deformation preventing unit 110 is formed to have the same size in the longitudinal direction from the first and second sections S1 and S2 in which the oil filter cap 200 is inserted, or the first and second sections having a relatively high probability of deformation. Although it may be formed in a small size in the sections S1 and S2, it is not necessarily limited to such arrangement.

14, the oil filter device 1a according to the above-described second embodiment moves actual oil to check the thermal expansion state of the oil filter housing 100. As a result, the first and second sections indicated in red ( Even when thermal expansion occurs in S1 and S2 due to high temperature and high pressure oil and thermal stress is partially concentrated, it expands radially outward by the deformation prevention ring 300 and the first and second deformation prevention pieces 112 and 114 It is possible to prevent oil leakage by minimizing the expansion force.

An oil filter device according to a third embodiment of the present invention will be described with reference to the drawings. In this embodiment, unlike the second embodiment, the deformation prevention ring 300 is installed on the entire oil filter housing 100 to prevent thermal expansion due to high temperature and high pressure oil.

15 to 18, the oil filter device 1b according to the present embodiment includes a filter unit 50 that filters foreign substances contained in engine oil, and one side of the filter unit 50 is turned inside. The oil filter housing 100 provided with a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil, and the other side of the filter unit 50 are accommodated inside, and the oil and an oil filter cap 200 coupled to the filter housing 100 while facing each other, wherein the oil filter housing 100 includes a plurality of deformation prevention rings 300 integrally injected at predetermined intervals along the longitudinal direction. provided

The deformation prevention ring 300 includes a first deformation prevention ring 302 positioned in a first section S1 in which the oil filter housing 100 is coupled to the oil filter cap 200, and the first section ( It includes a second deformation prevention ring 304 disposed in the second section (S2) extending in the length direction except for S1).

The first and second deformation prevention rings 302 and 304 are elastically deformed in the circumferential direction of the first and second ring bodies 302a and 304a formed to have the same diameter as each other, and the first and second ring bodies 302a and 302b. and first and second elastic members 302b and 304b for adjusting the expansion rate in the circumferential direction of the oil filter housing 100 while being formed.

The first and second ring bodies 302a and 304a are formed of a wire having a predetermined diameter and have a diameter corresponding to that of the oil filter housing 100 . The first and second ring bodies 302a and 304a are formed of a common metal or non-metal material, and may be contracted radially inwardly when thermal expansion occurs.

The first and second ring bodies 302a and 304a serve to maintain the overall shape of the oil filter housing 100 and simultaneously provide the directionality of the first and second elastic members 302b and 304b to the oil filter housing ( 100) can be prevented from being deformed and the coupling stability of the oil filter cap 200 can be improved at the same time.

For example, when an expansion force to expand radially outward Fr is applied to the ring bodies 302a and 304a, a tensile force tensioned in the circumferential direction Fc is maintained so that the oil filter housing 100 undergoes thermal expansion and heat due to high temperature and high pressure. deformation is prevented.

The first and second deformation prevention rings 302 and 304 may be configured to have different thermal conductivity, and the degree of thermal expansion of the oil filter housing 100 may be more accurately adjusted according to the position by adjusting the deformation rate differently depending on the position. can

19, when the oil filter device 1b according to the above-described third embodiment moves actual oil to check the thermal expansion state of the oil filter housing 100, the first and second sections shown in red ( Even when thermal expansion occurs in S1 and S2 due to high temperature and high pressure oil and thermal stress is partially concentrated, it expands radially outward by the deformation prevention ring 300 and the first and second deformation prevention pieces 112 and 114 It is possible to prevent oil leakage by minimizing the expansion force.

A state of thermal expansion of an oil filter housing according to an embodiment of the present invention will be described with reference to the drawings.

Referring to the attached FIG. 20 , the thermal expansion state of the oil filter housing 100 was tested under the same oil temperature and pressure conditions according to the first to third embodiments of the present invention, and the deformation prevention ring 300 was It can be seen that the thermal deformation of the oil filter housing 100 of the second to third embodiments is relatively reduced compared to that of the first embodiment, which is not provided.

Accordingly, according to the first to third embodiments of the present invention, the oil filter housing 100 prevents deformation due to thermal expansion, thereby promoting stable oil operation.

As described above, an embodiment of the present invention has been described, but those of ordinary skill in the art can add, change, delete or add components within the scope that does not depart from the spirit of the present invention described in the claims. It will be possible to variously modify and change the present invention by, etc., which will also be included within the scope of the present invention.

10: support member
20, 30, 40: 1st, 2nd, 3rd ribs
50: filter unit
100: oil filter housing
110: deformation prevention part
112, 114: first and second deformation prevention pieces
200: oil filter cap
300: deformable ring
302, 304: first and second anti-deformation rings
310: ring body
320: elastic member

Claims (15)

a filter unit 50 for filtering foreign substances contained in engine oil;
an oil filter housing 100 having one side of the filter unit 50 housed inside, and having a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil; and
The other side of the filter unit 50 is accommodated inside and includes an oil filter cap 200 coupled to the oil filter housing 100 to face each other,
A first screw thread 102 is formed in a first section S1 to be coupled to the oil filter housing 100 in the oil filter cap 200, and a second screw thread 202 is formed in a second section S2. is formed, the second screw thread 202 is kept narrower than the first screw thread 102,
The deformation preventing units 110 are disposed at predetermined intervals along the entire circumferential direction of the oil filter housing 100 to prevent deformation in the outer circumferential direction of the oil filter housing 100 and face each other in the longitudinal direction. Both ends of the first deformation preventing piece 112 spaced apart while looking at each other and the extended end of the first deformation preventing piece 112 spaced apart from each other in order to prevent deformation in the longitudinal direction of the oil filter housing 100 are provided, respectively. and a second deformation preventing piece 114 connected thereto, wherein the deformation preventing unit 110 protrudes in the form of a honeycomb from the outer surfaces of the oil filter housing 100 and the oil filter cap 200,
The first deformation prevention piece 112 extends longer than the second deformation prevention piece 114 , and the oil filter housing 100 has a support inserted in the circumferential direction in a section coupled to the oil filter cap 200 . An oil filter device comprising a member (10), wherein the support member (10) is thermally expanded in a circumferential direction of the oil filter housing (100). delete delete delete According to claim 1,
The oil filter device, characterized in that the support member (10) is thermally expanded toward the inner side of the circumferential direction of the oil filter housing (100) when heat is transferred due to an increase in the temperature of the engine oil. According to claim 1,
The oil filter housing 100 has an oil provided with a first rib 20 integrally formed inside the oil filter housing 100 to prevent radially outward expansion together with the deformation preventing unit 110 . filter device. According to claim 1,
The oil filter cap 200 includes the second rib 30 integrally formed inside the oil filter cap 200 in order to prevent radially outward expansion together with the deformation preventing part 110 . filter device. a filter unit 50 for filtering foreign substances contained in engine oil;
an oil filter housing 100 having one side of the filter unit 50 housed inside, and having a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil;
an oil filter cap 200 having the other side of the filter unit 50 accommodated inside and coupled to the oil filter housing 100 while facing each other; and
and an anti-deformation ring (300) injection-molded integrally with the oil filter housing (100) in a section coupled to the oil filter cap (200). 9. The method of claim 8,
The deformation preventing units 110 are disposed at predetermined intervals along the circumferential direction of the oil filter housing 100 to prevent deformation in the outer circumferential direction of the oil filter housing 100 and face each other in the longitudinal direction. Spaced apart first deformation prevention piece (112);
In order to prevent deformation in the longitudinal direction of the oil filter housing 100, a second deformation preventing piece 114 having both ends connected to the extended ends of the first deformation preventing piece 112 spaced apart from each other is included,
The deformation preventing unit 110 is an oil filter device formed in any one of an embossed shape or an engraved shape. 9. The method of claim 8,
The deformation prevention ring 300 is made of a material different from that of the oil filter housing 100, and is contracted from the circumferential direction of the oil filter housing 100 toward the inner center when the temperature of the engine oil increases. oil filter device. 9. The method of claim 8,
The deformation prevention ring 300 is a ring body 310 formed in the form of a wire;
and an elastic member (320) configured to elastically deform in the circumferential direction of the ring body (310) and adjust the expansion rate in the circumferential direction of the oil filter housing (100). 12. The method of claim 11,
The elastic member 320 is an oil filter device spaced apart from each other at equal intervals in the circumferential direction of the ring body 310 . 13. The method of claim 12,
The elastic member 320 is an oil filter device in which either a coil spring or a plate spring is selectively used. a filter unit 50 for filtering foreign substances contained in engine oil;
an oil filter housing 100 having one side of the filter unit 50 housed inside, and having a deformation preventing unit 110 to prevent deformation due to changes in pressure and temperature of engine oil;
The other side of the filter unit 50 is accommodated inside and includes an oil filter cap 200 coupled to the oil filter housing 100 to face each other,
The oil filter housing 100 is provided with a plurality of deformation prevention rings 300 integrally injected at predetermined intervals along the longitudinal direction. 15. The method of claim 14,
The deformation prevention ring 300 may include a first deformation prevention ring 302 positioned in a first section S1 in which the oil filter housing 100 is coupled to the oil filter cap 200;
and a second deformation prevention ring 304 disposed in a second section S2 extending in the longitudinal direction other than the first section S1,
The oil filter device, characterized in that the first and second strain prevention rings (302, 304) have different thermal conductivity.

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