A seal structure includes a seal body. The seal body is sandwiched between a case and a cover and provided between a space and fastening regions. The space is formed by the case and the cover. The case and the cover is fastened at the fastening regions to compress the seal body in a compression dire
A seal structure includes a seal body. The seal body is sandwiched between a case and a cover and provided between a space and fastening regions. The space is formed by the case and the cover. The case and the cover is fastened at the fastening regions to compress the seal body in a compression direction. The seal body includes first regions and second regions. The first regions correspond to the fastening regions. Each of the second regions is provided between one of the first regions and another of the first regions. Reaction force in the compression direction in the seal body located at the first regions is smaller than reaction force in the compression direction in the seal body located in the second regions.
대표청구항▼
1. A seal structure of the type that has a seal member arranged between a case of a casing and a cover of the casing, comprising: a plurality of fastening regions for fastening the case and the cover, being formed in an outer periphery of the casing; andthe seal member being arranged inwardly of the
1. A seal structure of the type that has a seal member arranged between a case of a casing and a cover of the casing, comprising: a plurality of fastening regions for fastening the case and the cover, being formed in an outer periphery of the casing; andthe seal member being arranged inwardly of the casing from the fastening regions,wherein reaction force in the compression direction of the seal member located in the vicinities of the fastening regions is smaller than reaction force in the compression direction of the seal member located in positions other than the vicinities of the fastening regions,wherein the seal member located in the fastening regions has a first thickness in the direction orthogonal to the compression direction, and the seal member located in the positions other than the fastening regions has a second thickness in the direction orthogonal to the compression direction, andwherein the first thickness is thinner than the second thickness. 2. A seal structure according to claim 1, wherein the seal member located in the vicinities of the fastening regions has the first thickness in the direction orthogonal to the compression direction, and the seal member located in the positions other than the vicinities of the fastening regions has the second thickness in the direction orthogonal to the compression direction. 3. A seal structure according to claim 2, wherein the seal member is held in a seal member holding groove which is provided on at least one of the case and the cover, and the seal member located in the positions other than the vicinities of the fastening regions has a rib extending in the compression direction, and wherein a part having the rib has the second thickness in the direction orthogonal to the compression direction, and the second thickness is larger than a width of the seal member holding groove. 4. A seal method for providing a seal between a case of a casing and a cover of the casing by a seal member, wherein the seal member is arranged inwardly of the casing from a fastening region in which the case and the cover are fastened, and reaction force in the compression direction of the seal member located in the vicinity of the fastening region is smaller than the reaction force in the compression direction of the seal member located in a position other than the vicinity of the fastening region, wherein the seal member located in the fastening region has a first thickness in the direction orthogonal to the compression direction, and the seal member located in the position other than the fastening region has ribs each having a second thickness in the direction orthogonal to the compression direction, and wherein the first thickness is thinner than the second thickness. 5. A seal structure comprising: a seal body to be sandwiched between a case and a cover and to be provided between a space and a plurality of fastening regions, the space being to be formed by and between the case and the cover, the case and the cover being to be fastened at the plurality of fastening regions to compress the seal body in a compression direction, the seal body comprising: a plurality of first regions corresponding to the plurality of fastening regions, respectively;a plurality of second regions, each of the plurality of second regions being provided between one of the plurality of first regions and another of the plurality of first regions juxtaposed to the one of the plurality of first regions; anda structure such that reaction force in the compression direction in the seal body located at the plurality of first regions being smaller than reaction force in the compression direction in the seal body located in the plurality of second regions in a state where the case and the cover are fastened at the plurality of fastening regions,wherein the seal body located in the plurality of first regions has a first thickness in the direction orthogonal to the compression direction, and the seal body located in the plurality of second regions has ribs each having a second thickness in the direction orthogonal to the compression direction, andwherein the first thickness is thinner than the second thickness. 6. A seal structure according to claim 5, wherein the ribs extend in the compression direction, andwherein a part having the rib has the second thickness in the direction orthogonal to the compression direction, and the second thickness is larger than a width of the seal holding groove. 7. A seal method comprising: providing a seal between a case and a cover;connecting the case and the cover with a fastener such that a seal body is provided between a space and a plurality of fastening regions, the space being to be formed by and between the case and the cover, reaction force in a compression direction of the seal body located in the vicinity of the fastening regions is smaller than the reaction force in the compression direction of the seal body located in a position other than the vicinity of the fastening regions,wherein the seal body located in the fastening regions has a first thickness in the direction orthogonal to the compression direction, and the seal body located in the position other than the fastening regions has ribs each having a second thickness in the direction orthogonal to the compression direction, andwherein the first thickness is thinner than the second thickness. 8. A seal structure according to claim 1, wherein the seal member located in the positions other than the fastening regions has ribs each having the second thickness in the direction orthogonal to the compression direction. 9. A seal structure according to claim 8, wherein the seal member does not have ribs having the second thickness in the direction orthogonal to the compression direction in areas overlapping the fastening regions about the outer periphery of the casing. 10. A seal method according to claim 4, wherein the seal member does not have ribs having the second thickness in the direction orthogonal to the compression direction in an area overlapping the fastening region about an outer periphery of the casing. 11. A seal structure according to claim 5, wherein the seal body does not have ribs having the second thickness in the direction orthogonal to the compression direction in the plurality of first regions overlapping the plurality of fastening regions about a periphery of the seal body. 12. A seal method according to claim 7, wherein the seal body does not have ribs having the second thickness in the direction orthogonal to the compression direction in an area overlapping the fastening regions about a periphery of the seal body.
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이 특허에 인용된 특허 (3)
Schneider Marvin P. ; Hardin Eric D. ; Oedewaldt David L., Flywheel housing.
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