Patent ID: 9644577
Date: 2017-05-09
CPC Classifications: F02M,G01M

Claim:
1. A fuel vapor leakage detection device configured to detect leakage of fuel vapor from at least one of a canister and a fuel tank, the canister configured to adsorb fuel vapor in a fuel tank, the fuel vapor leakage detection device comprising: a first housing having a first interior and a canister passage, the canister passage configured to communicate the first interior with the canister; a second housing having a second interior, a second connection surface, and an atmospheric passage, the second connection surface connected with a first connection surface of the first housing, the atmospheric passage configured to communicate the second interior with an atmosphere; a pressure detection passage formation member forming a pressure detection passage configured to communicate with the canister passage; a switching valve accommodated in the first housing, the switching valve configured to switch selectively between communication of the canister passage with the pressure detection passage and communication of the canister passage with the atmospheric passage; a pressurizing and depressurizing unit accommodated in the first housing, the pressurizing and depressurizing unit configured to pressurize or depressurize an interior of at least one of the fuel tank and the canister, when the switching valve communicates the canister passage with the pressure detection passage; a bypass passage formation member configured to form a switching valve bypass passage, which is configured to communicate the canister passage with the pressure detection passage and to bypass the switching valve; and a throttle portion equipped to the bypass passage formation member; a pressure detection unit configured to detect a pressure in the pressure detection passage and to send a signal according to the pressure in the pressure detection passage as detected; an air filter accommodated in the second housing, the air filter configured to capture foreign matter, which is contained in air drawn with the pressurizing and depressurizing unit into at least one of the fuel tank and the canister; a partition member located between the first housing and the second housing, the partition member separating the first interior of the first housing from the second interior of the second housing, the partition member having a communication hole configured to communicate the first interior with the second interior; and a contact member equipped to an end of the partition member, the contact member in contact with at least one of the first housing and the second housing, wherein the partition member forms a clearance with the first housing and the second housing, the first housing has a first flange portion having a first wall surface, the second housing has a second flange portion having a second wall surface, the partition member has a periphery, which is interposed between the first wall surface and the second wall surface, the contact member includes a first seal member and a second seal member, the first seal member is in contact with both the periphery of the partition member and the first wall surface at its entire circumferential periphery, and the second seal member is in contact with both the periphery of the partition member and the second wall surface at its entire circumferential periphery.