A sensor assembly is configured to be securely connected to a portion of an engine, for example, of a vehicle. The sensor assembly may include a main body, a connector shroud extending from the main body, a port extending from the main body, a deflectable locking member extending from the main body,
A sensor assembly is configured to be securely connected to a portion of an engine, for example, of a vehicle. The sensor assembly may include a main body, a connector shroud extending from the main body, a port extending from the main body, a deflectable locking member extending from the main body, and a radial tab extending from the main body. The connector shroud is configured to receive an electrical connector that electrically connects the sensor assembly to an engine control unit. The port is configured to be inserted into an opening formed in the portion of the engine. The deflectable locking member and the radial tab cooperate to securely connect the sensor assembly to the portion of the engine, such as through rotation of the sensor assembly in relation to the engine.
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1. A sensor assembly configured to be securely connected to a portion of a vehicle, the sensor assembly comprising: a main body;a connector shroud extending from the main body, wherein the connector shroud is configured to receive an electrical connector;a port extending from the main body, wherein
1. A sensor assembly configured to be securely connected to a portion of a vehicle, the sensor assembly comprising: a main body;a connector shroud extending from the main body, wherein the connector shroud is configured to receive an electrical connector;a port extending from the main body, wherein the port is configured to be inserted into an opening formed in the portion of the vehicle;a deflectable locking member extending from the main body; anda radial tab extending from the main body, wherein the deflectable locking member and the radial tab cooperate to securely connect the sensor assembly to the portion of the vehicle. 2. The sensor assembly of claim 1, wherein the deflectable locking member comprises a locking latch extending from a distal end of a deflection beam that is separated from the main body by a gap, wherein the locking latch is configured to securely latch to a catch of the portion of the vehicle when the sensor assembly is rotated into a securing position with respect to the portion of the vehicle. 3. The sensor assembly of claim 2, wherein the deflectable locking member further comprises a blunted protuberance inwardly directed toward the main body, and wherein the blunted protuberance is configured to limit deflection of the deflection beam. 4. The sensor assembly of claim 1, wherein the radial tab is configured to be slidably received within an arcuate slot formed in the portion of the vehicle. 5. The sensor assembly of claim 3, wherein the radial tab includes a leading end configured to abut into a barrier wall of the portion of the engine when the sensor assembly is securely connected to the portion of the vehicle. 6. The sensor assembly of claim 1, wherein the sensor assembly is devoid of a compression limiter. 7. The sensor assembly of claim 1, wherein the sensor assembly is rotated with respect to the portion of the vehicle in a securing direction in order to securely connect the sensor assembly to the portion of the vehicle. 8. The sensor assembly of claim 1, wherein the sensor assembly is configured to securely connect to the portion of the vehicle without the use of a separate and distinct tool or a separate and distinct fastener. 9. The sensor assembly of claim 1, wherein the sensor assembly is a manifold absolute pressure (MAP) sensor assembly. 10. An engine system comprising: an intake manifold comprising an opening and a sensor-securing wall surrounding at least a portion of the opening, wherein the sensor-securing wall comprises a catch and an arcuate slot; anda sensor assembly configured to be securely connected to the intake manifold, the sensor assembly comprising: a main body;a connector shroud extending from the main body, wherein the connector shroud is configured to receive an electrical connector that electrically connects the sensor assembly to an engine control unit;a port extending from the main body, wherein the port is positioned within the opening of the intake manifold;a deflectable locking member extending from the main body, wherein the deflectable locking member is configured to securely latch onto the catch; anda radial tab extending from the main body, wherein the radial tab is configured to be retained within the arcuate slot, and wherein the deflectable locking member and the radial tab cooperate to securely connect the sensor assembly to the intake manifold. 11. The engine system of claim 10, wherein the deflectable locking member comprises a locking latch extending from a distal end of a deflection beam that is separated from the main body by a gap, wherein the locking latch is configured to securely latch to the catch when the sensor assembly is rotated into a securing position with respect to the intake manifold. 12. The engine system of claim 10, wherein the deflectable locking member further comprises a blunted protuberance inwardly directed toward the main body, and wherein the blunted protuberance is configured to limit deflection of the deflection beam. 13. The engine system of claim 10, wherein the radial tab is configured to be slidably received within the arcuate slot as the sensor assembly is rotated into a secure position with respect to the intake manifold. 14. The engine system of claim 13, wherein the intake manifold further comprises a barrier wall, and wherein the radial tab includes a leading end configured to abut into the barrier wall when the sensor assembly is securely connected to the intake manifold. 15. The engine system of claim 10, wherein the sensor assembly is devoid of a compression limiter. 16. The engine system of claim 10, wherein the sensor assembly is rotated with respect to the intake manifold in a securing direction in order to securely connect the sensor assembly to the intake manifold. 17. The engine system of claim 10, wherein the sensor assembly is configured to securely connect to the intake manifold without the use of a separate and distinct tool or a separate and distinct fastener. 18. The engine system of claim 10, wherein the sensor assembly is a manifold absolute pressure (MAP) sensor assembly. 19. An engine system comprising: an intake manifold comprising an opening and a sensor-securing wall surrounding at least a portion of the opening, wherein the sensor-securing wall comprises a catch, an arcuate slot, and a barrier wall at one end of the arcuate slot; anda sensor assembly configured to be securely connected to the intake manifold, the sensor assembly comprising: a main body;a connector shroud extending from the main body, wherein the connector shroud is configured to receive an electrical connector that electrically connects the sensor assembly to an engine control unit;a port extending from the main body, wherein the port is positioned within the opening of the intake manifold;a deflectable locking member extending from the main body, wherein the deflectable locking member is configured to securely latch onto the catch, wherein the deflectable locking member comprises: (a) a locking latch extending from a distal end of a deflection beam that is separated from the main body by a gap, wherein the locking latch is configured to securely latch to the catch when the sensor assembly is rotated into a securing position with respect to the intake manifold; and (b) a blunted protuberance inwardly directed toward the main body, and wherein the blunted protuberance is configured to limit deflection of the deflection beam; anda radial tab extending from the main body, wherein the radial tab is configured to be retained within the arcuate slot, and wherein the deflectable locking member and the radial tab cooperate to securely connect the sensor assembly to the intake manifold, wherein the radial tab is configured to be slidably received within the arcuate slot as the sensor assembly is rotated into a secure position with respect to the intake manifold, wherein the radial tab includes a leading end configured to abut into the barrier wall when the sensor assembly is securely connected to the intake manifold. 20. The engine system of claim 19, wherein the sensor assembly is devoid of a compression limiter, and wherein the sensor assembly is configured to securely connect to the intake manifold without the use of a separate and distinct tool or a separate and distinct fastener.
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이 특허에 인용된 특허 (9)
Lim, Hyung-Taek, Adapter structure for mounting boost pressure sensor on electronic turbo-charger engine.
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