Latching solenoid actuator with container installation detection
First Claim
Patent Images
1. A mechanical sensor coupled to a latching solenoid, with the solenoid including a nose piece, the solenoid coupled to a control unit and to a pressure valve on a vessel, the sensor comprising:
- a disk configured for reciprocal, axial movement within a first portion of a first bore defined in the nose piece;
an electrical switch disposed in a second bore defined in the nose piece, the electrical switch coupled to the control unit; and
a switch push pin disposed in a portion of the second bore, with the switch push pin in physical contact at one end with the electrical switch, and with a second end extending into the first bore,wherein when the pressure valve is coupled to the latching solenoid, the pressure valve contacts the disk and moves the disk back against the switch push pin to change the status of the electrical switch to indicate that the pressure valve is properly coupled to the latching solenoid.
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Abstract
There is disclosed a mechanism for detecting that a valve coupled to a pressurized container is fully installed into a nose piece of a latching solenoid actuator coupled to a fire suppression system.
30 Citations
20 Claims
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1. A mechanical sensor coupled to a latching solenoid, with the solenoid including a nose piece, the solenoid coupled to a control unit and to a pressure valve on a vessel, the sensor comprising:
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a disk configured for reciprocal, axial movement within a first portion of a first bore defined in the nose piece; an electrical switch disposed in a second bore defined in the nose piece, the electrical switch coupled to the control unit; and a switch push pin disposed in a portion of the second bore, with the switch push pin in physical contact at one end with the electrical switch, and with a second end extending into the first bore, wherein when the pressure valve is coupled to the latching solenoid, the pressure valve contacts the disk and moves the disk back against the switch push pin to change the status of the electrical switch to indicate that the pressure valve is properly coupled to the latching solenoid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A latching solenoid for a pressurized vessel having a pressure valve, the latching solenoid comprising:
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a solenoid coupled to a control unit and configured to operate the pressure valve; a nose piece coupled to the solenoid; a first bore defined in the nose piece, with the first bore including a first portion, a second portion, and a third portion, with each portion having a different inside diameter; a disk disposed in the first portion of the first bore, the disk configured to move a predetermined axial distance in the first portion; a bias member disposed in the second portion of the first bore, the bias member configured to force the disk against a retainer member disposed in the nose piece; a second bore defined in the nose piece and in communication with the first portion of the first bore; an electrical switch disposed in the second bore, the electrical switch coupled to the control unit; and a switch push pin disposed in a portion of the second bore, with the switch push pin in physical contact at one end with the electrical switch, and with a second end extending into the first bore, wherein when the pressure valve is coupled to the latching solenoid, the pressure valve contacts the disk and moves the disk the predetermined axial distance back against the switch push pin to change the status of the electrical switch to indicate that the pressure valve is properly coupled to the latching solenoid. - View Dependent Claims (10, 11, 12, 13, 14, 15)
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16. A method of sensing if a pressure valve attached to a vessel is properly coupled to a latching solenoid, the latching solenoid includes a nose piece and an adaptor configured for rotational engagement with the nose piece and the pressure valve, the method comprising:
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installing a disk in a first bore defined in the nose piece, the disk configured for reciprocal axial movement within the first bore; installing an electrical switch in a second bore defined in the nose piece, the electrical switch coupled to a control unit coupled to the latching solenoid; installing a switch push pin in a portion of the second bore, with the switch push pin positioned to make physical contact with the electrical switch at one end of the push pin and another end of the push pin extending into the first bore; and installing the pressure valve in the adaptor a distance sufficient to push the disk axially a predetermined distance back in the first bore to contact the switch push pin; and moving the switch push pin to contact the switch to change the status of the electrical switch indicating that the pressure valve is properly coupled to the latching solenoid. - View Dependent Claims (17, 18, 19, 20)
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Specification