Claims
- 1. A thermal ampoule for use in a sprinkler, comprising:
a closed hollow cylindrical glass casing; an electrical heating coil installed in the inside of the glass casing; a negative electrode provided on the outer surface at bottom end of the casing and electrically connected to one end of the coil; a positive electrode provided on the outer surface of the side wall of the casing and electrically connected to the other end of the coil; and a heat expansive gas entrapped inside the casing.
- 2. A thermal ampoule for use in a sprinkler, comprising:
a hollow casing containing a heat expansive gas, the gas having a characteristic rate of expansion given heat, the casing comprising first and second closed end portions located opposite to each other, and a side wall portion formed between the first and second closed end portions; and an electrical coil located in the inside of the casing and conducting an applied current flow therethrough, wherein the electrical coil generates a selected amount of heat in proportion to the current, and the heat is transferred to the gas.
- 3. The thermal ampoule of claim 2, wherein the hollow casing is configured to break as a result of the expansion of the gas.
- 4. The thermal ampoule of claim 2, wherein the coil includes first and second terminals, the first terminal being configured to receive the applied current, the second terminal being configured to cause the current to flow through the coil.
- 5. The thermal ampoule of claim 4, further comprising:
first and second electrodes; and first and second electrical wires connecting the first and second terminals of the coil to the first and second electrodes, respectively; wherein the first electrode is configured to transfer the applied current to the first terminal, and the second electrode is connected to the ground.
- 6. The thermal ampoule of claim 5, wherein the first electrode and the connection to the first terminal are located on the outside of the casing, and the first electrical wire passes through the hollow casing in order to connect the first terminal to the first electrode.
- 7. The thermal ampoule of claim 6, wherein the side wall portion includes a protruding portion, and the first electrode is located on the protruding portion and shaped in conformance with the shape of the protruding portion.
- 8. The thermal ampoule of claim 5, wherein the second electrode is located on the second closed end portion, and the second electrical wire passes through the hollow casing in order to connect the second terminal to the second electrode.
- 9. The thermal ampoule of claim 5, wherein the first electrode is located on the first closed end portion, and the second electrode is located on the second closed end portion.
- 10. The thermal ampoule of claim 2, wherein the casing is formed from a substantially glass material.
- 11. The thermal ampoule of claim 2, wherein the casing has a substantially cylindrical shape.
- 12. A thermal ampoule for use in a sprinkler, comprising:
a closed hollow casing enclosing a heat expansive gas, the gas being selected to expand according to a specific amount of applied heat; and an electrical coil located in the inside of the casing and conducting current therethrough, wherein the electrical coin generates first and second amounts of heat in proportion to first and second applied currents, respectively, and transfers the first and second amounts of heat to the gas.
- 13. The thermal ampoule of claim 12, wherein the first amount of heat is selected to allow the gas to expand and break the hollow casing.
- 14. The thermal ampoule of claim 12, wherein the second current is smaller than the first current, and the second amount of heat is selected so that the expanded gas does not break the hollow casing.
- 15. A sprinkler head for use in a sprinkler, comprising:
a housing defining a liquid supply hole, the hole adapted to supply an extinguishing liquid to the inside of the housing; a thermal ampoule located in the housing and containing a heat expansive gas and an electrical coil therein, the gas being selected to expand according to a selected amount of applied heat, wherein the coil is configured to generate the selected amount of applied heat based on an input current and is configured to transfer the selected amount of applied heat to the gas; a valve plate supported by the ampoule so as to keep the hole closed; wherein the amount of applied heat is selected to allow the expanded gas to break the ampoule, and the valve plate is configured to open the hole in response to the breaking of the ampoule, thereby discharging the extinguishing liquid from the sprinkler head.
- 16. A method of operating a thermal ampoule for use in a sprinkler, the method comprising:
applying a current to an electrical coil located in the inside of the thermal ampoule, the ampoule containing an expansion gas surrounding the coil; and feeding the current through the electrical coil so as to generate heat and expand the gas.
- 17. The method of claim 16, wherein the amount of generated heat is selected to allow the gas to expand and break the thermal ampoule.
- 18. The method of claim 16, wherein the applying comprises providing the current from a first electrode located on the outside of the ampoule to a first terminal of the coil.
- 19. The method of claim 18, wherein the feeding comprises feeding the current from the first terminal to a second terminal of the coil, the second terminal being electrically connected to a second electrode located on the outside of the ampoule.
- 20. The method of claim 16, wherein the ampoule is formed from a substantially glass material.
- 21. The method of claim 16, wherein the ampoule has a substantially cylindrical shape.
Priority Claims (1)
Number |
Date |
Country |
Kind |
2000-23442 |
May 2000 |
KR |
|
RELATED APPLICATION
[0001] This application is a continuation application of PCT application No. PCT/KR00/00545 filed on May 26, 2000 and published on Nov. 8, 2001 in English, which is hereby incorporated by reference herein.
Continuations (1)
|
Number |
Date |
Country |
Parent |
PCT/KR00/00545 |
May 2000 |
US |
Child |
10034319 |
Dec 2001 |
US |