IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
US-0898539
(2001-07-02)
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발명자
/ 주소 |
- Symko, Orest G.
- Abdel-Rahman, Ehab
- Zhang, DeJuan
- Klein, Thierry
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출원인 / 주소 |
|
대리인 / 주소 |
Morriss, Bateman, O'Bryant & Compagni
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인용정보 |
피인용 횟수 :
29 인용 특허 :
20 |
초록
▼
A thermoacoustic refrigerator having a relatively small size which utilizes one or more piezoelectric drivers to generate high frequency sound within a resonator at a frequency of between about 4000 Hz and ultrasonic frequencies. The interaction of the high frequency sound with one or more stacks cr
A thermoacoustic refrigerator having a relatively small size which utilizes one or more piezoelectric drivers to generate high frequency sound within a resonator at a frequency of between about 4000 Hz and ultrasonic frequencies. The interaction of the high frequency sound with one or more stacks create a temperature gradient across the stack which is conducted through a pair of heat exchangers located on opposite sides of each stack. The stack is comprised of an open-celled material that allows axial, radial, and azimuthal resonance modes of the resonator within the stack resulting in enhanced cooling power of the thermoacoustic refrigerator.
대표청구항
▼
A thermoacoustic refrigerator having a relatively small size which utilizes one or more piezoelectric drivers to generate high frequency sound within a resonator at a frequency of between about 4000 Hz and ultrasonic frequencies. The interaction of the high frequency sound with one or more stacks cr
A thermoacoustic refrigerator having a relatively small size which utilizes one or more piezoelectric drivers to generate high frequency sound within a resonator at a frequency of between about 4000 Hz and ultrasonic frequencies. The interaction of the high frequency sound with one or more stacks create a temperature gradient across the stack which is conducted through a pair of heat exchangers located on opposite sides of each stack. The stack is comprised of an open-celled material that allows axial, radial, and azimuthal resonance modes of the resonator within the stack resulting in enhanced cooling power of the thermoacoustic refrigerator. dapter sides; a removable tooth having first and second tooth sides, the removable tooth being coupled with the adapter and at least partially covering the first adapter end; a central portion of the adapter defining an elongate slot which extends from the first adapter side to the second adapter side; the first and second tooth sides having first and second openings, respectively, configured such that the first and second openings are aligned with an imaginary longitudinal axis of the elongate slot while the removable tooth is coupled with the adapter; a primary retainer pin extending at least partially through the first and second openings and the elongate slot, the primary retainer pin being configured to cooperate with the removable tooth, adjacent the first and second openings, to couple the removable tooth and the adapter; the primary retainer pin having a first face which is generally parallel with the first adapter side, and including an internal bore extending from the first face to a side of the primary retainer pin; a secondary retainer pin extending from the internal bore and at least partially into a recessed cavity defined by the central portion, the recessed cavity extending from the elongate slot; and the secondary retainer pin cooperating with the primary retainer pin and the adapter adjacent the recessed cavity to limit movement of the primary retainer pin with respect to the adapter. 2. The adapter assembly of claim 1, wherein the primary retainer pin comprises an elongate oblong-shaped body having an oblong cross section. 3. The adapter assembly of claim 1, wherein a first end of the secondary retainer pin is slightly recessed with respect to the first face of the primary retainer pin and a second end of the secondary retainer pin extends at least partially into the recessed cavity. 4. The adapter assembly of claim 2, wherein the oblong cross-section has a wide dimension and a long dimension which is longer than the wide dimension, and wherein the internal bore extends at an angle to the long dimension such that a length of the internal bore is greater than the long dimension. 5. The adapter assembly of claim 1, wherein the internal bore includes a threaded region operable to engage corresponding threads of the secondary retainer pin. 6. The adapter assembly of claim 1, wherein the internal bore is configured to cooperate with a shoulder of the secondary retainer pin to prevent movement of the secondary retainer pin toward the recessed cavity, beyond an installed position of the secondary retainer pin within the primary retainer pin. 7. The adapter assembly of claim 6, wherein the secondary retainer pin includes a screw head which forms the shoulder. 8. The adapter assembly of claim 1, wherein the adapter comprises a ripper shank. 9. The adapter assembly of claim 1, wherein the removable tooth comprises a removable shroud. 10. The adapter assembly of claim 1, wherein the primary retainer pin is slightly recessed with respect to first and second outer surfaces of the first and second tooth sides, respectively. 11. The adapter assembly of claim 2, wherein the oblong cross-section has a wide dimension and a long dimension which is longer than the wide dimension, and the primary retainer pin is positioned such that an axis through the long dimension extends generally toward a tooth point of the removable tooth. 12. A method for coupling a removable tooth and an adapter assembly, comprising: providing a first adapter having first and second adapter ends, and first and second adapter sides; installing a removable tooth at least partially over the first adapter end, the removable tooth having first and second tooth sides; inserting a primary retainer pin through a first opening of the first tooth side, into an elongate slot which extends from the first adapter side to the second adapter side, and at least partially through a second opening of the second tooth side; the primary retainer pin having a first face at an end of the primary retainer pin, and being operable to cooperate with the removable tooth adjacent the first and second openings to couple the removable tooth and the adapter; and inserting a secondary retainer pin at least partially into a bore which extends from the first face to a side of the primary retainer pin until the secondary retainer pin engages the adapter at a location adjacent a recessed cavity formed by a central portion of the adapter, the recessed cavity extending from the elongate slot, the secondary retainer pin being operable to limit lateral movement of the primary retainer pin with respect to the adapter, along an imaginary longitudinal axis of the elongate slot. 13. A primary retainer pin for coupling excavation equipment components, comprising: an elongate body having first and second faces at first and second ends of the elongate body, the elongate body forming a bore which extends from the first face to a surface of the elongate body adjacent a central portion of the elongate body; and the bore having a threaded region configured to cooperate with threads of a secondary retainer pin such that the secondary retainer pin may be coupled with the elongate body and extend at least partially through the bore. 14. The primary retainer pin of claim 13, further comprising the secondary retainer pin and wherein the secondary retainer pin is coupled with the elongate body. 15. The primary retainer pin of claim 14, wherein the secondary retainer pin may be adjusted between a first position in which a tip of the secondary retainer pin extends from the surface of the elongate body, and a second position in which the tip is recessed with respect to the surface of the elongate body. 16. The primary retainer pin of claim 13, wherein the primary retainer pin includes an oblong cross-section. 17. The primary retainer pin of claim 16, wherein the oblong cross-section has a wide dimension and a long dimension which is longer than the wide dimension, and wherein the bore extends at an angle to the long dimension such that a length of the bore is greater than the long dimension. 18. An adapter assembly for use with excavation equipment, comprising: an adapter having first and second adapter ends, and first and second adapter sides; a removable tooth having first and second tooth sides, the removable tooth being coupled with the adapter and at least partially covering the first adapter end; a central portion of the adapter defining first and second slots which extend at least partially into the first adapter side and the second adapter side, respectively; the first and second tooth sides having first and second openings, respectively, configured such that the first and second openings are aligned with the first and second slots, respectively, while the removable tooth is coupled with the adapter; first and second primary retainer pins extending from the first and second slots, respectively, and at least partially through the first and second openings, respectively, the first and second primary retainer pins being operable to cooperate with the removable tooth adjacent the first and second openings, respectively, to couple the removable tooth and the adapter; and first and second secondary retainer pins extending from the first and second primary retainer pins, respectively, and least partially into first and second recessed cavities, respectively, formed in the central portion of the adapter, to limit lateral movement of the first and second primary retainer pins, respectively, with respect to the adapter. 19. A primary retainer pin for coupling excavation equipment components, comprising: an elongate body having a bore extending at least partially therethrough, the bore being configured to receive a secondary retainer pin; and wherein the oblong cross-section has a wide dimension and a long dimension which is longer than the wide dimension, and wherein the bore extends at an angle to
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