초록 ▼

A two-stage pulse tube refrigerator having a compact design, low vibration and low heat loss is provided where at least the 2nd stage is co-axial but preferably, both stages are co-axial with the second stage pulse tube being central and the first stage pulse tube occupying the annular space between

A two-stage pulse tube refrigerator having a compact design, low vibration and low heat loss is provided where at least the 2nd stage is co-axial but preferably, both stages are co-axial with the second stage pulse tube being central and the first stage pulse tube occupying the annular space between the second stage pulse tube and the first stage regenerator. Convection losses associated with different temperature profiles in the pulse tubes and regenerators are minimized by shifting the thermal patterns in the pulse tubes relative to the regenerators by one or more of spacers in the regenerators, physical differences in length with gas channel connections, adjustment of dc flow, and thermal bridges.

대표청구항 ▼

1. A pulse tube expander for a cryostat, the expander comprising: an elongated pulse tube comprising a warm end and a cold end, the warm end of the elongated pulse tube connected to a buffer assembly and the cold end of the elongated pulse tube connected to a helium condenser;a first stage pulse tub

1. A pulse tube expander for a cryostat, the expander comprising: an elongated pulse tube comprising a warm end and a cold end, the warm end of the elongated pulse tube connected to a buffer assembly and the cold end of the elongated pulse tube connected to a helium condenser;a first stage pulse tube comprising a warm end and a cold end, the warm end of the first stage pulse tube connected to the buffer assembly and the cold end of the first stage pulse tube connected to a first stage heat station, the warm end of the elongated pulse tube being proximate to the warm end of the first stage pulse tube;a spacer for spacing apart a first stage regenerator and a second stage regenerator, a first distance between the warm end of the elongated pulse tube and the spacer defines a first portion and a second distance between the cold end of the elongated pulse tube and the spacer defines a second portion;the first stage regenerator disposed in the first portion;the second stage regenerator disposed in the second portion; andthe first stage pulse tube disposed co-axially with the elongated pulse tube and the first stage regenerator, the first stage pulse tube being disposed between the elongated pulse tube and the first stage regenerator, the first stage pulse tube being in direct contact with the elongated pulse tube and the first stage regenerator. 2. The expander of claim 1, wherein the spacer comprises a heat station. 3. The expander of claim 1, wherein at least one pulse tube is thermally coupled to a heat shield in the cryostat. 4. The expander of claim 1, wherein the elongated pulse tube and the second stage regenerator are co-axial. 5. The pulse tube expander of claim 1, wherein the first and second portions comprise different temperature gradients that coincide with the respective first and second stage regenerators. 6. A pulse tube expander for a cryostat, the expander comprising: a first stage pulse tube comprising a warm end and a cold end, the warm end of the first stage pulse tube connected to a buffer assembly and the cold end of the first stage pulse tube connected to a first stage heat station;a second stage pulse tube comprising a warm end and a cold end, the warm end of the second stage pulse tube connected to the buffer assembly and the cold end of the second stage pulse tube to a second stage heat station, the second stage pulse tube disposed co-axially within the first stage pulse tube and directly adjacent to the first stage pulse tube, the warm end of the second stage pulse tube being proximate to the warm end of the first stage pulse tube, the second stage pulse tube comprising an extended portion that extends beyond the cold end of the first stage pulse tube;a first stage regenerator surrounding a first portion of the first stage pulse tube;a second stage regenerator surrounding a second portion of the second stage pulse tube; anda plurality of single wall tubes separating the regenerators and the pulse tubes. 7. The expander of claim 6, wherein a distance between a warm end of the first stage regenerator and the warm end of the first stage pulse tube is occupied by a no gap, a spacer, a heat exchanger, a spacer channel or a combination thereof. 8. The expander of claim 6, wherein a distance between a cold end of the first stage regenerator and the cold end of the first stage pulse tube is occupied by a no gap, a spacer, a heat exchanger, a spacer channel or a combination thereof. 9. The expander of claim 6, wherein the distance between a warm end of the second stage regenerator and the cold end of the first stage pulse tube is occupied by a no gap, a spacer, a heat exchanger, a spacer channel or a combination thereof. 10. The expander of claim 6, wherein the distance between a cold end of the second stage regenerator and the cold end of the second stage pulse tube is occupied by a no gap, a spacer, a heat exchanger, a spacer channel or a combination thereof.