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A refrigerant valve has a body with a through bore. Multiple tubes have openings aligned in a ring around a middle of the bore. The tubes lead to larger channels in the body. A needle assembly inserted through an end of the bore reciprocates a needle with a stepper motor and speed reducer to precise

A refrigerant valve has a body with a through bore. Multiple tubes have openings aligned in a ring around a middle of the bore. The tubes lead to larger channels in the body. A needle assembly inserted through an end of the bore reciprocates a needle with a stepper motor and speed reducer to precisely control sizes of the openings. Further advancing the needle shaft after closing the openings to the tubes, engages and slides a bypass sleeve against a return spring force to open a bypass in a side of the valve body. A connector connects the bypass in a first end of the bore to outward opening holes of the channels.

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1. Apparatus comprising a refrigerant control valve having a valve body,a through bore in the valve body,the through bore having a first end portion, a medial portion and a second end portion, plural tubes extending through the valve body,the tubes having first and second ends,plural lateral opening

1. Apparatus comprising a refrigerant control valve having a valve body,a through bore in the valve body,the through bore having a first end portion, a medial portion and a second end portion, plural tubes extending through the valve body,the tubes having first and second ends,plural lateral openings in the medial portion of the through bore,the first ends of the tubes severally connected to the lateral openings in the medial portion of the through bore,plural channels extending through the valve body,the plural channels having first and second ends,the first ends of the plural channels being connected respectively to the second ends of the plural tubes,a needle assembly mounted in the second end of the through bore,the needle assembly havinga needle shaft with first and second ends,an end needle on the first end of the needle shaft,a longitudinal needle motion controller connected to the second end of the needle shaft, and disposed with the needle assembly to move the needle shaft in the through bore and to move the end needle in the through bore to selectively open and obscure the lateral openings and to control fluid flowing from them the first end portion of the through bore and through the plural lateral openings, the plural tubes and the plural channels. 2. The apparatus of claim 1, wherein the valve body has an axis, a first end, a second end, a first end portion, a medial portion and a second end portion, wherein the first end portion is generally cylindrical and the medial and second end portions are generally conical and funnel shaped and extend radially outward from the axis with increasing diameters of the medial and second end portions. 3. The apparatus of claim 2, wherein the plural tubes and the plural channels are arranged at acute angles with respect to the through bore and extend through the medial and second end portions. 4. The apparatus of claim 2, further comprising a cap fitted on the second end of the valve body, a sealing ring between the cap and the second end of the valve body and fasteners connected to the cap and the second end of the valve body and compressing the sealing ring between the cap and the second end of the valve body. 5. The apparatus of claim 2, wherein the valve body has an annular surface and the surface has plural spaced connection openings at the second ends of the plural channels. 6. The apparatus of claim 5, wherein the connection openings have recesses in the second end of the valve body and wherein connection tubes are inserted and sealed in the recesses. 7. The apparatus of claim 2, further comprising a first recess in the second end of the valve body, a speed reducer positioned in the first recess, a second smaller recess in the second portion of the body and a rotary to linear converter is positioned, the first and second recesses, a stepper motor connected to the speed reducer, a cap covering the stepper motor and holding the stepper motor toward the speed reducer, a sealing ring interposed between the cap and the second end of the valve body and fasteners connecting the cap to the second end of the valve body and compressing the sealing ring. 8. The apparatus of claim 2, further comprising a large bypass hole extending through a wall of the first portion of the valve body, plural outward extending holes from first ends of the plural channels through a wall of the medial portion of the valve body, a bypass cover having a central first end opening fitted over the first portion and partially over the medial portion of the valve body and a fluid connection connected to the cover for connecting the bypass hole in the first portion of the valve body to the plural outward extending holes from the first ends of the plural channels, an annular cylindrical sleeve having open first and second ends and slideable within the through bore, the sleeve having a lateral hole for selectively aligning with the bypass hole, a sleeve travel limiter adapted to permit movement between a first position aligning the sleeve lateral hole with the bypass hole and a second position closing the bypass hole with a wall of the sleeve, a spring interposed between the first end of the cover and a first end of the sleeve urging the sleeve into its second position closing the bypass hole, wherein advancing the needle shaft toward the first end of the through bore closes the lateral openings to the tubes and moves the sleeve against force of the spring into the first position of the sleeve, opening the bypass hole. 9. The apparatus of claim 1, wherein the medial portion of the through bore is a needle chamber, wherein the needle shaft slides. 10. The apparatus of claim 9, wherein the second end of the needle shaft is connected to a threaded shaft and the threaded shaft is connected to a complementary threaded sleeve, and wherein the needle motion controller is connected to the complementary threaded sleeve to turn the sleeve in a first direction to advance the needle shaft in the needle chamber and to turn the sleeve in a second opposite direction to move the needle shaft in an opposite direction. 11. The apparatus of claim 10, wherein the needle motion controller further comprises a stepper motor, a speed reducer connected to the stepper motor, and an output on the speed reducer connected to the sleeve to rotate the sleeve selectively in the first and second directions. 12. The apparatus of claim 10, wherein the second end of the needle shaft has a recess that receives the threaded shaft. 13. Apparatus comprising a refrigerant control valve having a valve body,a through bore in the valve body,the through bore having a first end portion, a medial portion and a second end portion plural tubes extending through the valve body,the tubes having first and second ends,plural lateral openings in the medial portion of the through bore,the first ends of the tubes severally connected to the lateral openings in the medial portion of the through bore,plural channels extending through the valve body,the plural channels having first and second ends,the first ends of the plural channels being connected respectively to the second ends of the plural tubes,a needle assembly mounted in the second end of the through bore,the needle assembly havinga needle shaft with first and second ends,an end needle on the first end of the needle shaft,a recess in the second end of the needle shaft,a threaded shaft having first and second ends,the threaded shaft mounted in the recess in the second end of the needle shaft,a reduction gear assembly connected to the second end of the threaded shaft,a stepper motor connected to the reduction gear assembly and disposed with the needle assembly to move the needle shaft in the through bore and to move the end needle in the through bore to selectively open and obscure the lateral openings and to control fluid flowing from the first end portion of the through bore and through the plural lateral openings, the plural tubes and the plural channels. 14. A method comprising providing a refrigerant control valve having a valve body with a connection to a refrigerantproviding bore through the valve body,providing plural tubes extending through the valve body,providing plural lateral openings from the tubes in the medial portion of the through bore,providing plural channels extending from the tubes through the valve body,providing a needle assembly mounted in a second end of the through bore,the needle assembly having an end needle on a first end of the needle shaft,providing a longitudinal needle motion controller on a second end of the needle shaft,moving the needle shaft in the bore and to selectively opening, partially closing and closing and obscure the lateral openings and controlling refrigerant fluid flowing between the first end of the bore and the plural channels. 15. The method of claim 14, wherein the moving the needle shaft comprises providing a stepper motor and a speed reducer moving a threaded shaft with the speed reducer and moving the needle with the threaded shaft.