Automated silkworm cocoon sex sorting

What is claimed is: 1 . An apparatus comprising: a delivery mechanism that carries a checker cocooning frame holding silkworm cocoons; a detection mechanism that detects a female silkworm cocoon based on an optical wavelength emitted by the female silkworm cocoon; and a sorting mechanism that sorts the silkworm cocoons, putting female silkworm cocoons into a female collecting box, and male silkworm cocoons into a male collecting box. 2 . The apparatus of claim 1 , wherein the detection mechanism comprises a second charge-coupled device (CCD) camera that detects the optical wavelength emitted by the female silkworm cocoon. 3 . The apparatus of claim 2 , wherein the detection mechanism further comprises a light emitting diode (LED), a green fluorescence filter, a dichroic mirror, wherein light from the LED goes through the green fluorescence filter producing a green light with a 554 nm central wave length and 30 nm bandwidth that is refracted by the dichroic mirror on to the silkworm cocoon, and wherein light from the silkworm cocoon is transmitted through the dichroic mirror passing through an orange fluorescence filter with a 586 central length and a 20 nm bandwidth to the second CCD camera. 4 . The apparatus of claim 3 , wherein the green light stimulates the female silkworm cocoon to emit an orange 586 nm light, which is transmitted through the dichroic mirror and the orange fluorescence filter and detected by the second CCD camera to identify the female silkworm cocoon. 5 . The apparatus of claim 3 , wherein images from the second CCD camera are analyzed by an image processing algorithm and database to separate the silkworm cocoons by sex. 6 . The apparatus of claim 3 , wherein the detection mechanism comprises a first CCD camera that identifies a grid straw cocooning frame plate of the checker cocooning frame, position information for each silkworm cocoon, double cocoons, and inferior cocoons within the grid straw cocooning frame plate. 7 . The apparatus of claim 6 , wherein the sorting mechanism comprises a plurality of integrated lasers that cut the silkworm cocoons from the checker cocooning frame according to the position information of each silkworm cocoon, so that each male silkworm cocoon goes into the male collecting box and each female silkworm cocoon goes into the female collecting box. 8 . The apparatus of claim 6 , wherein the sorting mechanism comprises a plurality of electromagnetic hammers that push the silkworm cocoons from the checker cocooning frame according to the position information of each silkworm cocoon, so that each male silkworm cocoon goes into the male collecting box and each female silkworm cocoon goes into the female collecting box. 9 . The apparatus of claim 6 , wherein the sorting mechanism comprises a female recycling mechanism and a male recycling mechanism, the female recycling mechanism comprising a female recycling winding belt with a cutting device disposed close to the lower surface of the female recycling winding belt that cuts each female cocoon from the female recycling winding belt into the female collecting box, the male recycling mechanism comprising a male recycling winding belt with a cutting device disposed close to the lower surface of the male recycling winding belt that cuts each male cocoon from the male recycling winding belt into the male collecting box. 10 . A system comprising: a dark box; a delivery mechanism that carries a checker cocooning frame holding silkworm cocoons; a detection mechanism that detects a female silkworm cocoon in the dark box based on an optical wavelength emitted by the female silkworm cocoon; and a sorting mechanism that sorts the silkworm cocoons, putting female silkworm cocoons into a female collecting box, and male silkworm cocoons into a male collecting box. 11 . The system of claim 10 , wherein the detection mechanism comprises a second charge-coupled device (CCD) camera that detects the optical wavelength emitted by the female silkworm cocoon. 12 . The system of claim 11 , wherein the detection mechanism further comprises a light emitting diode (LED), a green fluorescence filter, a dichroic mirror, wherein light from the LED goes through the green fluorescence filter producing a green light with a 554 nm central wave length and 30 nm bandwidth that is refracted by the dichroic mirror on to the silkworm cocoon, and wherein light from the silkworm cocoon is transmitted through the dichroic mirror passing through an orange fluorescence filter with a 586 central length and a 20 nm bandwidth to the second CCD camera. 13 . The system of claim 12 , wherein the green light stimulates the female silkworm cocoon to emit an orange 586 nm light, which is transmitted through the dichroic mirror and the orange fluorescence filter and detected by the second CCD camera to identify the female silkworm cocoon. 14 . The system of claim 12 , wherein images from the second CCD camera are analyzed by an image processing algorithm and database to separate the silkworm cocoons by sex. 15 . The system of claim 12 , wherein the detection mechanism comprises a first CCD camera that identifies a grid straw cocooning frame plate of the checker cocooning frame, position information for each silkworm cocoon, double cocoons, and inferior cocoons within the grid straw cocooning frame plate. 16 . The system of claim 15 , wherein the sorting mechanism comprises a plurality of integrated lasers that cut the silkworm cocoons from the checker cocooning frame according to the position information of each silkworm cocoon, so that each male silkworm cocoon goes into the male collecting box and each female silkworm cocoon goes into the female collecting box. 17 . The system of claim 15 , wherein the sorting mechanism comprises a plurality of electromagnetic hammers that push the silkworm cocoons from the checker cocooning frame according to the position information of each silkworm cocoon, so that each male silkworm cocoon goes into the male collecting box and each female silkworm cocoon goes into the female collecting box. 18 . The system of claim 15 , wherein the sorting mechanism comprises a female recycling mechanism and a male recycling mechanism, the female recycling mechanism comprising a female recycling winding belt with a cutting device disposed close to the lower surface of the female recycling winding belt that cuts each female cocoon from the female recycling winding belt into the female collecting box, the male recycling mechanism comprising a male recycling winding belt with a cutting device disposed close to the lower surface of the male recycling winding belt that cuts each male cocoon from the male recycling winding belt into the male collecting box.