TH5505A - A device for determining the amylose content and / or Amilopectin in rice - Google Patents

Abstract

Equipment for determining the amount of amylose and / or amylopectin present in rice. By projecting a long near-infrared beam The waves range from 1900-2500 nm onto rice samples. The measuring device receives the reflected light. And / or passed out From the said rice samples To give rise to a signal that represents Exposure light intensity The memory stores a series of contacts. Right to convert components for amylose And / or amilopectin Units to calculate and calculate amylose And / or amilopectin Available in rice samples By thinking from the measured signal By the aforementioned measuring devices And the component conversion coefficient Stored in the said memory and display the calculated result By display device telling

Claims (8)

1.Device for measuring amylose content And / or the amylopectin contained in rice by the device Such as The sample container positioned at the point where measurement will take place is predetermined with the rice sample to be measured. In the sample container A near-infrared spectrometer That includes the source A light source that emits light through a sample of rice contained in the container. Contain such a sample Optical devices placed between Light sources and rice samples thereof To emit a near-infrared beam with wavelengths in the range from approximately 1900 nm to approximately 2500 nm of light from the source. Such light can pass through And light intensity measurement devices to generate signals indicating the intensity of such light. - Control devices that include memory. For collecting sets Component conversion coefficient for Mamylose And / or Alopec Soil and calculator for calculating amylose and / or amylose content. Pectin in the example above This is based on the conversion coefficient, components and signals from the aforementioned photometric devices and indication devices. Connected to the control device to show Amylose content And / or the amylopectin calculated by the device 2. The device as in claim 1, where the device is shown as It consists of a filter device. 3. The equipment as in claim 2 includes a drive means connected to Such filter equipment to make the filter device Such light filters can adjust the angle of incidence of such light from Such light source Incident on the filter filter device 4. The device as in claim 2, where the filter device Such light filters consist of at least one light filter where the actual wavelength is one of the bands. Wavelengths of 1900-1970 nm, 2000-2060 nm, 2070-2130 nm, 2150-2200 nm, 2210-2260 nm and 2270- 2370 nm. The light that consists of a set of Phil Optical filters that differ in actual wavelengths to each other and the drive device connected to the filter device. Such light to drive the filter device to equip one of the selected filters of the filter set. This filter is aligned with the optical axis of the light coming from. 6. The device as in claim 5, where the device is Such propulsion can propel such devices In order to be able to adjust the angle of incidence of light from a loud light source It is possible to say that the selected light filter is affected. 7. The device as in claim 6, where the filter device The light filter consists of six filters that are usually hexagonal around the light source. 8. The device in claim 1, where the light device It includes a reflector that will reflect light from such light sources, a specification material for diffusing a specification of reflected light from Such reflective glass And adjusting equipment connected with One of the aforementioned reflectors And the aforementioned specification material To be able to rotate the material around the spindle to adjust the In relative position between the reflector and The material specification is such a brand. In order to be able to adjust the angle of incidence Of the light from the reflector that comes onto the 9. The equipment in claim 1 includes a temperature measuring device to measure the sample temperature. Rice in the sample container to cause Measurable signal Such a memory of the said control device to store a set of temperature corrected for amylose. And / or amilopectin The aforementioned computation of the said control device to correct the amylose content. And / or available amilopectins based on the measured signal from the temperature sensing device; and Corrected temperature values stored in the aforementioned memory device 1 0. Devices as in claim 1 include a temperature detector to measure the temperature inside the measuring chamber It has a built-in near-infrared spectrometer for signaling and a temperature controller for controlling the temperature of the components. The abundance of such a near-infrared spectrometer is valuable. As predetermined By comparing the signals that were measured from Temperature measuring device 1 1. Equipment as in claim 1, which consists of A near-infrared spectrometer consisting of a spherical segment. With a light window into Where the light from such light source can pass through and the temple window opposite the window Such input light And will open in the predetermined measurement position and the tethered holder in the specified measurement position Pre-installed to hold the sample container so that it can be removed from its grip. 2. Equipment as in claim 11, where the measurement window is It has been covered with a transparent sheet 1 3. A device for measuring amylose content. And / or amilopectin Contained in rice Where such equipment consists of One device box The receiving cone is firmly attached to the box to support the rice. Grinding equipment trapped inside the box For grinding loud rice As from the cone - a separator built into the box for sorting. Remove the rice mashed by the aforementioned grinding equipment. And enter an example. The rice to be measured with grain size smaller than the predetermined value. And go to the pre-defined containment location Sample container for containing rice samples A holder for holding the sample container, which can be removed. Such packing And the location of the temple that is far away A near-infrared spectrometer that includes a light source. For the irradiation of the rice samples in the container. Contain such a sample That was held by the anchor that was in The said location Optical devices located between sources Such light and rice samples To leave the beam A near-range infrared whose wavelength ranges from 1900-2500 nm of light from such a light source. And light intensity measuring device for measuring the light intensity of Reflected light And / or passed from the said rice sample This will give rise to a signal showing that light intensity. Control devices including a memory for storing a set Component conversion coefficient for amylose And / or amylose Pectin stored in memory And a calculation device for calculating Amylose content And / or the amylopectin contained in the sample of rice based on the conversion coefficient of the said component. And the signal from the aforementioned photodetector and indicator device connected to the control device for indicating To the amount of amylose And / or the amyloschatin calculated by The aforementioned calculation device 1 4. The equipment described in Claim 13 includes a swivel device for turning the said clamp in the containment position. It goes back and forth between the first position that makes the sample container. By the said seizure Feed from the cutting device And the second position that allows Such samples of rice freely fall out of the container. 5. The device, as in claim 14, where the spectrometer The near infrared. It consists of a spherical section which combines To the window to light into Which the light from such light source will pass through the temple window which is installed in the opposite position With such entry light windows And will be open in the age position at Predetermined And there is a transparent sheet connecting the said temple window 1 6. Equipment as in claim 15, where the container itself As such, there is a transparent bottom wall and a measuring device, including photometric materials, installed in the measuring position, the sample container held by the holder. It is between the transparent sheet and the measuring material. Such light intensity When the holder is in the said temple position 1 7. Equipment as in claim 16, where the measuring device It also includes at least one photometric material installed in the spherical section 1. 8. The equipment in Clause 16, which includes the first and second cleaning devices connected to the holder, will Moving with that holder When the holder has moved With the aforementioned transport devices between the said filling position and The above temple location To clean such transparent sheets And the aforementioned light intensity measurement material, respectively (18 claims, 6 pages, 9 photos)