CN206411007U - Soybean lecithin tun quality Optical ray analysis system - Google Patents

Abstract

The utility model is related to field of mechanical technique.Soybean lecithin tun quality Optical ray analysis system, be stored with the container of soybean lecithin including one, container inner wall is provided with the detection unit for monitoring soybean lecithin printing opacity situation, detection unit is provided with least three, and be arranged in longitudinal direction on the inwall of container, the spacing of neighbouring detecting elements is not more than 20cm, and not less than 5cm；Detection unit includes an infrared laser, Yellow light laser, an infrared light sensor, a gold-tinted light sensor；Infrared laser is oppositely arranged with infrared light sensor, and the light emission direction of infrared laser is towards infrared light sensor；The light emission direction of Yellow light laser is towards gold-tinted light sensor.The utility model is easy to monitor soybean lecithin in container and is in the printing opacity situation at different height, be easy to be compared the printing opacity situation of the soybean lecithin at different height by the way that different height is equipped with into detection unit.

Description

Soybean lecithin tun quality Optical ray analysis system

Technical field

The utility model is related to field of mechanical technique, more particularly to soybean lecithin storage container.

Background technology

Existing soybean lecithin container can not be directly realized by Optical ray analysis, enter often by the soybean lecithin in container After row sampling is taken out, analyzed, it is more inconvenient.

Utility model content

The purpose of this utility model is there is provided soybean lecithin tun quality Optical ray analysis system, above-mentioned to solve At least one technical problem.

The technical problem that the utility model is solved can be realized using following technical scheme：

Soybean lecithin tun quality Optical ray analysis system, including a container for being stored with soybean lecithin, its feature exist In the container inner wall is provided with the detection unit for monitoring soybean lecithin printing opacity situation, and the detection unit is provided with least Three, and be arranged in longitudinal direction on the inwall of container, the spacing of neighbouring detecting elements is not more than 20cm, and not less than 5cm；

The detection unit includes a ultrared infrared laser of transmitting, the Yellow light laser of a transmitting gold-tinted, a sense Answer ultrared infrared light sensor, the gold-tinted light sensor of a sensing gold-tinted；

The infrared laser is oppositely arranged with the infrared light sensor, the light emission direction court of the infrared laser To the infrared light sensor；

The Yellow light laser is oppositely arranged with the gold-tinted light sensor, the light emission direction court of the Yellow light laser To the gold-tinted light sensor；

The spacing of the infrared laser and the Yellow light laser is not less than 3cm, the luminous side of the infrared laser It is not less than 20 °, and no more than 160 ° to the angle of the light emission direction of the Yellow light laser.

The utility model is easy to soybean lecithin in monitoring container to be in not by the way that different height is equipped with into detection unit With the printing opacity situation at height, it is easy to be compared the printing opacity situation of the soybean lecithin at different height, is easy to analysis different Highly whether place has impurity or solid particulate matter.The utility model is by limiting the spacing of Yellow light laser and infrared laser With the angle of light emission direction, both interfere is prevented.By using infrared laser and Yellow light laser, due to laser What is sent is linear light, it is easy to improve monitoring accuracy.Detection unit connects a data-interface, infrared light sensor and gold-tinted light Dependent sensor connects computer by the data-interface.It is easy to detect infrared light sensor with gold-tinted light sensor Signal pass to computer.It is this that how the data that computer is collected to infrared light sensor and gold-tinted light sensor, which are analyzed, The common knowledge of art personnel, therefore the utility model is without being described in detail.The utility model is by the structure of improved container, just In the case of monitoring soybean lecithin different height, to the light transmission of black light (infrared light) and visible ray (gold-tinted), enter And the optics permeability to soybean lecithin is analyzed.

The data-interface is arranged on the outer wall of the container.It is easy to external computer.

The signified longitudinal direction of the utility model is the short transverse under the normal laying state of container.

The container is cylindrical, the light emission direction of the infrared laser and the light emission direction of the Yellow light laser Angle is 85 ° -95 °.

Prevent both infrared lasers and Yellow light laser, mutual interference.

The photo-sensitive cell of the infrared light sensor and the gold-tinted light sensor uses photodiode.Due to The setting orientation of infrared light sensor and photosensitive light sensor can prevent mutual interference, therefore use commonly same Light sensor is planted, as long as there is sensing i.e. translucency of the can be known soybean lecithin to feux rouges and gold-tinted of optical signal.Saved into This, without using the light sensor for sensing specific light wave.Photodiode detects visible ray and infrared ray.Therefore the utility model Gold-tinted can be monitored using photodiode, infrared ray can also be monitored.

The infrared light sensor includes an anti-saturating infrared filter of visible ray, a photo-sensitive cell, described anti-visible The saturating infrared filter of light is located at the front of the photo-sensitive cell；

The periphery of the saturating infrared filter of anti-visible ray is provided with a reflection shield, and the reflection shield is in bell mouth shape, institute The internal diameter for stating reflection shield gradually successively decreases from front to back；

The inwall of the reflection shield is electroplate with the reflexed light film that an aluminium film is made, and the thickness of the reflexed light film is from front to back Gradually successively decrease.

The utility model is easy to ensure by being provided with a reflection shield in the periphery of traditional anti-saturating infrared filter of visible ray The monitoring accuracy of infrared light sensor, being accurately aimed at when being installed without both infrared light sensor and infrared laser.

The gold-tinted light sensor includes a cutoff filter, and the thickness of the cutoff filter is from center Gradually successively decrease to periphery.

It is easy to remove infrared light provided with cutoff filter.By optimizing the structure of cutoff filter, it is easy to gather Light.

Brief description of the drawings

Fig. 1 is the fragmentary perspective structure chart of the utility model container；

Fig. 2 is the partial internal structure schematic diagram under the utility model container vertical view state；

Fig. 3 is the phantom of the infrared light sensor of the utility model；

Fig. 4 is a kind of structural representation of the utility model cutoff filter.

Embodiment

In order that technological means, creation characteristic, reached purpose and effect that the utility model is realized are easy to understand, under Face, which combines to be specifically illustrating, is expanded on further the utility model.

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4, soybean lecithin tun quality Optical ray analysis system, including one be stored with soybean The container of phosphatide, container inner wall is provided with the detection unit for monitoring soybean lecithin printing opacity situation, and detection unit is provided with least Three, and be arranged in longitudinal direction on the inwall of container, the spacing of neighbouring detecting elements is not more than 20cm, and not less than 5cm；Detection The sensing of Yellow light laser 3, one that unit includes the ultrared transmitting of infrared laser 1, one gold-tinted of a transmitting is ultrared infrared Light sensor 2, one senses the gold-tinted light sensor 4 of gold-tinted.Infrared laser 1, Yellow light laser 3, infrared light sensor Device 2, gold-tinted light sensor 4 are in sustained height.Infrared laser 1 is oppositely arranged with infrared light sensor 2, infrared laser The light emission direction of device 1 is towards infrared light sensor 2；Yellow light laser 3 is oppositely arranged with gold-tinted light sensor 4, and gold-tinted swashs The light emission direction of light device 3 is towards gold-tinted light sensor 4；The spacing of infrared laser and Yellow light laser is not less than 3cm, infrared The angle of the light emission direction of laser 1 and the light emission direction of Yellow light laser 3 is not less than 20 °, and no more than 160 °.This practicality is new Type is easy to monitor soybean lecithin in container and is in the printing opacity feelings at different height by the way that different height is equipped with into detection unit Condition, is easy to be compared the printing opacity situation of the soybean lecithin at different height.The utility model is by limiting Yellow light laser 3 With the angle of the light emission direction of infrared laser 1, both interfere is prevented.Swash by using infrared laser 1 and gold-tinted Light device 3, what is sent due to laser is linear light, it is easy to improve monitoring accuracy.Detection unit connects a data-interface, infrared light Dependent sensor 2 is connected computer with gold-tinted light sensor 4 by data-interface.It is easy to infrared light sensor 2 and gold-tinted The signal that light sensor 4 is detected passes to computer.Computer is collected to infrared light sensor with gold-tinted light sensor Data how to analyze be those skilled in the art common knowledge, therefore the utility model without be described in detail.The utility model leads to The structure of improved container is crossed, is easy in the case of monitoring soybean lecithin different height, to black light (infrared light) and visible ray The light transmission of (gold-tinted), and then the optics permeability of soybean lecithin is analyzed.One monitoring unit swashs provided with one infrared Light device 1, Yellow light laser 3, one infrared light sensor 2, a gold-tinted light sensor 4, infrared laser 1, Huang Light laser 3, infrared light sensor 2, gold-tinted light sensor 4 are in sustained height.Or, a monitoring unit is provided with The Yellow light laser that the infrared laser of three longitudinal direction arrangements, three longitudinal directions are arranged, adjacent infrared laser launches light Spacing is not more than 1cm, and the spacing of adjacent Yellow light laser transmitting light is not more than 8cm, and not less than 3mm.Improve single prison Survey the monitoring accuracy of unit.

Data-interface is arranged on the outer wall of container.It is easy to external computer.The signified longitudinal direction of the utility model is container Short transverse under normal laying state.

Container is cylindrical, and the angle of the light emission direction of infrared laser 1 and the light emission direction of Yellow light laser 3 is 85 °- 95°.Prevent both infrared lasers 1 and Yellow light laser 3, mutual interference.Infrared light sensor 2 and the photosensitive biography of gold-tinted The photo-sensitive cell of sensor 4 uses photodiode.Due to the setting orientation of infrared light sensor 2 and photosensitive light sensor Mutual interference can be prevented, therefore uses common same light sensor, as long as there is the sensing i.e. can be known of optical signal Translucency of the soybean lecithin to feux rouges and gold-tinted.Cost is saved, without using the light sensor for sensing specific light wave.It is photosensitive Diode detection visible ray and infrared ray.Therefore the utility model can monitor gold-tinted using photodiode, can also monitor red Outside line.

Referring to Fig. 3, infrared light sensor 2 includes an anti-saturating infrared filter 22 of visible ray, a photo-sensitive cell 23, instead The saturating infrared filter 22 of visible ray is located at the front of photo-sensitive cell 23；The periphery of the anti-saturating infrared filter 22 of visible ray is provided with One reflection shield 21, reflection shield 21 is in bell mouth shape, and the internal diameter of reflection shield 21 gradually successively decreases from front to back；The inwall electricity of reflection shield 21 The reflexed light film 24 that an aluminium film is made is coated with, the thickness of reflexed light film 24 gradually successively decreases from front to back.The utility model by The periphery of the anti-saturating infrared filter of visible ray of tradition is provided with a reflection shield, is easy to ensure the monitoring essence of infrared light sensor 2 Degree, being accurately aimed at when both install without infrared light sensor 2 and infrared laser 1.It is infrared that infrared laser 1 is sent Line is passed through after the saturating infrared filter of anti-visible ray towards photo-sensitive cell.The thickness of reflexed light film is 0.1mm-0.4mm.

Referring to Fig. 4, gold-tinted light sensor 4 includes a cutoff filter 41, the thickness of cutoff filter 41 Gradually successively decrease from center to periphery.It is easy to remove infrared light provided with cutoff filter.By optimizing cutoff filter Structure, be easy to optically focused.Gold-tinted light sensor 4 includes photo-sensitive cell, and the gold-tinted that Yellow light laser 3 is sent passes through IR-cut Towards photo-sensitive cell after optical filter.The periphery of cutoff filter 41 is provided with a reflection shield, and reflection shield is in bell mouth shape, reflective The internal diameter of cover gradually successively decreases from front to back；The inwall of reflection shield is electroplate with the reflexed light film that an aluminium film is made, the thickness of reflexed light film Degree gradually successively decreases from front to back.Improve the monitoring accuracy of gold-tinted light sensor.

The inwall of container is coated with the not viscous oil coating that a polytetrafluoroethylene (PTFE) is made.Prevent soybean lecithin from sticking in container Wall.

The outer wall of container is provided with a first switch for controlling infrared laser 1 to switch, and first switch is positioned at red On the electrical energy inputs of outer laser 1 and the line of power supply；The outer wall of container is used to control Yellow light laser 3 to switch provided with one Second switch, and second switch be located at Yellow light laser 3 electrical energy inputs and power supply line on.It is easy to open by first Close the opening and closing for controlling infrared laser 1 and Yellow light laser 3 respectively with second switch.

General principle of the present utility model and principal character and advantage of the present utility model has been shown and described above.One's own profession The technical staff of industry is it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Simply illustrate principle of the present utility model, on the premise of the utility model spirit and scope are not departed from, the utility model is also Various changes and modifications are had, these changes and improvements are both fallen within the range of claimed the utility model.The utility model Claimed scope is by appended claims and its equivalent thereof.

Claims (4)

1. soybean lecithin tun quality Optical ray analysis system, including a container for being stored with soybean lecithin, it is characterised in that The container inner wall is provided with the detection unit for monitoring soybean lecithin printing opacity situation, and the detection unit is provided with least three It is individual, and be arranged in longitudinal direction on the inwall of container, the spacing of neighbouring detecting elements is not more than 20cm, and not less than 5cm；

The detection unit is red including a ultrared infrared laser of transmitting, the Yellow light laser of a transmitting gold-tinted, a sensing The gold-tinted light sensor of the infrared light sensor of outside line, a sensing gold-tinted；

The infrared laser is oppositely arranged with the infrared light sensor, and the light emission direction of the infrared laser is towards institute State infrared light sensor；

The Yellow light laser is oppositely arranged with the gold-tinted light sensor, and the light emission direction of the Yellow light laser is towards institute State gold-tinted light sensor；

The spacing of the infrared laser and the Yellow light laser is not less than 3cm, the light emission direction of the infrared laser with The angle of the light emission direction of the Yellow light laser is not less than 20 °, and no more than 160 °.

2. soybean lecithin tun quality Optical ray analysis system according to claim 1, it is characterised in that the container Cylindrical, the angle of the light emission direction of the infrared laser and the light emission direction of the Yellow light laser is 85 ° -95 °；

The photo-sensitive cell of the infrared light sensor and the gold-tinted light sensor uses photodiode.

3. soybean lecithin tun quality Optical ray analysis system according to claim 1, it is characterised in that described infrared Light sensor includes an anti-saturating infrared filter of visible ray, a photo-sensitive cell, the anti-saturating infrared filter of visible ray Positioned at the front of the photo-sensitive cell；

The periphery of the saturating infrared filter of anti-visible ray is provided with a reflection shield, and the reflection shield is in bell mouth shape, described anti- The internal diameter of light shield gradually successively decreases from front to back；

The inwall of the reflection shield is electroplate with the reflexed light film that an aluminium film is made, and the thickness of the reflexed light film is from front to back gradually Successively decrease.

4. soybean lecithin tun quality Optical ray analysis system according to claim 1, it is characterised in that the gold-tinted Light sensor includes a cutoff filter, and the thickness of the cutoff filter gradually successively decreases from center to periphery.