CN205209540U - Detection device based on bayonet test probe - Google Patents

Abstract

The utility model discloses a detection device based on bayonet test probe, include: controlling means, detection support, test probe, elevating system, detection translation platform, spectral detection module, temperature and humidity detection module, optical fiber probe and temperature sensor set up respectively in two inspection holes of test probe head, the other end and test probe fixed connection are fixed on detecting the support to elevating system's one end, controlling means and elevating system are connected, and elevating system makes test probe carry out the elevating movement through control, and wherein, test probe's head can insert and be located the quilt that detects the translation bench and examine article and detect. The utility model discloses a detection device can realize not open that the package detects the sample detecting of inside, can avoid receiving external environment astigmatic influence of mix, can detect the quality information of the different positions of sample and the different degree of depth, has overcome the influence of inhomogeneities to the sample test result, has improved the precision and the accuracy of measuring.

Description

A kind of pick-up unit based on plug-in type detector probe

Technical field

The utility model relates to technical field of spectral detection, particularly relates to a kind of pick-up unit based on plug-in type detector probe.

Background technology

At present, all need to carry out quality testing as the material storage of cigarette enterprise and tobacco redrying enterprise is last, detecting pattern of the prior art comparatively tradition, conservative, takes artificial sampling to detect more.Traditional detection mode needs to utilize chemical analyzer to detect, Problems existing is: chemical data is long for detection time, testing process needs to use poisonous chemical reagent, sample representation is not strong, hardware device configuration shortcoming, ladder of management is backwardness relatively, the not high problems of the level of IT application.Therefore, a kind of novel pick-up unit is needed.

Utility model content

In view of this, a technical matters to be solved in the utility model is to provide a kind of pick-up unit based on plug-in type detector probe, can effectively solve the problem.

Based on a pick-up unit for plug-in type detector probe, comprising: control device, Bracket for Inspection, detector probe, elevating mechanism, detection translation stage, spectral detection module, Temperature and Humidity module; Described spectral detection module comprises: optical fiber probe; Temperature and Humidity module comprises: temperature sensor and humidity sensor; The head of described detector probe is provided with two detect aperture, and described optical fiber probe and described temperature sensor are separately positioned in described two detect aperture; Described Bracket for Inspection is positioned at the top of described detection translation stage, and one end of described elevating mechanism is fixed on described Bracket for Inspection, and the other end is fixedly connected with described detector probe; Described control device is connected with described elevating mechanism, makes described detector probe carry out elevating movement by controlling described elevating mechanism, and wherein, the head of described detector probe can insert the inspected object be positioned on described detection translation stage and detect.

According to an embodiment of the present utility model, further, described spectral detection module also comprises: light source, spectrometer and fibre multiplexer; Described optical fiber probe is connected with described spectrometer by optical fiber, and described fibre multiplexer connects described light source and described optical fiber probe respectively by optical fiber.

According to an embodiment of the present utility model, further, described elevating mechanism comprises: slide rail, slide and lifting drive; Described slide rail is arranged on described Bracket for Inspection, and the afterbody of described detector probe is fixedly connected with described slide, and described slide matches with described slide rail, drives described slide to move up or down along described slide rail by described lifting drive.

According to an embodiment of the present utility model, further, described lifting drive comprises: the first motor, the first gear train, the gear be meshed and tooth bar; Described tooth bar is fixedly connected with described Bracket for Inspection, and described gear and described motor are arranged on described slide, and described first motor drives described pinion rotation by described first gear train, and described control device is electrically connected with described first motor; Described first gear train is gear drive or chain-drive mechanism.

According to an embodiment of the present utility model, further, described lifting drive comprises: cylinder, solenoid valve; The cylinder body of described cylinder is fixedly connected with described Bracket for Inspection, and the piston rod of described cylinder is fixedly connected with described slide; First working port of described solenoid valve communicates with pressure gas source, and second, third working port of described solenoid valve communicates with the rodless cavity of described cylinder and rod chamber respectively; Described control device is electrically connected with described solenoid valve.

According to an embodiment of the present utility model, further, described detection translation stage comprises the material transmitting device for transmitting inspected object, and described material transmitting device is positioned at the below of described Bracket for Inspection.

According to an embodiment of the present utility model, further, described material transmitting device comprises: the second motor, the second gear train, along the spaced multiple roll shaft of inspected object direction of transfer; Wherein, described second motor drives described multiple roll shaft to rotate by described second gear train; Described gear train is chain-drive mechanism, gear drive or belt gear.

According to an embodiment of the present utility model, further, for detecting the optoelectronic switch of inspected object run location; Wherein, described optoelectronic switch is arranged on described detection translation stage, and described optoelectronic switch is electrically connected with described control device.

According to an embodiment of the present utility model, further, described detection translation stage is provided with erection device; Described erection device comprises: the first righting guide plate and described second righting guide plate; Described first righting guide plate is fixedly connected with described material transmitting device respectively with described second righting guide plate, described first righting guide plate and described second righting guide plate are oppositely arranged and are positioned at the below of described Bracket for Inspection, form gathering sill between described first righting guide plate and described second righting guide plate.

According to an embodiment of the present utility model, further, be provided with along inspected object direction of transfer and arrange detector probe more.

According to an embodiment of the present utility model, further, the spacing between adjacent two row's detector probe is all identical, and the spacing of often arranging between two adjacent detector probe in detector probe is all identical.

Pick-up unit based on plug-in type detector probe of the present utility model, bag can be realized not open detect the detection sample of inside, detect in sample by detector probe is directly inserted into, make optical fiber probe and temperature sensor directly and sample contacts, avoid the impact by external environment and parasitic light, can detect the quality information of sample diverse location and different depth, overcome the impact of unevenness on sample detection result, ensure that the sample representation detecting sample, improve precision and the accuracy of detection.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the schematic diagram of an embodiment according to the pick-up unit based on plug-in type detector probe of the present utility model;

Fig. 2 is the head construction schematic diagram according to the optical fiber probe in an embodiment of the pick-up unit based on plug-in type detector probe of the present utility model;

Fig. 3 is the model calling schematic diagram according to the spectral detection module in an embodiment of the pick-up unit based on plug-in type detector probe of the present utility model, Temperature and Humidity module;

Fig. 4 is according to the control module connection diagram in an embodiment of the pick-up unit based on plug-in type detector probe of the present utility model.

Fig. 5 is the check point layout according to the detector probe transverse direction in an embodiment of the pick-up unit based on plug-in type detector probe of the present utility model;

Fig. 6 is the check point layout according to the detector probe longitudinal direction in an embodiment of the pick-up unit based on plug-in type detector probe of the present utility model.

Embodiment

With reference to the accompanying drawings the utility model is described more fully, exemplary embodiment of the present utility model is wherein described.Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.Below in conjunction with each figure and embodiment, many-sided description is carried out to the technical solution of the utility model.

"left", "right" alleged in literary composition, " on ", left and right, the upper and lower of D score and accompanying drawing itself is to consistent." first ", " second " in literary composition etc. distinguish on describing, not other special implication.

As Figure 1-4, the utility model provides a kind of pick-up unit based on plug-in type detector probe, comprising: detector probe 13, Bracket for Inspection 15, control device 17, elevating mechanism, detection translation stage, spectral detection module, Temperature and Humidity module.Spectral detection module comprises: optical fiber probe 21; Temperature and Humidity module comprises: temperature sensor 22 and humidity sensor 29.Temperature sensor and humidity sensor can be arrange separately, also can integratedly arrange.

The head of detector probe 13 is provided with two detect aperture 24,23, and optical fiber probe 21 is arranged in detect aperture 24, detect aperture 24 can be provided with sapphire glass window.Temperature sensor 22 and humidity sensor 29 are arranged in detect aperture 23.The front end of optical fiber probe 21, temperature sensor 22 and humidity sensor 29 is positioned over two detect aperture 24 of the left and right sides, detector probe 13 front end respectively, 23 places, pass through detect aperture, optical fiber probe 21 can detect the spectral information of sample, and temperature sensor 22 and humidity sensor 29 can detect temperature, the moisture signal of sample interior.

Control device 17 can be single-chip microcomputer, single card microcomputer etc., also can be PC, industrial computer etc.According to actual conditions and the specific features of tested article, detector probe can arrange different quantity and form, and then detects while can realizing multiple location point information.Tested article can be tobacco bale, smoke box, or other article.

Bracket for Inspection 15 is positioned at the top detecting translation stage, one end of elevating mechanism is fixed on Bracket for Inspection 15, welding can be adopted, be threaded, the connected mode such as buckle connection, the other end is fixedly connected with detector probe 13, can adopt welding, be threaded, the connected mode such as buckle connection.

Control device 17 is connected with elevating mechanism, makes detector probe 13 carry out elevating movement by controlling elevating mechanism, and wherein, the head of detector probe 13 can insert the inspected object be positioned on detection translation stage and detect.The material of detector probe 13 generally uses the metal material such as aluminium alloy, stainless steel, and because detector probe 13 has good rigidly, the advantage such as frangibility, can not insert very easily in inspected object and detect the quality information of inspected object different spatial.

Lifting structure can be arranged with multiple detector probe 13 one_to_one corresponding, makes detector probe 13 have different falling heads, realize the detection of different spaces height and position according to the instruction of control device 17.

After detector probe has detected, detector probe has return virgin state rapidly under the drive of elevating mechanism, now detects translation stage and starts running, and then is measure ready next time.In the process, control device 17 is mainly measured according to certain logic control spectral detection module, Temperature and Humidity module, acquisition testing data, and controls elevating mechanism execution corresponding actions.

Can the Indexs measure result of each locus point of reaction detection sample by plug-in type detector probe, then testing result is processed, the feature such as change curve, mean value, the coefficient of variation detecting sample can be obtained, and then comprehensive evaluation can be carried out to the quality detecting sample.

The pick-up unit based on plug-in type detector probe provided in above-described embodiment, detector probe directly can be inserted into and detect in sample, such as, inspected object is tobacco bale, smoke box etc., optical fiber probe can directly contact with the tobacco sample in tobacco bale etc. with temperature sensor, from the impact of external environment parasitic light, and the quality information of sample diverse location and different depth is detected, overcome the impact of unevenness on sample detection result, ensure that the sample representation detecting sample, improve precision and the accuracy of tobacco leaf detection.

In one embodiment, spectral detection module also comprises: light source 26, spectrometer 27 and fibre multiplexer 25.Optical fiber probe 21 is connected with spectrometer 27 by optical fiber, and fibre multiplexer 25 connects light source 26 and optical fiber probe 21 respectively by optical fiber.Control device 17 is connected with fibre multiplexer 25, can control it.Light source 21 provides optical fiber probe 21 to carry out detecting necessary light source, can be realized the detection of multiple location measurement point of being undertaken by multiple optical fiber probe 21 by fibre multiplexer 25.

The diffuse reflection information of the detection sample that optical fiber probe 21 can gather by spectrometer 27 is converted to spectral signal and exports.Controlled the operation of light source 26, spectrometer 27 etc. by control device 17, and control device 17 is analyzed to the spectral signal that the spectrometer 27 received sends, and draws testing result.Also special computing machine can be adopted to substitute control device 17, analyze etc. for controlling light source 26, spectrometer 27 and receiving spectrum instrument 27 spectral signal.

Environment temperature, moisture signal can be converted to temperature, humidity simulation signal by temperature sensor 22 and humidity sensor 29, and then be converted to temperature digital signal by analog to digital converter 28, control device 17 receives temperature digital signal and analyzes, and draws testing result.Also special computing machine can be adopted to substitute control device 17, analyze etc. for receiving temperature digital signal.

Control device 17 or special computing machine can be measured according to certain logic control spectral detection module, Temperature and Humidity module, gather the detection data of spectral detection module, Temperature and Humidity module, and control elevating mechanism execution corresponding actions.

In one embodiment, elevating mechanism can be multiple elevating mechanism, and its power can be provided by motor or cylinder.Jacking gear can be controlled by control device 17, and detector probe can be driven to complete knee-action according to certain speed and sequential.

Such as, elevating mechanism comprises: slide rail 11, slide 12 and lifting drive.Slide rail 11 is arranged on Bracket for Inspection 15, and the afterbody of detector probe 13 is fixedly connected with slide 12, and slide 12 matches with slide rail 11, drives slide to move up or down along slide rail by lifting drive.

Lifting drive also can be multiple, and such as, lifting drive comprises: the first motor 31, first gear train, the gear be meshed and tooth bar.Tooth bar is fixedly connected with Bracket for Inspection 15, and gear and the first motor 31 are arranged on slide 12, and the first motor 31 is rotated by the first gear train driven wheel, and control device 17 is electrically connected with the first motor 31, controls it and runs.First gear train can be gear drive or chain-drive mechanism etc.

First motor 31 is rotated by driven wheel, and slide 12 and detector probe 13 can be driven along gear rack elevating.In one embodiment, control device 17 can be electrically connected with analog output module, and analog output module is connected with the first motor 31 by frequency converter, and Frequency Converter Control first motor 31 runs.First motor 31 can be variable-frequency motor, stepper motor etc.

In one embodiment, lifting drive comprises: cylinder, solenoid valve 33.The cylinder body of cylinder is fixedly connected with Bracket for Inspection 15, and the piston rod of cylinder is fixedly connected with slide 12.First working port of solenoid valve 33 communicates with pressure gas source, second, third working port of solenoid valve 33 communicates with the rodless cavity of cylinder and rod chamber respectively, control device 17 is electrically connected with solenoid valve 33, by the break-make of Controlling solenoid valve 33 working port, stretching of control cylinder piston rod, thus drive slide 12 and detector probe 13 along gear rack elevating.

Detecting translation stage also can material transmitting device to include numerous forms, can carry the inspected object on it, such as, and belt conveyor, roller shaft type transmitting device, chain-plate type transmitting device etc.Such as, material transmitting device comprises: the second motor 32, second gear train, along the spaced multiple roll shaft 16 of inspected object direction of transfer, second motor 32 drives multiple roll shaft 16 to rotate by the second gear train, and gear train can be chain-drive mechanism, gear drive or belt gear etc.

In one embodiment, arranging the optoelectronic switch 34 for detecting inspected object run location, also can be photoelectric sensor.Optoelectronic switch 34 is arranged on and detects on translation stage, and optoelectronic switch 34 is electrically connected with control device 17.Detection translation stage is provided with erection device, and erection device can be various ways, such as, is provided with the erection device 14 of sack or smoke box at detection translation stage back-end location.

Erection device can have various ways, and such as, erection device comprises: the first righting guide plate and the second righting guide plate; First righting guide plate is fixedly connected with material transmitting device respectively with the second righting guide plate, first righting guide plate and the second righting guide plate are oppositely arranged and are positioned at the below of Bracket for Inspection, form gathering sill between first righting guide plate and the second righting guide plate, sack or smoke box etc. by gathering sill time by left and right righting.

When sack or smoke box pass through this position erection device 14 by left and right righting, this position is left and right aligned position.When detecting the inspected object on translation stage and moving to the below of detector probe, sack or smokebox front stop optoelectronic switch 34, detection translation stage shuts down, now the position of sack or smoke box is cover off position, detector probe 13 moves downward under the drive of elevating mechanism, inserts in inspected object and detects the index of sample.The spectral information obtained by detector probe 13 can predict the chemical composition of tobacco sample in sack or smoke box, can be detected the temperature of sample by temperature sensor, carries out comprehensive evaluation to the multiple indexs detecting sample.

In one embodiment, detector probe can arrange different quantity and form, as shown in Figure 5,6, be provided with along inspected object direction of transfer and arrange detector probe more, spacing between adjacent two row's detector probe is all identical, and the spacing of often arranging between two adjacent detector probe in detector probe is all identical.Many rows detector probe can be inserted simultaneously detect in sample, the quality information of sample diverse location and different depth is detected, the sample detection result of diverse location and different depth can be obtained, testing result is processed, the feature such as change curve, mean value, the coefficient of variation detecting sample can be obtained, and then comprehensive evaluation can be carried out to the quality detecting sample.

Pick-up unit based on plug-in type detector probe of the present utility model, bag can be realized not open detect the detection sample of inside, detect in sample by detector probe is directly inserted into, optical fiber probe is directly contacted with tobacco sample with temperature sensor, avoid the impact by external environment parasitic light, can detect the quality information of sample diverse location and different depth, overcome the impact of unevenness on sample detection result, ensure that the sample representation detecting sample, improve precision and the accuracy of tobacco leaf detection.Pick-up unit based on plug-in type detector probe of the present utility model, has filled up the technological gap that insertion probe detects, can the better overall target of response sample and capability and performance.

Method and system of the present utility model may be realized in many ways.Such as, any combination by software, hardware, firmware or software, hardware, firmware realizes method and system of the present utility model.Said sequence for the step of method is only to be described, and the step of method of the present utility model is not limited to above specifically described order, unless specifically stated otherwise.In addition, in certain embodiments, also the utility model can be embodied as record program in the recording medium, these programs comprise the machine readable instructions for realizing according to method of the present utility model.Thus, the utility model also covers the recording medium stored for performing the program according to method of the present utility model.

Above-mentioned arbitrary technical scheme disclosed in the utility model unless otherwise stated, if the numerical range of it discloses, so disclosed numerical range is preferred numerical range, anyly it should be appreciated by those skilled in the art: preferred numerical range is only the numerical value that in many enforceable numerical value, technique effect is obvious or representative.Because numerical value is more, cannot be exhaustive, so the utility model just discloses component values to illustrate the technical solution of the utility model, and the above-mentioned numerical value enumerated should not form restriction the utility model being created to protection domain.

Simultaneously, if above-mentioned the utility model discloses or relate to parts or the structural member of connection fastened to each other, so, unless otherwise stated, be fixedly connected with and can be understood as: can releasably be fixedly connected with (such as using bolt or screw to connect), also can be understood as: to be non-removablely fixedly connected with (such as rivet, weld), certainly, connection fastened to each other also can be replaced by integral type structure (such as use casting technique is integrally formed create) (obviously cannot adopt except integrally formed technique).

In addition, apply in arbitrary technical scheme disclosed in above-mentioned the utility model for represent position relationship or shape term unless otherwise stated its implication comprise approximate with it, similar or close state or shape.Arbitrary parts that the utility model provides both can be assembled by multiple independent ingredient, and also can be one of the forming manufacture technics separate part out.

Those skilled in the art, at consideration instructions and after putting into practice utility model disclosed herein, will easily expect other embodiment of the present utility model.The application is intended to contain any modification of the present utility model, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present utility model and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Instructions and embodiment are only regarded as exemplary, and true scope of the present utility model and spirit are pointed out by claim below.

Should be understood that, the utility model is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.Scope of the present utility model is only limited by appended claim.

Claims (11)

1. based on a pick-up unit for plug-in type detector probe, it is characterized in that, comprising:

Control device, Bracket for Inspection, detector probe, elevating mechanism, detection translation stage, spectral detection module, Temperature and Humidity module; Described spectral detection module comprises: optical fiber probe; Temperature and Humidity module comprises: temperature sensor and humidity sensor; The head of described detector probe is provided with two detect aperture, and described optical fiber probe and described temperature sensor are separately positioned in described two detect aperture;

Described Bracket for Inspection is positioned at the top of described detection translation stage, and one end of described elevating mechanism is fixed on described Bracket for Inspection, and the other end is fixedly connected with described detector probe; Described control device is connected with described elevating mechanism, makes described detector probe carry out elevating movement by controlling described elevating mechanism, and wherein, the head of described detector probe can insert the inspected object be positioned on described detection translation stage and detect.

2. pick-up unit as claimed in claim 1, is characterized in that:

Described spectral detection module also comprises: light source, spectrometer and fibre multiplexer; Described optical fiber probe is connected with described spectrometer by optical fiber, and described fibre multiplexer connects described light source and described optical fiber probe respectively by optical fiber.

3. pick-up unit as claimed in claim 1, is characterized in that:

Described elevating mechanism comprises: slide rail, slide and lifting drive;

Described slide rail is arranged on described Bracket for Inspection, and the afterbody of described detector probe is fixedly connected with described slide, and described slide matches with described slide rail, drives described slide to move up or down along described slide rail by described lifting drive.

4. pick-up unit as claimed in claim 3, is characterized in that:

Described lifting drive comprises: the first motor, the first gear train, the gear be meshed and tooth bar; Described tooth bar is fixedly connected with described Bracket for Inspection, and described gear and described motor are arranged on described slide, and described first motor drives described pinion rotation by described first gear train, and described control device is electrically connected with described first motor;

Described first gear train is gear drive or chain-drive mechanism.

5. pick-up unit as claimed in claim 3, is characterized in that:

Described lifting drive comprises: cylinder, solenoid valve;

The cylinder body of described cylinder is fixedly connected with described Bracket for Inspection, and the piston rod of described cylinder is fixedly connected with described slide; First working port of described solenoid valve communicates with pressure gas source, and second, third working port of described solenoid valve communicates with the rodless cavity of described cylinder and rod chamber respectively; Described control device is electrically connected with described solenoid valve.

6. pick-up unit as claimed in claim 1, is characterized in that:

Described detection translation stage comprises the material transmitting device for transmitting inspected object, and described material transmitting device is positioned at the below of described Bracket for Inspection.

7. pick-up unit as claimed in claim 6, is characterized in that:

Described material transmitting device comprises: the second motor, the second gear train, along the spaced multiple roll shaft of inspected object direction of transfer; Wherein, described second motor drives described multiple roll shaft to rotate by described second gear train; Described gear train is chain-drive mechanism, gear drive or belt gear.

8. pick-up unit as claimed in claim 6, is characterized in that, also comprise:

For detecting the optoelectronic switch of inspected object run location;

Wherein, described optoelectronic switch is arranged on described detection translation stage, and described optoelectronic switch is electrically connected with described control device.

9. pick-up unit as claimed in claim 6, is characterized in that:

Described detection translation stage is provided with erection device;

Described erection device comprises: the first righting guide plate and the second righting guide plate; Described first righting guide plate is fixedly connected with described material transmitting device respectively with described second righting guide plate, described first righting guide plate and described second righting guide plate are oppositely arranged and are positioned at the below of described Bracket for Inspection, form gathering sill between described first righting guide plate and described second righting guide plate.

10. pick-up unit as claimed in claim 1, is characterized in that:

Be provided with along inspected object direction of transfer and arrange detector probe more.

11. pick-up units as claimed in claim 10, is characterized in that:

Spacing between adjacent two row's detector probe is all identical, and the spacing of often arranging between two adjacent detector probe in detector probe is all identical.