CN203811151U - Object thickness detection device and contact type image sensing system - Google Patents

Abstract

The utility model discloses an object thickness detection device and a contact type image sensing system. The object thickness detection device comprises a signal transmitting mechanism, a signal receiving mechanism and a phase position difference detecting mechanism, wherein the signal transmitting mechanism is used for transmitting a first signal with a first phase position to an object to be detected, and the first signal is used for testing the thickness of the ; the signal receiving mechanism is used for receiving a second signal which is formed by the first signal after being subjected to reflection or transmission via the object to be detected, and the second signal has a second phase position; and the phase position difference detecting mechanism is connected with the signal transmitting mechanism and the signal receiving mechanism, and is used for determining the thickness range of the object to be detected according to the phase position difference between the first phase position and the second phase position. Through the object thickness detection device, the problem of low precision of object thickness detection is solved, and the effect of improving the precision of object thickness detection is achieved.

Description

Object thickness pick-up unit and contact type image sensor-based system

Technical field

The utility model relates to detection field, in particular to a kind of object thickness pick-up unit and contact type image sensor-based system.

Background technology

Laminar article, as the on-line continuous thickness measure of the objects such as paper, bill, plastic sheeting, textile fabric, in the processes such as the production of its product, detection, processing, recovery in consequence more and more.The technology such as current, that the object thickness detection technique that every profession and trade is used mainly comprises is ultrasonic, induction with hall device, reflection-type ultrasound wave, transmission-type, eddy current type are carried out the thickness of test sheets formula article.But when these technology are used as online measuring technique, its pick-up unit volume is large, and cost height is its major defect, has limited the application of these technology.

At present, object thickness measurement scheme is mainly the variation that the volume change of capacitor is changed into oscillation frequency, then the variation of pressing modular converter to convert the variation of frequency to voltage by frequency detects thickness.Or the Sensitive Apparatus that utilizes the pole plate of capacity plate antenna to detect as thickness, the electric capacity movable polar plate that the variation in thickness of actual measurement object causes produces displacement, cause the capacity of plate condenser to change, thereby change the output frequency of the oscillator being formed by plate condenser, carried out thickness detection by detecting frequency.Above-mentioned two schemes all produces the variation of frequency and carries out the detection of thickness through be made up of oscillating circuit electric capacity, the thickness that carries out of the multiple conversion of this process detects the precision reduction that causes object thickness to detect.

The low problem of precision detecting for object thickness in prior art, not yet proposes effective solution at present.

Utility model content

Fundamental purpose of the present utility model is to provide a kind of object thickness pick-up unit, method and contact type image sensor-based system, the low problem of precision detecting to solve object thickness.

To achieve these goals, according to an aspect of the present utility model, provide a kind of object thickness pick-up unit.Comprise according to object thickness pick-up unit of the present utility model: signal transmitter structure, for have the first signal of the first phase place to object under test transmitting, described first signal is for testing the thickness of described object under test; Signal receiving structure, for receiving the secondary signal of described first signal after described object under test reflection or transmission, described secondary signal has the second phase place; And phase difference detection mechanism, be connected with described signal receiving structure with described signal transmitter structure, for determine the thickness range of described object under test according to the phase differential of described the first phase place and described the second phase place.

Further, described phase difference detection mechanism comprises: computing unit, comprise first input end, the second input end and output terminal, described first input end is connected with described signal transmitter structure, described the second input end is connected with described signal receiving structure, for receiving from the first signal of described signal transmitter structure with from the secondary signal of described signal receiving structure, and calculate the phase differential of described the first phase place and described the second phase place; And comparing unit, be connected with the output terminal of described computing unit, for described phase differential and predetermined threshold value being compared to determine the thickness of described object under test.

Further, described object thickness pick-up unit also comprises storage unit, is connected, for storing described predetermined threshold value with described comparing unit.

Further, described signal transmitter structure comprises: starting of oscillation unit, for generation of described first signal; And emitting electrode, be connected with described starting of oscillation unit, for described first signal is transmitted into described object under test.

Further, described signal receiving structure comprises: receiving electrode, is connected with described phase difference detection mechanism, for receiving described secondary signal.

Further, described emitting electrode and described receiving electrode are the electrode that adopts transparent material or nontransparent material.

Further, described signal transmitter structure and described signal receiving structure are oppositely arranged, and wherein, described object under test is placed between described signal transmitter structure and described signal receiving structure.

Further, described signal transmitter structure and described signal receiving structure are set up in parallel, and wherein, described object under test is placed on the same side of described signal transmitter structure and described signal receiving structure.

To achieve these goals, according on the other hand of the present utility model, provide a kind of contact type image sensor-based system.Comprise according to contact type image sensor-based system of the present utility model: contact-type image sensor, for scanning the optical imagery on object under test; And above-mentioned object thickness pick-up unit, for measuring the thickness of described object under test.

By the utility model embodiment, adopt object thickness pick-up unit, this device comprises that signal transmitter structure is for having the first signal of the first phase place to object under test transmitting; Signal receiving structure is for receiving the secondary signal of first signal after object under test reflection or transmission, and secondary signal has the second phase place; Phase difference detection mechanism is for determining the thickness range of object under test according to the phase differential of the first phase place and the second phase place.Determine the thickness of object under test according to the phase differential that is transmitted into the signal before object under test and the signal after object under test reflection or transmission, without the multiple conversion of process, solve the low problem of precision that object thickness detects, reached the effect of the precision that improves object thickness detection.

Brief description of the drawings

The accompanying drawing that forms the application's a part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is according to the structural representation of the object thickness pick-up unit of the utility model embodiment;

Fig. 2 is according to the structural representation of the preferred object thickness pick-up unit of the utility model embodiment;

Fig. 3 is according to the structural representation of the another preferred object thickness pick-up unit of the utility model embodiment;

Fig. 4 is according to the schematic diagram of the contact type image sensor-based system of the utility model embodiment;

Fig. 5 is according to the schematic diagram of the optional contact type image sensor-based system of the utility model embodiment;

Fig. 6 is according to the schematic diagram of the another optional contact type image sensor-based system of the utility model embodiment; And

Fig. 7 is according to the process flow diagram of the object thickness detection method of the utility model embodiment.

Embodiment

It should be noted that, in the situation that not conflicting, the feature in embodiment and embodiment in the application can combine mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

In order to make those skilled in the art person understand better the utility model scheme, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the embodiment of the utility model part, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all should belong to the scope of the utility model protection.

It should be noted that, term " first ", " second " etc. in instructions of the present utility model and claims and above-mentioned accompanying drawing are for distinguishing similar object, and needn't be used for describing specific order or precedence.Should be appreciated that the data of such use are suitably exchanging in situation, so that embodiment of the present utility model described herein.In addition, term " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, for example, those steps or unit that process, method, system, product or the equipment that has comprised series of steps or unit is not necessarily limited to clearly list, but can comprise clearly do not list or for these processes, method, product or equipment intrinsic other step or unit.

The utility model embodiment provides a kind of object thickness pick-up unit.

Fig. 1 is according to the structural representation of the object thickness pick-up unit of the utility model embodiment.As shown in Figure 1, this object thickness pick-up unit comprises signal transmitter structure 10, signal receiving structure 20 and phase difference detection mechanism 30.

Signal transmitter structure 10 is for having the first signal of the first phase place to object under test 40 transmittings, first signal is for testing the thickness of object under test 40.Signal receiving structure 20 for receive first signal and reflect through object under test 40 or transmission after secondary signal, secondary signal has the second phase place.Phase difference detection mechanism 30 is connected with signal receiving structure 20 with signal transmitter structure 10, for determine the thickness range of object under test 40 according to the phase differential of the first phase place and the second phase place.In figure, arrow is signal transmitting or reflection direction.

The signal that signal transmitter structure 10 is launched certain frequency to object under test 40 is first signal, and for measuring the thickness of object under test 40, this first signal has i.e. the first phase place of certain phase place.When first signal is transmitted on object under test, obtain secondary signal (only showing the secondary signal of reflection in figure) through reflection or transmission, this secondary signal has the second phase place.Signal receiving structure 20 receives this secondary signal.Due to signal receiving structure 20 need to receive through object under test 40 reflect or transmission after secondary signal, therefore signal receiving structure 20 need to be arranged on first signal in the reflection of object under test 40 or the direction of transmission.

Phase difference detection mechanism 30 is connected with signal transmitter structure 10, when signal transmitter structure 10 is launched first signal to object under test 40, also first signal is transferred to phase difference detection mechanism 30, after signal receiving structure 20 receives secondary signal, secondary signal is transferred to phase difference detection mechanism 30.Its phase differential detects according to the first signal and the secondary signal that receive in phase difference detection mechanism 30, thereby determines the thickness range of object under test according to phase differential.Particularly, the phase differential obtaining and predetermined threshold value can be made comparisons, this predetermined threshold value can be in advance according to statistics and the threshold value that calculates, the thickness range that this threshold value is corresponding certain.Phase differential and predetermined threshold value are made comparisons and can be determined the thickness range of object under test, so that judge whether the thickness of object under test occurs extremely (blocked up or excessively thin).

In the utility model embodiment, object under test can be laminar article, such as paper, bill, plastic sheeting, textile fabric etc.

According to the utility model embodiment, by adopting object thickness pick-up unit, this device comprises that signal transmitter structure is for having the first signal of the first phase place to object under test transmitting; Signal receiving structure is for receiving the secondary signal of first signal after object under test reflection or transmission, and secondary signal has the second phase place; Phase difference detection mechanism is for determining the thickness range of object under test according to the phase differential of the first phase place and the second phase place.Determine the thickness of object under test according to the phase differential that is transmitted into the signal before object under test and the signal after object under test reflection or transmission, without the multiple conversion of process, solve the low problem of precision that object thickness detects, reached the effect of the precision that improves object thickness detection.

Preferably, phase difference detection mechanism 30 comprises computing unit, comprise first input end, the second input end and output terminal, first input end is connected with signal transmitter structure, the second input end is connected with signal receiving structure, for receiving from the first signal of signal transmitter structure with from the secondary signal of signal receiving structure, and calculate the phase differential of the first phase place and the second phase place; And comparing unit, be connected with the output terminal of computing unit, for phase differential and predetermined threshold value being compared to determine the thickness of object under test.

Computing unit receives from the first signal of signal transmitter structure with from the secondary signal of signal receiving structure, and the second phase place of the first phase place to first signal and secondary signal makes difference and calculate, and obtains the phase differential of first signal and secondary signal.This phase differential is sent to comparing unit by computing unit, and comparing unit compares this phase differential and predetermined threshold value to determine the thickness of object under test.

Fig. 2 is according to the structural representation of the preferred object thickness pick-up unit of the utility model embodiment.As shown in Figure 2, signal transmitter structure 10 comprises: starting of oscillation unit 101, for generation of first signal; And emitting electrode 102, be connected with starting of oscillation unit 101, for first signal is transmitted into object under test.

The output terminal of starting of oscillation unit 101 is connected with emitting electrode, for being first signal to the signal of described emitting electrode transmitting certain frequency, by emitting electrode 102, first signal is emitted on object under test.Emitting electrode 102 is also connected with phase difference detection mechanism, for first signal is transferred to phase difference detection mechanism 30, as shown in the figure, phase difference detection mechanism 30 comprises computing unit 301 and comparing unit 302, computing unit 301 is identical with comparing unit function with the computing unit of the utility model embodiment with comparing unit 302, does not repeat here.

Preferably, signal receiving structure comprises receiving electrode 201, and this receiving electrode 201 is connected with phase difference detection mechanism 30, for receiving secondary signal.Particularly, receiving electrode 201 is connected with computing unit 301.

Preferably, emitting electrode and receiving electrode are the electrode that adopts transparent material or nontransparent material.In the time that the object thickness pick-up unit of the utility model embodiment is combined with contact-type image sensor, can selects as required the electrode of corresponding material, thereby improve the dirigibility being combined with.

As shown in Figure 2, starting of oscillation unit 101 produces the signal of certain frequency, this signal sends through emitting electrode 102, signal is through thin slice object (being object under test) reflection or transmission, respond to and receive and send into computing unit 301 by receiving electrode 201, computing unit calculates and receives signal and the phase difference value transmitting, and this difference is sent into comparing unit 302, comparing unit 302 judges this difference, if within the specific limits, think that slice substance body thickness is normal, otherwise judge that thin slice object is thickness abnormity.

Preferably, signal transmitter structure and signal receiving structure are oppositely arranged, and wherein, object under test is placed between signal transmitter structure and signal receiving structure.It can be that signal receiving structure is arranged on the signal transmit direction of signal transmitter structure that signal transmitter structure and signal receiving structure are oppositely arranged, wherein, object under test is placed between signal transmitter structure and signal receiving structure, be that signal transmitter structure is launched first signal to object under test, signal receiving structure receives the secondary signal after object under test transmission.

Preferably, signal transmitter structure and signal receiving structure are set up in parallel, and wherein, object under test is placed on the same side of signal transmitter structure and signal receiving structure.Signal transmitter structure and signal receiving structure be set up in parallel can be signal receiving structure be arranged on signal transmitter structure the reflection direction of signal after object under test on, wherein, object under test is placed on the same side of signal transmitter structure and signal receiving structure, be that signal transmitter structure and signal receiving structure are straight line, signal transmitter structure signal transmit direction and signal receiving structure receive a side of sense, and signal receiving structure receives the secondary signal after object under test reflection.

As shown in Figure 3, the object thickness pick-up unit of the utility model embodiment also comprises: storage unit 50, is connected with comparing unit 302, for storing predetermined threshold value.Particularly, due to the object under test of same thickness unlike material, the phase place of the signal after reflection or transmission changes not identical, the phase place of the signal after varying environment temperature, appropriateness lower identical reflection or transmission changes also not identical, therefore can store by storage unit 50 the predetermined threshold value list of different condition, so that select as required corresponding threshold value compare and judge.

As shown in Figure 3, storage unit 50 can be used for storing the predetermined threshold value list under different temperatures, humidity.Due to the phase differential difference that the thin slice object of same thickness is tested under different temperatures, humidity, therefore circuit can, according to the suitable predetermined threshold value of the different choice of extraneous temperature, humidity, increase the accuracy of electric circuit inspection.Storage unit 50 also can be used for storing the predetermined threshold value list that represents measuring accuracy.When predetermined threshold value hour, slice substance body thickness difference slightly can be identified; In the time that predetermined threshold value is larger, there is bigger difference and be not judged to be thickness abnormity in tolerable thickness.So just can adjust accuracy of detection by the size that predetermined threshold value is set.

The utility model embodiment also provides a kind of contact type image sensor-based system.This contact type image sensor-based system comprises: contact-type image sensor, for scanning the optical imagery on object under test; And the object thickness pick-up unit of the utility model embodiment, for measuring the thickness of object under test.

Fig. 4 is according to the schematic diagram of the contact type image sensor-based system of the utility model embodiment.As shown in Figure 4,101 is emitting electrode, and 201 is receiving electrode, 60 substrates for carrying emitting electrode and receiving electrode, and 30 is phase difference detection mechanism, 70 is contact-type image sensor.In the present embodiment, emitting electrode and receiving electrode can be transparency electrode and also can be opaque electrode, the light path of noting blocking contact-type image sensor in the time adopting opaque electrode; Emitting electrode and receiving electrode same level are placed.Substrate 60 can share with the glass of contact-type image sensor.In the time that thin slice object passes through contact-type image sensor top, emitting electrode transmitting certain frequency signal on the one hand, after thin slice object reflection through detecting, received by receiving electrode induction, phase differential between phase difference detection mechanism 30 transmits by detection receiving electrode reception signal and emitting electrode judges slice substance body thickness, contact-type image sensor can scan its optical imagery simultaneously on the other hand, in detecting slice substance body thickness, do not affect the differentiation of contact-type image sensor to slice substance bulk optics characteristic like this, and this structural volume is small and exquisite, cost is low, be easy to install.

Fig. 5 is according to the schematic diagram of the preferred contact type image sensor-based system of the utility model embodiment.101 is emitting electrode, 80 are used for carrying emitting electrode for substrate, 201 is receiving electrode, 90 are used for carrying receiving electrode for glass substrate, 30 is phase difference detection mechanism (not illustrating in the drawings with the annexation of emitting electrode 101), 70 is contact-type image sensor, and in figure, arrow is signal transmit direction.In the present embodiment, after penetrating bank note, the signal that emitting electrode 101 is launched certain frequency arrives receiving electrode 201, receiving electrode 201 is delivered to the induced signal receiving in phase differential phase-detection mechanism 30, calculated the phase differential transmitting with emitting electrode 101 by phase difference detection mechanism, thereby detect the thickness of thin slice object.Gather optical signalling for not affecting contact-type image sensor, in the time that receiving electrode 201 is opaque electrode, contact-type image sensor light path need to be avoided in the installation site of receiving electrode 201, in order to avoid optical signalling is impacted.

Fig. 6 is according to the schematic diagram of the another optional contact type image sensor-based system of the utility model embodiment.It is in receiving electrode 201 from the sensor-based system of contact type image shown in Fig. 5 different is transparent material, therefore this embodiment is in the same thickness measuring ability completing with the sensor-based system of contact type image shown in Fig. 5, and the installation site of receiving electrode is also more free.In figure, arrow is signal transmit direction.

The utility model embodiment also provides a kind of object thickness detection method.The method can be carried out by the object thickness pick-up unit of the utility model embodiment, and the object thickness pick-up unit of the utility model embodiment also can be used for carrying out the object thickness detection method of the utility model embodiment.

Fig. 7 is according to the process flow diagram of the object thickness detection method of the utility model embodiment.As shown in Figure 7, this object thickness detection method comprises that step is as follows:

Step S702, launches the first signal with the first phase place to object under test, first signal is for testing the thickness of object under test.

Step S704, receives the secondary signal of first signal after object under test reflection or transmission, and secondary signal has the second phase place.

Step S706, determines the thickness range of object under test according to the phase differential of the first phase place and the second phase place.

Particularly, can be that signal transmitter structure is first signal to the signal of object under test transmitting certain frequency, for measuring the thickness of object under test, this first signal has i.e. the first phase place of certain phase place.When first signal is transmitted on object under test, obtain secondary signal through reflection or transmission, this secondary signal has the second phase place.Signal receiving structure receives this secondary signal.After signal receiving structure receives secondary signal, secondary signal is transferred to phase difference detection mechanism.Its phase differential detects according to the first signal and the secondary signal that receive in potential difference testing agency, thereby determines the thickness range of object under test according to phase differential.Particularly, the phase differential obtaining and predetermined threshold value can be made comparisons, this predetermined threshold value can be in advance according to statistics and the threshold value that calculates, the thickness range that this threshold value is corresponding certain.Phase differential and predetermined threshold value are made comparisons and can be determined the thickness range of object under test, so that judge whether the thickness of object under test occurs extremely (blocked up or excessively thin).

In the utility model embodiment, object under test can be laminar article, such as paper, bill, plastic sheeting, textile fabric etc.

According to the utility model embodiment, by adopting the first signal to object under test transmitting with the first phase place; Receive the secondary signal of first signal after object under test reflection or transmission, secondary signal has the second phase place; Determine the thickness range of object under test according to the phase differential of the first phase place and the second phase place.Determine the thickness of object under test according to the phase differential that is transmitted into the signal before object under test and the signal after object under test reflection or transmission, without the multiple conversion of process, solve the low problem of precision that object thickness detects, reached the effect of the precision that improves object thickness detection.

Preferably, determine that according to the phase differential of the first phase place and the second phase place the thickness range of object under test comprises: phase differential and predetermined threshold value are compared, obtain comparative result; And judge according to comparative result whether phase differential exceedes predetermined threshold value, and wherein, exceed predetermined threshold value if judge phase differential, determine that the thickness of object under test is in abnormal ranges.

Produce the signal of certain frequency by starting of oscillation unit, this frequency signal is through emitting electrode transmitting, signal receives and sends into computing unit by receiving electrode induction after bank note transmission or reflection, the phase differential that computing unit calculating receiving electrode reception signal and emitting electrode transmit, different its phase difference values of thickness of object under test are also different, can judge that whether object under test thickness is in abnormal ranges in the time that phase differential exceedes a certain predetermined threshold value.

This object thickness detection method can also be adjusted predetermined threshold value according to the difference of environment temperature, humidity.

This object thickness detection method can also be adjusted predetermined threshold value according to the difference that judges precision.

Can accurately detect the abnormal of slice substance body thickness by the utility model, the method adopting is simple, volume compact, and cost is low, and precision is high, and antijamming capability is strong and be convenient to Installation and Debugging.

It should be noted that, for aforesaid each embodiment of the method, for simple description, therefore it is all expressed as to a series of combination of actions, but those skilled in the art should know, the utility model is not subject to the restriction of described sequence of movement, because according to the utility model, some step can adopt other orders or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in instructions all belongs to preferred embodiment, and related action and module might not be that the utility model is necessary.

In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part of detailed description, can be referring to the associated description of other embodiment.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. an object thickness pick-up unit, is characterized in that, comprising:

Signal transmitter structure, for have the first signal of the first phase place to object under test transmitting, described first signal is for testing the thickness of described object under test;

Signal receiving structure, for receiving the secondary signal of described first signal after described object under test reflection or transmission, described secondary signal has the second phase place; And

Phase difference detection mechanism, is connected with described signal receiving structure with described signal transmitter structure, for determine the thickness range of described object under test according to the phase differential of described the first phase place and described the second phase place.

2. object thickness pick-up unit according to claim 1, is characterized in that, described phase difference detection mechanism comprises:

Computing unit, comprise first input end, the second input end and output terminal, described first input end is connected with described signal transmitter structure, described the second input end is connected with described signal receiving structure, for receiving from the first signal of described signal transmitter structure with from the secondary signal of described signal receiving structure, and calculate the phase differential of described the first phase place and described the second phase place; And

Comparing unit, is connected with the output terminal of described computing unit, for described phase differential and predetermined threshold value being compared to determine the thickness of described object under test.

3. object thickness pick-up unit according to claim 2, is characterized in that, described object thickness pick-up unit also comprises storage unit, is connected, for storing described predetermined threshold value with described comparing unit.

4. object thickness pick-up unit according to claim 1, is characterized in that, described signal transmitter structure comprises:

Starting of oscillation unit, for generation of described first signal; And

Emitting electrode, is connected with described starting of oscillation unit, for described first signal is transmitted into described object under test.

5. object thickness pick-up unit according to claim 4, is characterized in that, described signal receiving structure comprises:

Receiving electrode, is connected with described phase difference detection mechanism, for receiving described secondary signal.

6. object thickness pick-up unit according to claim 5, is characterized in that, described emitting electrode and/or described receiving electrode are the electrode that adopts transparent material or nontransparent material.

7. according to the object thickness pick-up unit described in any one in claim 1 to 6, it is characterized in that, described signal transmitter structure and described signal receiving structure are oppositely arranged, and wherein, described object under test is placed between described signal transmitter structure and described signal receiving structure.

8. according to the object thickness pick-up unit described in any one in claim 1 to 6, it is characterized in that, described signal transmitter structure and described signal receiving structure are set up in parallel, and wherein, described object under test is placed on the same side of described signal transmitter structure and described signal receiving structure.

9. a contact type image sensor-based system, is characterized in that, comprising:

Contact-type image sensor, for scanning the optical imagery on object under test; And

Object thickness pick-up unit in claim 1 to 8 described in any one, for measuring the thickness of described object under test.