CN207163417U - Glass detection device - Google Patents

Abstract

The utility model provides a kind of glass detection device, including monitor station and controller, the monitor station be provided with respectively in X direction on one ranked first light emitters and one and ranked first light receiver, each first light receiver is used to the corresponding light for receiving first light emitters and sending, and it is sent to the controller by the light intensity received and from the first coordinate information in the X-direction, the controller is used to be contrasted the light intensity that each first light receiver is sent with preset strength, to obtain the first object light intensity less than the preset strength, and first coordinate information according to corresponding to the first object light intensity, obtain coordinate of the boss of the plane to be measured in the X-direction.Glass detection device in the utility model, the position for all boss being capable of detecting when in the plane to be measured, and testing result is reliable.

Description

Glass detection device

Technical field

It the utility model is related to a kind of glass detection device.

Background technology

Since reform and opening-up, under the background that economic level improves constantly, touch technology is developed rapidly, current Touch technology has been widely used among we live, such as touch-control display panel, and it is widely used in what we used Among electronic equipment, and touch-control display panel usually requires to use cover-plate glass, therefore glass becomes touch-control display panel An indispensable part.

Glass is among production process at present, it is necessary to which whether the plane for detecting glass puts down after one block of glass is processed Whole, in the prior art, factory is generally all calibrated big by being placed on when whether the plane for detecting glass is smooth at present In reason stone plane, it is whether equal with the distance of marble plane that the edge of glass is then detected by feeler gauge, so as to be used as glass The whether smooth criterion of glass.

Above-mentioned detection method, can only test four edges of glass, and can not then be tested among glass, therefore above-mentioned detection Method can only judge whether the plane of glass is smooth roughly, and when glass slightly tilts, detection method is then by this method It can not detect, therefore detect that result is very unreliable by this method, meanwhile, using above-mentioned detection method, can not detect Go out the position of the boss of glass, and need to complete to detect in the marble plane for possessing suitable size, serious limit The size of glass size to be measured is made.

Utility model content

Based on this, the purpose of this utility model is to provide a kind of glass inspection of position for being capable of detecting when glass boss Measurement equipment.

Whether a kind of glass detection device, the plane to be measured for detecting glass are smooth, it is characterised in that：Including monitor station And controller, the monitor station be provided with respectively in X direction on one ranked first light emitters and one and ranked first light receiver Device, the plane to be measured be located between first light emitters and first light receiver, and with first light The light of line transmitter transmitting is in the same plane；

Each first light receiver is used for the corresponding light for receiving first light emitters and sending, and will The light intensity that receives and it is sent to the controller from the first coordinate information in the X-direction；

The controller is used to carry out the light intensity that each first light receiver is sent and preset strength pair Than to obtain the first object light intensity less than the preset strength, and according to corresponding to the first object light intensity First coordinate information, obtain coordinate of the boss in the plane to be measured in the X-direction.

Above-mentioned glass detection device, first light emitters and first light receiver by setting, and Allow the plane to be measured be located between first light emitters and first light receiver, and with first light The light of transmitter transmitting is in the same plane, when the boss be present in the plane to be measured, on correspondence position The light intensity that is received of first light receiver be inevitably less than the preset strength, send described the by extracting The coordinate information in the X-direction of first light receiver of one target light intensity, you can obtain the projection Coordinate of the point in the X-direction, therefore the glass detection device is capable of detecting when all protrusions of the plane to be measured of glass The position at position, and detect reliable.

Further, it is additionally provided with the monitor station and ranked second light emitters and one along one in Y-direction respectively and arrange Two light receivers, the plane to be measured are located between second light emitters and second light receiver, and with The light of the second light emitters transmitting is in the same plane；

Each second light receiver is used for the corresponding light for receiving second light emitters and sending, and will The light intensity that receives and it is sent to the controller from the second coordinate information in the Y-direction；

The controller is used to enter the light intensity that each second light receiver is sent with the preset strength Row contrast, to obtain the second target light intensity less than the preset strength, according to the second target light intensity, institute is right Second coordinate information answered, coordinate of the boss in the Y-direction is obtained, and existed according to the boss Coordinate in the X-direction and the coordinate in the Y-direction, obtain the coordinate of the boss.

Further, the X-direction and the Y-direction are vertical.

Further, all first light emitters, first light receiver, second light transmitting Device and second light receiver surround a square detection zone, and the plane to be measured is in the detection zone.

Further, lowering or hoisting gear is additionally provided with the monitor station, the lowering or hoisting gear is in the detection zone, institute State glass to be placed on the lowering or hoisting gear, the glass can move up and down under the driving of the lowering or hoisting gear.

Further, the monitor station is provided with accepting groove, and the accepting groove is in the detection zone, the lifting Device is in the accepting groove.

Further, the glass detection device also includes display, and the display is electrically connected with the controller, For showing the coordinate of the boss.

Further, the monitor station is provided with the mounting groove of annular, first light emitters, first light Receiver, second light emitters and second light receiver are in the mounting groove.

Further, installing plate, first light emitters, first light receiver are arranged with the mounting groove Device, second light emitters and second light receiver are installed on the installing plate.

Further, the opening of the mounting groove is arranged with filter, first light emitters and described second The light that light emitters are sent can pass through the filter.

Brief description of the drawings

Fig. 1 is the top view of the glass detection device in the utility model first embodiment.

Fig. 2 is the profile of the line A-A along Fig. 1.

Fig. 3 is the top view of the glass detection device among illustrating.

Main element symbol description

Following embodiment will further illustrate the utility model with reference to above-mentioned accompanying drawing.

Embodiment

For the ease of understanding the utility model, the utility model is more fully retouched below with reference to relevant drawings State.Some embodiments of the present utility model are given in accompanying drawing.But the utility model can come in fact in many different forms It is existing, however it is not limited to embodiment described herein.On the contrary, the purpose for providing these embodiments is made to public affairs of the present utility model Open content more thorough and comprehensive.

It should be noted that when element is referred to as " being fixedly arranged on " another element, it can be directly on another element Or there may also be element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model The implication that the technical staff in domain is generally understood that is identical.It is simply in term used in the description of the present utility model herein The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein " and/or " include The arbitrary and all combination of one or more related Listed Items.

Fig. 1 to Fig. 2 is referred to, the glass detection device showing in the utility model first embodiment, for detecting glass Whether the plane to be measured 2 of glass 1 is smooth, including monitor station 10, controller 20 and display 30.

The monitor station 10 be provided with respectively in X direction on one ranked first light emitters 11 and one and ranked first light and connect Device 12 is received, the plane 2 to be measured is located between first light emitters 11 and first light receiver 12, and institute State in the light that plane 2 to be measured and all first light emitters 11 are sent is generally aligned in the same plane.Each first light Receiver 12 is used to the corresponding light for receiving first light emitters 11 and sending, i.e., described first light receiver 12 is equal with the quantity of first light emitters 11, and is all provided with the correspondence position of each first light emitters 11 There is first light receiver 12 for being used to receive light.The light that each first light receiver 12 will receive Line strength and it is sent to the controller 20 from the first coordinate information in the X-direction.

Further, it is additionally provided with the monitor station 10 and ranked second light emitters 13 and one along one in Y-direction respectively Light receiver 14 is ranked second, the plane 2 to be measured is located at second light emitters 13 and second light receiver Between 14, and in the light that sends of the plane to be measured 2 and all second light emitters 13 is generally aligned in the same plane.Often Individual second light receiver 14 is used to the corresponding light for receiving second light emitters 13 and sending, i.e., described Second light receiver 14 is equal with the quantity of second light emitters 13, and each second light emitters 13 Second light receiver 14 for being used to receive light is equipped with correspondence position.Each second light receiver 14 are sent to the controller 20 by the light intensity received and from the second coordinate information in the Y-direction.

Specifically, the X-direction and the Y-direction are vertical, therefore the X-direction and the Y will form a coordinate system, because There is respective coordinates information in this each described first light receiver 12, be corresponding described first in the X-direction Coordinate information, and because first coordinate information is the coordinate information in the X-direction, then the first coordinate letter The coordinate format of breath is (A1,0), while each second light receiver 14 has respective coordinates in the Y-direction Information, it is corresponding second coordinate information, and because second coordinate information is the coordinate in the Y-direction Information, then the coordinate format of second coordinate information is (0, A2).

Specifically, all first light emitters 11, first light receiver 12, second light are sent out Emitter 13 and second light receiver 14 surround a square detection zone, and the plane 2 to be measured is located at the detection zone In domain.

Wherein, first light emitters 11 and second light emitters 13 are infrared transmitter, and described One light receiver 12 and second light receiver 14 are infrared remote receiver.In other embodiments, described One light emitters 11 and second light emitters 13 can be other light emitters, and first light receiver Device 12 and second light receiver 14 are then corresponding.

Further, lowering or hoisting gear 15 is additionally provided with the monitor station 10, the lowering or hoisting gear 15 is located at the detection zone In domain, the glass 1 is placed on the lowering or hoisting gear 15, and the glass 1 can be upper and lower under the driving of the lowering or hoisting gear 15 It is mobile, so that the plane to be measured 2 can be sent out with first light emitters 11 and second light emitters 13 In the light gone out is generally aligned in the same plane.

Further, the monitor station 10 is provided with accepting groove 16, and the accepting groove 16 is in the detection zone, institute Lowering or hoisting gear 15 is stated in the accepting groove 16.

Further, the monitor station 10 is provided with the mounting groove 17 of annular, first light emitters 11, described the One light receiver 12, second light emitters 13 and second light receiver 14 are located at the mounting groove 17 It is interior.

Specifically, installing plate 18 is arranged with the mounting groove 17, first light emitters 11, first light Receiver 12, second light emitters 13 and second light receiver 14 are installed on the installing plate 18.

Specifically, the opening of the mounting groove 17 is arranged with filter 19, first light emitters 11 and described The light that second light emitters 13 are sent can pass through the filter 19.

The controller 20 and all first light receivers 12 and all second light receivers 14 It is electrically connected with, the controller 20 is used to receive the intensity of illumination and described first that each first light receiver 12 is sent Coordinate information, and receive intensity of illumination and second coordinate information that each second light receiver 14 is sent.

Specifically, light intensity and preset strength that the controller 20 sends each first light receiver 12 Contrasted, to obtain the first object light intensity less than the preset strength, and according to the first object light intensity Corresponding first coordinate information, obtain coordinate of the boss in the plane to be measured 2 in the X-direction.

Wherein, the first object light intensity is the light intensity sent in all first light receivers 12 It is central, less than all intensities of illumination of the preset strength.First coordinate corresponding to the first object light intensity Information is coordinate information of first light receiver 12 of the transmission first object light intensity in the X-direction.

It should be understood that because the light that the plane 2 to be measured and all first light emitters 11 are sent is positioned at same In one plane, if there is no the boss in the plane to be measured 2, then all first light emitters 11 are sent Light will be received completely by corresponding first light receiver 12, then now first light receiver 12 receives The light intensity arrived is consistent with the preset strength.If conversely, the boss be present in the plane to be measured 2, then The light that at least one first light emitters 11 are sent will be blocked by the boss, then the institute on correspondence position State the light intensity that the first light receiver 12 receives and be inevitably less than the preset strength, therefore the intensity of illumination sent is less than Coordinate of second light receiver 14 of the preset strength in the X-direction, as described boss is in the X Coordinate on direction.

Specifically, the controller 20 also by the light intensity that each second light receiver 14 is sent with it is described pre- If intensity is contrasted, to obtain the second target light intensity less than the preset strength, and according to second target light Second coordinate information corresponding to line strength, the boss of the plane to be measured 2 is obtained in the Y-direction Coordinate.

Wherein, the second target light intensity is the light intensity sent in all second light receivers 14 It is central, less than all intensities of illumination of the preset strength.Second coordinate corresponding to the second target light intensity Information is coordinate information of second light receiver 12 of transmission the second target light intensity in the Y-direction.

It should be understood that because the light that the plane 2 to be measured and all second light emitters 13 are sent is positioned at same In one plane, if there is no the boss in the plane to be measured 2, then all second light emitters 13 are sent Light will be received completely by corresponding second light receiver 14, then now second light receiver 14 receives The light intensity arrived is consistent with the preset strength.If conversely, the boss be present in the plane to be measured 2, then The light that at least one second light emitters 13 are sent will be blocked by the boss, then the institute on correspondence position State the light intensity that the second light receiver 14 receives and be inevitably less than the preset strength, therefore the intensity of illumination sent is less than Coordinate of second light receiver 14 of the preset strength in the Y-direction, as described boss is in the Y Coordinate on direction.

According to coordinate of the boss in the X-direction and the coordinate in the Y-direction, you can obtain described Coordinate of the boss under the coordinate system that the X-direction and the Y-direction are formed, so as to learn in the plane to be measured 2 The position of all boss.

The display 30 is electrically connected with the display 30 and the controller 20, for showing the controller 20 The coordinate of the boss sent.

The utility model illustrated below：Fig. 3 please be investigate, show the vertical view of glass detection device in illustrating Figure, it is assumed that the plane to be measured of the glass 1 is top planes and base plane, and the glass 1 is placed on into the lifting first On device 15, by the regulation of the lowering or hoisting gear 15, until top planes and first light emitters of the glass 1 11 and the light that sends of second light emitters 13 it is in the same plane, then each first light receiver 12 will The intensity of illumination that receives with being sent to the controller 20 from the coordinate information in the X-direction, and it is each described in Second light receiver 14 is by the intensity of illumination received with giving the controller from the coordinate information in the Y-direction 20, the controller 20 is started working, it is assumed that the coordinate information in the X-direction is first light receiver of (3,0) The intensity of illumination that device 12 receives is less than the preset strength, while the coordinate information in the Y-direction is the described of (0,3) The intensity of illumination that second light receiver 14 receives is less than the preset strength, then the controller 20 will be according to coordinate (3,0) and (0,3), it will obtain a boss 3 in the top planes of the glass 1 being present, and coordinate is (3,3), then Coordinate (3,3) is occurred, to the display 30, obtained the coordinate of all boss of the top planes of glass 1, so The glass 1 is turned over afterwards, the base plane of the glass 1 detected using same method, so as to obtain the glass Boss and corresponding coordinate in the base plane of glass 1, finally the coordinate of the base plane upper projecting portion position of glass 1 is sent out The display 30 is given, so that described show all projections in the top and bottom plane for showing the glass 1 The coordinate at position, complete detection.

To sum up, in the utility model above-described embodiment, above-mentioned glass detection device, sent out by first light of setting Emitter 11, first light receiver 12, second light emitters 13 and second light receiver 14, and allow institute Plane 2 to be measured is stated in the detection zone, and with first light emitters 11 and second light emitters 13 The light of transmitting is in the same plane, described on correspondence position when the boss be present in the plane to be measured The light intensity that first light receiver 12 and second light receiver 14 are received is inevitably less than the preset strength, By extracting the coordinate information corresponding to the light intensity less than the preset strength, you can obtain the boss described Coordinate under the coordinate system that X-direction and the Y-direction are formed, so as to learn all boss in the plane to be measured 2 Position, therefore the glass detection device is capable of detecting when the position of all protruding parts of the plane to be measured of glass, and detect Reliable results.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore it can not be interpreted as the limitation to the utility model patent scope.It should be pointed out that for the common of this area For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of glass detection device, whether the plane to be measured for detecting glass is smooth, it is characterised in that：Including monitor station and Controller, the monitor station be provided with respectively in X direction on one ranked first light emitters and one and ranked first light receiver, The plane to be measured is located between first light emitters and first light receiver, and is sent out with first light The light of emitter transmitting is in the same plane；

Each first light receiver is used for the corresponding light for receiving first light emitters and sending, and will receive To light intensity and from the first coordinate information in the X-direction be sent to the controller；

The controller is used to be contrasted the light intensity that each first light receiver is sent with preset strength, with The first object light intensity less than the preset strength is obtained, and according to corresponding to the first object light intensity First coordinate information, obtain coordinate of the boss in the plane to be measured in the X-direction.

2. glass detection device according to claim 1, it is characterised in that：It is additionally provided with the monitor station respectively along Y side Upward one ranked second light emitters and one ranked second light receiver, and the plane to be measured is launched located at second light Between device and second light receiver, and it is in the same plane with the light of second light emitters transmitting；

Each second light receiver is used for the corresponding light for receiving second light emitters and sending, and will receive To light intensity and from the second coordinate information in the Y-direction be sent to the controller；

The controller is used to carry out the light intensity that each second light receiver is sent and the preset strength pair Than to obtain the second target light intensity less than the preset strength, according to corresponding to the second target light intensity Second coordinate information, coordinate of the boss in the Y-direction is obtained, and according to the boss described Coordinate in X-direction and the coordinate in the Y-direction, obtain the coordinate of the boss.

3. glass detection device according to claim 2, it is characterised in that：The X-direction and the Y-direction are vertical.

4. glass detection device according to claim 3, it is characterised in that：All first light emitters, institute State the first light receiver, second light emitters and second light receiver and surround a square detection zone, The plane to be measured is in the detection zone.

5. glass detection device according to claim 4, it is characterised in that：Lowering or hoisting gear is additionally provided with the monitor station, The lowering or hoisting gear is in the detection zone, and the glass is placed on the lowering or hoisting gear, and the glass is in the liter It can be moved up and down under the driving of falling unit.

6. glass detection device according to claim 5, it is characterised in that：The monitor station is provided with accepting groove, described Accepting groove is in the detection zone, and the lowering or hoisting gear is in the accepting groove.

7. glass detection device according to claim 2, it is characterised in that：The glass detection device also includes display Device, the display is electrically connected with the controller, for showing the coordinate of the boss.

8. glass detection device according to claim 2, it is characterised in that：The monitor station is provided with the installation of annular Groove, first light emitters, first light receiver, second light emitters and second light receiver Device is in the mounting groove.

9. glass detection device according to claim 8, it is characterised in that：Installing plate, institute are arranged with the mounting groove It is equal to state the first light emitters, first light receiver, second light emitters and second light receiver On the installing plate.

10. glass detection device according to claim 8, it is characterised in that：The opening of the mounting groove is arranged with filter The light that tabula rasa, first light emitters and second light emitters are sent can pass through the filter.