KR200461270Y1 - Test device for smart window - Google Patents

Abstract

The present invention relates to a multi-purpose smart window inspection apparatus, the cradle 10 including a transparent substrate 14 and at least one fixing portion 12 for fixing the inspection object; And a light receiving unit that emits light and a light receiving unit that detects the amount of light that is emitted from the light emitting unit and passes through the inspected object, wherein the photo sensor unit generates a signal when the amount of light detected by the light receiving unit does not reach a predetermined reference value. 30; And a control unit 40 electrically connected to the inspected object and the photo sensor unit 30 to control driving of the inspected object and the photo sensor unit and to receive a signal generated from the photo sensor unit to inspect the inspected object. It provides a multi-purpose smart window inspection apparatus including.

Description

Inspection device for smart window {TEST DEVICE FOR SMART WINDOW}

The present invention relates to a multi-purpose smart window inspection apparatus, and more particularly, to a multi-purpose smart window inspection apparatus designed to inspect the driving, durability and appearance of the smart window with one device.

Conventionally, as a method of controlling the transmittance of sunlight coming through glass, a method of depositing a metal oxide on the surface of the glass through chemical vapor deposition or sputtering, or attaching a film having a specific light transmittance has been used. However, this conventional method has no active control over sunlight, and only selective shielding or transmission for a constant light wavelength range is possible.

In order to solve the problems of the prior art, a smart window that can freely adjust the transmittance of sunlight has been developed. Smart windows generally have an opaque state in which no electricity flows and then become transparent when electricity is flowed. Also, a smart window is also called an electronic curtain, a variable transmittance glass, or a dimming glass.

Smart windows may be classified into various types depending on the type of material. Recently, smart windows using polymer dispersed liquid crystals (PDLCs), which are particularly easy to enlarge, have been widely used.

On the other hand, currently available smart window products use two sheets of glass laminated sheet such as PDLC film using glass bonding sheet such as EVA (Ethylene-Vinyl Acetate, ethylene-vinyl acetate) or PVB (Polyvinyl Butyral, polyvinyl butyral). It is manufactured by bonding between the substrates. In the case of these products, there is a problem in that the manufacturing process is complicated and a high incidence of defects in the process of inserting the PDLC film into the glass. In addition, when installing on existing windows or when defects occur in existing installed products and need to be replaced, there is a problem in that construction and maintenance and maintenance are difficult and uneconomical because glass must be replaced entirely.

Accordingly, the inventors of the present invention have previously filed a smart window that can be attached to or detached from a glass window that is already installed without using a glass substrate (Application No.:10-2008-0035422). The previously disclosed smart window may include a polymer dispersed liquid crystal (PDLC) panel including an upper and lower plates made of a transparent polymer film, an electrode layer formed on one surface of the upper and lower plates, and a polymer dispersed liquid crystal layer interposed between the upper and lower plates; An adhesive layer formed on one surface of the polymer dispersed liquid crystal (PDLC) panel; An FPCB electrically connected to the electrode layer; And a controller electrically connected to the FPCB to control driving of the smart window.

The smart window made as described above has the advantage that it is possible to attach and detach the existing glass is easy to install and repair, and that the production cost is low because it does not use a complex glass bonding process.

However, in order to commercialize such a smart window device, it is necessary to inspect the quality of the product. However, the durability test of the existing smart window has no other way than the administrator to check whether it works properly, so it is difficult to test the durability of the long-term use, there is a limit to the number of times to test the durability, it only takes a long inspection time However, since it is a one-time test, there is a problem that it is not suitable for confirming the quality of a product such as durability or driving time.

In addition, in the case of such a method, since only the driving of the finished product can be confirmed, when a failure occurs, the defective part cannot be accurately known, and thus all products must be disposed of, resulting in a high production cost.

The present invention is to solve the above problems, and can not only test the durability and driving time of the smart window, but also can check the driving and appearance of the smart window, and whether the PDLC film is not a finished product or not Provides a multipurpose inspection device that can be inspected.

To this end, the present invention is a cradle 10 including a transparent substrate 14 and at least one fixing portion 12 for fixing the inspection object; A light sensor for emitting light and a light receiver for detecting an amount of light that is irradiated from the light emitter and passing through the inspected object, and a photo sensor unit that generates a signal when the amount of light detected by the light receiver is less than a predetermined reference value 30; And a control unit 30 electrically connected to the inspected object and the photo sensor unit 20 to control driving of the inspected object and the photo sensor unit and to receive a signal generated from the photo sensor unit to inspect the inspected object. It provides a multi-purpose smart window inspection apparatus including.

In this case, the multi-purpose smart window inspection apparatus of the present invention may be further provided with a reflecting plate 40 on the rear of the cradle, and the light emitting portion and the light receiving portion may be positioned in front of the cradle. At this time, the reflector 40 is preferably configured to be detachable.

On the other hand, the multi-purpose smart window inspection apparatus of the present invention preferably further comprises a gender unit 50 for electrically connecting the inspected object and the control unit 30. In this case, the gender part may be connected to the FPCB of the inspected object.

On the other hand, the multi-purpose smart window device of the present invention includes two or more fixing parts 12, by providing an electrode 16 on the surface in contact with the two objects of the two or more fixing parts, the control unit ( 30) may also be electrically connected to the EUT.

In addition, the transparent substrate is preferably an acrylic plate, the cradle 10 is preferably configured to enable the angle adjustment for the convenience of the operator.

In addition, the photo sensor unit 20 is preferably configured to be rotatable, and in this case, the photo sensor unit 20 may further include a lamp 80 for inspecting the external appearance of the inspected object.

In addition, it is preferable that the moving means 70 is further provided at the bottom of the cradle.

By using the inspection apparatus of the present invention, not only the operation of the smart window, but also the durability inspection such as the driving frequency and the driving time can be easily performed.

In addition, the inspection apparatus of the present invention by providing the electrode in the fixed portion, it was possible to inspect whether the PDLC film is not equipped with FPCB.

In addition, the inspection device of the present invention is equipped with a three-wavelength lamp, if necessary, so that the appearance inspection of the smart window can be performed in parallel.

1 is a view showing the front of the smart window inspection apparatus of the present invention.
2 is a view showing the rear of the smart window device of the present invention.
3 is a view showing a side of the present invention.
4 is a view showing another embodiment of the present invention.
5 is a view showing another embodiment of the present invention.

Hereinafter, the smart window inspection apparatus of the present invention will be described in detail with reference to the accompanying drawings.

1 is a smart window inspection apparatus of the present invention. As shown in FIG. 1, the smart window inspection apparatus of the present invention includes a cradle 10, a photosensor 20, and a controller 30.

(1) Cradle (10)

The cradle 10 is for mounting a smart window or PDLC film to be inspected, and is made of a transparent substrate 14 and a fixing part 12.

At this time, the substrate 14 is to support the inspected object, made of a transparent material. Since the smart window inspection apparatus of the present invention inspects whether there is an abnormality of the smart window by irradiating light from the light emitting unit to be described later and detecting the amount of light passing through the inspected object from the light receiving unit, the substrate 14 is It should be made of transparent material. As the material of the substrate, any material can be used without limitation. For example, transparent substrates such as acrylic, glass, polycarbonate, PET, PMMA (a kind of acrylic), and the like can be used, and among these, acrylic is particularly preferable in view of economy and durability.

On the other hand, the holder 10 includes at least one fixing part 12, the fixing part 12 is for fixing the inspected object, it is only necessary to perform the fixing function, form or material is particularly limited It doesn't happen. However, when the fixing part 12 is made of a material such as metal, scratches may occur on the surface of the PDLC film or smart window to be inspected, and thus, the fixing part 12 may be made of a plastic material such as acrylic, which causes less scratches. desirable.

On the other hand, it is preferable that the fixing part 12 is made of at least one, as shown in Figure 5, as needed, the electrode 16 is formed in the two fixing parts 12, the electrode will be described later By electrically connecting the control unit to be controlled, the test object and the control unit can be electrically connected. As such, when the electrode 16 is formed in the fixing part 12, it is possible to inspect whether the PDLC film itself without the FPCB is driven.

In addition, the cradle 10 is preferably configured to enable the angle adjustment for the convenience of the operator. Driving inspection and appearance inspection using the inspection device of the present invention can be made through a visual inspection of the operator. Therefore, it is preferable that the holder 10 is configured to be inclined at a predetermined angle as shown in FIG. 3 so that the worker can work more comfortably during such work.

(2) photo sensor section (20)

The photo sensor unit 20 is for checking whether an inspection object is abnormal through light irradiation and light quantity detection, and includes a light emitting unit for irradiating light and a light receiving unit for detecting light.

In this case, the light emitting unit and the light receiving unit of the photo sensor unit 20 may be disposed at positions facing each other with a cradle interposed therebetween (not shown). When the light emitting unit and the light receiving unit are arranged in this way, the light irradiated from the light emitting unit passes through the inspected object mounted on the cradle to reach the light receiving unit, and the light receiving unit senses the amount of light to determine whether the inspected object is abnormal. As described above, when the electric field is applied to the PDLC film, the liquid crystal array is changed to make the opaque PDLC film transparent. Therefore, when the inspected object is normally operated, the light irradiated from the light emitting part sequentially passes through the transparent substrate of the smart window and the holder including the PDLC film or PDLC film to reach the light receiving part. However, when all or part of the inspection object is defective, the PDLC film remains opaque, so that the amount of light reaching the light receiving portion is reduced. Therefore, it is possible to determine whether the inspected object is abnormal through the amount of light detected by the light receiver. When the amount of light detected by the light receiving unit is lower than the preset reference value, the photo sensor unit sends an abnormal signal to the control unit.

On the other hand, the inspection device of the present invention, as shown in Figure 2, may be further provided with a reflecting plate 40 on the back of the cradle. The reflector 40 is for reflecting light emitted from the photo sensor unit 20 and may be made of aluminum, silver foil-treated cloth, tin plate, stainless steel, or the like.

When the reflective plate 40 is installed on the rear surface of the holder, the light emitting unit and the light receiving unit may be integrally formed without symmetrically arranging the light emitting unit and the light receiving unit of the photo sensor unit. When the light emitting unit and the light receiving unit are integrally formed, the volume of the inspection apparatus is reduced, and there is an advantage in that space is used.

In this case, the photo sensor unit including the light emitting unit and the light receiving unit is integrally positioned at the opposite direction of the reflector, that is, in front of the cradle during the driving test or the durability test. The light irradiated from the light emitting part of the photo sensor unit 20 sequentially passes through the inspected object and the transparent substrate 14 of the holder 10, and is then reflected by the reflector 40 at the rear of the holder, and again the holder 10. It passes through the transparent substrate 14 and the inspection object in order to reach the light receiving portion of the photo sensor unit 20. At this time, if the amount of light sensed by the light receiving unit is less than the predetermined reference value, the photo sensor unit 20 transmits an abnormal signal to the control unit 30.

In addition, the photo sensor unit 20 may further include a lamp 80 for visual inspection as shown in FIG. 4 as needed. Appearance inspection is to inspect the smart window or PDLC film for contamination or scratches, etc., it can be done using a three-wavelength lamp or the like. In this case, the reflector 40 is preferably configured to be removable for inspection.

When the appearance inspection is to be performed using the inspection device of the present invention, the reflecting plate 40 is detached and the photo sensor unit 20 is rotated so that the photo sensor unit 20 is located at the rear of the holder 10. Turn on the lamp and visually inspect it for scratches or dirt.

As such, when the photo sensor unit 20 includes the lamp 80 for inspecting the appearance, there is an advantage in that durability inspection and appearance inspection can be performed with one inspection equipment.

In this case, by configuring the photo sensor unit 20 to be rotatable, the photo sensor unit 20 can be positioned in front of the holder 10 during the driving test or the durability test, and the photo sensor during the external inspection. Preferably, the part 20 can be located at the rear of the holder 10.

(3) control unit (30)

The control unit 30 controls the inspected object and the photo sensor unit 20, and determines whether there is an abnormality and durability of the inspected object through a signal received from the photo sensor unit 20. The inspected object and the photo sensor Is electrically connected to the unit.

In this case, the method of electrically connecting the control unit and the inspected object may vary depending on the type of inspected object. For example, when the inspected object is a smart window on which the FPCB is mounted, the control unit and the inspected object may be electrically connected by additionally attaching a gender part to be described later in the inspection apparatus to connect the FPCB of the inspected part to the gender part. Meanwhile, when inspecting a PDLC film without FPCB, an electrode is formed on two of the fixing parts of the holder, and the PDLC film and the control part can be electrically connected by connecting the fixing part with the electrode to the control part. .

On the other hand, the control unit of the present invention is configured to control the power of the inspected object, repetitive driving, driving time, and operation of the photo sensor unit. For example, the control unit may be a button for driving an object to be inspected (for example, an ON-OFF button), a button for inputting a driving number, a button for inputting a driving time, a button for driving a photo sensor unit, a three-wavelength lamp driving It may include a button for, etc., by operating such a control unit, it is possible to perform the driving test, the durability test and the appearance inspection of the inspected object.

For example, the driving test of the test object is a method of applying power to the test object from the control unit, the operator checks whether the test object is transparent to the naked eye to check whether the driving or power to the test object from the control unit. If the detected amount of light is less than the set reference value, the photo sensor unit transmits an abnormal signal to the control unit, and the control unit records and displays the abnormal signal when it is received or activates an alarm. It may be performed by a method of informing a worker whether a test object is defective.

In addition, during the durability test of the inspected object, the control unit repeatedly controls the inspected object to be repeatedly turned on or off for a predetermined number of times, or continues to be applied with power for a predetermined time, and when the power of the inspected object is on. It can be carried out by controlling to measure the amount of light passing through the test object. At this time, the photo sensor unit transmits an abnormal signal to the control unit when the amount of light below the preset reference value is detected, and the control unit receiving the abnormal signal stops the test by stopping the driving of the inspected object and the photo sensor unit, and an abnormality occurs. Record and display the count or time, or trigger an alarm to allow the operator to check.

In addition, when inspecting the external appearance of the inspected object, a three-wavelength lamp is driven and visually inspected for contamination or scratches on the surface of the inspected object.

(4) gender

On the other hand, the multi-purpose smart window inspection apparatus of the present invention preferably further comprises a gender unit 50 for electrically connecting the inspected object and the control unit 40. The gender portion is electrically connected to the control portion and the FPCB of the inspected object, allowing the control portion to control the inspected object.

(5) means of transportation

The multi-purpose smart window device of the present invention may be further provided with a moving means 70 in the lower portion of the cradle as needed. When the moving means 70 is provided, there is an advantage that the inspection apparatus can be easily transported and the work space can be efficiently operated.

Hereinafter, a method for inspecting a smart window by using the smart window inspection apparatus of the present invention is described.

First, the driving function test to check whether the smart window or the PDLC film works normally is to mount the smart window or PDLC film to be tested on the cradle, and electrically connects the control unit and the inspected object. In this case, if the inspected object is a smart window equipped with FPCB, the FPCB of the smart window can be electrically connected to the inspected object and the control unit by connecting the FPCB of the smart window, and if the inspected object is a PDLC film without FPCB, the electrode By contacting the PDLC film with the formed fixing portion, the control portion and the inspected object can be electrically connected. Then, press the power on button (ON button) of the control unit to apply power to the test object. Then, the test object may be visually checked whether the test object is transparent or may be performed by applying power to the photo sensor unit. When the power is applied to the photo sensor unit, the light emitting unit emits light toward the inspected object, and the light receiving unit senses the amount of light that has passed through the inspected object and transmits an abnormal signal to the control unit when the detected light quantity is less than a predetermined reference value. . The control unit that receives the fault signal displays the fault or activates an alarm to inform the operator of the fault.

As shown in FIG. 1, when the photo sensor unit is formed integrally with the light emitting unit and the light receiving unit, the reflector is mounted on the rear side of the holder, so that the light emitted from the light emitting unit passes through the inspected object and the transparent substrate of the holder, The light is reflected through the transparent substrate and the test object to be detected by the light receiver.

Next, the durability test can be performed in the following manner.

First, the smart window or PDLC film to be inspected is mounted on the holder and then electrically connected to the control unit. Then, the number of driving or driving time is input to the control unit, and the inspected object and the photo sensor unit are driven. For example, in the case where the 30,000 repeated driving test is to be performed, 30,000 times are input to the number of driving, and then the inspected object and the photo sensor unit are driven. In this case, driving control of the inspected object and the photo sensor unit may be performed through one button or may be performed through different buttons. By the above operation, the inspected object is turned ON-OFF for 30000 times, and when the inspected object is in the ON state, the photo sensor unit irradiates light and measures the amount of light that passes through the inspected object. At this time, if there is an abnormality in the inspected object, the amount of light detected is reduced because the inspected object is not transparent in the ON state. When the detected light quantity does not reach the preset reference value, the photo sensor unit transmits an abnormal signal to the control unit, and the control unit receiving the abnormal signal stops driving the inspected object and the photo sensor unit and records the number of occurrences of the abnormality. Allow the operator to know the number of actuations that caused the problem to be inspected.

Run time testing can also be performed in a similar manner. That is, the test object is mounted on the holder, electrically connected to the control unit, the driving time is input, and the test object and the photo sensor unit are driven. The control unit applies power to the inspected object during the input driving time, and the photo sensor unit irradiates light on the inspected object and senses the amount of light passing through the inspected object. When the amount of light detected by the photo sensor unit does not reach a predetermined reference value, the photo sensor unit transmits an abnormal signal to the control unit, and the control unit receiving the abnormal signal stops driving the inspected object and the photo sensor unit. Record the time that has occurred so that the operator knows the number of times the problem occurred in the inspected object.

Finally, the appearance inspection may be performed by rotatably forming the photo sensor unit, and additionally attaching a lamp 80 for appearance inspection such as a three-wavelength lamp in the photo sensor unit. First, the test object is mounted on the cradle, and the photo sensor unit is rotated so as to be located at the rear of the cradle. Then, turn on the lamp for visual inspection and visually inspect the surface of the specimen placed on the transparent holder to check for contamination or scratches.

10: holder
12: fixed part
14: substrate
16: electrode
20: photo sensor
30: control unit
40: reflector
50: gender
70: means of transportation
80 lamp

Claims (11)

A holder 10 including a transparent substrate 14 and at least one fixing part 12 for fixing the inspected object;
A light sensor for emitting light and a light receiver for detecting an amount of light that is irradiated from the light emitter and passing through the inspected object, and a photo sensor unit that generates a signal when the amount of light detected by the light receiver is less than a predetermined reference value 30;
A control unit 40 electrically connected to the inspected object and the photo sensor unit for controlling driving of the inspected object and the photo sensor unit and receiving a signal generated from the photo sensor unit to inspect the inspected object; And
And a gender unit (50) for electrically connecting the inspected object and the control unit (40), wherein the gender unit (50) is connected to the FPCB of the inspected object.
The method of claim 1,
It is provided with a reflecting plate 20 on the rear of the cradle,
Multi-purpose smart window inspection apparatus, characterized in that the light emitting portion and the light receiving portion is located in front of the cradle.
The method of claim 2,
The reflector 20 is a multi-purpose smart window inspection device, characterized in that removable.
delete delete The method of claim 1,
The fixing part 12 is two or more, two of the two or more fixing parts of the multi-purpose smart window, characterized in that the electrode 16 is provided on the surface in contact with the test object.
The method of claim 1,
Multi-purpose smart window inspection device, characterized in that the transparent substrate 14 is made of an acrylic plate.
The method of claim 1,
The cradle 10 is a multi-purpose smart window inspection device, characterized in that adjustable angle.
The method of claim 1,
The photo sensor unit 30 is a multi-purpose smart window inspection device, characterized in that rotatable.
10. The method of claim 9,
Multi-purpose smart window inspection apparatus, characterized in that the photo sensor unit 30 is further provided with a lamp (80) for inspecting the appearance of the inspection object.
The method of claim 1,
Multipurpose smart window inspection device, characterized in that the movement means 70 is further provided on the lower portion of the cradle.

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