CN218002694U - Light sensation calibration testing device of electronic equipment - Google Patents

Abstract

The utility model provides a light sensation calibration test device of electronic equipment, which comprises a bearing platform, a box body, an illuminometer and a light source board; the box body is arranged on the bearing table, the box body is provided with an accommodating space, the bearing table is used for bearing electronic equipment to be detected, the illuminometer is fixed on the bearing table, the light source plate is fixed in the box body, and the electronic equipment, the illuminometer and the light source plate are accommodated in the accommodating space; the light source board provides light source values for the electronic equipment and the illuminometer so as to realize that the electronic equipment performs light sensation calibration and light sensation test based on different light source values, and the illuminometer receives the light source values provided by the light source board so as to realize monitoring of the light source values provided by the light source board and the light source values read when the electronic equipment performs the light sensation calibration and the light sensation test. The utility model discloses can realize carrying out light sense calibration and light sense test in a tool, reduce the error of tool environment, and improve the reliability of light sense calibration and light sense test.

Description

Light sensation calibration testing device of electronic equipment

[ technical field ] A method for producing a semiconductor device

The utility model relates to a test technical field especially relates to an electronic equipment's light sense calibration testing arrangement.

[ background of the invention ]

The screen of current multiple electronic equipment product need carry out automatic backlight control, and ambient light sensor (be light sense) is the important module that is used for the automatic backlight control of electronic equipment product, and in order to guarantee that the light sense of electronic equipment product can also normally work through the light sense module after the equipment, prevents that the defective products from flowing to market, the test item that present mill can increase light sense calibration and light sense test to the product.

Generally, light sensation calibration and test are required to be separated into two stations for testing, namely, a fixed light source value calibration is required to be carried out on an environment light sensor of a product, then the fixed light source value test is carried out on the environment light sensor of the product, an operator is required to put the same product into different jigs for calibration and test, the time for one time is increased for calibration and test, the number of the jigs required by production is doubled, and the production cost is greatly increased. And, when carrying out light sense calibration and light sense test, do not carry out real-time supervision to the parameter of tool internal light source lamp plate, if the light source lamp plate goes wrong, can have batchization calibration and test mistake, the reliability is low.

In view of the above, it is desirable to provide a novel light sensation calibration testing apparatus for electronic devices to overcome the above-mentioned drawbacks.

[ Utility model ] content

The utility model aims at providing an electronic equipment's light sense calibration testing arrangement can realize carrying out light sense calibration and light sense test in a tool, has reduced the error of tool environment, the illuminometer can be to the light source value that the light source board provided electronic equipment monitors the light source value that reads when carrying out light sense calibration and light sense test, has improved the reliability of light sense calibration and light sense test.

In order to achieve the above object, the present invention provides a light sensation calibration testing device for electronic equipment, which comprises a bearing table, a box body, an illuminometer and a light source board; the box body is arranged on the bearing table, the box body is provided with an accommodating space, the bearing table is used for bearing electronic equipment to be detected, the illuminometer is fixed on the bearing table, the light source plate is fixed in the box body, and the electronic equipment, the illuminometer and the light source plate are all accommodated in the accommodating space; the light source board provides light source values for the electronic equipment and the illuminometer so as to realize that the electronic equipment performs light sensation calibration and light sensation test based on different light source values, and the illuminometer receives the light source values provided by the light source board so as to realize monitoring of the light source values provided by the light source board and the light source values read when the electronic equipment performs light sensation calibration and light sensation test.

In a preferred embodiment, still include transmission assembly, the box include the roof and with a plurality of curb plates of roof vertical connection, one of them be provided with but switch door plant on the curb plate, transmission assembly drives electronic equipment is in move in order to realize electronic equipment passes through but switch door plant business turn over the accommodating space of box.

In a preferred embodiment, the transmission assembly includes a driving element, a sliding rail, a sliding block, and a fixing plate, the driving element and the sliding rail are fixed on the plummer, the sliding block is disposed on the sliding rail and slides along the sliding rail, the fixing plate is fixed on the sliding block, the fixing plate is used for bearing the electronic device, one end of the driving element is connected to the fixing plate, and the driving element drives the fixing plate and drives the sliding block to move along the sliding rail.

In a preferred embodiment, the transmission assembly further includes a carrier detachably fixed on the fixing plate, and the carrier defines a receiving slot for receiving the electronic device.

In a preferred embodiment, the illumination meter further comprises an adjusting assembly, the illumination meter is fixed on the adjusting assembly, and the adjusting assembly adjusts the distance between the illumination meter and the light source board.

In a preferred embodiment, the adjusting assembly includes a bearing plate for bearing the illuminometer, guide plates located on two sides of the bearing plate, and an adjusting member for adjusting the distance between the illuminometer and the light source plate, the guide plates are fixed on the bearing table, two protrusions are formed by extending two sides of the bearing plate, the two protrusions respectively clamp the two guide plates, and the adjusting member abuts against one of the protrusions.

In a preferred embodiment, the guide plate includes a horizontal plate, a vertical plate and a reinforcing plate, the horizontal plate is fixed on the carrier, the vertical plate is connected to one end of the horizontal plate, the vertical plate is perpendicular to the horizontal plate, and two edges of the reinforcing plate are respectively fixedly connected to the horizontal plate and the vertical plate.

In a preferred embodiment, the vertical plate is provided with a guide groove in a vertical direction.

In a preferred embodiment, the light source board is fixed on a top plate of the cabinet.

In a preferred embodiment, a plurality of positioning blocks are arranged on the bearing table.

Compared with the prior art, the utility model provides an electronic equipment's light sense calibration testing arrangement, the box sets up on the plummer, and the box has accommodating space, and the illuminometer is fixed in on the plummer, and the light source board is fixed in the box, electronic equipment, illuminometer and light source board all accept in accommodating space, and the light source board can do electronic equipment and illuminometer provide light source value, in order to realize electronic equipment carries out light sense calibration and light sense test based on different light source values, and the illuminometer receives the light source value that light source board provided in order to realize the light source value that provides to the light source board the light source value that electronic equipment read when carrying out light sense calibration and light sense test monitors, and so designed, realized carrying out light sense calibration and light sense test in a tool, reduced the error of tool environment, test stability is high, saves test tool quantity, saves test manpower cost to, the illuminometer can be to the light source value that electronic equipment read when carrying out light sense calibration and light sense test, the reliability of light sense calibration and light sense test has been improved.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a three-dimensional structure diagram of a light sensation calibration testing device of an electronic device according to the present invention;

fig. 2 is another three-dimensional structure diagram of the light sensation calibration testing device of the electronic device provided by the present invention;

fig. 3 is a plan view of the light sensation calibration testing device of the electronic device according to the present invention;

fig. 4 is a partial three-dimensional structure diagram of the light sensation calibration testing device of the electronic device provided by the present invention;

fig. 5 is a perspective view of another part of the light sensation calibration testing device of the electronic device according to the present invention.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1 to 3, which are three-dimensional structural diagrams of a light sensation calibration testing apparatus 100 of an electronic device according to the present invention. The utility model provides an electronic equipment's light sense calibration testing arrangement 100 is used for carrying out light sense calibration and light sense test to the optical sensor in the electronic equipment. Specifically, the light sensation calibration testing device of the electronic device includes a supporting platform 10, a box 20, an illuminometer 30 and a light source board 40.

The box body 20 is arranged on the bearing table 10, the box body 20 is provided with an accommodating space 201, the bearing table 10 is used for bearing electronic equipment to be detected, the illuminometer 30 is fixed on the bearing table 10, the light source plate 40 is fixed in the box body 20, and the electronic equipment, the illuminometer 30 and the light source plate 40 are all accommodated in the accommodating space 201. Specifically, the light source board 40 provides light source values for the electronic device and the illuminometer 30 to realize the light sensation calibration and the light sensation test of the electronic device based on different light source values, and the illuminometer 30 receives the light source values provided by the light source board 40 to monitor the light source values provided by the light source board 40 and the light source values read when the electronic device performs the light sensation calibration and the light sensation test.

It can be understood that the electronic device and the illuminometer 30 to be tested can both receive the illumination of the light source board 40, the illuminometer 30 is a special instrument for measuring the illumination, and the light source board 40 can respectively provide different light source values corresponding to the light sensation calibration and the light sensation test. In this embodiment, after the electronic device to be tested is in place, the calibration controller 41 switches the light source board 40 to the light source value corresponding to the calibration parameter, the illuminometer 30 reads the value of the light source board 40 and compares the value to determine whether the value is within the set range, and then performs automatic light sensing calibration, after the calibration is completed, the test controller 42 switches the light source board 40 to the light source value corresponding to the test parameter, the illuminometer 30 reads the value of the light source board 40 and compares the value to determine whether the value is within the set range, and then performs automatic light sensing test, reads the light source value received by the electronic device product and compares the light source value to determine whether the light sensing test passes, and the calibration test of the light sensing sensor of the product is completed. In the present embodiment, an opening is reserved in one side plate 22 of the case 20, and the calibration controller 41 and the test controller 42 are disposed in the opening and fixed to the side plate 22.

Therefore, the utility model provides an electronic equipment's light sense calibration testing arrangement 100, box 20 set up on plummer 10, and box 20 has accommodating space 201, and illuminometer 30 is fixed in on plummer 10, and light source plate 40 fixes in box 20, electronic equipment, illuminometer 30 and light source plate 40 all accept in accommodating space 201, and light source plate 40 can do electronic equipment and illuminometer 30 provide the light source value, in order to realize electronic equipment carries out light sense calibration and light sense test based on different light source values, and illuminometer 30 receives the light source value that light source plate 40 provided in order to realize the light source value that light source plate 40 provided, the light source value that electronic equipment read when carrying out light sense calibration and light sense test monitors, so design, realized carrying out light sense calibration and light sense test in a tool, has reduced the error of tool environment, and test stability is high, saves test tool quantity, saves the test manpower cost to, and light source value that illuminometer 30 can provide to electronic equipment carries out the light sense calibration and light sense test when testing, the light source value that electronic equipment read has improved the light sense test reliability.

The bearing table 10 is rectangular, the bearing table 10 comprises an upper surface 101, a plurality of positioning blocks 11 are arranged on the bearing table 10, and the positioning blocks 11 are used for positioning the box body 20. Specifically, a control system and a power supply are arranged in the bearing table 10, a power switch 12 and a plurality of communication interfaces are arranged on one side wall of the bearing table 10, the power switch 12 is used for controlling the power supply to be turned on or turned off, the communication interfaces specifically comprise a software upgrading interface 13, a jig communication interface 14 and an illuminometer communication interface 15, and the communication interfaces are used for being connected with an upper computer (such as a computer) to achieve data transmission and displaying data on a display screen of the upper computer. In the present embodiment, an emergency stop button 16 is provided on a side wall of the platform 10 opposite to the side wall on which the power switch 12 is provided, and the emergency stop button 16 is used to stop the device in an emergency state such as a failure. The side wall of the plummer 10 adjacent to the side wall where the power switch 12 is arranged is provided with a plurality of handles 17, and the handles 17 are convenient for an operator to carry and move the light sensation calibration testing device 100.

The box 20 is a rectangular parallelepiped, the box 20 includes a top plate 21 and a plurality of side plates 22 perpendicularly connected to the top plate 21, the top plate 21 and the plurality of side plates 22 together enclose an accommodation space 201, and the plurality of side plates 22 are fixed on the upper surface 101 of the platform 10. Specifically, one of the side plates 22 is provided with a switchable door panel 221, the switchable door panel 221 can be opened or closed to enable the electronic device to be detected to enter or exit the accommodating space 201 of the box 20, and the switchable door panel 221 is a light-shielding baffle plate to prevent ambient light outside the box 20 from affecting calibration and test accuracy.

Light source plate 40 is fixed on the roof 21 of box 20, and is concrete, is fixed with a plurality of fixed block 401 on the roof 21, and a plurality of fixed block 401 is fixed on roof 21, and light source plate 40 is fixed in between a plurality of fixed block 401, and light source plate 40's fixed position is centered at roof 21 and is perpendicular to the light sense sensor of illuminometer 30 and electronic equipment product.

Referring to fig. 4, the light sensation calibration testing apparatus 100 for electronic devices of the present invention further includes a transmission assembly 50, the transmission assembly 50 is used for driving the electronic device to move on the plummer 10 to realize that the electronic device enters or exits the accommodation space 201 of the box 20 through the openable door panel 221. The transmission assembly 50 includes a driving member 51, a pair of slide rails 52, a plurality of slide blocks 53 and a fixing plate 54, the driving member 51 and the slide rails 52 are fixed on the upper surface 101 of the plummer 10, the slide blocks 53 are disposed on the slide rails 52 and the slide blocks 53 can slide along the slide rails 52, the fixing plate 54 is fixed on the plurality of slide blocks 53, the fixing plate 54 is used for bearing the electronic device, one end of the driving member 51 is connected to the fixing plate 54 and the driving member 51 can drive the fixing plate 54 and drive the slide blocks 52 to move along the slide rails 52, so that the electronic device borne by the fixing plate 54 can enter and exit the accommodation space 201 of the box 20. Specifically, the driving member 51 may be a cylinder.

In the embodiment, the transmission assembly 50 further includes a carrier 55, the carrier 55 is detachably fixed on the fixing plate 54, the carrier 55 is provided with a receiving groove 551, the receiving groove 551 is used for receiving the electronic device, the carrier 55 is detachably fixed on the fixing plate 54, when light sensation calibration and light sensation test are required to be performed on products of different models, only the carrier 55 is replaced, and the applicability of the device is improved.

Referring to fig. 5, the light sensation calibration testing device 100 of the present invention further includes an adjusting component 60, the illuminometer 30 is fixed on the adjusting component 60, and the adjusting component 60 is used for adjusting the distance between the illuminometer 30 and the light source board 40. It will be appreciated that the fixed position of the light meter 30 is required to receive the brightness of the light source board 40 and to be consistent with the brightness received by the electronic device within an error range, and therefore, the height of the light meter 30 is required to be adjusted by the adjustment assembly 60 so that the top surface of the light meter 30 is in the same horizontal plane as the sensor position of the product.

Further, the adjusting assembly 60 includes a supporting plate 61 for supporting the illuminometer 30, guiding plates 62 disposed at two sides of the supporting plate 61, and an adjusting member 63 for adjusting the vertical distance between the illuminometer 30 and the light source plate 40, wherein the guiding plates 62 are fixed on the upper surface 101 of the supporting plate 10, two protrusions 611 are formed by extending from two sides of the supporting plate 61, the two protrusions 611 respectively hold the two guiding plates 62, and the adjusting member 63 abuts against one of the protrusions 611. It can be understood that the adjusting member 63 can adjust the vertical distance of the carrier plate 61 from the upper surface 101, and thus the vertical distance between the light meter 30 and the light source plate 40 on the carrier plate 61.

Specifically, the guide plate 62 includes a horizontal plate 621, a vertical plate 622 and a reinforcing plate 623, the horizontal plate 621 is fixed on the upper surface 101 of the plummer 10, the vertical plate 622 is connected to one end of the horizontal plate 621 and the vertical plate 622 is perpendicular to the horizontal plate 621, two edges of the reinforcing plate 623 are respectively fixedly connected to the horizontal plate 621 and the vertical plate 622, the bearing plate 61 is clamped between the two vertical plates 622, which is beneficial to positioning and guiding the bearing plate 61, and the reinforcing plate 623 is specifically triangular and is used for improving the structural stability of the guide plate. In this embodiment, the vertical plate 622 is provided with a vertical guide groove 624, the guide groove 624 provides a guiding function for the position adjustment of the bearing plate 61, and specifically, a protrusion can be provided on the protrusion 611 of the bearing plate 61, and the protrusion slides in the guide groove 624 to achieve the guiding function.

The utility model provides an electronic equipment's light sense calibration testing arrangement 100, during the application, switch 12 is opened, treat that the product connects the two-dimensional code and appear the back, with sweeping code rifle scanning two-dimensional code, control system automatic operation control driving piece 51 pushes the box 20 of light sense calibration testing arrangement 100 with the product on carrier 55 and the carrier 55 in, the product targets in place the back and switches light source plate 40 to calibration parameter through calibration controller 41, illuminometer 30 carries out the reading of light source plate 40 numerical value and compares whether numerical value is in settlement scope (permissible error), then carry out light sense automatic calibration, after the calibration is accomplished through test controller 42 with light source plate 40 switch to the test parameter, illuminometer 30 carries out the reading of light source plate 40 and compares numerical value and whether in the settlement scope, then carry out light sense automatic test, read the light source numerical value that the product received and compare, the test through then showing "PASS" on last, the test is not through then showing "FAIL computer", the test is accomplished back control system with carrier 55 and the product on the carrier 55 from box 20 release after the test, the product targets in place, the light sense sensor of product is accomplished, the test is accomplished.

It can understand, install illuminometer 30 in the light sense calibration testing arrangement 100, the light source numerical value that the mounted position of illuminometer 30 read needs to be in certain error range with the light source numerical value that the product read, so the position adjustment of illuminometer is very important, the position of illuminometer 30 is adjusted to event design adjusting part 60, illuminometer 30 can carry out real-time communication with the host computer, the received light source numerical value of illuminometer 30 needs to compare in real time with the numerical value of setting for light source board 40, if light source board 40 switches light source numerical value and goes wrong, can in time discover, prevent because the batched mismeasurement that equipment environment problem and lead to, improve the reliability of calibration and test that whole device goes on the product. Moreover, the light source value read by the product needs to be compared with the value read by the illuminometer 30, so that whether the product is calibrated successfully or not is ensured, whether the light source value read by the product in the test is correct or not needs to be compared with the value read by the illuminometer 30 and judgment is carried out, and the accuracy of the light sensation calibration and the light sensation test is improved.

To sum up, the utility model provides an electronic equipment's light sense calibration testing arrangement 100, box 20 set up on plummer 10, and box 20 has accommodating space 201, and illuminometer 30 is fixed in on plummer 10, and light source board 40 is fixed in box 20, electronic equipment, illuminometer 30 and light source board 40 all accept in accommodating space 201, and light source board 40 can do electronic equipment and illuminometer 30 provide the light source value, in order to realize electronic equipment carries out light sense calibration and light sense test based on different light source values, and illuminometer 30 receives the light source value that light source board 40 provided in order to realize the light source value that light source board 40 provided electronic equipment carries out the light sense calibration and light sense test the light source value that reads monitors when reading, so design has realized carrying out light sense calibration and light sense test in a platform jig, has reduced the error of tool environment, and test stability is high, saves test tool quantity, saves the test manpower cost to, and light sense value that illuminometer 30 can be to light source value that electronic equipment provided, the light source equipment carries out the calibration and light sense test, the light source that reads when carrying out the light sense test, has improved the light source and the test reliability.

The above-mentioned embodiment of the present invention is only, and not the scope of the patent of the present invention is limited, all the equivalent structures or equivalent processes made by the contents of the specification and the drawings are utilized, or directly or indirectly applied to other related technical fields, and all the same principles are included in the patent protection scope of the present invention.

Claims (10)

1. A light sensation calibration test device of electronic equipment is characterized by comprising a bearing table, a box body, an illuminometer and a light source board; the box body is arranged on the bearing table, the box body is provided with an accommodating space, the bearing table is used for bearing electronic equipment to be detected, the illuminometer is fixed on the bearing table, the light source plate is fixed in the box body, and the electronic equipment, the illuminometer and the light source plate are all accommodated in the accommodating space; the light source board provides light source values for the electronic equipment and the illuminometer so as to realize that the electronic equipment performs light sensation calibration and light sensation test based on different light source values, and the illuminometer receives the light source values provided by the light source board so as to monitor the light source values provided by the light source board and the light source values read when the electronic equipment performs light sensation calibration and light sensation test.

2. The apparatus of claim 1, further comprising a transmission assembly, wherein the housing comprises a top plate and a plurality of side plates perpendicularly connected to the top plate, one of the side plates is provided with an openable/closable door plate, and the transmission assembly drives the electronic device to move on the carrier to allow the electronic device to enter and exit the housing through the openable/closable door plate.

3. The apparatus as claimed in claim 2, wherein the transmission assembly includes a driving member, a slide rail, a sliding block and a fixing plate, the driving member and the slide rail are fixed on the carrier, the sliding block is disposed on the slide rail and slides along the slide rail, the fixing plate is fixed on the sliding block, the fixing plate is used for carrying the electronic device, one end of the driving member is connected to the fixing plate, and the driving member drives the fixing plate and drives the sliding block to move along the slide rail.

4. The apparatus as claimed in claim 3, wherein the transmission assembly further comprises a carrier detachably fixed on the fixing plate, the carrier defining a receiving slot for receiving the electronic device.

5. The light sensation calibration test device of an electronic device according to claim 1, further comprising an adjustment assembly, wherein the illuminometer is fixed on the adjustment assembly, and the adjustment assembly adjusts the distance between the illuminometer and the light source board.

6. The apparatus of claim 5, wherein the adjusting assembly comprises a supporting plate for supporting the illuminometer, guiding plates located on two sides of the supporting plate, and an adjusting member for adjusting the distance between the illuminometer and the light source plate, the guiding plate is fixed on the supporting plate, two protrusions are formed on two sides of the supporting plate, the two protrusions respectively hold the two guiding plates, and the adjusting member abuts against one of the protrusions.

7. The apparatus for testing optical sensitivity calibration of electronic devices of claim 6, wherein the guiding plate comprises a horizontal plate, a vertical plate and a reinforcing plate, the horizontal plate is fixed on the carrier, the vertical plate is connected to one end of the horizontal plate and is perpendicular to the horizontal plate, and two edges of the reinforcing plate are respectively fixed to the horizontal plate and the vertical plate.

8. The apparatus for light sensation calibration test of electronic device according to claim 7, wherein the vertical plate is formed with a vertical guide slot.

9. The apparatus for light sensation calibration test of electronic device according to claim 2, wherein the light source board is fixed on the top board of the box.

10. The apparatus according to claim 2, wherein a plurality of positioning blocks are disposed on the carrier.

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