CN116209126A - Method and device for repairing module lamp surface - Google Patents

Abstract

The disclosure provides a method and a device for repairing a module lamp surface. The repairing method of the module lamp surface comprises the following steps: detecting the module lamp surface to obtain bad point coordinates; transmitting the module lamp surface with the dead pixel coordinates to a crystal remover; carrying out decrystallization treatment on the bad point coordinate position of the module lamp surface by a decrystallization machine; and repairing the defective pixel coordinate position of the die set lamp surface after the decrystallization treatment. According to the repair method for the module lamp faces, a repair line is not required to be built in each section which is likely to be repaired, only the bad point coordinates of the plurality of module lamp faces are required to be detected, the module lamp faces with the bad point coordinates are transmitted to the crystal removing machine to be subjected to crystal removing treatment, the bad point coordinates of the module lamp faces after the crystal removing treatment are repaired, and the module lamp faces of the plurality of sections can be detected and repaired, so that waste of fields and labor is avoided, and cost is saved.

Description

Method and device for repairing module lamp surface

Technical Field

The disclosure relates to the technical field of repair, in particular to a method and a device for repairing a module lamp surface.

Background

At present, when the module lamp is used, the lamp surface is easy to fail.

In the prior art, in order to repair the fault of the lamp surface in time, the repair line body is usually built at the back of a possibly-existing dead lamp working section, but one repair line is built at each possibly-repaired working section, so that the cost, the site and the personnel are wasted.

Therefore, how to provide a method for repairing a module lamp surface capable of reducing the cost is a problem to be solved.

Disclosure of Invention

One technical problem to be solved by the present disclosure is: how to reduce the cost of the module lamp surface repairing method.

In order to solve the above technical problems, an embodiment of the present disclosure provides a method for repairing a module light surface, including:

detecting the module lamp surface to obtain bad point coordinates;

transmitting the module lamp surface with the dead pixel coordinates to a crystal remover;

carrying out decrystallization treatment on the bad point coordinate position of the module lamp surface by a decrystallization machine;

and repairing the defective pixel coordinate position of the die set lamp surface after the decrystallization treatment.

In some embodiments, transmitting the modular light surface with the dead pixel coordinates to the de-crystallization machine includes:

judging whether the module lamp surface is provided with a driving surface or not;

if so, transmitting the module lamp surface with the driving surface with the dead pixel coordinates to a crystal remover through the carrier with the driving surface;

and if not, transmitting the module lamp surface of the non-driving surface with the dead pixel coordinates to a crystal removing machine through the non-driving surface carrying table.

In some embodiments, prior to detecting the modular light surface to obtain the dead pixel coordinates, the method includes:

and digging the glue on the module lamp surface with the driving surface.

In some embodiments, determining whether the module light surface has a driving surface further comprises:

judging whether the crystal remover is in an idle state or not;

if yes, judging whether the module lamp surface has a driving surface or not.

In some embodiments, detecting the module light surface to obtain the dead pixel coordinates includes:

and detecting the module lamp surface to obtain a material code comprising the dead point coordinates and the type of the module lamp surface.

In some embodiments, the decrystallizing the dead pixel coordinate position of the module light surface by the decrystallizing machine comprises:

scanning the material code to obtain a material code comprising bad point coordinates;

and the crystal removing machine carries out crystal removing treatment on the position of the dead point coordinates of the module lamp surface through the material code of the dead point coordinates.

In some embodiments, repairing the dead spot coordinates of the die set lamp face after the decrystallization includes:

and transmitting the die set lamp surface subjected to the decrystallization treatment to a repairing machine so as to repair the die set lamp surface.

On the other hand, the application provides a device of reprocessing of module lamp face, includes:

the detector is used for detecting the module lamp surface to obtain a material code of the dead point coordinates;

the movable bearing rail is used for driving the module lamp surface to move along a preset track so as to transmit the module lamp surface;

the crystal removing machine is arranged close to the movable bearing rail and is used for carrying out crystal removing treatment on the module lamp surface according to the material code of the dead point coordinates;

and the repairing machine is arranged close to the movable bearing rail and is used for repairing the module lamp surface according to the material code of the dead point coordinates.

In some embodiments, the movable bearing rail is provided with a non-driving surface carrying platform or a driving surface carrying platform, the non-driving surface carrying platform is used for fixing the non-driving surface module lamp surface, the driving surface carrying platform is used for fixing the driving surface module lamp surface so as to drive the non-driving surface module lamp surface or the driving surface module lamp surface to move along a preset track, and the non-driving surface module lamp surface or the driving surface module lamp surface is transmitted to a crystal removing machine or a repairing machine.

In some embodiments, further comprising:

the code scanning gun is used for scanning the material codes of the dead pixel coordinates to obtain the dead pixel coordinates and the type of the module lamp surface;

the controller is in signal connection with the detector, the movable bearing rail, the crystal removing machine and the code scanning gun, receives the material code transmitted by the detector, transmits the material code to the code scanning gun, the code scanning gun transmits the bad point coordinates obtained by scanning and the type of the module lamp surface to the controller, the controller controls the corresponding driving surface carrying table or the driving surface-free carrying table to drive the corresponding module lamp surface to move to the crystal removing machine through the movable bearing rail according to the type of the module lamp surface, the crystal removing machine carries out crystal removing treatment on the module lamp surface according to the bad point coordinates transmitted by the controller, and the controller is also used for controlling the movable bearing rail to drive the driving surface carrying table or the driving surface-free carrying table and the corresponding module lamp surface to move to the repairing machine, and the repairing machine carries out repairing treatment on the module lamp surface according to the bad point coordinates transmitted by the controller.

Through the technical scheme, the module lamp face repairing method provided by the disclosure is characterized in that firstly, the module lamp face is detected, so that the bad point coordinates in the module lamp face are obtained, then the module lamp face with the bad point coordinates is placed on the movable bearing rail, the movable bearing rail drives the module lamp face to move, so that the module lamp face is transmitted to the crystal removing machine, the crystal removing machine is used for removing crystals from the bad point coordinates of the module lamp face, and then the crystal repairing and repairing are carried out on the bad point coordinates of the module lamp face after the crystal removing process, so that the repair of the module lamp face is realized. Therefore, compared with the prior art, the repair method for the module lamp surface does not need to build a repair line in each section which is possibly repaired, only the bad point coordinates of a plurality of module lamp surfaces are needed to be detected, the module lamp surface with the bad point coordinates is transmitted to a crystal removing machine for crystal removing treatment, the bad point coordinates of the module lamp surfaces after crystal removing treatment are repaired, and the module lamp surfaces in the sections can be detected and repaired, so that the waste of fields and labor is avoided, and the cost is saved.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings may be obtained according to these drawings without inventive effort to a person of ordinary skill in the art.

FIG. 1 is a flow chart of a method for repairing a modular light surface according to an embodiment of the present disclosure;

FIG. 2 is a flow chart of another method for repairing a modular light surface according to an embodiment of the present disclosure;

FIG. 3 is a block diagram of a modular lamp face rework device disclosed in an embodiment of the present application;

FIG. 4 is a schematic view of a portion of a repair device for a modular lamp surface according to an embodiment of the present disclosure;

reference numerals illustrate:

1. a repair device for the module lamp surface; 11. a detecting machine; 12. a movable bearing rail; 13. a drive-surface-free carrier; 14. a drive surface carrier; 15. a decrystallizing machine; 16. a repair machine; 17. a code scanning gun; 18. and a controller.

Detailed Description

Embodiments of the present disclosure are described in further detail below with reference to the drawings and examples. The following detailed description of the embodiments and the accompanying drawings are provided to illustrate the principles of the disclosure and not to limit the scope of the disclosure, which may be embodied in many different forms and not limited to the specific embodiments disclosed herein, but rather to include all technical solutions falling within the scope of the claims.

The present disclosure provides these embodiments in order to make the present disclosure thorough and complete, and fully convey the scope of the disclosure to those skilled in the art. It should be noted that: the relative arrangement of parts and steps, the composition of materials, numerical expressions and numerical values set forth in these embodiments should be construed as exemplary only and not limiting unless otherwise specifically stated.

In the description of the present disclosure, unless otherwise indicated, the meaning of "plurality" is greater than or equal to two; the terms "upper," "lower," "left," "right," "inner," "outer," and the like indicate an orientation or positional relationship merely for convenience of describing the present disclosure and simplifying the description, and do not indicate or imply that the devices or elements being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the present disclosure. When the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

Furthermore, the use of the terms first, second, and the like in this disclosure do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The "vertical" is not strictly vertical but is within the allowable error range. "parallel" is not strictly parallel but is within the tolerance of the error. The word "comprising" or "comprises" and the like means that elements preceding the word encompass the elements recited after the word, and not exclude the possibility of also encompassing other elements.

It should also be noted that, in the description of the present disclosure, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the present disclosure may be understood as appropriate by those of ordinary skill in the art. When a particular device is described as being located between a first device and a second device, there may or may not be an intervening device between the particular device and either the first device or the second device.

All terms used in the present disclosure have the same meaning as understood by one of ordinary skill in the art to which the present disclosure pertains, unless specifically defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but where appropriate, the techniques, methods, and apparatus should be considered part of the specification.

As shown in fig. 1, a method for repairing a module light surface provided in the present application includes:

s101, detecting a module lamp surface to obtain bad point coordinates;

and detecting the module lamp faces of the lamps in the multiple working sections through an electrical detection machine to obtain the coordinates of the dead spots of the module lamp faces in the multiple lamps, wherein the dead spots of the module lamp faces are the positions of the lamp beads in the lamp faces, which are in fault. When the detection is performed by the electrical detection machine, the detection is performed by using two electrical detection machines, so that the detection efficiency can be improved.

S102, transmitting a module lamp surface with bad point coordinates to a crystal remover;

s103, carrying out decrystallization on the bad point coordinate position of the module lamp surface through a decrystallization machine;

s104, repairing the bad point coordinate position of the die set lamp surface after the decrystallization treatment.

According to the repair method for the module lamp surface, firstly, the module lamp surface is detected, so that the bad point coordinates in the module lamp surface are obtained, then the module lamp surface with the bad point coordinates is placed on the movable bearing rail, the movable bearing rail drives the module lamp surface to move, the module lamp surface is transmitted to the crystal removing machine, the crystal removing machine is used for removing crystal from the bad point coordinates of the module lamp surface, and then the repair is carried out on the bad point coordinates of the module lamp surface after the crystal removing process, so that the repair of the module lamp surface is realized. Therefore, compared with the prior art, the repair method for the module lamp surface does not need to build a repair line in each section which is possibly repaired, only the bad point coordinates of a plurality of module lamp surfaces are needed to be detected, the module lamp surface with the bad point coordinates is transmitted to a crystal removing machine for crystal removing treatment, the bad point coordinates of the module lamp surfaces after crystal removing treatment are repaired, and the module lamp surfaces in the sections can be detected and repaired, so that the waste of fields and labor is avoided, and the cost is saved.

As shown in FIG. 2, another method for repairing a module light surface provided by the present application includes

S201, performing glue digging on the module lamp surface with the driving surface.

The first surface of the module lamp surface is provided with lamp beads, the second surface is a plane or is provided with a driving surface, when the second surface of the module lamp surface is a plane, the module lamp surface is a module lamp surface without a driving surface, and when the second surface of the module lamp surface is provided with the driving surface, the module lamp surface is a module lamp surface with the driving surface, and when the module lamp surface with the driving surface is subjected to fault point detection and repair, the driving surface needs to be dug.

S202, detecting a module lamp surface to obtain bad point coordinates;

s203, judging whether the crystal remover is in an idle state;

before carrying out the de-crystallization operation through the de-crystallization machine, need judge whether the de-crystallization machine is in idle state, when the de-crystallization machine is in idle state, just can carry out the de-crystallization operation to the module lamp face, and this application can set up two de-crystallization machines and carry out the de-crystallization operation to the module lamp face to accelerate de-crystallization efficiency.

S204, if yes, judging whether the module lamp surface has a driving surface;

if the de-crystallization machine is in an idle state, the module lamp surface can be de-crystallized, and at the moment, whether the module lamp surface has a driving surface or not is judged, and whether the module lamp surface has the driving surface or not is different from the mode of moving the module lamp surface.

S205, if yes, transmitting the module lamp surface with the driving surface with the dead pixel coordinates to a crystal remover through a carrier with the driving surface;

the module lamp surface is provided with the driving surface, and is fixed and transported through the driving surface carrying platform, and the driving surface carrying platform is more suitable for fixing the module lamp surface with the driving surface, so that the transmission and the subsequent crystal removal repair operation are convenient.

S206, if not, transmitting the module lamp surface of the non-driving surface with the dead pixel coordinates to a crystal remover through the non-driving surface carrying platform;

the module lamp surface is not provided with the driving surface, and is fixed and transported through the carrier without the driving surface, and the carrier without the driving surface is more suitable for fixing the module lamp surface without the driving surface, so that the transmission and the subsequent crystal removal repair operation are convenient.

S207, carrying out decrystallization on the bad point coordinate position of the module lamp surface by a decrystallization machine;

and S208, transmitting the die set lamp surface subjected to the decrystallization treatment to a repairing machine so as to repair the die set lamp surface.

According to the method for repairing the module lamp surface, firstly, the module lamp surface with the driving surface is dug, detection and repair are conveniently carried out on the module lamp surface with the driving surface, then all the module lamp surfaces are detected, the module lamp surface with the defective pixel coordinates and the corresponding defective pixel coordinates are obtained, then whether a crystal removing machine is in an idle state or not is judged, if the crystal removing machine is in the idle state, whether the module lamp surface is provided with the driving surface is judged again, if the module lamp surface is provided with the driving surface, the module lamp surface with the driving surface with the defective pixel coordinates is transmitted to the crystal removing machine through a carrier with the driving surface, if the module lamp surface is not provided with the driving surface, the module lamp surface without the driving surface with the defective pixel coordinates is transmitted to the crystal removing machine through the carrier without the driving surface, then the crystal removing machine is carried out on the defective pixel coordinates of the module lamp surface, and finally the defective pixel coordinates of the module lamp surface after the crystal removing treatment are repaired. Therefore, compared with the prior art, the repair method for the module lamp surface does not need to build a repair line in each section which is possibly repaired, only the bad point coordinates of a plurality of module lamp surfaces are needed to be detected, the module lamp surface with the bad point coordinates is transmitted to a crystal removing machine for crystal removing treatment, the bad point coordinates of the module lamp surfaces after crystal removing treatment are repaired, and the module lamp surfaces in the sections can be detected and repaired, so that the waste of fields and labor is avoided, and the cost is saved.

In this embodiment, detecting the module light surface to obtain the dead spot coordinates includes detecting the module light surface to obtain a material code including the dead spot coordinates and the type of the module light surface. The types of module light surfaces include a module light surface with a driving surface and a module light surface without a driving surface.

In this embodiment, the performing, by the crystallization removing machine, the crystallization removing process on the dead pixel coordinate position of the mold surface includes:

scanning the material code to obtain a material code comprising bad point coordinates;

and the crystal removing machine carries out crystal removing treatment on the position of the dead point coordinates of the module lamp surface through the material code of the dead point coordinates.

In this embodiment, repairing the dead spot coordinates of the die set lamp face after the decrystallization includes:

and (3) transmitting the die set lamp surface subjected to the crystal removal treatment to a repairing machine through a movable bearing rail so as to repair the die set lamp surface.

In this embodiment, when detecting the module light surface by the detecting machine, a material code including the dead point coordinates and whether the module light surface has a driving surface is obtained, the detecting machine is in signal connection with the controller, the detecting machine transmits the material code to the controller, the controller is respectively in signal connection with the code scanning gun, the crystal removing machine and the repairing machine, the material code is received, the material code is scanned, the type of the module light surface and the dead point coordinates are obtained, the controller transmits the module light surface to the controller, the controller sets the module light surface on a corresponding driving surface carrying table or a driving surface carrying table according to the type of the module light surface, then transmits the corresponding module light surface to the crystal removing machine through the driving surface carrying table or the driving surface carrying table, the dead point coordinates are transmitted to the crystal removing machine, and the crystal removing machine carries out crystal removing treatment on the module light surface according to the position of the dead point coordinates. After the bad point coordinates of the module lamp surface are subjected to crystal removal treatment, the corresponding module lamp surface is transmitted to a repairing machine through a carrying platform with a driving surface or a carrying platform without the driving surface, and the repairing machine repairs the module lamp surface after crystal removal according to the bad point coordinates sent by the controller, so that the repairing work of the module lamp surface is completed.

As shown in fig. 3, in a second aspect, the present application further provides a repair device 1 for a module light surface, including:

the detector 11 is used for detecting the module lamp surface to obtain a material code of the dead point coordinates;

the movable bearing rail 12 is used for driving the module lamp surface to move along a preset track so as to transmit the module lamp surface;

the crystal removing machine 15 is arranged close to the movable bearing rail 12 and is used for carrying out crystal removing treatment on the module lamp surface according to the material codes of the dead point coordinates;

and the repairing machine 16 is arranged close to the movable bearing rail 12 and is used for repairing the module lamp surface according to the material code of the dead point coordinates.

In this embodiment, the repairing device 1 for a module light surface includes a detecting machine 11, a movable bearing rail 12, a crystal removing machine 15 and a repairing machine 16, the detecting machine 11 is an electrical detecting machine 11, the detecting machine 11 is used for detecting the module light surface to obtain a material code with a dead point coordinate, then the module light surface with the dead point coordinate is placed on the movable bearing rail 12, the movable bearing rail 12 drives the module light surface to move according to a preset track so as to move the module light surface to the crystal removing machine 15, the crystal removing machine 15 carries out crystal removing treatment on the module light surface according to the dead point coordinate position, then the movable bearing rail 12 drives the module light surface to move to the repairing machine 16 according to the preset track, and the repairing machine 16 carries out crystal repairing and repairing on the dead point coordinate position of the module light surface after crystal removing treatment, thereby realizing repairing of the module light surface. Thus for prior art, the device 1 of reprocessing of module lamp face that this application provided, need not all build a repair line at every workshop section that probably reprocessed, only need detect the bad point coordinate of a plurality of module lamp faces, transmit the module lamp face that has bad point coordinate to go out brilliant processing to go out brilliant machine 15 department to carry out the bad point coordinate position of module lamp face after going brilliant processing and reprocessing, just can realize the module lamp face detection and the reprocessing of a plurality of workshop sections, thereby avoided the waste of place and manual work, practiced thrift the cost.

In this embodiment, the first surface of the module light surface is provided with the light beads, the second surface is a plane or is provided with the driving surface, when the second surface of the module light surface is a plane, the module light surface is a module light surface without the driving surface, and when the second surface of the module light surface is provided with the driving surface, the module light surface is a module light surface with the driving surface, and when the module light surface with the driving surface is subjected to fault point detection and repair, the driving surface needs to be dug. Before the de-crystallization operation is performed by the de-crystallization machine 15, it is required to determine whether the de-crystallization machine 15 is in an idle state, and when the de-crystallization machine 15 is in the idle state, the de-crystallization operation can be performed on the module lamp surface, and the de-crystallization machine 15 can be set to perform the de-crystallization operation on the module lamp surface, so that the de-crystallization efficiency is accelerated.

As shown in fig. 4, in this embodiment, the movable bearing rail 12 is provided with a non-driving surface carrying table 13 or a driving surface carrying table 14, the non-driving surface carrying table 13 is used for fixing a non-driving surface module lamp surface, and the driving surface carrying table 14 is used for fixing a driving surface module lamp surface so as to drive the non-driving surface module lamp surface or the driving surface module lamp surface to move along a preset track, so that the non-driving surface module lamp surface or the driving surface module lamp surface is transmitted to the position of the de-crystallization machine 15 or the position of the repairing machine 16.

In this embodiment, the module light surface includes a non-driving surface module light surface and a driving surface module light surface, and the non-driving surface module light surface and the driving surface module light surface need to be placed and fixed by using different carriers respectively, so as to be able to stably move and subsequent crystal removal and repair, a non-driving surface carrier 13 or a driving surface carrier 14 is provided on the movable carrier rail 12, the non-driving surface carrier 13 is used for fixing the non-driving surface module light surface, the driving surface carrier 14 is used for fixing the driving surface module light surface, and the non-driving surface carrier 13 or the driving surface carrier 14 is provided on the movable carrier rail 12, so as to drive the non-driving surface carrier 13 or the driving surface carrier 14 and the corresponding module light surface provided thereon to move, thereby transmitting the non-driving surface module light surface or the driving surface module light surface to the crystal removal machine 15 or the repair machine 16, and further realizing crystal removal and repair.

As shown in fig. 3, in this embodiment, further includes: the code scanning gun 17 is used for scanning the material codes of the dead pixel coordinates to obtain the dead pixel coordinates and the type of the module lamp surface;

the controller 18, the controller 18 is connected with the detector 11, the movable bearing rail 12, the crystal remover 15 and the code scanning gun 17 in a signal manner, the material codes transmitted by the detector 11 are received and transmitted to the code scanning gun 17, the code scanning gun 17 transmits the bad point coordinates obtained by scanning and the types of the module lamp faces to the controller 18, the controller 18 controls the corresponding driving surface carrying table 14 or the non-driving surface carrying table 13 to drive the corresponding module lamp faces to move to the crystal remover 15 through the movable bearing rail 12 according to the types of the module lamp faces, the crystal remover 15 carries out crystal removing treatment on the module lamp faces according to the bad point coordinates transmitted by the controller 18, the controller 18 is also used for controlling the movable bearing rail 12 to drive the driving surface carrying table 14 or the non-driving surface carrying table 13 and the corresponding module lamp faces to move to the repairing machine 16, and the repairing machine 16 carries out repairing treatment on the module lamp faces according to the bad point coordinates transmitted by the controller 18.

In this embodiment, when detecting the module light surface by the detector 11, a material code including the dead point coordinates and whether the module light surface has a driving surface is obtained, the detector 11 is in signal connection with the controller 18, the detector 11 transmits the material code to the controller 18, the controller 18 is respectively in signal connection with the code scanning gun, the crystal remover 15 and the repair machine 16, the material code is received and scanned, the type of the module light surface and the dead point coordinates are obtained and transmitted to the controller 18, the controller 18 sets the module light surface on the corresponding driving surface carrying table 14 or the driving surface carrying table 13 according to the type of the module light surface, then the corresponding module light surface is transmitted to the crystal remover 15 by the driving surface carrying table 14 or the driving surface carrying table 13, the dead point coordinates are transmitted to the crystal remover 15, and the crystal remover 15 performs crystal removing processing on the module light surface according to the position of the dead point coordinates. After the defective pixel coordinates of the module lamp surface are subjected to the crystal removal treatment, the corresponding module lamp surface is transmitted to the repairing machine 16 through the driving surface carrying table 14 or the non-driving surface carrying table 13, and the repairing machine 16 repairs the module lamp surface after the crystal removal according to the defective pixel coordinates sent by the controller 18, so that the repairing work of the module lamp surface with the driving surface and the module lamp surface without the driving surface is sequentially completed.

According to the repair method for the module lamp surface, firstly, the module lamp surface is detected, so that the bad point coordinates in the module lamp surface are obtained, then the module lamp surface with the bad point coordinates is placed on the movable bearing rail, the movable bearing rail drives the module lamp surface to move, the module lamp surface is transmitted to the crystal removing machine, the crystal removing machine is used for removing crystal from the bad point coordinates of the module lamp surface, and then the repair is carried out on the bad point coordinates of the module lamp surface after the crystal removing process, so that the repair of the module lamp surface is realized. Compared with the prior art, the method has the advantages that a repair line is not required to be built in each section which is possibly repaired, the defective pixel coordinates of a plurality of module lamp faces are only required to be detected, the module lamp faces with the defective pixel coordinates are transmitted to the crystal removing machine to be subjected to crystal removing treatment, the defective pixel coordinates of the module lamp faces after the crystal removing treatment are repaired, the module lamp faces of the sections can be detected and repaired, the waste of sites and labor is avoided, and the cost is saved.

Thus, various embodiments of the present disclosure have been described in detail. In order to avoid obscuring the concepts of the present disclosure, some details known in the art are not described. How to implement the solutions disclosed herein will be fully apparent to those skilled in the art from the above description.

Although some specific embodiments of the present disclosure have been described in detail by way of example, it should be understood by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the present disclosure. It will be understood by those skilled in the art that the foregoing embodiments may be modified and equivalents substituted for elements thereof without departing from the scope and spirit of the disclosure. In particular, the technical features mentioned in the respective embodiments may be combined in any manner as long as there is no structural conflict.

Claims (10)

1. The repairing method of the module lamp surface is characterized by comprising the following steps of:

detecting the module lamp surface to obtain bad point coordinates;

transmitting the module lamp surface with the dead pixel coordinates to a crystal removing machine;

carrying out decrystallization treatment on the dead point coordinate position of the module lamp surface through the decrystallization machine;

and repairing the defective pixel coordinate position of the die set lamp surface after the decrystallization treatment.

2. The method of repairing a modular lamp surface according to claim 1, wherein said transmitting the modular lamp surface having the coordinates of dead spots to a de-crystallization machine comprises:

judging whether the module lamp surface is provided with a driving surface or not;

if so, transmitting the module lamp surface with the driving surface with the dead pixel coordinates to a crystal removing machine through a carrying table with the driving surface;

and if not, transmitting the module lamp surface with the dead pixel coordinates of the dead pixel surface to a crystal removing machine through the dead pixel surface carrier.

3. The method of repairing a modular lamp surface of claim 1, comprising, prior to detecting the modular lamp surface to obtain the dead spot coordinates:

and digging the glue on the module lamp surface with the driving surface.

4. The method of repairing a modular lamp surface according to claim 2, wherein the determining whether the modular lamp surface has a driving surface further comprises:

judging whether the crystal remover is in an idle state or not;

if yes, judging whether the module lamp surface has a driving surface or not.

5. The method of repairing a modular lamp surface of claim 1, wherein detecting the modular lamp surface to obtain the dead spot coordinates comprises:

and detecting the module lamp surface to obtain a material code comprising the dead point coordinates and the module lamp surface type.

6. The method for repairing a module lamp surface according to claim 5, wherein the performing, by the de-crystallization machine, the de-crystallization of the dead pixel coordinate position of the module lamp surface comprises:

scanning the material code to obtain a material code comprising the bad point coordinates;

and the decrystallization machine performs decrystallization on the position of the dead point coordinates of the module lamp surface through the material code of the dead point coordinates.

7. The method for repairing a module lamp surface according to claim 1, wherein repairing the dead pixel coordinate position of the module lamp surface after the decrystallization comprises:

and transmitting the die set lamp surface subjected to the decrystallization treatment to a repairing machine so as to repair the die set lamp surface.

8. The utility model provides a reprocessing device of module lamp face which characterized in that includes:

the detecting machine (11) is used for detecting the module lamp surface to obtain a material code of the dead point coordinates;

the movable bearing rail (12), the movable bearing rail (12) is used for driving the module lamp surface to move along a preset track so as to transmit the module lamp surface;

the crystal removing machine (15) is arranged close to the movable bearing rail (12) and is used for carrying out crystal removing treatment on the module lamp surface according to the material codes of the dead pixel coordinates;

and the repairing machine (16) is arranged close to the movable bearing rail (12) and is used for repairing the module lamp surface according to the material code of the dead pixel coordinates.

9. The repair device for a modular lamp surface according to claim 8, wherein,

the movable bearing rail (12) is provided with a non-driving surface carrying table (13) or a driving surface carrying table (14), the non-driving surface carrying table (13) is used for fixing a non-driving surface module lamp surface, and the driving surface carrying table (14) is used for fixing a driving surface module lamp surface so as to drive the non-driving surface module lamp surface or the driving surface module lamp surface to move along a preset track, so that the non-driving surface module lamp surface or the driving surface module lamp surface is transmitted to the crystal remover (15) or the repair machine (16).

10. The modular light fixture of claim 9, further comprising:

the code scanning gun (17) is used for scanning the material codes of the dead pixel coordinates to obtain the dead pixel coordinates and the type of the module lamp surface;

the controller (18), controller (18) with detect machine (11), activity bear track (12), go brilliant machine (15) and sweep yard rifle (17) signal connection, receive the material sign indicating number of detecting machine (11) transmission, and will the material sign indicating number transmission extremely sweep yard rifle (17), sweep yard rifle (17) and transmit the bad point coordinate that obtains and the type of module lamp face to controller (18) with scanning, controller (18) are according to the type control of module lamp face has corresponding drive face microscope carrier (14) or no drive face microscope carrier (13) drive the module lamp face that corresponds and pass through activity bear track (12) remove to go brilliant machine (15) department, go brilliant machine (15) are according to bad point coordinate that controller (18) sent carries out the decrystallization to module lamp face, controller (18) are used for controlling activity bear track (12) drive have drive face microscope carrier (14) or no drive face microscope carrier (13) and no drive face module lamp face (16) carry out the processing to the module lamp face according to the type of module lamp face repair (16).

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