CN109521607B - Wiring structure and radiation slit vertical alignment power-up system - Google Patents

Abstract

The application provides a wiring structure and a radiation slit vertical alignment power-up system, and belongs to the technical field of panel manufacturing. The wiring structure comprises a probe, a first joint, a second joint and a connecting wire, wherein the first joint comprises a first conductive core in conductive connection with the probe, and the second joint comprises a second conductive core. The radial slit vertical alignment energizing system comprises the wiring structure. The utility model provides a wiring structure and radiation slit vertical alignment add electric system, the first joint has been set up, with first joint activity conductive connection and with power module conductive connection's second joint and with first joint conductive connection's probe, the relation of connection of first conductive core and probe, the relation of connection of second conductive core and power module, and then form two fixed modules, couple together this first joint and second articulate, realize that power module and different specification probes are plug-and-play, two fixed modules conductive connection are swift convenient, can solve contact failure and connect inconvenient problem.

Description

Wiring structure and radiation slit vertical alignment power-up system

Technical Field

The present application relates to a panel manufacturing technology, and more particularly, to a wiring structure and a radiation slit vertical alignment power-up system.

Background

The liquid crystal molecules in the liquid crystal panel near the glass surface have a certain initial angle with the glass, this angle is generally called the pretilt angle, and the FSA (Fine Slit vertical Alignment), i.e. the radiation Slit vertical Alignment, electrical system is one of the devices commonly used to form the pretilt angle at present. The current radial slit vertical alignment electrification system mainly comprises: the liquid crystal display panel comprises a power supply module and a plurality of probes with different specifications, wherein the probes comprise at least three specifications, such as a probe comprising a gate line, a probe comprising a data line and a probe comprising a com (scanning line), each probe is respectively connected with different output phases of the power supply module, and a liquid crystal panel with a specific specification model can only be connected by the probes with corresponding specification and quantity. At present, each probe is electrically connected with a power module by using a connector, and one connector corresponds to a liquid crystal panel with a specific specification (one connector may be connected with a plurality of and various probes), and the specific electrically conductive connection mode is as follows: one end of the connector is provided with a plurality of conductive cores, one end of each conductive core is connected with each probe in a welding mode, each conductive core is connected with each output position of the power supply module in a conductive mode through a conducting wire, the output position of the power supply module and one end of the conducting wire are fixed in a screwed mode through threads, and the other end of the conducting wire is welded on the conductive core.

At present, the radiation slit vertical alignment power-up system can frequently switch different products (liquid crystal panels) to perform pre-tilt angle power-up operation, when the products with different sizes are switched each time, the corresponding connectors and the wires of the power supply module need to be reconnected (in threaded connection), the reconnection is not only complicated in operation, but also prone to connection errors, poor contact and the like, and great troubles are brought to the radiation slit vertical alignment power-up operation.

Disclosure of Invention

An object of the application is to provide a wiring structure to solve among the prior art radiation slit vertical alignment and add the technical problem that complex operation, easily make mistakes that the system caused because of reconnecting first joint and power module when switching different products.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: provided is a wiring structure including:

at least one probe for electrically conductive connection with the panel;

the first joint comprises a first joint body and at least one first conductive core arranged at one end of the first joint body, and each probe is respectively in conductive connection with each first conductive core;

the second joint comprises a second joint body and at least one second conductive core arranged at one end of the second joint body, and each second conductive core is respectively in movable conductive connection with each first conductive core; and

and the connecting wire is connected between the second connector and the power supply module and is used for enabling each output position of the power supply module to be respectively in conductive connection with each second conductive core.

In one embodiment, the first connector is a military connector.

In one embodiment, the first connector further comprises at least one plug part connected with the other end of the first connector body, and the second connector further comprises at least one jack connected with the second connector body and used for being in plug fit and electrically connected with the plug part; each plug portion is in conductive connection with each first conductive core, and each jack is in conductive connection with each second conductive core.

In one embodiment, the second connector is provided with a convex part for guiding the plug part to be in plug-in fit with the jack, and the first connector is provided with a slot in plug-in fit with the convex part.

In one embodiment, the outer circumference of the first joint is provided with an external thread, the outer circumference of the second joint is sleeved with a connecting ring, and the inner ring of the connecting ring is provided with an internal thread for threaded connection with the external thread.

In one embodiment, the connecting lead and the second connector are of an injection-molded and integrally-molded structure.

In one embodiment, the connecting wire is connected to the power module by a threaded fastener.

In one embodiment, the first connector and the probe are of an integrally formed structure.

An object of the present application is also to provide a wiring structure, including:

at least one probe for electrically conductive connection with the panel;

the first joint and the probes are of an integrally formed structure, the first joint comprises a first joint body, at least one first conductive core arranged at one end of the first joint body and at least one plug part connected with the other end of the first joint body, and each first conductive core is respectively in conductive connection with each plug part and each probe;

the second connector is in inserted fit with the first connector and comprises a second connector body, at least one second conductive core arranged at one end of the second connector body and at least one jack which is in inserted fit with the plug part and is in movable conductive connection with the plug part, and each jack is in conductive connection with each second conductive core; and

and the connecting wire and the second joint are of an injection molding integrated structure and are used for electrically connecting the power module and the second joint.

It is another object of the present application to provide a radial slit vertical alignment energization system, comprising:

a power supply module; and

the wiring structure is used for electrically connecting the power module and the panel.

The utility model provides a wiring structure and radiation slit vertical alignment add electric system, at least one first joint has been set up, with first joint activity conductive connection and the second that remains all the time with power module conductive connection connect and with first joint conductive connection's at least one probe, the relation of connection of the first conductive core on the first joint with the probe has been fixed, the relation of connection of the second conductive core on the second joint with power module, thus, second joint and power module keep connecting, first joint and probe keep connecting, and then two fixed modules have been formed, during the use, couple together this first joint and second joint, realize that power module and different specification probes plug and play, this kind is swift convenient with two fixed module activity conductive connection's mode, can solve contact failure and connect inconvenient problem.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic diagram of a radial slit vertical alignment energizing system according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of a probe and a panel in a radial slit vertical alignment powered system according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of the wiring structure provided in the present application with the probe removed;

FIG. 4 is a schematic structural view of the first joint of FIG. 3;

FIG. 5 is one of the schematic structural views of the second joint shown in FIG. 3;

FIG. 6 is a second schematic structural view of the second connector shown in FIG. 3;

figure 7 is a schematic view of the attachment ring of figure 5.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 3, a wiring structure provided in the present application will now be described. A wiring structure for conductively connecting a power module 5 and a panel 6 of a radial slit vertically aligned energizing system, comprising: at least one probe 1 for electrically conductive connection to a panel 6, at least one first connector 2, at least one second connector 3 and at least one connecting wire 4 connected between the second connector 3 and a power module 5, the connecting wire 4 being optionally fixedly connected between the second connector 3 and the power module 5 or optionally movably connected between the second connector 3 and the power module 5 for easy replacement. Wherein the specifications of the probe 1 are not exclusive, the probe 1 comprises at least three specifications, such as a probe 1 comprising gate11, a probe 1 comprising data12 and a probe comprising com13, one first connector 2 may be connected with one or more probes 1 of one specification, and may be connected with a plurality of probes 1 of various specifications.

The first connector 2 comprises a first connector body 23 and at least one first conductive core arranged at one end of the first connector body 23, and each probe 1 is respectively in conductive connection with one first conductive core. The second terminal 3 includes a second terminal body 34 and at least one second conductive core provided at one end of the second terminal body 34. Each second connector 3 can be movably connected with only one corresponding first connector 2, and it is understood herein that the number of the first connectors 2 and the number of the second connectors 3 are equal, and after the first connectors 2 are movably connected with the second connectors 3, the second conductive cores are respectively and electrically connected with the corresponding first conductive cores. The connecting lines 4 are electrically conductively connected to the output points and the second conductive cores of the power supply module 5, respectively, and each connecting line 4 is used for electrically conductively connecting one output point and one second conductive core of the power supply module 5.

When the wiring structure provided by the application is used, all the second connectors 3 (namely all the second conductive cores) are in conductive connection with the power supply module 5 through the connecting wires 4, and in the whole using process, all the second conductive cores on the second connectors 3 are always in conductive connection with the power supply module 5, so that the connection relation between all the second conductive cores on the second connectors 3 and the power supply module 5 is fixed, and all the first conductive cores on the first connectors 2 are always in conductive connection with the corresponding probes 1 respectively, so that the connection relation between all the first conductive cores and the probes 1 is fixed. The second connector 3 remains connected to the power module 5 and the first connector 2 remains connected to the probe 1, thus forming two fixed modules.

When a certain type of panel 6 needs to be powered up, a corresponding type and a corresponding number of probes 1 are firstly found, and accordingly, a first connector 2 (possibly one or more) electrically connected with the probes 1 and a second connector 3 (possibly one or more) corresponding to the first connector 2 are found, and then the corresponding first connector 2 is directly and movably connected with the corresponding second connector 3, namely, the corresponding first conductive core 2 is electrically connected with the corresponding second conductive core 3, so that the conductive connection of the power module 5 and the probe combination can be realized very quickly by using the wiring structure provided by the application.

The utility model provides a wiring structure, at least one first joint has been set up, with first joint activity conductive connection and remain throughout with power module conductive connection's second joint and with first joint conductive connection's at least one probe, the relation of connection of the first conductive core on the first joint and probe has been fixed, the relation of connection of the second conductive core on the second joint and power module, thus, second joint and power module keep connecting, first joint and probe keep connecting, and then two fixed modules have been formed, during the use, couple together this first joint and second joint, realize power module and plug-and-play of different specification probes, this kind is swift convenient with two fixed module activity conductive connection's mode, can solve contact failure and connect inconvenient problem.

In one embodiment, the first connector 2 is a military standard connector, which is robust and durable, as one embodiment of the wiring structure provided herein.

In one embodiment, each first conductive core of one first connector 2 is electrically connected with a plurality of probes 1 of only one specification, so that the operator can easily and quickly combine probes of different specifications and numbers according to the requirements of the panel 6.

In one embodiment, referring to fig. 4 to 6, the first connector 2 further includes at least one plug portion 21 connected to the first connector body 23, the second connector 3 further includes at least one insertion hole 31 connected to the second connector body 34 for being inserted into and electrically connected to the plug portion 21, each plug portion 21 is electrically connected to each first conductive core, and each insertion hole 31 is electrically connected to each second conductive core. The plug part 21 is in plug (movable) conductive connection with the jack 31, and the structure is simple and easy to realize.

In one embodiment, referring to fig. 4 to 6, the first conductive core is located at one end of the first connector body 23, the plug portion 21 is located at the other end of the first connector body 23, the connecting wire 4 (i.e., the second conductive core) is located at one end of the second connector body 34 far away from the first connector body 23, and the insertion hole 31 is located at the other end of the second connector body 34.

In one embodiment, referring to fig. 4 to 6, the second connector 3 is provided with a protrusion 32, and the first connector 2 is provided with a slot 22 for mating with the protrusion 32. In the process of plugging the first connector 2 and the second connector 3, the plugging position of the first connector 2 and the second connector 2 can be identified through the plugging fit of the protrusion 32 and the slot 22, so that at least one plug part 21 on the first connector 2 can be smoothly inserted into the corresponding jack 31, and the protrusion 32 and the slot 22 can provide a certain guiding function for the dry plug part 21 to be inserted into the jack 31.

In one embodiment, referring to fig. 4 to 6, the first connector body 23 and the second connector body 34 are both cylindrical structures, one end of the first connector body 23 is provided with a first opening groove, the plug portion 21 is disposed in the first opening groove, and the slot 22 is disposed on a circumferential wall of the first opening groove. One end of the second joint body 34 is provided with a second open slot, the jack 31 is socialized at the bottom of the second open slot, the convex part 32 is arranged on the periphery of the annular wall of the second open slot, and when the first joint 2 is spliced with the second joint 3, the second open slot is inserted into the first open slot.

In one embodiment, referring to fig. 4-6, the protrusion 32 of each second connector 3 includes protrusion members of different sizes and numbers, and the corresponding slot 22 of each first connector also includes slot members of different sizes and numbers, so as to prevent the first connector 2 and the second connector 3 from being inserted incorrectly.

In one embodiment, the boss member is a boss having a rectangular cross-section and the corresponding socket member is a rectangular slot.

In one embodiment, referring to fig. 4 to 6, the outer circumference of the first joint 2 is provided with an external thread 231, the outer circumference of the second joint 3 is sleeved with a connecting ring 33, and the inner ring of the connecting ring 33 is provided with an internal thread in threaded connection with the external thread 231, which can ensure the firmness of the insertion connection between the first joint 2 and the second joint 3.

In one embodiment, referring to fig. 4 to 7, the external thread 231 is specifically disposed on the outer periphery of the first joint body 23, the connection ring 33 includes a connection ring body 331, one end of the connection ring body 331 is further provided with a circular plate portion 332 capable of abutting against the protrusion 32, the circular plate portion 332 is provided with an opening capable of being sleeved on the outer periphery of the second joint body 34, and the connection ring 33 can move axially relative to the second joint body 34. By means of the threaded connection of the connection ring 33 with the first connector 2 and the abutment of the connection ring 33 with the protrusion 32, a secure connection of the first connector 2 with the second connector 3 is achieved.

In an embodiment, as a specific implementation manner of the wiring structure provided by the present application, the connecting wire 4 and the second connector 3 are an injection-molded integral structure, specifically, the sheath of the connecting wire 4 and one end of the second connector 3 are injection-molded into an integral structure, so as to optimize the appearance, and prevent water and moisture.

In one embodiment, the connecting lead 4 is fixedly and conductively connected to the power module 5 by a threaded screw to facilitate replacement of the connecting lead 4 and the second connector 3 on the power module 5.

In one embodiment, as a specific implementation manner of the wiring structure provided by the present application, the first connector 2 and the probe 1 are an integrally formed structure, and specifically, an outer skin of a lead (one of a door line, a data line, and a scan line) of the probe 1 is integrally injection-molded with one end of the first connector 2, so as to optimize the appearance, and prevent water and moisture.

Referring to fig. 1 to 3, another objective of the present invention is to provide a radial slit vertical alignment power-up system, which includes a power module 5 and the wiring structure described above, wherein the wiring structure is used for electrically connecting the power module 5 and the panel 6, and the radial slit vertical alignment power-up system provided by the present invention is used for forming a pre-tilt angle of the panel 6.

When the radiation slit vertical alignment power-up system provided by the application is used, all the second connectors 3 (namely all the second conductive cores) are in conductive connection with the power supply module 5 through the connecting wires 4, and in the whole using process, all the second conductive cores on the second connectors 3 are always in conductive connection with the power supply module 5, so that the connection relation between all the second conductive cores on the second connectors 3 and the power supply module 5 is fixed, and all the first conductive cores on the first connectors 2 are always in conductive connection with corresponding probes 1, so that the connection relation between all the first conductive cores and the probes 1 is fixed. The second connector 3 remains connected to the power module 5 and the first connector 2 remains connected to the probe 1, thus forming two fixed modules.

When a certain type of panel 6 needs to be powered up, a corresponding type and a corresponding number of probes 1 are firstly found, and accordingly, a first connector 2 (possibly one or more) electrically connected with the probes 1 and a second connector 3 (possibly one or more) corresponding to the first connector 2 are found, and then the corresponding first connector 2 is directly and movably connected with the corresponding second connector 3, namely, the corresponding first conductive core 2 is electrically connected with the corresponding second conductive core 3, so that the conductive connection of the power module 5 and the probe combination can be realized very quickly by using the wiring structure provided by the application.

The application provides a radiation slit vertical alignment adds electric system, at least one first joint has been set up, with first joint activity conductive connection and the second that keeps all the time with power module conductive connection connect and with first joint conductive connection's at least one probe, the relation of connection of the first conductive core on the first joint and probe has been fixed, the relation of connection of the second conductive core on the second joint and power module, thus, second joint and power module keep connecting, first joint and probe keep connecting, and then two fixed modules have been formed, during the use, couple together this first joint and second joint, realize power module and plug-and-play of different specification probes, this kind of mode with two fixed module activity conductive connections is swift convenient, can solve the contact failure and connect inconvenient problem.

Further, the power module 5 further includes at least one sub-module (e.g., one or more of a dc output module, an ac output module, etc.), and each sub-module is provided with at least one output bit (e.g., one or more of a high level output bit, a low level output bit, a ground output bit, etc.).

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (7)

1. A wiring structure for conductively connecting a power module and a panel of a radial slit vertical alignment powered system, comprising:

at least one probe for electrically conductive connection with the panel;

the first joint comprises a first joint body and at least one first conductive core arranged at one end of the first joint body, each probe is in conductive connection with each first conductive core, and in the whole using process, each first conductive core on the first joint is in conductive connection with each corresponding probe all the time, so that the connection relation between each first conductive core and each probe is fixed, and a fixed module is further formed;

the second joint comprises a second joint body and at least one second conductive core arranged at one end of the second joint body, and each second conductive core is respectively in movable conductive connection with each first conductive core; and

the connecting wire is connected between the second connector and the power supply module and used for enabling each output position of the power supply module to be respectively in conductive connection with each second conductive core;

one end of the first joint body is provided with a first open slot, the first joint further comprises at least one plug part which is arranged in the first open slot and connected with the other end of the first joint body, one end of the second joint is provided with a second open slot, and the second joint further comprises at least one jack which is arranged at the bottom of the second open slot and connected with the second joint body, is used for being in plug-in fit with the plug part and is in conductive connection with the plug part; each plug part is in conductive connection with each first conductive core, and each jack is in conductive connection with each second conductive core;

the periphery of the annular wall of the second open slot of the second joint is provided with a convex part for guiding the plug part to be in splicing fit with the jack, and the annular wall of the first open slot of the first joint is provided with a slot in splicing fit with the convex part;

the outer periphery of the first joint is provided with an external thread, the outer periphery of the second joint is sleeved with a connecting ring, and the inner ring of the connecting ring is provided with an internal thread which is in threaded connection with the external thread;

the go-between includes the go-between body, and the one end of go-between body still is equipped with the ring board portion that can with the convex part butt, and the ring board portion is equipped with the opening that can cup joint at the second and connect the body periphery to the go-between can connect body axial displacement relatively the second.

2. The wiring structure of claim 1 wherein said first connector is a military connector.

3. The wiring structure according to claim 1 or 2, wherein the connecting wire and the second contact are of an injection-molded integral structure.

4. The wiring structure according to claim 1 or 2, wherein said connection lead is connected to said power module by a threaded tightening member.

5. The wiring structure of claim 1 or 2, wherein said first connector and said probe are of an integrally formed construction.

6. A wiring structure for conductively connecting a power module and a panel of a radial slit vertical alignment powered system, comprising:

at least one probe for electrically conductive connection with the panel;

the first joint and the probes are of an integrally formed structure, the first joint comprises a first joint body, at least one first conductive core arranged at one end of the first joint body and at least one plug part connected with the other end of the first joint body, each first conductive core is in conductive connection with each plug part and each probe respectively, in the whole using process, each first conductive core on the first joint is in conductive connection with each corresponding probe respectively all the time, the connection relation between each first conductive core and each probe is fixed, a fixed module is further formed, and the plug part is arranged in a first open slot of the first joint body;

the second connector comprises a second connector body, at least one second conductive core arranged at one end of the second connector body and at least one jack which is in plug-in fit with the plug part and is in movable conductive connection with the plug part, the jacks are respectively in conductive connection with the second conductive cores, and the jacks are arranged at the bottom of a second open slot of the second connector body; and

the connecting wire and the second joint are of an injection molding integrated structure and are used for enabling the power module to be in conductive connection with the second joint, and in the whole using process, each second conductive core on the second joint is always connected with the power module, so that the connection relation between each second conductive core on the second joint and the power module is fixed, and a fixed module is further formed;

the second connector is provided with a convex part for guiding the plug part to be in splicing fit with the jack, the first connector is provided with a slot in splicing fit with the convex part, the convex part is arranged on the periphery of the annular wall of the second open slot, and the slot is arranged on the annular wall of the first open slot of the first connector;

the outer periphery of the first joint is provided with an external thread, the outer periphery of the second joint is sleeved with a connecting ring, and the inner ring of the connecting ring is provided with an internal thread which is in threaded connection with the external thread;

the go-between includes the go-between body, and the one end of go-between body still is equipped with the ring board portion that can with the convex part butt, and the ring board portion is equipped with the opening that can cup joint at the second and connect the body periphery to the go-between can connect body axial displacement relatively the second.

7. A radial slit vertical alignment energization system, comprising:

a power supply module; and

the wiring structure as claimed in any one of claims 1 to 6, for electrically conductively connecting said power supply module and a panel.

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