Patent Application
20190326717
The present application claims priority to Chinese Patent Application No. 201810368288.6, filed on Apr. 23, 2018, the disclosure of which is hereby incorporated by reference in its entirety.
The present disclosure relates to the field of display technology, particularly to a wiring harness device and a display device.
With the advancement of technology, in some display scenarios, variable display such as foldable display for flexible display screens, expandable display for LCD (Liquid Crystal Display) etc. has appeared, which can change the size of the display devices depending on the needs of scene for users.
According to an aspect of the present disclosure, there is provided a wiring harness device applied to a wire connected between two interfaces, comprising: a wiring harness structure having a first wire inlet and a first wire outlet, the wire entering the wiring harness structure through the first wire inlet and exiting the wiring harness structure through the first wire outlet, the wiring harness structure is configured to store and provide the wire, and control the wire to be in a relaxed state after stretching the wire to provide the wiring.
In some embodiments according to the present disclosure, the wiring harness device further comprises: an interface protection structure disposed between the interface and the wiring harness structure, wherein the interface protection structure has a second wire inlet and a second wire outlet, the wire enters the interface protection structure through the second wire inlet and exits the interface protection structure through the second wire outlet, the interface protection structure is configured to limit a stretched length of the wire between the second wire inlet and the second wire outlet.
In some embodiments according to the present disclosure, the interface protection structure comprises: an elastic member having the second wire inlet and an intermediate wire outlet that allow the wire to pass through, wherein the wire is fixedly connected to the elastic member at the positions of the second wire inlet and the intermediate wire outlet, the wire between the second wire inlet and the intermediate wire outlet is in a bent state when the elastic member is in a natural state, and when the elastic member is in a maximum tension state, the wire between the second wire inlet and the intermediate wire outlet is in a straight state; and a limiting member having an intermediate wire inlet and the second wire outlet that allow the wire to pass through, and configured to limit a stretched length of the elastic member.
In some embodiments according to the present disclosure, the wiring harness structure comprises: a first housing, a second housing, a rotating wheel, a first elastic member, a second elastic member, a first button structure, and a second button structure; wherein, the first housing has the first wire inlet and the first wire outlet; the wire is wound on the rotating wheel; the first button structure is disposed on the first housing and configured to control rotation of the rotating wheel in a first direction; the second button structure is disposed on the second housing and connected to the rotating wheel, configured to control rotation of the rotating wheel in a second direction, wherein the second direction is opposite to the first direction; the rotating wheel is disposed between the first housing and the second housing, and is coupled to the second elastic member at a side close to the bottom of the first housing; the rotating wheel is configured to rotate in a second direction when the wire is stretched such that the second elastic member is in a compressed state, and after the stretch of the wire, the rotating wheel continues to rotate in the second direction by an angle under the control of the second button structure and is fixed by the first button structure so that the wire is in a relaxed state; when the wire is stored, the fixing of the rotating wheel is canceled by the first button structure so that the rotating wheel rotates in the first direction by the restoring force of the second elastic member to store the wire.
In some embodiments according to the present disclosure, the rotating wheel comprises a first top structure, a turntable, an isolating cover, an inner structure, and a snap structure; the first top structure is coupled to the second button structure; the first top structure has a plurality of first guiding rods on an outer side surface of the first top structure; a slot is provided on the turntable in its radial direction, the wire being wound between the turntable and the isolating cover, and between the turntable and the first guiding rods through the slot respectively; the inner structure and the snap structure are both located on a side of the isolating cover facing away from the turntable, and a central position of the second elastic member is fixed between the inner structure and the snap structure.
In some embodiments according to the present disclosure, the first housing comprises a first body, an assembly structure, a sleeve structure, and two limiting slots; the sleeve structure and the two limiting slots are fixed on the bottom of the first body, the first elastic member and the inner structure are both disposed in the sleeve structure, and the second elastic member is fixed between the two limiting slots; the first body has the first wire inlet, the first wire outlet, and a button opening for mounting the first button structure, the first button structure being assembled in the assembly structure and protruding from the button opening.
In some embodiments according to the present disclosure, the first wire inlet and the first wire outlet are disposed at different depths of the first body.
In some embodiments according to the present disclosure, the second elastic member is a coil spring, and two ends of the coil spring are fixed in the two limiting slots respectively.
In some embodiments according to the present disclosure, the first button structure comprises a button, a fulcrum, and a limiting portion; the fulcrum is located in the assembly structure, the button protrudes from the button opening, and the limiting portion is located in the first body, wherein one end of the fulcrum is connected to the button, and the other end of the fulcrum is connected to the limiting portion, the limiting portion has a first end; the turntable is provided with a plurality of teeth; the button is configured to act on the fulcrum to move the limiting portion, so that the first end is engaged with the teeth to limit rotation of the rotating wheel in the first direction.
In some embodiments according to the present disclosure, the second housing has a through hole; an inner wall of the through hole is provided with a first guiding groove, a second guiding groove and an inclined portion, the depth of the first guiding groove is greater than the depth of the second guiding groove;
the second button structure comprises a second body and a second top structure, wherein the second body has a plurality of second guiding rods on an outer side surface of the second body, an end of the second body close to the first top structure is connected to the second top structure, and an end surface of the second top structure is beveled; the first top structure is nested within the second body; the second button structure is configured to, when in a pressed state, move the second guiding rod on the second body in a third direction along the first guiding slot and the second guiding slot, push the first top structure to drive the first guiding rod to move in the third direction along the first guiding groove to compress the first elastic member; and when the pressing is canceled, deflect the first guiding rod by the first elastic member in cooperation with the second top structure and the inclined portion, to control the rotating wheel to continue rotating in the second direction.
In some embodiments according to the present disclosure, the first elastic member is a spring.
According to another aspect of the present disclosure, there is provided a display device comprising the wiring harness device as described above.
In order to make the above objects, features, and advantages of the present disclosure more comprehensible, the present disclosure will be further described in detail with reference to the accompanying drawings and specific embodiments.
In changing a display mode of a display device, the layout relationship between circuit boards in the display device also changes, such as the position of a signal board to a processing board may change. For example, a distance between the signal board and the processing board increases in the case that the display device is stretched, and is shortened in the case that the display device is contracted.
When the display device is contracted, a wire between the two boards is liable to be tangled due to the shortened distance between the two circuit boards.
According to some embodiments of the present disclosure, a wiring harness device and a display device are provided to solve the problem that a wire is liable to be tangled when the display mode of the display device is changed.
A wiring harness device applied to a wire 1 connected between two interfaces (A1 and B1 in
It should be noted that the interface A2 refers to an interface to which the interface A1 of the wire 1 is correspondingly connected and is located in a device A to be connected to the wire 1; the interface B2 refers to an interface to which the interface B1 of the wire 1 is connected and is located in a device B which needs to be connected with the device A through the wire 1.
When the wire 1 is not stretched, an excess portion of the wire is wound in the wiring harness structure 2, and when the wire 1 needs to be stretched, the portion of the wire 1 wound in the wiring harness structure 2 is stretched out to provide a wire of a desired length. After the wire 1 is stretched, the wire 1 is controlled to be in a relaxed state to ensure the service life of the wire; when the excess portion of the wire 1 is not required, it can be drawn back and stored by the wiring harness structure 2, so that the wire will not be tangled.
In this embodiment of the present disclosure, the wiring harness device further comprises an interface protection structure 3 having a second wire inlet D1 and a second wire outlet D2. The wire 1 enters the interface protection structure 3 through the second wire inlet D1 and exits the interface protection structure 3 through the second wire outlet D2. The interface protection structure 3 is configured to limit a stretched length of the wire 1 between the second wire inlet D1 and the second wire outlet D2.
When the wire 1 needs to be stretched, the stretched length of the wire 1 between the second wire inlet D1 and the second wire outlet D2 is restricted by the interface protection structure 3, so that the wire 1 between the second wire inlet D1 and the second wire outlet D2 cannot be excessively stretched, preventing the interface of the wire 1 from being disconnected from the correspondingly connected interface due to an excessive stretch of the wire 1, for example, preventing the interface A1 from disconnected from the interface A2.
It should be noted that the interface protection structure 3 can be disposed at a position close to the device A. In this case, the wiring harness structure 2 is disposed between the device B and the interface protection structure 3; the interface protection structure 3 can also be disposed a position close to the device B. In this case, the wiring harness structure 2 is disposed between the device A and the interface protection structure 3. Certainly, it is also possible to dispose interface protection structures 3 at both ends close to the device A and the device B respectively. In this case, the wiring harness structure 2 is disposed between two interface protection structures 3; the specific positional relationship between the interface protection structure 3 and the wiring harness structure 2 is determined according to actual applications, which is not limited in the embodiment of the present disclosure.
In this embodiment of the present disclosure, the interface protection structure 3 includes a limiting member 31 and an elastic member 32; the elastic member 32 has a second wire inlet D1 and an intermediate wire outlet E1 that allow the wire 1 to pass through. At the positions of the second wire inlet D1 and the intermediate wire outlet E1, the wire 1 is fixedly connected to the elastic member 32. In a natural state of the elastic member 32 (i.e., in a state where no external force is applied), the wire 1 between the second wire inlet D1 and the intermediate wire outlet E1 is in a bent state. In a maximum tension state of the elastic member 32, the wire 1 between the second wire inlet D1 and the intermediate wire outlet E1 is in a straight state. The limiting member 31 has an intermediate wire inlet E2 and the second wire outlet D2 that allow the wire 1 to pass through. The intermediate wire inlet E2 is close to the intermediate wire outlet E1. The limiting member 31 may be, for example, fixed on the housing of the wiring harness device, and is configured to limit a stretched length of the elastic member 32.
As shown in
In this embodiment of the present disclosure, the wiring harness structure 2 comprises: a first housing 21, a second housing 22, a rotating wheel 23, a first elastic member 24, a second elastic member 25 a first button structure 26, and a second button structure 27; wherein, the first housing 21 has a first wire inlet C1 and a first wire outlet C2; the wire 1 passing through the first wire inlet C1, winding on the rotating wheel 23, and extending through the first wire outlet C2.
The first button structure 26 is disposed on the first housing 21 and configured to control rotation of the rotating wheel 23 in a first direction. The second button structure 27 is disposed on the second housing 22 and connected to the rotating wheel 23, and is configured to control rotation of the rotating wheel 23 in a second direction which is opposite to the first direction.
The rotating wheel 23 is disposed between the first housing 21 and the second housing 22, and one end of the rotating wheel 23 that is close to the bottom of the first housing 21 is connected to the second elastic member 25. The rotating wheel is configured to rotate in a second direction when the wire 1 is stretched to deform the second elastic member 25 (for example, in a compressed state or a stretched state), and after the stretch of the wire 1, continue rotating in the second direction under the control of the second button structure 27, so that the wire 1 is in a relaxed state (i.e., in a state free from external force). The rotating wheel 23 rotates in the first direction to draw back and store the wire 1 by a restoring force of the second elastic member 25 under the control of the first button structure 26 when the wire 1 is drawn hack.
It should be noted that
Since the wire 1 is wound on the rotating wheel 23, when the wire 1 is stretched, the rotating wheel 23 is rotated in the second direction to compress the second elastic member 25; when the wire 1 is no longer stretched, since the resilience effect of the second elastic member 25 is always exerted on the wire 1, at this point, the second button structure 27 is pressed to control the rotating wheel 23 to continue rotating in the second direction by an angle, thereby relaxing the wire 1 so that it is no longer stressed. The wire 1 is in a relaxed state to ensure the service life of the wire 1. Then, the first button structure 26 is toggled to prevent rotation of the rotating wheel 23 in the first direction by the restoring force of the second elastic member 25. At this point, since the wire 1 is in a relaxed state, the elastic member 32 between the second wire inlet D1 and the intermediate wire outlet E1 also retracts, and eventually the wire 1 in the entire wiring harness device is no longer stressed.
When it is required to draw back the wire 1, the first button structure 26 is pressed, the rotating wheel 23 is rotated in the first direction by the restoring force of the second elastic member 25, and the wire 1 is drawn back and re-wound on the rotating wheel 23. After the completion of the entire draw-back process, the wire 1 is unstressed to protect the interface A1 of the wire 1 from being disconnected from the interface A2 due to stress, and protect the interface B1 of the wire 1 from being disconnected from the interface B2 due to stress. During the stretching and draw-back processes of the wire 1, the interfaces A1 and B1 will not loose or fall off from the corresponding interfaces A2 and B2.
It should be noted that in a case where the first direction is the clockwise direction, the second direction is the counterclockwise direction, the rotating wheel 23 rotates in the counterclockwise direction when the wire is stretched, and rotates in the clockwise direction when the wire 1 is drawn back. In a case where the first direction is the counterclockwise direction and the second direction is the clockwise direction, the rotating wheel 23 rotates in the clockwise direction when the wire is stretched, and rotates in the counterclockwise direction when the wire 1 is drawn back. The specific directions of the first direction and the second direction can be determined according to the actual condition of the wiring harness structure 2 and the wire 1.
In the embodiment of the present disclosure, as shown in
By fixing the central position of the second elastic member 25 between the inner structure 234 and the snap structure 235, the second elastic member 25 can be compressed when the rotating wheel is rotated in the second direction.
Wherein, a circular hole is provided at a central position of the turntable 232, the first top structure 231 penetrates the turntable 232 through the circular hole and is fixed on the isolating cover 233; the wire 1 is inserted through the first wire inlet C1 of the first housing 21, and is wound between the turntable 232 and the isolating cover 233; the wire 1 then goes through the slot 2321 on the turntable 232 and is wound between the turntable 232 and the first guiding rods 236, and extends out of the first wire outlet C2 of the first housing 21.
It should be noted that in some embodiments of the present disclosure, the inner structure 234 may be a columnar structure, the snap structure 235 may be a semi-circular protrusion structure, and the rotating wheel 23 may be fixed to the second elastic member 25 by the inner structure 234 and snap structure 235.
A plurality of first guiding rods 236 are provided on the outer side surface of the first top structure 231. The top end P of the first guiding rod 236 is beveled, and the top end P refers to an end of the first guiding rod 236 away from the turntable 232.
In this embodiment of the present disclosure, the first housing 21 comprises a first body 211, an assembly structure 212, a sleeve structure 213, and two limiting slots 214. The sleeve structure 213 and the two limiting slots 214 are fixed on the bottom of the first body 211, the first elastic member 24 and the inner structure 234 are both disposed within the sleeve structure 213, and the second elastic member 25 is fixed between the two limiting slots 214. The first body 211 has the first wire inlet C1, the first wire outlet C2, and a button opening 215 for mounting the first button structure 26. The first button structure 26 is assembled in the assembly structure 212 and protruds from the button opening 215.
Wherein, the first wire inlet C1 and the first wire outlet C2 are staggered in the horizontal direction to facilitate the two-layer winding of the wire 1 on the rotating wheel 23, for example, the depth of the first wire inlet C1 can be set to be greater than the depth of the first wire outlet C2. The depth refers to a distance from the upper surface of the first body 211 to the surface of the first wire inlet C1 or the surface of the first wire outlet C2.
It should be noted that the sleeve structure 213 is located at a central position between the two limiting slots 214.
The second elastic member 25 is, for example, a coil spring, two ends of the coil spring being fixed in the two limiting slots 214 respectively.
The coil spring is fixed to the first housing 23 by inserting the two ends 252 of the coil spring into the two limiting slots 214 respectively. In this situation, the central position 251 of the coil spring surrounds the sleeve structure 213.
As shown in
In this embodiment of the present disclosure, the first button structure 26 comprises a button 261, a fulcrum 262, and a limiting portion 263. The fulcrum 262 is located in the assembly structure 212, the button 261 protrudes from the button opening 215, and the limiting portion 263 is located in the first body 211. One end of the fulcrum 262 is connected to the button 261, and the other end of the fulcrum 262 is connected to the limiting portion 263. The limiting portion has a first end 2631.
As shown in
It should be noted that this arrangement in which one end of the fulcrum 262 is connected to the button 261, and the other end is connected to the limiting portion 263 is only used to illustrate the specific positional relationship of the fulcrum 262, the button 261 and the limiting portion 263. In practical applications, the first button structure 26 may be an integral structure.
The second housing 22 has a through hole 221; an inner wall of the through hole 221 is provided with a first guiding groove 2211, a second guiding groove 2212 and an inclined portion 2213. The depth of the First guiding groove 2211 is greater than the depth of the second guiding groove 2212.
As shown in
The first top structure 231 is nested in the second body 271. The second button structure 27 is configured to, in a pressed state, move the second guiding rods 273 on the second body 271 in a third direction along the first guiding groove 2211 and the second guiding groove 2212, push the first top structure 231 to drive the first guiding rods 236 to move in the third direction along the first guiding groove 2211 to compress the first elastic member 24; and when the pressing is canceled, deflect the first guiding rods 236 by the first elastic member 24 in cooperation with the second top structure 272 and the inclined portion 2213, to control the rotating wheel 23 to continue rotating in the second direction.
The first top structure 231 is nested in the second body 271, and the first top structure 231 and the second body 271 together protrude from the through hole 221 of the second housing 22. In this situation, the second guide rods 273 on the second body 271 also enter into the through hole 221. Wherein, the first guiding rod 236 can move up and down along the first guiding groove 2211, while the second guiding rod 273 can move up and down along the first guiding groove 2211 or move up and down along the second guiding groove 2212.
It should be noted that when the entire wiring harness structure 2 is in the vertical state, the third direction refers to the downward direction. For two adjacent second guiding rods 273 on the second body 271, when one of the second guiding rod 273 moves up and down along the first guiding groove 2211, the other second guiding rod 273 moves up and down along the second guiding groove 2212.
In a practical application, the first elastic member 24 is first inserted into the sleeve structure 213 of the first housing 21, with the two ends 252 of the second elastic member 25 fixed in the two limiting slots 214 respectively. Then, the inner structure 234 of the rotating wheel 23 is placed into the sleeve structure 213 of the first housing 21. In this situation, the central position of the second elastic member 25 is fixed between the inner structure 234 and the snap structure 235. Then, the wire 1 is inserted through the first wire inlet C1 of the first housing 21, and is wound between the turntable 232 and the isolating cover 233. The wire 1 is then goes through the slot 2321 on the turntable 232 and is wound between the turntable 232 and the first guiding rods 236, and extends out from the first wire outlet C2 of the first housing 21. Next, the button 261 of the first button structure 26 is protruded from the button opening 215, and the fulcrum 262 is inserted into the assembly structure 212. The first top structure 231 is then nested in the second body 271. The first top structure 231 and the second body 271 protrude from the through hole 221 of the second housing 22. Finally, the first housing 21 is engaged to the second housing 22, and the assembled wiring harness structure 2 is fixed at a suitable position between the device A and the device B for wiring harness.
The working process of the entire wiring harness device will be specifically described below.
When it is required to convert a display mode of a display device, the display device is expanded by an external force. In this case, the wire 1 is stretched and lengthened. First, the wire 1 is forced to stretch the portion of the wire 1 between the second wire inlet D1 and the intermediate wire outlet E1, as well as the elastic member 32, toward the limiting member 31. Before the portion of the wire 1 between the second wire inlet D1 and the intermediate wire outlet E1 is straightened, the limiting member 31 blocks the elastic member 32, so that the interface A1 will not be subjected to an excessive pulling force. At this point, the wire 1 is continually stretched to rotate the rotating wheel 23 in the wiring harness structure 2 in the second direction and compress the second elastic member 25. When the display mode conversion is completed, the wire 1 is no longer stretched. Since the resilience effect of the second elastic member 25 is always exerted on the wire 1, at this point, the second button structure 27 is pressed, the second button structure 27 and the rotating wheel 23 move together in the third direction and compress the first elastic member 24. At this point, the second guiding rod 273 on the second body 271 moves in the third direction along the first guiding groove 2211 and the second guiding groove 2212, pushes the first top structure 231 to move the first guiding rod 236 in the third direction along the first guiding groove 2211. When the first guiding rod 236 of the rotating wheel 23 is pushed out of the first guiding groove 2211, the pressing of the second button structure 27 is canceled. Since the top end P of the first guiding rod 236 is beveled, the end surface of the second top structure 272 is also beveled, and the inclined portion 2213 in the through hole 221 is a structure having a slope, the first guiding rod 236 is deflected by an angle under the action of the resilience of the first elastic member 24 in cooperation with the second top structure 272 and the inclined portion 2213. When the first guiding rod 236 is deflected, the rotating wheel 23 is driven to continue rotating in the second direction.
As shown in
It should be noted that when the first guiding rod 236 is deflected by pressing the second button structure 27, the second top structure 272 and the second guiding rod 273 on the second button structure 27 only move up and down without any deflection.
When the rotating wheel 23 is rotated in the second direction to set the wire 1 in the relaxed state, the button 261 of the first button structure 26 is toggled, and the limiting portion 263 is moved by the fulcrum 262, so that the first end 2631 on the limiting portion 263 engages with the teeth 2322 on the turntable 232 to prevent rotation of the rotating wheel 23 in the first direction by the restoring force of the second elastic member 25. At this point, since the wire is in a relaxed state, the elastic member 32 between the second wire inlet D1 and the intermediate, wire outlet E1 also retracts, and eventually the wire 1 in the entire wiring harness device is unstressed.
When it is required to reset the display mode of the display device, that is, when it is required to draw back the wire 1 the button 261 of the first button structure 26 is pressed, and the limiting portion 263 is moved by the fulcrum 262, so that the first end 2631 of the limiting portion 263 is disengaged from the teeth 2322 on the turntable 232, and the rotating wheel 23 is rotated in the first direction by the restoring force of the second elastic member 25, the wire 1 is drawn back and re-wound on the rotating wheel 23. After this process is completed, the wire 1 is also unstressed.
In this embodiment of the present disclosure, a wiring harness device is provided between two interfaces. The wiring harness device includes a wiring harness structure, the wire between the two interfaces passes through the first wire inlet and the first wire outlet of the wiring harness structure. The wire between the two interfaces is drawn back using the wiring harness structure. After the wire is stretched, the wire is controlled to be in a relaxed state. When the display mode of the display device is switched, the length of the wire is adjusted as demanded by the wiring harness device. When the display device is contracted, the wire is drawn back by the wiring harness device, so that the wire between the two interfaces will not be tangled. When the display device is stretched, the wiring harness device provides a wire of a desired length, and after the wire is stretched, the wire is controlled to be in a relaxed state to ensure the service life of the wire.
An embodiment of the present disclosure also provides a display device including a display component G, a signal board B, a processing board A, a power board F, and the above-described wiring harness device.
For a detailed description of the wiring harness device, reference may be made to the foregoing description of the wiring harness device, which will not be repeated in this embodiment.
The signal board B is connected to the display component G. The processing board A performs system conversion on pictures to be displayed, and the power board F supplies power for the display device. The display component G, the signal board B, the processing board A, and the power board F are all connected with each other using interfaces thereof and wires 1. In a display device with variable display modes, the positions of the signal board B, the processing board A, and the power board F relative to the frame of the display component G are constant, however, the wire between the signal board B and the processing board A, the wire between the processing board A and the power board F, the wire between the signal board B and the power board F, and the frame of the display component G are variable.
Therefore, wiring harness devices are disposed between the signal board B and the processing board A, between the processing board A and the power board F, and between the signal board B and the power board F, and wires 1 are connected between the signal board B and the processing board A, between the processing board A and the power board F, and between the signal board B and the power board F using the wiring harness devices.
In the case where the wiring harness device includes the wiring harness structure 2, when the display mode of the display device changes, for example, when the display device is expanded (switching from the display mode on the right to the display mode on the left in
In the case where the wiring harness device includes the wiring harness structure 2 and the interface protection structure 3, when the display mode of the display device changes, for example, when the display device is expanded (switching from the display mode on the right to the display mode on the left in
In this embodiment of the present disclosure, the display device includes a display component, a signal board, a processing board, a power board, and a wiring harness device. A wiring harness device is provided between two interfaces. The wiring harness device includes a wiring harness structure. A wire between the two interfaces passes through the first wire inlet and the first wire outlet of the wiring harness structure. The wire between the two interfaces can be drawn back by the wiring harness structure. After the wire is stretched, the wire is controlled to be in a relaxed state. When the display mode of the display device is switched, the length of the wire is adjusted as demanded by the wiring harness device. When the display device is contracted, the wire is drawn back by the wiring harness device, so that the wire between the two interfaces will not be tangled. When the display device is stretched, the wiring harness device provides a wire of a desired length, and after the wire is stretched, the wire is controlled to be in a relaxed state to ensure the service life of the wire.
Each embodiment in this description is described in a progressive manner and focuses on differences from other embodiments. For the same or similar parts of the various embodiment, reference can be made to each other.
Note that, in this description, the use of relational terms, if any, such as first and second and the like are used solely to distinguish one from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Further, terms “include”, “comprise” or their any other variations are intended to encompass non-exclusive composition, so that a process, method, product or device comprising a series of factors may comprise not only these factors, but also other factors that are not listed explicitly, or factors intrinsic to this process, method, product or device. Without limitation, a factor defined by wording “comprise one . . . ” does not exclude the existence of other same factors in a process, method, product or device comprising such factor.
The above is a detailed description of the wiring harness device and display device provided in the present disclosure. Specific examples are applied to elaborate the principles and embodiments of the present disclosure, and the aforementioned descriptions of the embodiments are only used to assist in understanding the method of the present disclosure and its core ideas. For those of ordinary skill in the art, according to the concept of the present disclosure, variations can be made to the embodiments and application scope of the present disclosure. To sum up, the contents of the present disclosure cannot be understood as limitations to the present disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 201810368288.6 | Apr 2018 | CN | national |
