This application claims priority of Chinese Patent Application No. 201721358483.8, filed on Oct. 20, 2017, which is hereby incorporated by reference in its entirety.
The disclosure relates to the field of display technologies, and particularly to a display device.
The vehicle-carried display device is an important component on the urban bus and rail car, and has become the standard accessory of the public entertainment service system gradually. In the carriage of the rail car and especially train, in order to facilitate viewing by the passenger inside the car, the hoisting display structure is commonly used, that is, two displays are spliced into one piece at a certain angle back to back, their display pictures tilt down, and the displays are fixed to the car roof by the mounting bracket in entirety. Due to the hoisting special structure, the two displays need to be spliced at a certain angle, which proposes a higher requirement for the positioning and splicing precision of the displays.
The disclosure provides the following technical solutions.
A display device, comprising a first display screen and a second display screen arranged at a certain included angle back to back, wherein the first display screen is provided with a first front frame, the second display screen is provided with a second front frame, and a bottom border of the first front frame is spliced with a bottom border of the second front frame; wherein:
the bottom border of the first front frame is provided with a first positioning boss, the bottom border of the second front frame is provided with a first positioning stud, and the first positioning boss matches with the first positioning stud by plugging.
Optionally, the first positioning boss is provided inside the first front frame; and the first positioning stud is provided inside the second front frame.
Optionally, the first positioning stud is a cuboid and includes a top surface far from a bottom border surface of the second front frame, two first lateral surfaces arranged along an extending direction of the bottom border of the second front frame, and a second lateral surface close to a bottom side of the bottom border of the second front frame.
Optionally, the first positioning boss includes an inner blocking surface for correspondingly contacting a top surface of the first positioning stud, a lateral blocking surface for correspondingly contacting one of first lateral surfaces of the first positioning stud, and a lap joint surface for correspondingly contacting a second lateral surface of the first positioning stud.
Optionally, the bottom border of the second front frame is provided with a second positioning boss, the bottom border of the first front frame is provided with a second positioning stud, and the second positioning boss matches with the second positioning stud by plugging.
Optionally, the first positioning boss and the second positioning stud are arranged symmetrically with respect to a center line of the first front frame; and the second positioning boss and the first positioning stud are arranged symmetrically with respect to a center line of the second front frame.
Optionally, the structures of the first and second front frames are same.
Optionally, the first and second front frames are molded by a mould.
Optionally, the display device further includes a triangular fixed mount which is located between the first and second display screens and fixedly connected with the first and second display screens respectively.
Optionally, the triangular fixed mount is provided with a first fixed edge parallel to a back panel of the first display screen and a second fixed edge parallel to a back panel of the second display screen; the back panel of the first display screen is fixed to the first fixed edge by a fastener; and the back panel of the second display screen is fixed to the second fixed edge by a fastener.
At present, the splicing of the existing hoisting displays is mainly implemented by the triangular fixed mount between two displays, that is, the two displays are fixed on two fixed edges of the triangular fixed mount respectively. Since the two fixed edges of the triangular fixed mount has a certain angle, the size error appears very easily during the machining process, to thereby cause the phenomenon of splicing misalignment of the two displays fixed thereon in the up and down or left and right directions. Thus the existing hoisting display has poorer splicing precision and low splicing efficiency.
The technical solutions in the embodiments of the disclosure will be described clearly and completely below in combination with the accompanying drawings in the embodiments of the disclosure. Obviously the described embodiments are only a part of the embodiments of the disclosure but not all the embodiments. Based upon the embodiments of the disclosure, all of other embodiments obtained by those ordinary skilled in the art without creative work pertain to the protection scope of the disclosure.
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The bottom border 21 of the first front frame 11 is provided with a first positioning boss 30, the bottom border 22 of the second front frame 12 is provided with a first positioning stud 40, and the first positioning boss 30 matches with the first positioning stud 40 by plugging.
For the above-mentioned display device, when the two display screens are spliced, the first positioning stud 40 can firstly be plugged into the first positioning boss 30 to thereby implement the mutual limit of the two front frames and avoid the occurrence of the misalignment of the two display screens, and then the two display screens are fastened fixedly to the triangular fixed mount 5; thus the splicing and positioning precision of two display screen structures can be increased greatly to ensure the product appearance, while the continuous alignment and adjustment actions due to the misalignment of the two display screens in the installation process can also be avoided and then the installation efficiency of the product can be increased greatly.
In conclusion, the above-mentioned display device can increase the splicing and positioning precision and installation efficiency of the hoisting display device effectively.
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Optionally, the structure sizes of the positioning boss 3 and the positioning stud 4 need to meet the event that all the surfaces of the first front frame 11 and the second front frame 12 can be contacted and matched correspondingly after the splicing and alignment of the first front frame 11 and the second front frame 12; and in a practical application, a certain matching tolerance is allowed, for example, there is a gap of about 0.5 mm.
Optionally, the inner blocking surface 31, the lateral blocking surface 32 and the lap joint surface 33 can be connected to be a semi-enclosed structure. Of course, they can also be independent from each other and not connected.
Optionally, the heights of the lateral blocking surface 32 and the inner blocking surface 31 with respect to the bottom border 21 can be same, where the height can be about 4 mm to 5 mm; the lap joint surface 33 can be perpendicular to the inner blocking surface 31, and optionally, there can be a certain included angle between the surfaces of the lap joint surface 33 and the bottom border 21, and optionally, the width of the lap joint surface 33 can be about 5 mm to 6 mm.
For the display device provided by the embodiments of the disclosure, when the first and second display screens are installed, firstly the first positioning stud 40 on the second front frame 12 is plugged into the first positioning boss 30 on the first front frame 11 and optionally the second lateral surface 43 of the first positioning stud 40 is jointed with the lap joint surface 33 of the first positioning boss 30, and subsequently two front frames are pushed to make the first positioning stud 40 slide along the first positioning boss 30, until the top surface 41 of the first positioning stud 40 contacts with the inner blocking surface 31 of the first positioning boss 30 while the first lateral surface 42 of the first positioning stud 40 contacts with the lateral blocking surface 32 of the first positioning boss 30, to thereby implement the plugging of the first positioning stud 40 and the first positioning boss 30, i.e., accomplish the accurate splicing. At this time, since the first positioning stud 40 and the first positioning boss 30 limit each other, the misalignment of the first front frame 11 and the second front frame 12 in the up and down, left and right, and front and rear directions can be prevented to thereby ensure the splicing precision of the display screens, and the continuous adjustment actions due to the misalignment of the display screens in the installation process can be avoided to increase the installation efficiency greatly.
Furthermore, in the display device provided by the embodiment, since the positioning boss 3 and the positioning stud 4 have no reversing structure and the draft direction thereof is same as the draft direction of the front frame structure, the mould opening difficulty is lower, and thus it is very beneficial to the molding preparation of the front frame.
On basis of all the above embodiments, the front frames of two display screens can further be provided with a second pair of positioning boss and positioning stud structure, so as to make the plugging and positioning between the two display screens more accurate and stable.
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Of course, the number of the positioning bosses 3 and the positioning studs 4 on each front frame can be increased and decreased according to the actual length size of the front frame of the display screen. At this time, as shown in
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Evidently those skilled in the art can make various modifications and variations to the embodiments of the disclosure without departing from the spirit and scope of the disclosure. Thus the disclosure is also intended to encompass these modifications and variations to the disclosure as long as these modifications and variations come into the scope of the claims of the disclosure and their equivalents.
Number | Date | Country | Kind |
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201721358483.8 | Oct 2017 | CN | national |