CN218355431U - Diversified developments display device - Google Patents
Diversified developments display device Download PDFInfo
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- CN218355431U CN218355431U CN202222719566.2U CN202222719566U CN218355431U CN 218355431 U CN218355431 U CN 218355431U CN 202222719566 U CN202222719566 U CN 202222719566U CN 218355431 U CN218355431 U CN 218355431U
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Abstract
The utility model relates to an exhibition display device technical field to the problem that present diversified developments display device structure is complicated, the dismouting is unchangeable, has designed a diversified developments display device, and the device is including bearing mechanism, slewing mechanism, main track and actuating mechanism, be equipped with the guide track on the bearing mechanism, actuating mechanism can drive the movable block and follow the reciprocal slip of guide track to the fluted disc that connects with slewing mechanism and join in marriage with the slewing mechanism rotates along the main track meshing, thereby drives the rotary disk and rotates, and then drives the show line of eccentric setting on the rotary disk and twists reverse and the ascending removal in the vertical direction, thereby drives the show thing of connecting at show line free end and rotates and reciprocate, realizes diversified developments show. The display line is an invisible magic line, and can also realize similar 'suspension display' effect. Diversified developments display device simple structure, simple to operate when the show place needs to be changed.
Description
Technical Field
The application relates to the technical field of exhibition display devices, and particularly discloses a multi-directional dynamic display device.
Background
Present display device exhibition show thing is mostly static show, and the show thing can not present dynamic display effect in present display device, and the display effect is not good enough, in order to make the more vivid free show of show thing, needs the display device of a dynamic show.
The existing dynamic display device generally comprises a display stand, a base arranged on the display stand, a support frame arranged on the base and the like, and dynamic display is realized under the driving of the support frame, the structure is complex, and the display field is inconvenient to disassemble and assemble when replaced.
Disclosure of Invention
In view of the above-mentioned defects or shortcomings in the prior art, the present application aims to provide a multi-directional dynamic display device capable of achieving a floating display effect and having a simple structure.
The multi-azimuth dynamic display device comprises:
the bearing mechanism extends along a first direction; a guide track is arranged on the bearing mechanism along a first direction; the guide track is provided with at least one moving block capable of sliding back and forth along a first direction.
The rotating mechanism is arranged on the moving block; the rotating mechanism is sequentially matched and connected with a fluted disc and a rotating disc along the direction far away from the moving block; the rotating disc is eccentrically provided with a display line which is an invisible magic line.
The main rail is arranged on one side of the bearing mechanism and extends along the first direction, and the main rail is meshed and connected with the fluted disc.
The driving mechanism is in transmission connection with the moving block; the driving mechanism is used for driving the moving block to slide back and forth along the first direction so as to drive the fluted disc to rotate along the meshing of the main track, so as to drive the rotating disc to rotate, further drive the display line to twist and move in the vertical direction, further drive the display object connected to the free end of the display line to rotate and move up and down, and realize multi-directional dynamic display.
Furthermore, at least two partition plates arranged along a first direction are arranged on the bearing mechanism, and the guide track is at least one guide rod fixedly arranged on the partition plates; the moving block is sleeved on the guide rod, and a moving block is arranged between every two adjacent partition plates; each moving block slides along the guide rod in a reciprocating mode, and the partition plate is used for limiting the sliding distance of the moving blocks.
Furthermore, a first guide shaft matched and connected with the driving mechanism is arranged at the first end of the bearing mechanism, and a second guide shaft is arranged at the second end of the bearing mechanism; a transmission belt is sleeved between the first guide shaft and the second guide shaft in a tensioning manner; a portion of the belt between the first and second guide shafts is parallel to a first direction; the moving block is matched and connected with a transmission belt close to one side of the rotating mechanism, and can move back and forth along the guide rod under the driving of the transmission belt.
Starting the driving mechanism, wherein the driving mechanism drives the first guide shaft to rotate so as to drive the driving belt and the moving block to slide along the guide rod in a reciprocating manner; thereby driving the fluted disc to rotate along the main track in a meshing way; thereby drive the rotary disk and rotate, and then drive the show line and twist reverse and move in the vertical direction, when the free end of magic line hoist and mount show thing, can drive show thing rotation and reciprocate.
Furthermore, a first groove is arranged around the first guide shaft, and a second groove is arranged around the second guide shaft; the driving belt is sleeved in the first groove and the second groove, and the first groove and the second groove are internally provided with a driving belt limiting device for limiting the driving belt so as to keep the stability of the driving belt.
Further, a bearing assembly is coupled between the rotation mechanism and the toothed disc, the bearing assembly being movable in a first direction and rotatable in a direction of its own axis perpendicular to the first direction.
Furthermore, an installation through hole is eccentrically arranged on the rotating disc, and the free end of the display line penetrates out of one side, far away from the fluted disc, of the installation through hole.
Furthermore, a first convex shaft is arranged on one side, close to the fluted disc, of the rotating disc, and the first convex shaft and the rotating disc are coaxial; the fixed end of the display line penetrates through the mounting through hole and is fixedly connected to the first protruding shaft. When the rotating disc rotates, the display wire can be wound on the first convex shaft.
The multi-orientation dynamic display apparatus further comprises a housing for housing all components except the display line.
The beneficial effect of this application includes:
to the problem that present diversified developments display device structure is complicated, the dismouting is unchangeable, designed a diversified developments display device, the device is including bearing mechanism, slewing mechanism, main track and actuating mechanism, be equipped with the guide track on bearing mechanism, actuating mechanism can drive the movable block and follow the guide track is reciprocal to slide to the fluted disc that drives and join in marriage with slewing mechanism rotates along the main track meshing, thereby drives the rotary disk and rotates, and then drives the show line of eccentric setting on the rotary disk and twist reverse and the ascending removal in the vertical direction, thereby drives the show thing of connecting at show line free end and rotates and reciprocate, realizes diversified developments show. The display line is an invisible magic line, and can also realize the effect similar to suspension display. The application diversified developments display device simple structure, simple to operate when the show place needs to be changed.
Drawings
Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:
FIG. 1 is a schematic diagram of an overall structure of a multi-directional dynamic display device;
FIG. 2 is a schematic diagram of an explosion structure of the multi-azimuth dynamic display device;
10, a bearing mechanism; 11. a guide rail; 12. a moving block; 13. a partition plate; 14. a guide bar; 15. a first bearing surface; 16. a second bearing surface; 20. a rotating mechanism; 21. a fluted disc; 22. rotating the disc; 23. displaying a line; 24. mounting a through hole; 25. a bearing spacer; 26. a first bearing fastener; 27. a bearing; 28. a second bearing fastener; 29. a bearing inner core boss; 30. a main track; 40. a drive mechanism; 41. a first guide shaft; 42. a transmission belt; 43. a first groove.
Detailed Description
The present application will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.
A multi-orientation dynamic display device comprising:
the carrying mechanism 10 shown in fig. 1, the carrying mechanism 10 extends in a first direction; a guide rail 11 is arranged on the bearing mechanism 10 along a first direction; the guide track 11 is provided with at least one moving block 12 capable of reciprocating sliding along a first direction.
Specifically, as shown in fig. 1, the bearing mechanism 10 includes a first bearing surface 15 at the bottom and a second bearing surface 16 perpendicular to the first bearing surface.
As shown in fig. 1, the rotating mechanism 20 is disposed on the moving block 12; the rotating mechanism 20 is sequentially matched and connected with a fluted disc 21 and a rotating disc 22 along the direction far away from the moving block 12; the rotating disc 22 is eccentrically provided with a display wire 23.
Specifically, as shown in fig. 1 and 2, the axis of the rotating mechanism 20 is perpendicular to the first direction, and the rotating mechanism 20 can rotate along its axis. The display line is an invisible magic line.
As shown in fig. 1 and 2, the main rail 30 is disposed on one side of the supporting mechanism 10 and extends along a first direction, and the main rail 30 is engaged with the toothed plate 21.
Specifically, as shown in fig. 1 and fig. 2, the main rail 30 is disposed on a side of the first bearing surface 15 away from the second bearing surface 16. The mating surfaces of the main rail 30 and the gear plate 31 are racks, and the gear plate 31 is engaged with the racks.
The driving mechanism 40 is in transmission connection with the moving block 12; the driving mechanism 40 is configured to drive the moving block 12 to move back and forth along the first direction, so as to drive the toothed disc 21 to rotate along the main track 30 in an engaged manner.
Specifically, in visual effect, the rotating edge of the fluted disc moves horizontally along the extending direction of the main track. Since the toothed disc can rotate, the rotating disc 22 can be driven to rotate, and the display wire 23 is eccentrically mounted on the rotating disc 22, the toothed disc can further drive the display wire 23 to twist. Meanwhile, the display line can move in the vertical direction along with the rotation of the fluted disc (and the rotating disc), and then the height of the display object in the vertical direction can be adjusted when the free end of the display line 23 suspends the display object.
As shown by arrow a in fig. 1, when the multi-directional dynamic display device is used to display the display object, after the driving mechanism is started, the display line arranged on the rotating disc drives the display object to move back and forth along the first direction, which is the dynamic display displayed in the first direction;
meanwhile, when the rotating disc rotates, the display line eccentrically arranged on the rotating disc can be dynamically displayed in a direction perpendicular to the first direction or in a vertical direction, as shown by an arrow B in FIG. 1;
meanwhile, during the rotation of the rotating disc, the display line is twisted, and when the display line is viewed in a top-down direction, the display object can be found to rotate, namely, further dynamic display is realized, as shown by an arrow C in fig. 1.
In conclusion, based on the structure, the multi-directional dynamic display device can realize multi-directional dynamic display.
Specifically, the driving mechanism 40 includes a stepping motor, and the stepping motor is disposed at the first end of the bearing mechanism 10 and is fixedly connected to the first bearing surface 15.
In a preferred embodiment, as shown in fig. 1, at least two partition boards 13 arranged along a first direction are arranged on the carrying mechanism 10, and the guide rail 11 is at least one guide rod 14 fixedly arranged on the partition boards 13; the moving block 12 is sleeved on the guide rod 14, and one moving block 12 is arranged between every two adjacent partition plates 13; the moving block 12 is reciprocally slidable along the guide bar 14.
Specifically, as shown in fig. 1, the partition 13 is fixedly disposed on the bearing mechanism 10, and is perpendicular to the first bearing surface 15 and the second bearing surface 16. A first through hole is formed in the partition plate 13, and the guide rod 14 penetrates through the first through hole and is fixedly connected with the partition plate 13. As shown in fig. 1, there are 3 separating plates, the distance between every two adjacent separating plates 13 is equal, there are 2 moving blocks 12, and the moving blocks 12 can slide back and forth between every two adjacent separating plates.
In a preferred embodiment of the present application, as shown in fig. 1, the number of the guide bars 14 is 2, which ensures the stability of the moving block 12.
In a preferred embodiment of the present application, as shown in fig. 1 and 2, a first guiding shaft 41 coupled to the driving mechanism 40 is disposed at a first end of the supporting mechanism 10, and a second guiding shaft is disposed at a second end of the supporting mechanism 10; a transmission belt 42 is tightly sleeved between the first guide shaft 41 and the second guide shaft; the portion of the belt 42 between the first guide shaft 41 and the second guide shaft is parallel to the first direction; the moving block 12 is coupled to a transmission belt 42 near one side of the rotating mechanism 20, and can reciprocate along the guide rod 14 under the driving of the transmission belt 42. 42
Specifically, as shown in fig. 1 and fig. 2, the first guide shaft 41 is coupled to the output end of the driving mechanism 40, and an axis of the first guide shaft 41 extends in a direction perpendicular to the first bearing surface 15. The partition plates 13 are uniformly arranged between the first guide shaft 41 and the second guide shaft.
In particular, as shown in fig. 1, the moving block 12 is located on the side of the drive belt 42 remote from the second load-bearing end face.
Specifically, as shown in fig. 1 and 2, the moving block 12 includes a first moving block close to the rotating mechanism and a second moving block close to the second bearing surface 16, and the first moving block and the second moving block are clamped and coupled to the rotating belt 42, so that the driving belt 42 can drive the moving block 12 to slide along the guide bar 14.
In particular, the partition 13 is also provided with a second through hole, in which the driving belt 42 can freely pass.
In a preferred embodiment of the present application, as shown in fig. 1, a first groove 43 is provided around the first guide shaft 41, and a second groove is provided around the second guide shaft; the transmission belt is sleeved in the first groove 43 and the second groove.
Specifically, as shown in fig. 1, the first groove 43 is provided at an end of the first guide shaft 41 away from the driving mechanism. The second guide groove is arranged at one end, far away from the first bearing surface 15, of the second guide groove. The first and second grooves are provided in order to maintain the stability of the drive belt.
In a preferred embodiment of the present application, as shown in fig. 2, the rotating mechanism 20 comprises a bearing assembly disposed between the moving block 12 and the toothed disc 21.
Specifically, as shown in fig. 2, the bearing assembly includes a bearing washer 25, a first bearing fixing 26, a bearing 27, a second bearing fixing 28, and a bearing core boss 29, which are coupled in this order in a direction away from the moving block 12. The first bearing fixing piece and the second bearing fixing piece are fixedly connected with the moving block 12, and the bearing inner core boss is fixedly connected with the fluted disc 21.
In a preferred embodiment of the present application, as shown in fig. 1, a mounting through hole 24 is eccentrically provided on the rotary plate 22, and a free end of the display wire 23 is passed out from a side of the mounting through hole 24 away from the toothed plate 21.
In a preferred embodiment of the present application, as shown in fig. 1, a first protruding shaft is further provided on the rotating disc 22 on a side close to the toothed disc 21, and the first protruding shaft is coaxial with the rotating disc 22; the fixed end of the display line 23 passes through the mounting through hole 24 and is fixedly connected to the first protruding shaft.
In a specific application scenario, as the fluted disc (and the rotating disc) rotates, the display wire can be wound on the first protruding shaft, the length of the display wire is shortened, and then when the display object is suspended at the free end of the display wire 23, the height of the display object in the vertical direction can be further adjusted.
In a preferred embodiment of the present application, the multi-orientation dynamic display apparatus further comprises a housing operable to house all components except the display line.
The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.
Claims (7)
1. A multi-orientation dynamic display device, comprising:
a carrier (10), the carrier (10) extending in a first direction; a guide track (11) is arranged on the bearing mechanism (10) along a first direction; the guide track (11) is provided with at least one moving block (12) capable of sliding back and forth along a first direction;
the rotating mechanism (20), the said rotating mechanism (20) is set in the said moving block (12); the rotating mechanism (20) is sequentially matched and connected with a fluted disc (21) and a rotating disc (22) along the direction far away from the moving block (12); a display line (23) is eccentrically installed on the rotating disc (22), and the display line is an invisible magic line;
the main rail (30) is arranged on one side of the bearing mechanism (10), extends along a first direction, and the main rail (30) is meshed and matched with the fluted disc (21);
the driving mechanism (40), the said driving mechanism (40) is connected with said moving block (12) in a driving way; the driving mechanism (40) is used for driving the moving block (12) to move back and forth along the first direction so as to drive the fluted disc (21) to rotate along the main track (30) in a meshed mode, and therefore the rotating disc (22) is driven to rotate, and further the display wire (23) is driven to twist and move in the vertical direction.
2. The multi-orientation dynamic display apparatus as claimed in claim 1, wherein:
at least two partition plates (13) arranged along a first direction are arranged on the bearing mechanism (10), and the guide track (11) is at least one guide rod (14) fixedly arranged on the partition plates (13); the moving block (12) is sleeved on the guide rod (14), and a moving block (12) is arranged between every two adjacent partition plates (13); each moving block (12) can slide along the guide rod (14) in a reciprocating mode.
3. The multi-azimuth dynamic display apparatus according to claim 2, wherein:
a first guide shaft (41) matched and connected with the driving mechanism (40) is arranged at the first end of the bearing mechanism (10), and a second guide shaft is arranged at the second end of the bearing mechanism (10); a transmission belt (42) is tightly sleeved between the first guide shaft (41) and the second guide shaft; the part of the transmission belt (42) between the first guide shaft (41) and the second guide shaft is parallel to the first direction; the moving block (12) is matched and connected with a transmission belt (42) close to one side of the rotating mechanism (20) and can move back and forth along the guide rod (14) under the driving of the transmission belt (42).
4. The multi aspect dynamic display device of claim 3, wherein:
a first groove (43) is arranged around the first guide shaft (41), and a second groove is arranged around the second guide shaft; the transmission belt (42) is sleeved in the first groove (43) and the second groove.
5. The multi-orientation dynamic display apparatus as claimed in claim 1, wherein:
the rotating mechanism (20) comprises a bearing assembly arranged between the moving block (12) and the fluted disc (21).
6. The multi-orientation dynamic display apparatus as claimed in any one of claims 1-5, wherein:
the rotating disc (22) is eccentrically provided with a mounting through hole (24), and the free end of the display line (23) penetrates out of one side, far away from the fluted disc (21), of the mounting through hole (24).
7. The multi-orientation dynamic display apparatus as claimed in claim 6, wherein:
a first protruding shaft is further arranged on one side, close to the fluted disc (21), of the rotating disc (22), and the first protruding shaft is coaxial with the rotating disc (22); the fixed end of the display line (23) penetrates through the mounting through hole (24) to be fixedly connected to the first protruding shaft.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222719566.2U CN218355431U (en) | 2022-10-17 | 2022-10-17 | Diversified developments display device |
Applications Claiming Priority (1)
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CN202222719566.2U CN218355431U (en) | 2022-10-17 | 2022-10-17 | Diversified developments display device |
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CN218355431U true CN218355431U (en) | 2023-01-24 |
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CN202222719566.2U Active CN218355431U (en) | 2022-10-17 | 2022-10-17 | Diversified developments display device |
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CN (1) | CN218355431U (en) |
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- 2022-10-17 CN CN202222719566.2U patent/CN218355431U/en active Active
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