Disclosure of Invention
The invention aims to provide a frame system of LED photoelectric glass, which has the advantages that the frame system can better match images and lamplight through mechanical movement; the phenomenon of LED photoelectric glass images and lamplight is combined, and the diversity of image and lamplight combination is realized; through the reciprocating displacement of the central LED photoelectric glass, the images of the two pieces of tail LED photoelectric glass are estimated to be stretched out along an arc in the opposite direction of the movement of the central LED photoelectric glass, and the images and the light of the displaced central LED photoelectric glass are combined to form a dynamic image and light, and the process is repeated; the arc-shaped track of the movement of the two pieces of tail LED photoelectric glass can be adjusted according to the patterns of actual images and lamplight.
The purpose of the invention is realized by the following technical scheme:
the invention aims to provide a frame system of LED photoelectric glass, which comprises a central photoelectric glass driving frame, a fixing frame, an upper arc-shaped sliding rail, a lower arc-shaped sliding rail, four tail photoelectric glass driving frames, a lower driver and an upper connecting driver, lower driver connect the upper junction driver through central photoelectricity glass drive frame, drive central photoelectricity glass drive frame horizontal slip displacement in fixed frame, it all passes through screw-thread fit sliding connection on fixed frame with lower arc slide rail to go up arc slide rail, two afterbody photoelectricity glass drive frame sliding connection of upside are in last arc slide rail, the vertical sliding connection in two afterbody photoelectricity glass drive frames of upside in the both ends of going up the connection driver, two afterbody photoelectricity glass drive frames sliding connection of downside are in arc slide rail down, the vertical sliding connection in two afterbody photoelectricity glass drive frames of downside in the both ends of lower driver.
As a further optimization of the invention, the central photoelectric glass driving frame comprises a lower supporting frame, two bolt baffles, central LED photoelectric glass, an upper supporting frame, an upper rack and an upper T-shaped sliding block, wherein the central LED photoelectric glass is arranged between the lower supporting frame and the upper supporting frame in a sliding manner, the two bolt baffles are respectively and fixedly connected with the right ends of the lower supporting frame and the upper supporting frame through bolts, the rear end of the upper supporting frame is fixedly connected with the upper rack, and the upper end of the upper rack is fixedly connected with the upper T-shaped sliding block.
As a further optimization of the invention, the fixed frame comprises a central frame, two fixed seats, a lower through sliding chute, four extending sliding seats, four extending sliding chutes, a central fixed seat, a plurality of dispensing threaded holes and an inner upper sliding chute, wherein the left end and the right end of the central frame are respectively and fixedly connected with the two fixed seats, the lower through sliding chute is arranged at the lower end of the inner wall of the central frame in a penetrating manner, the four extending sliding seats are respectively and fixedly connected with the upper side and the lower side of the left end and the right end of the central frame, the extending sliding chutes are arranged on the extending sliding seats, the central fixed seat is fixedly connected with the center of the rear end of the central frame, the central fixed seat is uniformly provided with the plurality of dispensing threaded holes, and the upper end of the inner wall of the central frame is provided with the inner upper sliding chute.
As a further optimization of the invention, the upper end of the upper rack is connected on the inner upper chute in a sliding way through an upper T-shaped sliding block.
As a further optimization of the invention, the upper arc-shaped slide rail comprises an upper inner arc-shaped slide rail seat, two upper slide shafts, an upper inner arc-shaped slide groove, an upper central threaded seat and an upper adjusting bolt, wherein the lower sides of the two ends of the upper inner arc-shaped slide rail seat are respectively and fixedly connected with the two upper slide shafts, the upper inner arc-shaped slide rail seat is slidably connected in the two extending slide grooves on the upper side through the two upper slide shafts, the upper inner arc-shaped slide groove penetrates through the upper inner arc-shaped slide rail seat, the upper central threaded seat is fixedly connected at the middle end of the upper inner arc-shaped slide groove, and the upper adjusting bolt is connected in the upper central threaded seat and the dispensing threaded hole in a threaded fit manner through threads.
As a further optimization of the invention, the lower arc-shaped slide rail comprises a lower inner arc slide rail seat, two lower slide shafts, a lower inner arc chute, a lower central threaded seat and a lower adjusting bolt, wherein the lower sides of the two ends of the lower inner arc slide rail seat are respectively and fixedly connected with the two lower slide shafts, the lower inner arc slide rail seat is slidably connected in the two extending chutes on the lower sides through the two lower slide shafts, the lower inner arc chute penetrates through the lower inner arc slide rail seat, the lower central threaded seat is fixedly connected at the middle end of the lower inner arc chute, and the lower adjusting bolt is connected in the lower central threaded seat and the dispensing threaded hole in a threaded fit manner through threads.
As a further optimization of the invention, the tail photoelectric glass driving frame comprises a left clamping frame, a clamping bottom plate, a right clamping seat, a longitudinal limiting sliding groove, a connecting rod, a limiting sliding shaft and tail image connection LED photoelectric glass, wherein the left clamping frame is fixedly connected to the clamping bottom plate, the right clamping seat is fixedly connected to the clamping bottom plate through a bolt, the tail image connection LED photoelectric glass is arranged among the left clamping frame, the clamping bottom plate and the right clamping seat, the longitudinal limiting sliding seat is fixedly connected to the rear end of the left clamping frame, the longitudinal limiting sliding groove is longitudinally arranged on the longitudinal limiting sliding seat in a penetrating manner, the rear end of the right clamping seat is fixedly connected with the connecting rod, and the connecting rod is fixedly connected to the limiting sliding shaft; the four limiting sliding shafts are respectively connected with the left side and the right side of the upper inner arc sliding groove and the left side and the right side of the lower inner arc sliding groove in a sliding mode.
As a further optimization of the invention, the lower driver comprises a motor fixing seat, a driving motor, a driving half gear, a driving inner tooth socket, a lower connecting plate, a lower T-shaped sliding block, a lower rack, a lower driving gear, a lower connecting driving gear, a lower gear ring, a lower driving rack and two lower longitudinal sliding blocks, wherein the motor fixing seat is fixedly connected to the lower end of the central fixing seat, the driving motor is fixedly connected to the motor fixing seat, the driving half gear is fixedly connected to a transmission shaft of the driving motor, the driving half gear is in meshing transmission with the inner wall of the driving inner tooth socket, the driving inner tooth socket is arranged on the lower connecting plate, the lower connecting plate is fixedly connected to the lower end of the lower T-shaped sliding block, the lower rack is in sliding connection in the lower through sliding chute through the lower T-shaped sliding block, the lower rack is fixedly connected to the rear end of the lower supporting frame, the upper end of the lower rack is meshed with the lower driving gear, and the upper end of the lower driving gear is in meshing transmission with the lower connecting driving gear, the lower gear ring is fixedly connected to the lower engagement driving gear, the lower end of the lower gear ring is meshed with the lower driving rack, and two ends of the lower driving rack are longitudinally and slidably connected into the two longitudinal limiting sliding chutes on the lower side through the two lower longitudinal sliding blocks respectively; the lower driving gear and the lower connecting driving gear are rotatably connected in the central fixing seat through a rotating shaft, and the lower driving rack is slidably connected in the central fixing seat.
As a further optimization of the invention, the upper connecting driver comprises an upper driving gear, a lower connecting gear, an upper gear ring, an upper driving rack and two upper longitudinal sliding blocks, wherein the upper end and the lower end of the upper driving gear are respectively meshed with the upper rack and the lower connecting gear for transmission, the upper gear ring is fixedly connected to the lower connecting gear, the lower end of the upper gear ring is meshed with the upper driving rack for transmission, and the two ends of the upper driving rack are respectively connected to the two longitudinal limiting sliding chutes on the upper side in a longitudinal sliding manner through the two upper longitudinal sliding blocks; go up drive gear and link up the gear down and all rotate through the pivot and connect in central fixing base, go up drive rack sliding connection in central fixing base.
Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects that the central photoelectric glass driving frame, the fixing frame, the upper arc-shaped sliding rail, the lower arc-shaped sliding rail, the four tail photoelectric glass driving frames, the lower driver and the upper connecting driver can be better matched with images and lamplight through mechanical motion; the phenomenon of LED photoelectric glass images and lamplight is combined, and the diversity of image and lamplight combination is realized; through the reciprocating displacement of the central LED photoelectric glass, the images of the two pieces of tail LED photoelectric glass are estimated to be stretched out along an arc in the opposite direction of the movement of the central LED photoelectric glass, and the images and the light of the displaced central LED photoelectric glass are combined to form a dynamic image and light, and the process is repeated; the arc-shaped track of the movement of the two pieces of tail LED photoelectric glass can be adjusted according to the patterns of actual images and lamplight.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The fixed connection in the device can be fixed by welding, thread fixing and the like, the rotary connection can be realized by baking the bearing on a shaft, a spring retainer groove or an inter-shaft baffle is arranged on the shaft or a shaft hole, the axial fixation of the bearing is realized by clamping an elastic retainer ring in the spring retainer groove or the inter-shaft baffle, and the rotation is realized by the relative sliding of the bearing; different connection modes are used in combination with different use environments.
The first embodiment is as follows:
as shown in fig. 1 to 10, a frame system of LED photoelectric glass comprises a central photoelectric glass driving frame 1, a fixed frame 2, an upper arc-shaped sliding rail 3, a lower arc-shaped sliding rail 4, four tail photoelectric glass driving frames 5, a lower driver 6 and an upper connecting driver 7, wherein the lower driver 6 is connected with the upper connecting driver 7 through the central photoelectric glass driving frame 1 to drive the central photoelectric glass driving frame 1 to slide and move left and right in the fixed frame 2, the upper arc-shaped sliding rail 3 and the lower arc-shaped sliding rail 4 are both slidably connected to the fixed frame 2 through screw thread fit, the two tail photoelectric glass driving frames 5 on the upper side are slidably connected to the upper arc-shaped sliding rail 3, the two ends of the upper connecting driver 7 are longitudinally slidably connected to the two tail photoelectric glass driving frames 5 on the upper side, the two tail photoelectric glass driving frames 5 on the lower side are slidably connected to the lower arc-shaped sliding rail 4, two ends of the lower driver 6 are longitudinally connected in the two tail photoelectric glass driving frames 5 at the lower side in a sliding manner. The lower driver 6 is connected with the upper connecting driver 7 through the central photoelectric glass driving frame 1, so that the central photoelectric glass driving frame 1 is driven to reciprocate leftwards and rightwards in the fixing frame 2, when the central photoelectric glass driving frame 1 moves leftwards, the lower driver 6 and the upper connecting driver 7 simultaneously drive the two left tail photoelectric glass driving frames 5 to move rightwards on the upper arc-shaped slide rail 3 and the lower arc-shaped slide rail 4, and simultaneously the two right tail photoelectric glass driving frames 5 move leftwards on the upper arc-shaped slide rail 3 and the lower arc-shaped slide rail 4, so that the two left tail photoelectric glass driving frames 5 are attached to the image combination of the central photoelectric glass driving frame 1 when moving outwards; when the central photoelectric glass driving frame 1 moves rightwards, the opposite is realized; the reciprocating realization can lead the image and the light to be better matched through mechanical movement; the phenomenon of LED photoelectric glass images and lamplight is combined, and the diversity of image and lamplight combination is realized; through the reciprocating displacement of the central LED photoelectric glass, the images of the two pieces of tail LED photoelectric glass are estimated to be stretched out along an arc in the opposite direction of the movement of the central LED photoelectric glass, and the images and the light of the displaced central LED photoelectric glass are combined to form a dynamic image and light, and the process is repeated; the arc-shaped track of the movement of the two pieces of tail LED photoelectric glass can be adjusted according to the patterns of actual images and lamplight.
The second embodiment is as follows:
as shown in fig. 1 to 10, in this embodiment, a first embodiment is further described, where the central photovoltaic glass driving rack 1 includes a lower support frame 1-1, two bolt baffles 1-2, a central LED photovoltaic glass 1-3, an upper support frame 1-4, an upper rack 1-5 and an upper T-shaped slider 1-6, the central LED photovoltaic glass 1-3 is slidably disposed between the lower support frame 1-1 and the upper support frame 1-4, the two bolt baffles 1-2 are respectively and fixedly connected to right ends of the lower support frame 1-1 and the upper support frame 1-4 through bolts, a rear end of the upper support frame 1-4 is fixedly connected to the upper rack 1-5, and an upper end of the upper rack 1-5 is fixedly connected to the upper T-shaped slider 1-6. The two bolt baffles 1-2 are convenient for replacing the central LED photoelectric glass 1-3.
The third concrete implementation mode:
as shown in fig. 1 to 10, the second embodiment is further described in the present embodiment, the fixing frame 2 includes a central frame 2-1, two fixing bases 2-2, a lower through sliding groove 2-3, four extending sliding bases 2-4, four extending sliding grooves 2-5, a central fixing base 2-6, a plurality of dispensing threaded holes 2-7 and an inner upper sliding groove 2-8, the left and right ends of the central frame 2-1 are respectively and fixedly connected to the two fixing bases 2-2, the lower through sliding groove 2-3 is arranged at the lower end of the inner wall of the central frame 2-1 in a penetrating manner, the four extending sliding bases 2-4 are respectively and fixedly connected to the upper and lower sides of the left and right ends of the central frame 2-1, the extending sliding bases 2-5 are arranged on the extending sliding bases 2-4, the central fixing bases 2-6 are fixedly connected to the center of the rear end of the central frame 2-1, a plurality of dispensing threaded holes 2-7 are uniformly formed in the central fixing seat 2-6, and an inner upper chute 2-8 is formed in the upper end of the inner wall of the central frame 2-1. The central frame 2-1 fixes the device at a designated position through threaded holes on the two fixed seats 2-2.
The fourth concrete implementation mode:
as shown in fig. 1 to 10, in the third embodiment, the upper end of the upper rack 1-5 is slidably connected to the inner upper chute 2-8 through the upper T-shaped slider 1-6. The displacement driving of the LED photoelectric glass is facilitated.
The fifth concrete implementation mode:
as shown in fig. 1 to 10, in the fourth embodiment, the upper arc-shaped slide rail 3 includes an upper inner arc-shaped slide rail seat 3-1 and two upper slide shafts 3-2, the upper inner arc sliding rail comprises an upper inner arc sliding rail seat 3-3, an upper central threaded seat 3-4 and an upper adjusting bolt 3-5, wherein the lower sides of two ends of the upper inner arc sliding rail seat 3-1 are respectively and fixedly connected with two upper sliding shafts 3-2, the upper inner arc sliding rail seat 3-1 is connected in two extending sliding chutes 2-5 on the upper side in a sliding mode through the two upper sliding shafts 3-2, the upper inner arc sliding chute 3-3 is arranged on the upper inner arc sliding rail seat 3-1 in a penetrating mode, the upper central threaded seat 3-4 is fixedly connected to the middle end of the upper inner arc sliding chute 3-3, and the upper adjusting bolt 3-5 is connected in the upper central threaded seat 3-4 and a regulator threaded hole 2-7 in a threaded fit mode. According to the requirements of actual images and lamplight, upper adjusting bolts 3-5 are selected to be connected with dispensing threaded holes 2-7 at different positions, the positions of upper inner arc slide rail seats 3-1 are adjusted through two upper sliding shafts 3-2, and then the arc motion track of tail images connected with LED photoelectric glass 5-8 is adjusted.
The sixth specific implementation mode:
as shown in fig. 1 to 10, in the present embodiment, a fifth embodiment is further described, the lower arc-shaped sliding rail 4 includes a lower inner arc-shaped sliding rail seat 4-1 and two lower sliding shafts 4-2, the lower inner arc slide rail seat 4-1 is fixedly connected with two lower sliding shafts 4-2 at the lower sides of two ends of the lower inner arc slide rail seat 4-1 respectively, the lower inner arc slide rail seat 4-1 is connected in two extending slide grooves 2-5 at the lower side in a sliding mode through the two lower sliding shafts 4-2, the lower inner arc slide groove 4-3 is arranged on the lower inner arc slide rail seat 4-1 in a penetrating mode, the lower central threaded seat 4-4 is fixedly connected at the middle end of the lower inner arc slide groove 4-3, and the lower adjusting bolt 4-5 is connected in the lower central threaded seat 4-4 and the dispensing threaded hole 2-7 in a threaded fit mode.
The seventh embodiment:
as shown in fig. 1 to 10, in this embodiment, a sixth embodiment is further described, the tail photoelectric glass driving frame 5 includes a left clamping frame 5-1, a clamping bottom plate 5-2, a right clamping base 5-3, a longitudinal limiting slide carriage 5-4, a longitudinal limiting slide groove 5-5, a connecting rod 5-6, a limiting slide shaft 5-7 and a tail image connection LED photoelectric glass 5-8, the left clamping frame 5-1 is fixedly connected to the clamping bottom plate 5-2, the right clamping base 5-3 is fixedly connected to the clamping bottom plate 5-2 through a bolt, the tail image connection LED photoelectric glass 5-8 is arranged between the left clamping frame 5-1, the clamping bottom plate 5-2 and the right clamping base 5-3, the longitudinal limiting slide carriage 5-4 is fixedly connected to the rear end of the left clamping frame 5-1, a longitudinal limiting sliding groove 5-5 is longitudinally arranged on a longitudinal limiting sliding seat 5-4 in a penetrating manner, the rear end of the right clamping seat 5-3 is fixedly connected with a connecting rod 5-6, and the connecting rod 5-6 is fixedly connected on a limiting sliding shaft 5-7; the four limiting sliding shafts 5-7 are respectively connected with the left side and the right side of the upper inner arc chute 3-3 and the left side and the right side of the lower inner arc chute 4-3 in a sliding manner.
The specific implementation mode is eight:
as shown in fig. 1 to 10, in this embodiment, a seventh embodiment is further described, the lower driver 6 includes a motor fixing seat 6-1, a driving motor 6-2, a driving half gear 6-3, a driving inner tooth space 6-4, a lower connecting plate 6-5, a lower T-row slider 6-6, a lower rack 6-7, a lower driving gear 6-8, a lower connecting driving gear 6-9, a lower gear ring 6-10, a lower driving rack 6-11 and two lower longitudinal sliders 6-12, the motor fixing seat 6-1 is fixedly connected to the lower end of the central fixing seat 2-6, the driving motor 6-2 is fixedly connected to the motor fixing seat 6-1, the driving half gear 6-3 is fixedly connected to a transmission shaft of the driving motor 6-2, the driving half gear 6-3 is in meshing transmission with the inner wall of the driving inner tooth space 6-4, the driving inner tooth grooves 6-4 are arranged on the lower connecting plate 6-5, the lower connecting plate 6-5 is fixedly connected to the lower end of a lower T-row sliding block 6-6, a lower rack 6-7 is slidably connected in a lower through sliding groove 2-3 through the lower T-row sliding block 6-6, the lower rack 6-7 is fixedly connected to the rear end of a lower supporting frame 1-1, the upper end of the lower rack 6-7 is meshed with a lower driving gear 6-8, the upper end of the lower driving gear 6-8 is meshed with a lower connecting driving gear 6-9 for transmission, a lower gear ring 6-10 is fixedly connected to the lower connecting driving gear 6-9, the lower end of the lower gear ring 6-10 is meshed with a lower driving rack 6-11, and two ends of the lower driving rack 6-11 are longitudinally slidably connected in two longitudinal limiting sliding grooves 5-5 on the lower side through two lower longitudinal sliding blocks 6-12 respectively; the lower driving gear 6-8 and the lower connecting driving gear 6-9 are rotatably connected in the central fixed seat 2-6 through a rotating shaft, and the lower driving rack 6-11 is slidably connected in the central fixed seat 2-6. A driving motor 6-2 is electrified to drive a driving half gear 6-3 to rotate, and the driving half gear 6-3 is meshed with the upper end and the lower end of the inner wall of a driving inner tooth groove 6-4, so that a lower connecting plate 6-5 is driven to reciprocate left and right in a lower through sliding groove 2-3 through a lower T-shaped row sliding block 6-6, a lower rack 6-7 is driven to reciprocate left and right, a lower driving gear 6-8, a lower connecting driving gear 6-9 and a lower gear ring 6-10 are further driven to reciprocate left and right, and a lower driving rack 6-11 and two lower longitudinal sliding blocks 6-12 are further driven to reciprocate left and right; through the connection of the lower rack 6-7 and the lower support frame 1-1, the LED photoelectric glass 1-3, the upper support frame 1-4, the upper rack 1-5 and the upper T-shaped slide block 1-6 are driven to synchronously reciprocate left and right in the inner and upper chutes 2-8.
The specific implementation method nine:
as shown in fig. 1 to 10, in this embodiment, to further explain the eighth embodiment, the upper connecting driver 7 includes an upper driving gear 7-1, a lower connecting gear 7-2, an upper gear ring 7-3, an upper driving rack 7-4 and two upper longitudinal sliding blocks 7-5, the upper and lower ends of the upper driving gear 7-1 are respectively engaged with the upper gear ring 1-5 and the lower connecting gear 7-2 for transmission, the upper gear ring 7-3 is fixedly connected to the lower connecting gear 7-2, the lower end of the upper gear ring 7-3 is engaged with the upper driving rack 7-4 for transmission, and the two ends of the upper driving rack 7-4 are respectively connected to the two upper longitudinal limiting sliding chutes 5-5 in the upper side by the two upper longitudinal sliding blocks 7-5 in a longitudinal sliding manner; the upper driving gear 7-1 and the lower connecting gear 7-2 are rotatably connected in the central fixed seat 2-6 through rotating shafts, and the upper driving rack 7-4 is slidably connected in the central fixed seat 2-6. The upper rack 1-5 which reciprocates left and right drives the upper driving gear 7-1 to rotate, further drives the lower engaging gear 7-2 and the upper gear ring 7-3 to rotate, and further drives the upper driving rack 7-4 and the two upper longitudinal sliding blocks 7-5 to reciprocate left and right;
the working principle of the invention is as follows: the central frame 2-1 fixes the device at a designated position through threaded holes on the two fixed seats 2-2; connecting the central LED photoelectric glass 1-3 and the tail image connecting LED photoelectric glass 5-8 for power connection; a driving motor 6-2 is electrified to drive a driving half gear 6-3 to rotate, and the driving half gear 6-3 is meshed with the upper end and the lower end of the inner wall of a driving inner tooth groove 6-4, so that a lower connecting plate 6-5 is driven to reciprocate left and right in a lower through sliding groove 2-3 through a lower T-shaped row sliding block 6-6, a lower rack 6-7 is driven to reciprocate left and right, a lower driving gear 6-8, a lower connecting driving gear 6-9 and a lower gear ring 6-10 are further driven to reciprocate left and right, and a lower driving rack 6-11 and two lower longitudinal sliding blocks 6-12 are further driven to reciprocate left and right; through the connection of the lower rack 6-7 and the lower support frame 1-1, the LED photoelectric glass 1-3, the upper support frame 1-4, the upper rack 1-5 and the upper T-shaped slide block 1-6 are driven to synchronously reciprocate leftwards and rightwards in the inner and upper chutes 2-8; the upper rack 1-5 which reciprocates left and right drives the upper driving gear 7-1 to rotate, further drives the lower engaging gear 7-2 and the upper gear ring 7-3 to rotate, and further drives the upper driving rack 7-4 and the two upper longitudinal sliding blocks 7-5 to reciprocate left and right; when the central LED photoelectric glass 1-3 is displaced leftwards, the two tail images on the right side are connected with the LED photoelectric glass 5-8 and are displaced rightwards along the track of the upper inner arc chute 3-3 and the lower inner arc chute 4-3, so that the images on the two tail images on the right side connected with the LED photoelectric glass 5-8 are matched with the central LED photoelectric glass 1-3, and the two tail images on the left side connected with the LED photoelectric glass 5-8 are displaced rightwards at the rear end of the central LED photoelectric glass 1-3 and are shielded to avoid image overlapping; when the central LED photoelectric glass 1-3 is displaced towards the middle end, the four tail images connected with the LED photoelectric glass 5-8 are displaced at the rear end of the central LED photoelectric glass 1-3 and are gradually shielded; in a similar manner, when the central LED photoelectric glass 1-3 is displaced to the right, the two tail images on the left side are connected with the LED photoelectric glass 5-8 and are displaced to the left along the tracks of the upper inner arc chute 3-3 and the lower inner arc chute 4-3, so that the images on the two tail images on the left side connected with the LED photoelectric glass 5-8 are matched with the central LED photoelectric glass 1-3, and the two tail images on the right side connected with the LED photoelectric glass 5-8 are displaced to the left at the rear end of the central LED photoelectric glass 1-3 and are shielded to avoid image overlapping; according to the requirements of actual images and lamplight, upper adjusting bolts 3-5 are selected to be connected with dispensing threaded holes 2-7 at different positions, the positions of upper inner arc slide rail seats 3-1 are adjusted through two upper sliding shafts 3-2, and then the arc motion track of tail images connected with LED photoelectric glass 5-8 is adjusted; the reciprocating realization can lead the image and the light to be better matched through mechanical movement; the phenomenon of LED photoelectric glass images and lamplight is combined, and the diversity of image and lamplight combination is realized; through the reciprocating displacement of the central LED photoelectric glass, the images of the two pieces of tail LED photoelectric glass are estimated to be stretched out along an arc in the opposite direction of the movement of the central LED photoelectric glass, and the images and the light of the displaced central LED photoelectric glass are combined to form a dynamic image and light, and the process is repeated; the arc-shaped track of the movement of the two pieces of tail LED photoelectric glass can be adjusted according to the patterns of actual images and lamplight.
The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the present invention are within the scope of the present invention.