CN219958057U

CN219958057U - Radar interactive projection system

Info

Publication number: CN219958057U
Application number: CN202320543355.XU
Authority: CN
Inventors: 高强
Original assignee: Wujiang Culture Technology Group Co ltd
Current assignee: Wujiang Culture Technology Group Co ltd
Priority date: 2023-03-20
Filing date: 2023-03-20
Publication date: 2023-11-03
Anticipated expiration: 2033-03-20

Abstract

The utility model relates to the technical field of radar interactive projection, and discloses a radar interactive projection system which comprises a shell, wherein a projection lens for radar interactive projection imaging is fixedly connected to the inner side of the shell, and an action shell for collision protection of the projection lens is fixedly connected to the outer side of the shell. The projection lens is fixedly arranged outside the shell, the projection imaging effect is prevented from being influenced by movement dislocation of the projection lens, the structure of the projection device is simplified, the gear rotates outside the toothed plate to enable the sliding seat to slide on the inner side of the action shell, the service life of the projection lens in the radar interactive projection system is prolonged, the electric telescopic rod stretches to enable the cotton laminate to be elastically attached to the surface of the projection lens, the coil shaft rotates to enable the water shell to rotate, centrifugal cleaning liquid flows into the cotton laminate through the micropores, the cotton laminate rotates to enable the cleaning liquid to be uniformly smeared on the surface of the transparent lens, dust on the surface of the projection lens is fully cleaned, and the cleanliness of the projection lens is improved.

Description

Radar interactive projection system

Technical Field

The utility model relates to the technical field of radar interactive projection, in particular to a radar interactive projection system.

Background

The multimedia radar interactive projection system integrates a display system and a main control system, and is additionally provided with an induction module to realize interactive operation. The method can support interactive touch operation of multiple people. The spectator only needs to touch and click on the screen, just can realize the system operation, make human-computer interaction more direct, let the transmission of information no longer be the eye cloud cigarette, radar interaction projecting system needs projection equipment cooperation to carry out the interaction of imaging, wherein projection optical lens is the very important equipment of the interaction of imaging, chinese patent No. CN213581721U discloses an intelligent interaction projecting system of radar based on wall drawing adopts and drives first dwang rotation through servo motor rotation and makes two reels rotatory, two reel rotations make two metal rope shrink drive sliding plate upwards move, make the projector upwards move, remove the upper portion of protecting crust open slot, thereby protect it through protecting crust and door plant, adopt first dwang rotation to drive first belt pulley simultaneously, the use of cooperation second belt pulley, make the second dwang rotate, and then drive the cleaning roller rotation, clear up the mirror surface of projector, it has following problems:

1. the projector is driven by the control first rotating rod, the reel and the sliding plate to carry out protection on the inner side of the protective shell in a sliding fit manner with the protective shell and the door plate, the projector is protected in the sliding manner on the inner side of the protective shell, the difficulty and the workload of installation and maintenance of the projector in the later period are increased, and meanwhile, the positioning structure is not arranged in the protective shell in a sliding manner, so that the projection effect is influenced by displacement offset of the projector easily.

2. The cleaning roller is used for rotating and matching with the projector to move for dust removal, dust on the surface of the projector is generally tiny dust, and the dust on the surface of the projector cannot be fully contacted and cleaned by the rotation of the cleaning roller.

Disclosure of Invention

For solving the above-mentioned complex structure that adopts control first dwang, the reel, the sliding plate drives the projecting apparatus and protects at protecting crust inboard sliding fit protecting crust and door plant, the projecting apparatus is at protecting crust inboard sliding protection, not only increase the degree of difficulty and the work load that the installation of projecting apparatus later stage was maintained, the inside slip of projecting apparatus protecting crust does not set up location structure simultaneously, cause the projecting apparatus displacement skew to influence projection effect easily and adopt the cleaning roller to rotate the cooperation projecting apparatus removal to remove dust, projecting apparatus surface dust is generally tiny dust, rotate through the cleaning roller and can not fully contact the problem of wasing the ash on projecting apparatus surface, realize above portable accurate protection architecture that targets in place, projecting part is fixed, the purpose of elastic contact rotation washing dust removal.

The utility model is realized by the following technical scheme: the radar interactive projection system comprises a shell, the inboard fixedly connected with of shell is used for radar interactive projection imaging's projection lens, the outside fixedly connected with of shell is used for projection lens collision protection's action shell, the inboard sliding connection of action shell has the slide that is used for projection lens collision protection, the inside swing joint of action shell has the displacement subassembly that is used for the slide at the inboard gliding of action shell, the outside fixedly connected with of slide is used for the connecting plate of projection lens protection, the outside fixedly connected with of connecting plate is used for the safety cover that projection lens sheltered from the protection. The inside fixedly connected with of safety cover is used for projection lens mirror surface dust removal's electric telescopic handle, electric telescopic handle's outside fixedly connected with is used for assembling the mounting panel of dust removal part, the outside fixedly connected with of mounting panel is used for cleaning projection lens mirror surface dust's shell, the inside swing joint of shell has the circumference subassembly that is used for controlling dust removal part pivoted, the outside fixedly connected with of circumference subassembly is used for exporting the water shell that the washing liquid is used for wasing projection lens, the outside swing joint of water shell has the switching subassembly that is used for the inside clear of adding of water shell, the micropore that is used for the inside washing liquid of motion output water shell has been seted up on the surface of water shell, the outside fixedly connected with of water shell is used for contacting the cotton plywood of friction projection lens, the outside swing joint of water shell has the fastening assembly that is used for cotton plywood loose joint.

Further, the shell is centrosymmetric with the projection lens, the action shell is in sliding clamping connection with the sliding seat, and the protection cover corresponds to the projection lens in position and is matched with the projection lens in specification.

Further, the displacement assembly comprises a gear movably connected to the inner side of the sliding seat to drive the sliding seat to slide on the inner side of the action shell, a toothed plate fixedly connected to the inner side of the action shell and matched with the gear to drive the sliding seat to slide on the inner side of the action shell, contacts fixedly connected to the upper end and the lower end of the inner side of the action shell and used for controlling the sliding seat to stop in place, and a motor fixedly connected to the inner side of the sliding seat and used for providing power for the gear.

Further, the motor is fixedly connected with the gear through the connecting shaft, the gear is meshed with the toothed plate, the sliding seat is corresponding to the position of the contact and is matched with the contact in specification, the contact is triggered, the internal circuit of the contact is switched to be disconnected by the circuit path, and then the motor is stopped to be electrified.

Further, the electric telescopic rod is coaxial with the mounting plate, the shell is coaxial with the mounting plate, the circumference assembly comprises a magnetic ring which is fixedly connected inside the shell and used for driving the water shell to rotate, and a coil shaft which is movably connected inside the shell and used for being matched with the magnetic ring to drive the water shell to rotate, and the coil shaft is fixedly connected with the outside of the water shell.

Further, the opening and closing assembly comprises a joint fixedly connected to the outside of the water shell and used for adding cleaning fluid into the water shell, and a plug shaft movably connected to the inside of the joint and used for sealing and opening the joint, the micropores are corresponding to the positions of the cotton laminate and are matched with the specifications, and the cotton laminate is corresponding to the positions of the projection lens and is matched with the specifications.

Further, the fastening component comprises a spiral ring fixedly connected to the outside of the water shell and used for fixing the cotton laminate, and an open-pore connecting plate fixedly connected to the outside of the cotton laminate and used for being matched with the spiral ring, and the open-pore connecting plate and the spiral ring are fixedly connected through screws.

The utility model provides a radar interactive projection system. The beneficial effects are as follows:

the projection imaging effect is influenced by moving misplacement of the projection lens through the projection lens, the structure of the projection device is simplified, the reliability of the projection device is improved, maintenance workload and difficulty of the projection device are reduced, meanwhile, gears rotate outside a toothed plate to enable a sliding seat to slide on the inner side of an action shell, the sliding seat slides to enable a protective cover to move to shield the projection lens for collision protection, the sliding seat and a contact are matched to enable the protective cover to accurately protect the projection lens in place, the service life of the projection lens in a radar interactive projection system is prolonged, meanwhile, the protective cover slides to enable a cotton laminate to move to the coaxial line position of the projection lens, an electric telescopic rod stretches to enable the cotton laminate to be in elastic fit contact with the surface of the projection lens, a coil shaft rotates to enable cleaning liquid inside a water shell to flow into the cotton laminate through micropores, the cleaning liquid is enabled to be evenly smeared on the surface of a transparent lens, dust on the surface of the projection lens is guaranteed to be sufficiently cleaned, and cleanliness of the projection lens is improved.

Drawings

FIG. 1 is a schematic view of the overall appearance structure of the present utility model;

FIG. 2 is a schematic diagram of the connection relationship between the housing and the projection lens according to the present utility model;

FIG. 3 is a schematic view of the connection relationship among the motion shell, the sliding seat, the connecting plate, the protection cover and the electric telescopic rod;

FIG. 4 is a schematic diagram of the connection relationship between the motion shell and the sliding seat;

FIG. 5 is a schematic diagram of the connection relationship among the motion shell, the slide and the displacement assembly according to the present utility model;

FIG. 6 is a schematic diagram of the connection relationship between the motion shell and the contacts according to the present utility model;

FIG. 7 is a schematic diagram of the connection relationship between the sliding seat and the displacement assembly according to the present utility model;

FIG. 8 is a schematic diagram of the connection relationship between the sliding seat and the displacement assembly according to the present utility model;

FIG. 9 is a schematic view of the structure of the toothed plate of the present utility model;

FIG. 10 is a schematic diagram of the connection relationship between the connection plates and the protection cover according to the present utility model;

FIG. 11 is a schematic view of the connection relationship among the electric telescopic rod, the mounting plate, the housing, the water shell, the opening and closing assembly, the cotton laminate and the fastening assembly;

FIG. 12 is a schematic view of the connection relationship between the housing and the circumferential assembly of the present utility model;

FIG. 13 is a schematic view of the connection relationship between the housing and the circumferential assembly of the present utility model;

FIG. 14 is a schematic view of the connection relationship among the water shell, the opening and closing assembly, the cotton laminate and the fastening assembly;

FIG. 15 is a schematic view of the connection relationship among the water shell, the opening and closing assembly, the micropores and the spiro ring;

FIG. 16 is a schematic view of a plug shaft according to the present utility model;

FIG. 17 is a schematic view of the connection relationship between cotton laminates and apertured splice plates according to the present utility model.

In the figure: 1. a housing; 11. a projection lens; 12. an action shell; 13. a slide; 14. a displacement assembly; 141. a gear; 142. a toothed plate; 143. a contact; 144. a motor; 15. a connecting plate; 16. a protective cover; 2. an electric telescopic rod; 21. a mounting plate; 22. a housing; 23. a circumferential assembly; 231. a magnetic ring; 232. a coil shaft; 24. a water shell; 25. an opening and closing assembly; 251. a joint; 252. a plug shaft; 26. micropores; 27. cotton laminate; 28. a fastening assembly; 281. a spiro ring; 282. an apertured splice plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

An example of the radar interactive projection system is as follows:

embodiment one:

referring to fig. 1-10, the radar interactive projection system includes a housing 1, a projection lens 11 for radar interactive projection imaging is fixedly connected to an inner side of the housing 1, the housing 1 is centrosymmetric to the projection lens 11, a motion housing 12 is slidably clamped to a slide 13, and a protection cover 16 is corresponding to the position of the projection lens 11 and has a specification matched with the projection lens 11.

The outside fixedly connected with of casing 1 is used for the action shell 12 of projection lens 11 collision protection, the inboard sliding connection of action shell 12 has the slide 13 that is used for projection lens 11 collision protection, the inside swing joint of action shell 12 has the displacement subassembly 14 that is used for slide 13 to shelter from the protection of action shell 12, displacement subassembly 14 includes swing joint in slide 13 inboard drive slide 13 in the gear 141 of action shell 12 inboard slip, fixed connection in action shell 12 inside cooperation gear 141 drive slide 13 in the inside gliding pinion rack 142 of action shell 12, fixed connection is used for controlling slide 13 in place contact 143 of stopping in the upper and lower tip in action shell 12, fixed connection is used for the connecting plate 15 of projection lens 11 protection in the outside fixedly connected with of motor 144 slide 13 that provides power for gear 141 in slide 13, the outside fixedly connected with of connecting plate 15 is used for projection lens 11 to shelter from the protection cover 16, motor 144 and gear 141 pass through connecting axle fixed connection, gear 141 meshes with pinion rack 142, the position correspondence and specification phase-match of slide 13 and contact 143, contact 143 triggers, its inside circuit route becomes the circuit to break, and then make motor 144 stop the circular telegram.

When the projection lens 11 needs to be protected after being used, the user operates the motor 144 to electrify and operate to drive the gear 141 to rotate, the gear 141 rotates to be in running fit with the toothed plate 142, the gear 141 rotates to drive the sliding seat 13 to slide on the inner side of the action shell 12, the sliding seat 13 slides to move with the connecting plate 15, the connecting plate 15 moves to drive the protection cover 16 to move along the direction of the projection lens 11, the sliding seat 13 slides until contacting with the contact 143 below the inner end part of the action shell 12, the motor 144 is further stopped to electrify, at the moment, the protection cover 16 is matched with the in-place part, the protection cover 16 shields the projection lens 11, and similarly, the user needs to use the projection lens 11 only to operate the motor 144 to enable the protection cover 16 to be separated from the projection lens 11 to reset until the sliding seat 13 slides to contact with the contact 143 above the inner end part of the action shell 12, and then the motor 144 is stopped from electrifying.

Through projection lens 11 fixed mounting outside casing 1, avoid projection lens 11 to remove dislocation and influence projection imaging, simplified projection equipment's structure, increased projection equipment's reliability, reduced projection equipment's maintenance work load and degree of difficulty, gear 141 rotates simultaneously outside pinion rack 142 and makes slide 13 in action shell 12 inboard, slide 13 slides and makes safety cover 16 remove and shelter from projection lens 11 and collide the protection, slide 13 and contact 143 cooperation make safety cover 16 can be accurate protection projection lens 11 in place, the life of projection lens 11 in the interactive projection system of radar has been improved.

Embodiment two:

referring to fig. 1-3 and 11-17, the radar interactive projection system includes a housing 1, a projection lens 11 for radar interactive projection imaging is fixedly connected to an inner side of the housing 1, an action housing 12 for collision protection of the projection lens 11 is fixedly connected to an outer side of the housing 1, a sliding seat 13 for collision protection of the projection lens 11 is slidingly connected to an inner side of the action housing 12, a connecting plate 15 for protection of the projection lens 11 is fixedly connected to an outer side of the sliding seat 13, and a protection cover 16 for shielding protection of the projection lens 11 is fixedly connected to an outer side of the connecting plate 15.

The inside fixedly connected with of safety cover 16 is used for projection lens 11 mirror surface dust removal's electric telescopic handle 2, the outside fixedly connected with of electric telescopic handle 2 is used for assembling the mounting panel 21 of dust removal part, the outside fixedly connected with of mounting panel 21 is used for cleaning projection lens 11 mirror surface dust's shell 22, the inside swing joint of shell 22 has the circumference subassembly 23 that is used for controlling dust removal part pivoted, electric telescopic handle 2 and mounting panel 21 coaxial line, shell 22 and mounting panel 21 coaxial line, circumference subassembly 23 includes the inside magnetic ring 231 that is used for driving water shell 24 pivoted that is fixedly connected with shell 22, swing joint is used for cooperating the inside coil axle 232 that is used for driving water shell 24 pivoted that is used for of magnetic ring 231 in shell 22, coil axle 232 and water shell 24 outside fixed connection.

The outside fixedly connected with of circumference subassembly 23 is used for exporting the water shell 24 that the washing liquid is used for wasing projection lens 11, the outside swing joint of water shell 24 has the switching subassembly 25 that is used for the inside washing that adds of water shell 24, switching subassembly 25 is including the fixed connection in the outside joint 251 that is used for adding the washing liquid for the inside of water shell 24, swing joint is used for the inside plug axle 252 that is used for the joint 251 to seal and open of joint 251, micropore 26 and cotton plywood 27's position corresponds and specification phase-match, cotton plywood 27 and projection lens 11's position corresponds and specification phase-match.

Based on the first embodiment, when the protection cover 16 protects the projection lens 11 in place, the protection cover 16 moves to drive the electric telescopic rod 2 to move and the projection lens 11 to be at the coaxial line position, when the mirror surface of the projection lens 11 needs to be cleaned, the user operates the electric telescopic rod 2, the coil shaft 232 is electrified, the electric telescopic rod 2 is electrified to stretch to drive the mounting plate 21 to move, the mounting plate 21 moves to drive the shell 22 to move, the shell 22 moves to drive the magnetic ring 231 to move, the shell 22 moves to drive the coil shaft 232 to move, the coil shaft 232 moves to drive the water shell 24 to move, the water shell 24 moves to drive the cotton laminate 27 to move until contacting the mirror surface of the projection lens 11, the cotton laminate 27 deforms to be matched with the mirror surface of the projection lens 11, the coil shaft 232 is electrified to rotate inside the shell 22 under the action of ampere force in the magnetic field of the magnetic ring 231, the rotation of the coil shaft 232 drives the water shell 24 to rotate, the rotation of the water shell 24 drives the joint 251 to rotate, the connector 251 rotates to drive the plug shaft 252 to rotate, the water shell 24 rotates to enable cleaning fluid in the water shell 24 to flow into the cotton laminate 27 through the micropores 26 under the centrifugal effect, the water shell 24 rotates to drive the spiral ring 281 to rotate, the water shell 24 rotates to drive the cotton laminate 27 to rotate under the cooperation of the perforated joint plate 282 and the spiral ring 281, the cotton laminate 27 rotates to enable the cleaning fluid to be uniformly smeared on the surface of the projection lens 11, the cotton laminate 27 rotates to be matched with the cleaning fluid to clean dust on the surface of the projection lens 11, the cleaning fluid needs to be added in the water shell 24, the connector 251 is opened through the rotating plug shaft 252 to add the cleaning fluid in the water shell 24, the cotton laminate 27 needs to be replaced, the perforated joint plate 282 and the spiral ring 281 are separated to drive the cotton laminate 27 to be separated from the water shell 24 only by rotating screws on the inner sides of the perforated joint plate 282 and the spiral ring 281, the projection lens 11 is completed after dust removal, the electric telescopic rod 2 is electrified to shrink, the coil shaft 232 is stopped from being energized, and the cotton laminate 27 is separated from the projection lens 11.

The surface of the water shell 24 is provided with micropores 26 for moving and outputting cleaning fluid inside the water shell 24, the outside of the water shell 24 is fixedly connected with a cotton laminate 27 for contacting the friction projection lens 11, the outside of the water shell 24 is movably connected with a fastening component 28 for movably connecting the cotton laminate 27, the fastening component 28 comprises a spiral ring 281 fixedly connected to the outside of the water shell 24 for fixing the cotton laminate 27, an open-pore connecting plate 282 fixedly connected to the outside of the cotton laminate 27 for matching the spiral ring 281, and the open-pore connecting plate 282 and the spiral ring 281 are fixedly connected through screws.

The protection cover 16 slides to enable the cotton laminate 27 to move to the coaxial line position of the projection lens 11, the electric telescopic rod 2 stretches to enable the cotton laminate 27 to be in elastic fit contact with the surface of the projection lens 11, the coil shaft 232 rotates to enable cleaning liquid inside the water shell 24 to flow into the cotton laminate 27 through the micropores 26, the cotton laminate 27 rotates to enable the cleaning liquid to be uniformly smeared on the surface of the transparent lens 11, the fact that dust on the surface of the projection lens 11 is sufficiently cleaned is guaranteed, and cleanliness of the projection lens 11 is improved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Radar interactive projection system, including casing (1), its characterized in that: the radar interactive projection imaging device is characterized in that a projection lens (11) for radar interactive projection imaging is fixedly connected to the inner side of the shell (1), an action shell (12) for protecting the projection lens (11) from collision is fixedly connected to the outer side of the shell (1), a sliding seat (13) for protecting the projection lens (11) from collision is slidingly connected to the inner side of the action shell (12), a displacement assembly (14) for sliding the sliding seat (13) inside the action shell (12) is movably connected to the inner side of the action shell (12), a connecting plate (15) for protecting the projection lens (11) is fixedly connected to the outer side of the sliding seat (13), and a protective cover (16) for shielding the projection lens (11) is fixedly connected to the outer side of the connecting plate (15);

the inside fixedly connected with of safety cover (16) is used for electric telescopic handle (2) of projection lens (11) mirror surface dust removal, the outside fixedly connected with of electric telescopic handle (2) is used for assembling mounting panel (21) of dust removal part, the outside fixedly connected with of mounting panel (21) is used for clean shell (22) of projection lens (11) mirror surface dust, the inboard swing joint of shell (22) has circumference subassembly (23) that are used for controlling dust removal part pivoted, the outside fixedly connected with of circumference subassembly (23) is used for exporting washing liquid and is used for wasing water shell (24) of projection lens (11), the outside swing joint of water shell (24) has and is used for inside abluent switching subassembly (25) that adds of water shell (24), micropore (26) that are used for the inside washing liquid of motion output water shell (24) are seted up to the surface of water shell (24), the outside fixedly connected with of water shell (24) is used for contacting cotton plywood (27) of friction projection lens (11), the outside swing joint of water shell (24) has fastening component (28) that are used for cotton plywood movably.

2. The radar interactive projection system of claim 1, wherein: the shell (1) is centrosymmetric with the projection lens (11), the action shell (12) is in sliding clamping connection with the sliding seat (13), and the protection cover (16) corresponds to the projection lens (11) in position and is matched with the projection lens in specification.

3. The radar interactive projection system of claim 1, wherein: the displacement assembly (14) comprises a gear (141) movably connected to the inner side of the sliding seat (13) to drive the sliding seat (13) to slide on the inner side of the action shell (12), a toothed plate (142) fixedly connected to the inner side of the action shell (12) to drive the sliding seat (13) to slide on the inner side of the action shell (12) in cooperation with the gear (141), contacts (143) fixedly connected to the upper end and the lower end of the inner side of the action shell (12) to control the sliding seat (13) to stop in place, and a motor (144) fixedly connected to the inner side of the sliding seat (13) to provide power for the gear (141).

4. The radar interactive projection system of claim 3, wherein: the motor (144) is fixedly connected with the gear (141) through a connecting shaft, the gear (141) is meshed with the toothed plate (142), the positions of the sliding seat (13) and the contacts (143) are corresponding and the specifications are matched, the contacts (143) trigger, the internal circuit of the motor (144) becomes a circuit breaker, and then the motor (144) stops being electrified.

5. The radar interactive projection system of claim 1, wherein: the electric telescopic rod (2) is coaxial with the mounting plate (21), the shell (22) is coaxial with the mounting plate (21), the circumference assembly (23) comprises a magnetic ring (231) fixedly connected inside the shell (22) and used for driving the water shell (24) to rotate, and a coil shaft (232) movably connected inside the shell (22) and used for being matched with the magnetic ring (231) to drive the water shell (24) to rotate, and the coil shaft (232) is fixedly connected with the outside of the water shell (24).

6. The radar interactive projection system of claim 1, wherein: the opening and closing assembly (25) comprises a connector (251) fixedly connected to the outside of the water shell (24) and used for adding cleaning fluid into the water shell (24), and a plug shaft (252) movably connected to the inside of the connector (251) and used for sealing and opening the connector (251), wherein the micropores (26) are corresponding to the positions of the cotton laminate (27) and are matched with each other in specification, and the cotton laminate (27) is corresponding to the positions of the projection lens (11) and is matched with the projection lens in specification.

7. The radar interactive projection system of claim 1, wherein: the fastening assembly (28) comprises a spiral ring (281) fixedly connected to the outside of the water shell (24) and used for fixing the cotton laminate (27), and an open-pore connecting plate (282) fixedly connected to the outside of the cotton laminate (27) and used for being matched with the spiral ring (281), and the open-pore connecting plate (282) and the spiral ring (281) are fixedly connected through screws.