CN114071936A - Hardware stabilization protection equipment for remote sensing image technology - Google Patents

Abstract

The utility model provides a protection equipment is stabilized to hardware for remote sensing image technique, including mounting panel, kinetic energy receiving arrangement, kinetic energy output device, limit control device, protection device, through other device of mounting panel installation, kinetic energy that kinetic energy receiving arrangement collected when meeting accident produced, kinetic energy output device exports the kinetic energy that kinetic energy receiving arrangement produced with single mode, limit control device receives kinetic energy output device's kinetic energy and drives functions such as protection device self-closure protection core position, its characterized in that: the kinetic energy receiving device is fixedly installed on the installation plate, the kinetic energy output device is fixedly installed on the installation plate, the limiting control device is fixedly installed on the installation plate, and the protection device is fixedly installed on the installation plate.

Description

Hardware stabilization protection equipment for remote sensing image technology

Technical Field

The invention relates to a hardware stabilization protection device, in particular to a hardware stabilization protection device for a remote sensing image technology.

Background

With the progress of the development era of the society, more and more technologies are introduced into our lives, the remote sensing image technology is one of the technologies, and the effect that we cannot achieve for specific situations is met, but the devices of the type are achieved through remote control, the remote control has an accident, corresponding equipment can be scrapped after the accident occurs, and the hardware stability protection equipment for the remote sensing image technology is invented aiming at the problem of equipment damage.

Disclosure of Invention

The invention relates to a hardware stabilization protection device, in particular to a hardware stabilization protection device for a remote sensing image technology.

For solving above-mentioned technical problem, a protection equipment is stabilized to hardware for remote sensing image technique, including mounting panel, kinetic energy receiving arrangement, kinetic energy output device, limit control device, protection device, through other devices of mounting panel installation, kinetic energy that the kinetic energy receiving arrangement produced when collecting the accident takes place, kinetic energy output device exports the kinetic energy that kinetic energy receiving arrangement produced with single mode, limit control device receives kinetic energy output device's kinetic energy and drives functions such as protection device self-closing protection core position, its characterized in that: the kinetic energy receiving device is fixedly installed on the installation plate, the kinetic energy output device is fixedly installed on the installation plate, the limiting control device is fixedly installed on the installation plate, and the protection device is fixedly installed on the installation plate.

As a further optimization of the technical scheme, the invention provides a hardware stabilization protection device for a remote sensing image technology, wherein the kinetic energy receiving device comprises a mounting cylinder, a sliding weight plate, a spring and a connecting column, the mounting cylinder is fixedly mounted on a mounting plate, the sliding weight plate is slidably mounted in the mounting cylinder, the spring is mounted in the mounting cylinder, and the connecting column is fixedly mounted on the sliding weight plate.

As a further optimization of the technical scheme, the invention relates to a hardware stabilization protection device for remote sensing image technology, wherein a kinetic energy output device comprises a movable slat, a first mounting groove, a matching fixing plate, a rotating tooth, a first fixing shaft, a first arc spring, a second mounting groove, a first mounting rack, a second fixing shaft, a first gear, a first rotating shaft, a second gear, a first sliding groove, a sliding ring, a first return spring, a first mounting cylinder, a second belt wheel, a first push matching groove, a first push hole bevel frame, a second rotating shaft, a fourth gear, a second sliding groove, a second sliding ring, a second return spring, a second mounting cylinder, a third belt wheel and a second push matching groove, the movable slat is mounted and fixed on a connecting column, the first mounting groove is arranged on the movable slat, the matching fixing plate is mounted and fixed inside the first mounting groove and the second mounting groove, the rotating tooth is rotatably mounted on the first fixing shaft, the first fixing shaft is fixedly installed inside the first mounting groove and the second mounting groove, the first arc-shaped spring is fixedly installed on the rotating teeth and the matching fixing plate, the second mounting groove is arranged on the movable slat, the first mounting frame is fixedly installed on the first mounting frame, the second fixing shaft is fixedly installed on the second mounting frame, the first rotating shaft is rotatably installed on the first mounting frame, the second gear is fixedly installed on the first rotating shaft, the second gear is meshed with the first gear, the first sliding groove is arranged on the first rotating shaft, the sliding ring is slidably installed on the first sliding groove, the reset spring is sleeved on the first rotating shaft, the first mounting barrel is fixedly installed on the first mounting frame, the first mounting barrel is sleeved on the first rotating shaft, the second belt wheel is rotatably installed on the first mounting barrel, the first push matching groove is arranged on the second belt wheel, the first push hole bevel frame is fixedly installed on the movable slat, and the second push hole bevel frame is fixedly installed on the movable slat, the second rotating shaft is rotatably installed on the first installation frame, the fourth gear is fixedly installed on the second rotating shaft, the second sliding groove is formed in the second rotating shaft, the second sliding ring is slidably installed on the second sliding groove, the second reset spring is sleeved on the second rotating shaft, the second installation cylinder is fixedly installed on the first installation frame, the third belt wheel is rotatably installed on the second installation cylinder, and the second push fit groove is formed in the third belt wheel.

As a further optimization of the technical scheme, the invention relates to a hardware stabilization protection device for remote sensing image technology, the limit control device comprises a second mounting frame, a third rotating shaft, a first receiving belt wheel, a first belt wheel, a second receiving belt wheel, a second belt wheel, an output gear, a fixed rod, a fixed square plate, a second spring, a movable rack, a limit quota groove, a mounting fixed plate, a square mounting tube, a third spring, a movable square plate and a limit inclined plate, the second mounting frame is mounted and fixed on a mounting plate, the third rotating shaft is rotatably mounted on the second mounting frame, the first receiving belt wheel is mounted and fixed on the third rotating shaft, the first belt is mounted on the first receiving belt wheel and the second belt wheel, the second receiving belt wheel is mounted and fixed on the third rotating shaft, the output gear is mounted and fixed on the third rotating shaft, the fixed rod is mounted and fixed on the mounting plate, the fixed square plate is mounted and fixed on the fixed rod, spring two suit is on the dead lever, removes rack slidable mounting on fixed square plate, and spacing quota groove sets up on removing the rack, removes rack and output gear meshing, and installation fixed plate installation is fixed on the mounting panel, and installation square tube installation is fixed on the installation fixed plate, and spring three is installed inside installation square tube, and removal square plate slidable mounting is inside installation square tube, and spacing inclined plane board installation is fixed on removing the square plate.

As a further optimization of the technical scheme, the invention relates to a hardware stabilization protection device for remote sensing image technology, which comprises a connecting and mounting block, a movement control ring, a pushing rotating column, a spring IV, a moving rotating cylinder, a mounting fixed rod, a mounting and connecting seat, a protection rotating plate, a protection seat and remote sensing hardware, wherein the connecting and mounting block is fixedly mounted on a moving rack, the movement control ring is fixedly mounted on the connecting and mounting block, the pushing rotating column is rotatably mounted on the movement control ring, the spring IV is mounted inside the moving rotating cylinder, the moving rotating cylinder is slidably mounted on the pushing rotating column, the moving rotating cylinder is rotatably mounted on the protection rotating plate, the mounting fixed rod is fixedly mounted on a mounting plate, the mounting and connecting seat is fixedly mounted on the mounting fixed rod, the protection rotating plate is rotatably mounted on the mounting and connecting seat, the protection seat is fixedly mounted on the protection rotating plate, the remote sensing hardware is fixedly arranged on the mounting and connecting seat.

As a further optimization of the technical scheme, the hardware stabilization protection device for the remote sensing image technology is characterized in that a first mounting groove and a second mounting groove of the kinetic energy output device are symmetrical, and a matching fixing plate, a rotating tooth, a first fixing shaft and an arc-shaped spring which are mounted inside the kinetic energy output device are also symmetrical.

The hardware stabilization protection equipment for the remote sensing image technology has the beneficial effects that:

the invention relates to hardware stabilization protection equipment, in particular to hardware stabilization protection equipment for a remote sensing image technology, which realizes the functions of installing other devices through an installation plate, collecting kinetic energy generated in an accident by a kinetic energy receiving device, outputting the kinetic energy generated by the kinetic energy receiving device in a single mode by a kinetic energy output device, receiving the kinetic energy of the kinetic energy output device by a limit control device, driving the protection device to close and protect a core part by self, and the like.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of a kinetic energy receiving device according to the present invention.

Fig. 4 is a schematic structural diagram of a kinetic energy receiving device according to the present invention.

Fig. 5 is a schematic structural diagram of a kinetic energy output device according to the present invention.

Fig. 6 is a schematic structural diagram of a kinetic energy output device according to the present invention.

Fig. 7 is a third schematic structural diagram of the kinetic energy output device of the present invention.

Fig. 8 is a fourth schematic structural diagram of the kinetic energy output device of the present invention.

Fig. 9 is a first structural schematic diagram of the limit control device of the present invention.

Fig. 10 is a schematic structural diagram of a second limit control device of the present invention.

Fig. 11 is a first structural diagram of the protection device of the present invention.

Fig. 12 is a schematic structural diagram of a protection device according to the present invention.

In the figure: 1. mounting a plate; 2. a kinetic energy receiving device; 201. mounting the cylinder; 202. sliding the weight plate; 203. a spring; 204. connecting columns; 3. a kinetic energy output device; 301. moving the lath; 302. a first mounting groove; 303. a fixed plate is matched; 304. rotating the teeth; 305. a first fixed shaft; 306. a first arc-shaped spring; 307. a second mounting groove; 308. a first mounting frame; 309. a second fixed shaft; 310. a first gear; 311. rotating a first shaft; 312. a second gear; 313. a first sliding groove; 314. a slip ring; 315. a first return spring; 316. mounting the first cylinder; 317. a second belt wheel; 318. pushing the first matching groove; 319. a pushing hole bevel frame I; 320. a second pushing hole inclined frame; 321. a second rotating shaft; 322. a fourth gear; 323. a second sliding groove; 324. a second sliding ring; 325. a second return spring; 326. a second mounting cylinder; 327. a third belt wheel; a second push fit groove 328; 4. a limit control device; 401. a second mounting frame; a third rotating shaft 402; 403. a first receiving belt wheel; 404. a first belt; 405. a second receiving belt wheel; 406. a second belt; 407. an output gear; 408. fixing the rod; 409. fixing the square plate; 410. a second spring; 411. moving the rack; 412. a limit quota slot; 413. mounting a fixed plate; 414. installing a square cylinder; 415. a third spring; 416. moving the square plate; 417. a limiting inclined plane plate; 5. a protection device; 501. connecting the mounting blocks; 502. a mobile control loop; 503. pushing the rotating column; 504. a fourth spring; 505. moving the rotary drum; 506. mounting a fixed rod; 507. mounting a connecting seat; 508. protecting the rotating plate; 509. a protective seat; 510. remote sensing hardware.

Detailed Description

The first embodiment is as follows:

in order to solve the above technical problems, the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and a hardware stabilization protection device for remote sensing image technology, including a mounting board 1, a kinetic energy receiving device 2, a kinetic energy output device 3, a limit control device 4, and a protection device 5, where other devices are mounted through the mounting board, the kinetic energy receiving device collects kinetic energy generated by an accident, the kinetic energy output device outputs the kinetic energy generated by the kinetic energy receiving device in a single manner, and the limit control device receives the kinetic energy of the kinetic energy output device to drive the protection device to self-close and protect a core part, and is characterized in that: the kinetic energy receiving device 2 is fixedly arranged on the mounting plate 1, the kinetic energy output device 3 is fixedly arranged on the mounting plate 1, the limit control device 4 is fixedly arranged on the mounting plate 1, and the protection device 5 is fixedly arranged on the mounting plate 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment, when the apparatus encounters a special condition, the apparatus will collide with other external objects, at a moment of the collision, the sliding weight plate 202 inside the kinetic energy receiving device 2 will move under the effect of inertia and compress the spring 203, and the moving sliding weight plate 202 will drive the moving slat 301 of the kinetic energy output device 3 to move through the connecting column 204.

The third concrete implementation mode:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12 for describing the first embodiment, when the movable slat 301 moves upward, the movable slat 301 drives the second push-hole-ramp rack 320 to move, the second push-hole-ramp rack 320 pushes the second slide ring 324 to move by engaging the second slide ring 324, so that the strip on the second slide ring 324 enters the second push-engagement slot 328 of the third pulley 327, and at the same time, because of the position of the installation of the rotary teeth 304 in the first installation slot 302, when the movable slat 301 moves upward, the rotary teeth 304 at the lower end can drive the fourth gear 322 to rotate, while the rotary teeth 304 at the upper end cannot drive the first gear 310 to rotate, and the rotary teeth 304 at the lower end cannot move to the position of the first gear 310 to engage with the first gear 310, so that the rotary teeth 322 are driven to rotate when the movable slat 301 moves upward, when the movable slat 301 moves downwards, the gear four 322 drives the sliding ring two 324 to rotate through the rotating shaft two 321, the sliding ring two 324 drives the pulley three 327 to rotate, because the position of the rotating tooth 304 mounted inside the mounting groove two 307 can only drive the gear one 310 to rotate, and meanwhile, the hole bevel frame one 319 is pushed to enable the sliding ring 314 to be matched with the pulley two 317, then the gear one 310 drives the gear two 312 to rotate, the gear two 312 drives the pulley two 317 to rotate through the rotating shaft one 311 and the sliding ring 314, so that the rotating directions of the pulley two 317 and the pulley three 327 are the same, each state is one of the rotation, so when the equipment is impacted, one pulley rotates, and because the pushing of the hole bevel frame one 319 and the pushing hole bevel frame two 320 controls the sliding ring two 324 to be matched with the pulley three 327 and the sliding ring 314 to be matched with the pulley two 317, when one pulley rotates, the other pulley does not produce a push on the moving slat 301 by the associated gear.

The fourth concrete implementation mode:

in the following, referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, to describe this embodiment, the first embodiment is further described, the first rotating pulley 317 or the third rotating pulley 327 drives the first receiving pulley 403 or the second receiving pulley 405 to rotate through the first belt 404 or the second belt 406 of the position limiting control device 4, then the first receiving pulley 403 or the second receiving pulley 405 drives the third rotating shaft 402 to rotate, the third rotating shaft 402 drives the output gear 407 to rotate, the rotating output gear 407 drives the moving rack 411 to move on the fixed square plate 409 and compress the second spring 410, and then the position limiting inclined plate 417 inside the installation square tube 414 acts on the third spring 415 to prevent the moving rack 411 from moving in the direction of the second spring 410. The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the present embodiment, the moving rack 411 drives the moving control ring 502 of the protection device 5 to move, and the moving control ring 502 drives the pushing rotation column 503 to move, but due to the limitation of the moving rotation cylinder 505, the moving rotation cylinder 505 pushes the protection rotation plate 508 to rotate around the position of the installation connection seat 507, and then the protection seat 509 inside the protection rotation plate 508 wraps the remote sensing hardware 510 to protect it.

The sixth specific implementation mode:

in the following, the present embodiment is described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the third embodiment is further described, in which the first mounting groove 302 and the second mounting groove 307 of the kinetic energy output device 3 are symmetrical, and the internally mounted engagement fixing plate 303, the rotating tooth 304, the first fixing shaft 305, and the first arc spring 306 are also symmetrical.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a protection equipment is stabilized to hardware for remote sensing image technique, includes mounting panel (1), kinetic energy receiving arrangement (2), kinetic energy output device (3), limit control device (4), protection device (5), its characterized in that: the kinetic energy receiving device (2) is fixedly installed on the installation plate (1), the kinetic energy output device (3) is fixedly installed on the installation plate (1), the limiting control device (4) is fixedly installed on the installation plate (1), and the protection device (5) is fixedly installed on the installation plate (1).

2. The hardware stabilization protection device for remote sensing image technology according to claim 1, wherein: kinetic energy receiving arrangement (2) including installation section of thick bamboo (201), slip counter weight dish (202), spring (203), spliced pole (204), installation section of thick bamboo (201) installation is fixed on mounting panel (1), slip counter weight dish (202) slidable mounting is inside installation section of thick bamboo (201), spring (203) are installed inside installation section of thick bamboo (201), spliced pole (204) installation is fixed on slip counter weight dish (202).

3. The hardware stabilization protection device for remote sensing image technology according to claim 1, wherein: the kinetic energy output device (3) comprises a movable lath (301), a first mounting groove (302), a matching fixing plate (303), a rotating tooth (304), a first fixing shaft (305), a first arc-shaped spring (306), a second mounting groove (307), a first mounting frame (308), a second fixing shaft (309), a first gear (310), a first rotating shaft (311), a second gear (312), a first sliding groove (313), a sliding ring (314), a first reset spring (315), a first mounting cylinder (316), a second belt wheel (317), a first pushing matching groove (318), a first pushing hole bevel frame (319), a second pushing hole bevel frame (320), a second rotating shaft (321), a fourth gear (322), a second sliding groove (323), a second sliding ring (324), a second reset spring (325), a second mounting cylinder (326), a third belt wheel (327) and a second pushing matching groove (328), wherein the movable lath (301) is fixedly arranged on the connecting column (204), the first mounting groove (302) is arranged on the movable slat (301), the first matching fixing plate (303) is fixedly installed inside the first mounting groove (302) and the second mounting groove, the rotating tooth (304) is rotatably installed on the first fixing shaft (305), the first fixing shaft (305) is fixedly installed inside the first mounting groove (302) and the second mounting groove, the first arc-shaped spring (306) is fixedly installed on the rotating tooth (304) and the second matching fixing plate (303), the second mounting groove (307) is arranged on the movable slat (301), the first mounting frame (308) is fixedly installed on the mounting plate (1), the second fixing shaft (309) is fixedly installed on the first mounting frame (308), the first gear (310) is rotatably installed on the second fixing shaft (309), the first rotating shaft (311) is rotatably installed on the first mounting frame (308), the second gear (312) is fixedly installed on the first rotating shaft (311), and the second gear (312) is meshed with the first gear (310), a first sliding groove (313) is arranged on a first rotating shaft (311), a sliding ring (314) is slidably arranged on the first sliding groove (313), a first return spring (315) is sleeved on the first rotating shaft (311), a first mounting cylinder (316) is fixedly arranged on a first mounting frame (308), a first mounting cylinder (316) is sleeved on the first rotating shaft (311), a second belt wheel (317) is rotatably arranged on the first mounting cylinder (316), a first push matching groove (318) is arranged on a second belt wheel (317), a first push hole bevel frame (319) is fixedly arranged on a movable lath (301), a second push hole bevel frame (320) is fixedly arranged on the movable lath (301), a second rotating shaft (321) is rotatably arranged on the first mounting frame (308), a fourth gear (322) is fixedly arranged on the second rotating shaft (321), a second sliding groove (323) is arranged on the second rotating shaft (321), and a second sliding ring (324) is slidably arranged on the second sliding groove (323), the second reset spring (325) is sleeved on the second rotating shaft (321), the second mounting cylinder (326) is fixedly mounted on the first mounting frame (308), the third belt wheel (327) is rotatably mounted on the second mounting cylinder (326), and the second pushing matching groove (328) is formed in the third belt wheel (327).

4. The hardware stabilization protection device for remote sensing image technology according to claim 1, wherein: the limiting control device (4) comprises a second mounting frame (401), a third rotating shaft (402), a first receiving belt wheel (403), a first belt wheel (404), a second receiving belt wheel (405), a second belt wheel (406), an output gear (407), a fixing rod (408), a fixing square plate (409), a second spring (410), a movable rack (411), a limiting quota groove (412), a mounting and fixing plate (413), a square mounting tube (414), a third spring (415), a moving square plate (416) and a limiting inclined plane plate (417), wherein the second mounting frame (401) is mounted and fixed on the mounting plate (1), the third rotating shaft (402) is rotatably mounted on the second mounting frame (401), the first receiving belt wheel (403) is mounted and fixed on the third rotating shaft (402), the first belt wheel (404) is mounted on the first receiving belt wheel (403) and the second belt wheel (317), and the second receiving belt wheel (405) is mounted and fixed on the third rotating shaft (402), the belt II (406) is installed on the receiving belt wheel II (405) and the belt wheel III (327), the output gear (407) is installed and fixed on the rotating shaft III (402), the fixing rod (408) is installed and fixed on the installation plate (1), the fixing square plate (409) is installed and fixed on the fixing rod (408), the spring II (410) is sleeved on the fixing rod (408), the moving rack (411) is installed and fixed on the fixing square plate (409) in a sliding mode, the limiting quota groove (412) is formed in the moving rack (411), the moving rack (411) is meshed with the output gear (407), the installation fixing plate (413) is installed and fixed on the installation plate (1), the installation square barrel (414) is installed and fixed on the installation fixing plate (413), the spring III (415) is installed inside the installation square barrel (414), the moving square plate (416) is installed and fixed inside the installation square barrel (414), and the limiting inclined plate (417) is installed and fixed on the moving square barrel (416).

5. The hardware stabilization protection device for remote sensing image technology according to claim 1, wherein: the protection device (5) comprises a connecting installation block (501), a mobile control ring (502), a pushing rotating column (503), a spring four (504), a mobile rotating cylinder (505), an installation fixing rod (506), an installation connecting seat (507), a protection rotating plate (508), a protection seat (509) and remote sensing hardware (510), wherein the connecting installation block (501) is installed and fixed on a mobile rack (411), the mobile control ring (502) is installed and fixed on the connecting installation block (501), the pushing rotating column (503) is installed on the mobile control ring (502) in a rotating mode, the spring four (504) is installed inside the mobile rotating cylinder (505), the mobile rotating cylinder (505) is installed on the pushing rotating column (503) in a sliding mode, the mobile rotating cylinder (505) is installed on the protection rotating plate (508) in a rotating mode, the installation fixing rod (506) is installed and fixed on an installation fixing rod (1), and the installation connecting seat (507) is installed and fixed on the installation fixing rod (506), the protection rotating plate (508) is rotatably installed on the installation and connection base (507), the protection base (509) is installed and fixed on the protection rotating plate (508), and the remote sensing hardware (510) is installed and fixed on the installation and connection base (507).

6. The hardware stabilization protection device for remote sensing image technology according to claim 3, wherein: the first mounting groove (302) and the second mounting groove (307) of the kinetic energy output device (3) are symmetrical, the matching fixing plate (303), the rotating teeth (304), the first fixing shaft (305) and the first arc-shaped spring (306) which are mounted inside are also symmetrical, and the sliding ring (314) and the second sliding ring (324) are provided with strips.

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