CN115802179B - Ecological environment treatment device for preventing and controlling geological disasters - Google Patents

Abstract

The invention discloses an ecological environment treatment device for preventing and controlling geological disasters, which belongs to the technical field of ecological environment restoration and comprises two outer support plates, wherein a frame is connected to the outer support plates in a sliding manner, a main body support is fixedly connected to the frame, a cover plate is fixedly connected to the main body support, two solar panels are rotatably connected to the cover plate, and a water collecting tank is arranged on the cover plate; the frame is provided with a sowing component for sowing plant seeds; the frame is provided with a soil loosening assembly for loosening soil and digging hard objects such as stones and the like; the main body support is provided with a collapse detection assembly which is used for detecting whether the collapse risk exists on the ground or not and finishing treatment. The invention can detect whether the subsidence risk exists on the ground and solve the problem when sowing vegetation on the repair region, and prevent the loss caused by subsidence of the region under the uncontrollable condition.

Description

Ecological environment treatment device for preventing and controlling geological disasters

Technical Field

The invention relates to the technical field of ecological environment restoration, in particular to an ecological environment treatment device for preventing and controlling geological disasters.

Background

In recent years, with the rapid development of national economy in China, the force of manpower engineering activities such as various resource development and engineering construction activities is generally increased, huge pressure is brought to the geological environment in China, the frequency and scale of geological disasters tend to be increased year by year, a great amount of economic losses are caused each year, a great amount of casualties are caused, most of geological disasters are caused by water and soil loss, and in order to reduce the geological disasters caused by water and soil loss, a great amount of vegetation is planted at the water and soil loss positions to prevent the water and soil loss.

The bulletin number in the prior art is: CN111266401B provides an ecological environment restoration device, which comprises a device support, a lifting support, a cam mechanism i, a collecting mechanism, a soil conveying mechanism i, a soil conveying mechanism ii, a shaking mechanism, a cam mechanism ii, a feeding mechanism and an inclined frame. The advantages are that: can move through device support thrust unit, lifting support can go up and down, collect mechanism and ground and contact the soil on ground and promote backward and collect on the soil conveying mechanism I, soil conveying mechanism I carries the soil promotion of collecting to the soil conveying mechanism II on, soil conveying mechanism II transports the shake mechanism with soil on, cam mechanism II drives shake mechanism and reciprocates shake, soil restoration material has been placed in the feed mechanism, soil restoration material intermittent type in the feed mechanism drops on shake mechanism and soil mixes, mix the soil that the completion drops on the slope frame, fall subaerial, soil restoration is accomplished. The defects are that: the device cannot detect whether the ground is at risk of collapse or not and solve the risk; when the device encounters a front obstacle, the device can only walk around, so that the repairing effect of partial areas is poor.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the existing device can not detect whether the ground has the risk of collapse or not and solve the risk; when the existing device encounters a front obstacle, the existing device can only walk around, so that the repairing effect of a part of the area is poor.

Aiming at the technical problems, the invention adopts the following technical scheme: the ecological environment treatment device for preventing and controlling geological disasters comprises two outer support plates, a frame is slidably connected to the outer support plates, a main body support is fixedly connected to the frame, a cover plate is fixedly connected to the main body support, two solar panels are rotatably connected to the cover plate, and a water collecting tank is arranged on the cover plate; the frame is provided with a sowing component for sowing plant seeds; the frame is provided with a soil loosening assembly for loosening soil and digging hard objects such as stones and the like; the main body support is provided with a collapse detection assembly which is used for detecting whether the ground is at risk of collapsing or not and finishing treatment.

Preferably, the cover plate on two water collecting slide blocks of sliding connection, the rotation is connected with the connecting rod on every water collecting slide block, the connecting rod rotates with the solar panel of homonymy to be connected, the cover plate on two water collecting motors of fixed connection, the fixed connection has the lead screw on every water collecting motor, lead screw and water collecting slide block threaded connection.

Preferably, the water collecting tank is fixedly connected with a water collecting pipe, the water collecting pipe is fixedly connected with a water collecting tank, the water collecting tank is fixedly connected with two water supply pipes, and each water supply pipe is provided with a water supply valve.

Preferably, the outer support plate on fixed mounting advance motor, advance motor on fixed mounting track drive gear, outer support plate on rotate and install three track wheel, the cover is equipped with the track on the three track wheel, track drive gear and keep away from the track wheel meshing on ground.

Preferably, the main body support is connected with the transverse moving slide plate in a sliding manner, the transverse moving slide plate is connected with the vertical moving slide plate in a sliding manner, the hammering box is fixedly connected with the vertical moving slide plate, the transverse moving motor is fixedly connected with the transverse moving motor, the transverse moving motor is fixedly connected with two transverse moving gears, the transverse moving slide plate is fixedly connected with two transverse moving racks, the transverse moving gears are meshed with the transverse moving racks, the vertical moving slide plate is fixedly connected with two vertical moving racks, the vertical moving motor is fixedly connected with two vertical moving gears, and the vertical moving gears are meshed with the vertical moving racks; the hammering box on fixed connection hammering motor, fixed connection camshaft on the hammering motor, camshaft and hammering box rotate to be connected, a plurality of cams of fixed connection on the camshaft, hammering box on a plurality of hammering pieces of sliding connection, sliding connection hammering reset spring on the hammering piece, hammering reset spring other end fixed connection is on hammering box.

Preferably, the frame on sliding connection seed deposit the case, two conveying pipes of fixed connection on the seed deposit the case, the frame on fixed connection seeding electricity jar seat, fixed connection seeding electricity jar on the seeding electricity jar seat, fixed connection seeding support on the other end of seeding electricity jar, seeding support both sides are fixed connection ejection of compact dish respectively, conveying pipe and ejection of compact dish fixed connection, rotate on the seeding support and connect the seeding pivot, fixed connection seeding output gear in the seeding pivot, the frame on fixed connection seeding motor, fixed connection seeding input gear on the seeding motor, seeding input gear and seeding output gear engagement.

Preferably, the seeding pivot both ends fixed connection seeding dish respectively, rotate on the seeding dish and connect the discharging dish, discharging dish and seeding pivot rotate and be connected, seeding dish on a plurality of seeding boxes of sliding connection, fixed connection seeding reset spring on the seeding box, seeding reset spring other end fixed connection is on the seeding dish, discharging dish on sliding connection feeding valve, a plurality of valve springs of fixed connection on the feeding valve, valve spring fixed connection is on the discharging dish, the seeding box on be provided with feed inlet and bin outlet.

Preferably, two sides of the frame are respectively and fixedly connected with a lifting motor, two lifting gears are fixedly connected on the lifting motor, two sides of the outer support plate are respectively and fixedly connected with two lifting racks, and the lifting racks are meshed with the lifting gears.

Preferably, the frame both sides be provided with the spout, fixed connection electricity jar seat loosens soil on the frame, a plurality of electricity jar loosens soil of fixed connection on the electricity jar seat loosens soil, a plurality of push pedal electricity jar of fixed connection on the frame, push pedal electricity jar other end fixed connection sliding plate seat, sliding plate seat and frame sliding connection, sliding connection sliding plate on the sliding plate seat is provided with the spring between sliding plate seat and the sliding plate, rotates on the sliding plate and connects the pivot that loosens soil, the epaxial fixed connection board that loosens soil, the pole that loosens soil, the pivot that loosens soil slides on the spout of frame.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the ecological environment treatment device for preventing and controlling geological disasters, the subsidence detection assembly is arranged, so that the ground which is likely to collapse can be directly hammered in advance, and the ground is prevented from collapsing under the uncontrollable condition; (2) According to the ecological environment treatment device for preventing and controlling geological disasters, provided by the invention, the lifting motor, the lifting gear and the lifting rack are arranged, so that the device can directly pass over but not bypass when encountering obstacles, a region capable of being planted is not missed, and the repairing effect is improved; (3) According to the ecological environment treatment device for preventing and controlling geological disasters, provided by the invention, the solar panel, the water collecting tank, the cover plate, the connecting rod and the water collecting motor are arranged, so that rainwater in a rainy day can be collected and used for seed irrigation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the whole structure of the present invention in front view.

Fig. 3 is a right view angle schematic diagram of the overall structure of the present invention.

Fig. 4 is a schematic view of a solar panel and a cover plate.

FIG. 5 is a schematic view of a collapse detection assembly.

Fig. 6 is a schematic view of a hammering block structure.

Fig. 7 is a schematic view of a partial structure of the present invention.

Fig. 8 is a schematic view of a seeding assembly.

Fig. 9 is a schematic view of a structure of a seed tray and a seed box.

Fig. 10 is a schematic view of a frame structure.

Fig. 11 is a schematic view of a soil loosening assembly.

Reference numerals: 2-collapse detection assembly; 3-a seeding assembly; 4-a soil loosening assembly; 101-a solar panel; 102-a water collection tank; 103-cover plate; 104-a connecting rod; 105-track wheel; 106-caterpillar tracks; 107-track drive gear; 108-a lead screw; 109-an outer support plate; 110-a water collection motor; 111-a main body stent; 112-a water collecting pipe; 113-a water collection tank; 114-a water supply pipe; 115-a water supply valve; 116-frame; 117-lifting motor; 118-lifting gear; 119-lifting the rack; 120-advancing motor; 121-a water collecting slide block; 201-hammering box; 202-vertically moving a slide plate; 203-traversing racks; 204-vertically moving a rack; 205-vertical movement motor; 206-traversing the motor; 207-vertical shift gear; 208-traversing gears; 209-hammering motor; 210-hammering the block; 211-a sideslip slide plate; 212-a camshaft; 213-cams; 214-hammering the return spring; 301-sowing motor; 302-a seeding tray; 303-seeding an input gear; 304-a seed storage bin; 305-seeding an output gear; 306-seeding the electric cylinder seat; 307-seeding electric cylinders; 308-sowing a bracket; 309-sowing rotating shafts; 310-a discharge tray; 311-sowing box; 312-feeding tube; 313-sowing a return spring; 314—a feed valve; 315-valve spring; 401-a soil loosening electric cylinder seat; 402-a soil loosening electric cylinder; 403-push plate electric cylinder; 404-sliding plate seat; 405-a soil loosening plate; 406-a sliding plate; 407-a soil loosening rotary shaft; 408-a soil loosening rod.

Detailed Description

The technical scheme of the invention is further described below by means of specific embodiments in combination with the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: as shown in fig. 1, 2, 3, 4 and 7, a frame 116 is slidably connected to an outer support plate 109, a main body support 111 is fixedly connected to the frame 116, a cover plate 103 is fixedly connected to the main body support 111, two solar panels 101 are rotatably connected to the cover plate 103, and a water collecting tank 102 is arranged on the cover plate 103; the frame 116 is provided with a sowing component 3 for sowing plant seeds; the frame 116 is provided with a soil loosening assembly 4 for loosening soil and cleaning hard objects such as stones buried in the soil; the main body support 111 is provided with a collapse detection assembly 2 for detecting the collapse of the ground and completing the treatment; two water collecting sliding blocks 121 are connected to the cover plate 103 in a sliding manner, a connecting rod 104 is connected to each water collecting sliding block 121 in a rotating manner, the connecting rod 104 is connected with the solar panel 101 on the same side in a rotating manner, two water collecting motors 110 are fixedly connected to the cover plate 103, a lead screw 108 is fixedly connected to each water collecting motor 110, and the lead screw 108 is in threaded connection with the water collecting sliding blocks 121; the water collecting tank 102 is fixedly connected with a water collecting pipe 112, the water collecting pipe 112 is fixedly connected with a water collecting tank 113, the water collecting tank 113 is fixedly connected with two water supply pipes 114, and each water supply pipe 114 is provided with a water supply valve 115; the outer support plate 109 is fixedly provided with a forward motor 120, the forward motor 120 is fixedly provided with a track driving gear 107, the outer support plate 109 is rotatably provided with three track wheels 105, the three track wheels 105 are sleeved with tracks 106, and the track driving gear 107 is meshed with the track wheels 105 far away from the ground. The crawler belt driving gear 107 is driven by the forward motor 120, so that the crawler belt wheel 105 rotates, the crawler belt 106 is driven by the crawler belt wheel 105 to realize forward movement, and when one forward motor 120 is started and the other forward motor 120 is not started, turning is realized; at ordinary times, the solar panel 101 can rely on the sun to produce electric energy, and when raining, the motor 110 that catchments starts for lead screw 108 drives the slider 121 that catchments, and the slider 121 that catchments drives connecting rod 104 and makes solar panel 101 prop up, and two solar panel 101 are V-arrangement this moment, and the rainwater is in the collection tank 102 after falling on solar panel 101, and the water in the collection tank 102 is collected by header tank 113 through collector pipe 112, opens water supply valve 115 and makes the water in header tank 113 flow through delivery pipe 114 when required.

As shown in fig. 5 and 6, a sliding plate 211 is slidingly connected on the main body support 111, a vertical sliding plate 202 is slidingly connected on the sliding plate 211, a hammering box 201 is fixedly connected on the vertical sliding plate 202, a sliding motor 206 is fixedly connected on the main body support 111, two sliding gears 208 are fixedly connected on the sliding motor 206, two sliding racks 203 are fixedly connected on the sliding plate 211, the sliding gears 208 are meshed with the sliding racks 203, two vertical sliding racks 204 are fixedly connected on the vertical sliding plate 202, a vertical sliding motor 205 is fixedly connected on the sliding plate 211, two vertical sliding gears 207 are fixedly connected on the vertical sliding motor 205, and the vertical sliding gears 207 are meshed with the vertical sliding racks 204; the hammering motor 209 is fixedly connected to the hammering box 201, the cam shaft 212 is fixedly connected to the hammering motor 209, the cam shaft 212 is rotationally connected to the hammering box 201, the cams 213 are fixedly connected to the cam shaft 212, the hammering box 201 is slidably connected with the hammering blocks 210, the hammering block 210 is slidably connected with the hammering reset spring 214, and the other end of the hammering reset spring 214 is fixedly connected to the hammering box 201. When the device moves forward, the transverse moving motor 206 is started, the transverse moving sliding plate 211 is pushed out through the transverse moving gear 208, the hammering box 201 is provided with a detection device, when the detection device detects that collapse and sinking possibility exists below, the vertical moving motor 205 is started, the vertical moving sliding plate 202 moves downwards through the vertical moving gear 207, then the hammering motor 209 is started to enable the cam 213 to strike the hammering block 210, the hammering block 210 hammers the ground downwards, and the problem that the ground possibly sinks is solved.

As shown in fig. 7, 8 and 9, a seed storage box 304 is slidingly connected on a frame 116, two feeding pipes 312 are fixedly connected on the seed storage box 304, a seeding electric cylinder seat 306 is fixedly connected on the frame 116, a seeding bracket 308 is fixedly connected on the other end of the seeding electric cylinder seat 306, two sides of the seeding bracket 308 are respectively fixedly connected with a discharging disc 310, the feeding pipes 312 are fixedly connected with the discharging disc 310, a seeding rotating shaft 309 is rotatably connected on the seeding bracket 308, a seeding output gear 305 is fixedly connected on the seeding rotating shaft 309, a seeding motor 301 is fixedly connected on the frame 116, a seeding input gear 303 is fixedly connected on the seeding motor 301, and the seeding input gear 303 is meshed with the seeding output gear 305; the seeding rotating shaft 309 both ends are fixed connection seeding dish 302 respectively, rotate on the seeding dish 302 and connect the discharging dish 310, discharging dish 310 rotates with the seeding rotating shaft 309 to be connected, a plurality of seeding boxes 311 of sliding connection on the seeding dish 302, fixed connection seeding reset spring 313 on the seeding box 311, seeding reset spring 313 other end fixed connection is on the seeding dish 302, sliding connection feeding valve 314 on the discharging dish 310, a plurality of valve springs 315 of fixed connection on the feeding valve 314, valve spring 315 fixed connection is on the discharging dish 310, be provided with feed inlet and bin outlet on the seeding box 311. When seeding is needed, the seeding electric cylinder 307 is started, the seeding bracket 308 is enabled to descend, the seeding box 311 can be inserted into the ground, then seeds in the seed storage box 304 reach the feeding valve 314 through the feeding pipe 312, the seeding motor 301 is started, the seeding input gear 303 drives the seeding output gear 305 to rotate, the seeding output gear 305 enables the seeding disc 302 to rotate, the purpose that a plurality of seeding boxes 311 perform carousel seeding is achieved, when one seeding box 311 is inserted into the ground, the seeding return spring 313 is compressed, the seeding box 311 is retracted, the feeding valve 314 is driven to retract when the seeding box 311 is retracted, the valve spring 315 is compressed, after the feeding valve 314 is retracted, the feeding valve 314 does not block seeds in the feeding pipe 312, at this time, the seeds can flow to the feeding hole of the seeding box 311, and then are discharged to the ground from the discharging hole of the seeding box 311, and seeding is completed.

As shown in fig. 10 and 11, two sides of the frame 116 are respectively and fixedly connected with a lifting motor 117, two lifting gears 118 are fixedly connected to the lifting motor 117, two sides of the outer support plate 109 are respectively and fixedly connected with two lifting racks 119, and the lifting racks 119 are meshed with the lifting gears 118; the frame 116 both sides are provided with the spout, fixed connection electricity jar seat 401 loosens soil on the frame 116, a plurality of electricity jar 402 loosens soil of fixed connection on the electricity jar seat 401 loosens soil, a plurality of push pedal electricity jar 403 of fixed connection on the frame 116, push pedal electricity jar 403 other end fixed connection sliding plate seat 404, sliding plate seat 404 and frame 116 sliding connection, sliding plate 406 of sliding connection on the sliding plate seat 404, be provided with the spring between sliding plate seat 404 and the sliding plate 406, rotate on the sliding plate 406 and connect the pivot 407 loosens soil, the fixed connection board 405 loosens soil on the pivot 407 loosens soil, the pole 408 loosens soil, pivot 407 slides on the spout of frame 116 loosens soil. When the device goes forward to meet a large shelter, the lifting motor 117 is started, the lifting gear 118 drives the lifting rack 119, so that the frame 116 rises, the purpose of improving the chassis is achieved, and the shelter is driven through; when sowing is performed, the push plate electric cylinder 403 is started, so that the push plate electric cylinder 403 pushes the sliding plate seat 404, and as the soil loosening rotary shaft 407 slides on the frame 116, when the sliding plate seat 404 slides in a direction away from the sowing assembly 3, a spring between the sliding plate seat 404 and the sliding plate 406 is compressed, the sliding plate 406 slides downwards, the soil loosening rod 408 is inserted into soil, and then the soil loosening electric cylinder 402 is started, the soil loosening electric cylinder 402 pushes the soil loosening plate 405, so that the soil loosening rod 408 rotates by taking the soil loosening rotary shaft 407 as a circle center, and the purposes of loosening soil and planing hard objects such as stones are achieved.

Working principle: when the device is used, firstly, the forward motor 120 is started, the crawler belt 106 is indirectly driven by the forward motor 120, so that the device starts to travel, at the moment, the transverse moving motor 206 is started, the transverse moving sliding plate 211 is indirectly driven by the transverse moving motor 206, the hammering box 201 stretches out, then the hammering box 201 is detected by the detector on the hammering box 201, if the front of the device has the risk of sinking and collapsing, then the vertical moving motor 205 is started, the hammering box 201 descends, then the hammering motor 209 is started, the hammering blocks 210 are used for hammering the ground in turn, and the problem that the ground has the risk of sinking and collapsing is solved; then the hammering motor 209 is stopped, the hammering block 210 is reset under the action of the hammering reset spring 214, and the vertical moving motor 205 is reversed to reset the hammering box 201; when the device is planted, the push plate electric cylinder 403 is started, the soil in front of the device is loosened by the soil loosening rod 408 through repeated expansion and contraction of the push plate electric cylinder 403, and hard objects such as stones are scraped, if a large shielding object is encountered in the forward process of the device, the lifting motor 117 is started, the lifting rack 119 is indirectly driven by the lifting motor 117, the frame 116 is lifted, and the device can span the shielding object at the moment; on the other hand, when the soil is loosened by the soil loosening rod 408, the seeding cylinder 307 and the seeding motor 301 are started to enable the seeding tray 302 to rotate while descending, at this time, the seeding box 311 is pressed on the ground, seeds are delivered from the seed storage box 304 to the feeding valve 314 through the feeding pipe 312, then delivered to the seeding box 311 through the feeding valve 314, finally the seeds are sown in the ground through the seeding box 311, and at the same time of sowing the seeds in the seeding box 311, the water supply valve 115 is opened to enable water in the water collecting box 113 to flow out through the water supply pipe 114 to water the sown seeds.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (8)

1. An ecological environment administers device for geological disaster prevention and cure which characterized in that: the solar energy power generation device comprises two outer support plates (109), a frame (116) is slidably connected to the outer support plates (109), a main body support (111) is fixedly connected to the frame (116), a cover plate (103) is fixedly connected to the main body support (111), two solar energy plates (101) are rotatably connected to the cover plate (103), and a water collecting tank (102) is arranged on the cover plate (103); the frame (116) is provided with a sowing component (3) for sowing plant seeds; the frame (116) is provided with a soil loosening assembly (4) for loosening soil and digging hard objects such as stones and the like; the main body support (111) is provided with a collapse detection assembly (2), and the collapse detection assembly (2) comprises a hammering box (201) and a vertical sliding plate (202) which are used for detecting whether the ground is at a collapse risk or not and finishing treatment;

the device is characterized in that a main body support (111) is connected with a transverse sliding plate (211) in a sliding manner, a vertical moving sliding plate (202) is connected with the transverse sliding plate (211) in a sliding manner, a hammering box (201) is fixedly connected with the vertical moving sliding plate (202), a transverse moving motor (206) is fixedly connected with the main body support (111), two transverse moving gears (208) are fixedly connected with the transverse moving motor (206), two transverse moving racks (203) are fixedly connected with the transverse moving sliding plate (211), the transverse moving gears (208) are meshed with the transverse moving racks (203), two vertical moving racks (204) are fixedly connected with the vertical moving sliding plate (202), two vertical moving gears (207) are fixedly connected with the vertical moving motor (205), and the vertical moving gears (207) are meshed with the vertical moving racks (204); hammering box (201) on fixed connection hammering motor (209), fixed connection camshaft (212) on hammering motor (209), camshaft (212) rotate with hammering box (201) to be connected, a plurality of cams (213) of fixed connection on camshaft (212), hammering box (201) on a plurality of hammering pieces (210) of sliding connection, hammering piece (210) on sliding connection hammering reset spring (214), hammering reset spring (214) other end fixed connection is on hammering box (201).

2. An ecological environment remediation device for geological disaster control according to claim 1 wherein: two water collecting slide blocks (121) are connected to the cover plate (103) in a sliding mode, a connecting rod (104) is connected to each water collecting slide block (121) in a rotating mode, the connecting rod (104) is connected with the solar panel (101) on the same side in a rotating mode, two water collecting motors (110) are fixedly connected to the cover plate (103), a lead screw (108) is fixedly connected to each water collecting motor (110), and the lead screw (108) is in threaded connection with the water collecting slide blocks (121).

3. An ecological environment remediation device for geological disaster control according to claim 1 wherein: the water collecting tank (102) is fixedly connected with a water collecting pipe (112), the water collecting pipe (112) is fixedly connected with a water collecting tank (113), the water collecting tank (113) is fixedly connected with two water supply pipes (114), and each water supply pipe (114) is provided with a water supply valve (115).

4. An ecological environment remediation device for geological disaster control according to claim 1 wherein: the outer support plate (109) on fixed mounting preceding motor (120), on preceding motor (120) fixed mounting track drive gear (107), outer support plate (109) on rotate and install three crawler wheel (105), the cover is equipped with track (106) on three crawler wheel (105), track drive gear (107) and keep away from ground crawler wheel (105) meshing.

5. An ecological environment remediation device for geological disaster control according to claim 1 wherein: the utility model provides a frame (116) on sliding connection seed deposit case (304), two conveying pipes (312) of fixed connection on seed deposit case (304), frame (116) on fixed connection seeding electricity jar seat (306), fixed connection seeding electricity jar (307) on seeding electricity jar seat (306), fixed connection seeding support (308) on seeding electricity jar (307) other end, seeding support (308) both sides are fixed connection ejection of compact dish (310) respectively, conveying pipe (312) and ejection of compact dish (310) fixed connection, rotate on seeding support (308) and connect seeding pivot (309), fixed connection seeding output gear (305) on seeding pivot (309), frame (116) on fixed connection seeding motor (301), fixed connection seeding input gear (303) on seeding motor (301) mesh with seeding output gear (305).

6. An ecological environment remediation device for geological disaster control according to claim 5 wherein: seeding pivot (309) both ends fixed connection seeding dish (302) respectively, rotate on seeding dish (302) and connect ejection of compact dish (310), ejection of compact dish (310) rotate with seeding pivot (309) and be connected, seeding dish (302) on a plurality of seeding boxes (311) of sliding connection, fixed connection seeding reset spring (313) on seeding box (311), seeding reset spring (313) other end fixed connection is on seeding dish (302), ejection of compact dish (310) on sliding connection pay-off valve (314), a plurality of valve springs (315) of fixed connection on pay-off valve (314), valve spring (315) fixed connection is on ejection of compact dish (310), seeding box (311) on be provided with feed inlet and bin outlet.

7. An ecological environment remediation device for geological disaster control according to claim 1 wherein: two sides of the frame (116) are fixedly connected with lifting motors (117) respectively, two lifting gears (118) are fixedly connected to the lifting motors (117), two sides of the outer support plate (109) are fixedly connected with two lifting racks (119) respectively, and the lifting racks (119) are meshed with the lifting gears (118).

8. An ecological environment remediation device for geological disaster control according to claim 1 wherein: the frame (116) both sides be provided with the spout, fixed connection electricity jar seat (401) loosens soil on frame (116), fixed connection a plurality of electricity jar (402) loosens soil on electricity jar seat (401), fixed connection a plurality of push pedal electricity jar (403) on frame (116), the fixed connection slip sheet seat (404) of push pedal electricity jar (403) other end, slip sheet seat (404) and frame (116) sliding connection, slip sheet seat (404) go up sliding connection sliding plate (406), be provided with the spring between sliding sheet seat (404) and sliding plate (406), rotate on sliding plate (406) and connect loose soil pivot (407), loose soil fixed connection loose soil board (405), loose soil pole (408) on loose soil pivot (407) slide on the spout of frame (116) and go up fixed connection electricity jar seat (401), fixed connection a plurality of push pedal electricity jar (403) on frame (116), push pedal electricity jar (403) other end fixed connection sliding plate (406), slide sheet seat (404) are connected with sliding plate (406), slide sheet (406) are connected with sliding plate (406) on frame (116), slide seat (406) and sliding plate (406) are connected with sliding plate (406), the scarification rotating shaft (407) is fixedly connected with a scarification plate (405) and a scarification rod (408), and the scarification rotating shaft (407) slides on a chute of the frame (116).