CN221024094U - Energy-saving movable pavilion - Google Patents

Abstract

The utility model discloses an energy-saving movable pavilion, which relates to the field of building landscapes and comprises a bottom supporting plate, wherein a plurality of foot frames are fixedly arranged on the bottom supporting plate, a first fixing piece is fixedly arranged on the foot frames, and a rotary connecting piece is rotatably arranged on the first fixing piece. According to the solar energy greenhouse, the sun-shading and rain-shielding effects can be achieved through the arrangement of the supporting air cylinders and the transparent greenhouse, the solar energy panel is arranged on the transparent greenhouse and can utilize solar energy to generate electricity, the transparent greenhouse is in an open state when in summer, the sun-shading area is larger, the angles of the transparent greenhouse can be adjusted by opening the supporting air cylinders on two sides when in winter, the two sides are closed, the wind shielding effect is achieved, cold wind invasion is reduced, meanwhile, the sun-shading area can be changed by adjusting the angles of the transparent greenhouse, the angles of the transparent greenhouse can be adjusted according to the position of the sun, and the angles of the solar energy panel can be adjusted according to the position of the sun, so that the power conversion effect of the solar energy panel is improved.

Description

Energy-saving movable pavilion

Technical Field

The utility model relates to the technical field of building landscapes, in particular to an energy-saving movable pavilion.

Background

The water pavilion is a building built on the water surface, and the types of the water pavilion are various, such as Chinese simple leisure pavilion, pine square positive pavilion and the like

Among the prior art, current pavilion sunshade scope on water is limited, can't adjust according to the demand, and is mostly entering in summer and use, because the pavilion is ventilation all around when using winter, the cold air blows over can make in the pavilion colder to be difficult to deal with different environment, consequently need a movable pavilion of energy-saving to satisfy people's demand.

Disclosure of utility model

The utility model aims to provide an energy-saving movable pavilion, which aims to solve the problems that the existing water pavilion provided in the background technology is limited in sunshade range, cannot be adjusted according to requirements, is mostly used in summer, and is more cold due to ventilation around the pavilion when the pavilion is used in winter, so that different environments are difficult to deal with.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an energy-saving movable pavilion comprises a bottom supporting plate, a plurality of foot frames are fixedly arranged on the bottom supporting plate, a first fixing piece is fixedly arranged on the foot frames, a rotating connecting piece is rotatably arranged on the first fixing piece, a first connecting frame is fixedly arranged on the rotating connecting piece, a second connecting frame is fixedly arranged on the first connecting frame, a third connecting frame is fixedly arranged on the second connecting frame, a second fixing piece is fixedly arranged on the foot frames, a movable piece is rotatably arranged on the second fixing piece, a supporting cylinder is fixedly arranged on one side of the movable piece, a connecting block is fixedly arranged at the output end of the supporting cylinder, an adapter piece is rotatably arranged on the connecting block, a third fixing piece is fixedly arranged on the foot frames, a turnover connecting block is rotatably arranged on the third fixing piece, a supporting rod is fixedly arranged on the turnover connecting block, a mounting block is fixedly arranged on the supporting rod, the first transfer block is rotationally arranged on the mounting block, the movable connecting rod is fixedly arranged on the first transfer block, the fixed plate is fixedly arranged on the movable connecting rod, the second transfer block is rotationally arranged on the fixed plate, the second transfer block is fixedly arranged on one side of the third connecting frame, the top side of the third connecting frame is fixedly provided with a limiting block, the movable clamping block is rotationally arranged on the limiting block, the corresponding two movable clamping blocks are respectively and fixedly provided with a first beam frame and a second beam frame, one side of the first beam frame is fixedly provided with a second combining block, one side of the second beam frame is fixedly provided with a first combining block, the first combining block is rotationally arranged on the second combining block, the corresponding two first beam frames and the corresponding two second beam frames are fixedly provided with two fixing frames and two reinforcing rods, the four reinforcing rods are respectively and symmetrically and fixedly arranged on the corresponding two fixing frames, the two corresponding first beam frames and the two corresponding second beam frames are fixedly provided with fixing rods, the two fixing rods are respectively and symmetrically and fixedly arranged on the four reinforcing rods, the two corresponding first beam frames and the two corresponding second beam frames are fixedly provided with transparent sheds, and the corresponding transparent sheds are fixedly provided with solar panels.

Preferably, the bottom support plate is provided with two mounting plates symmetrically and fixedly provided with water pumps on the top sides of the two mounting plates, the two water pumps are fixedly provided with water pumping pipes and conveying pipes, the two conveying pipes are fixedly provided with connecting pipes, the two connecting pipes are respectively communicated with the two conveying pipes, the two connecting pipes are fixedly provided with a plurality of fixing blocks, the two connecting pipes are fixedly provided with a plurality of corrugated spray pipes, the corrugated spray pipes are communicated with the connecting pipes, the two fixing blocks positioned on the same side are respectively fixedly provided with a support plate on a first beam frame and a second beam frame, the corresponding two first beam frames and two second beam frames are fixedly provided with connecting plates, the output ends of the reciprocating cylinders are fixedly provided with connecting plates, the connecting plates are fixedly provided with movable plates, the movable plates are slidably arranged on the support plates, a plurality of mounting pieces are fixedly provided with one corrugated spray pipe, and the mounting pieces are fixedly provided with one corrugated spray pipe.

Preferably, a T-shaped groove is formed in the movable plate, a T-shaped strip is slidably mounted in the T-shaped groove, and the T-shaped strip is fixedly mounted on one side of the supporting plate.

Preferably, the first beam frame and the second beam frame are fixedly provided with a tripod and a reinforcing block, the tripod and the reinforcing block on the same side are movably provided with the same reinforcing steel rope, and the two reinforcing steel ropes are fixedly provided with two anti-falling blocks.

Preferably, the tripod and the reinforcing block are provided with jacks, and two ends of the reinforcing steel rope penetrate through the two jacks respectively.

Preferably, the first combining block and the second combining block are provided with connecting holes, and the same connecting rod is movably arranged in the two connecting holes.

Preferably, the second connecting frame is provided with a movable hole, and the support rod is movably arranged in the movable hole.

The beneficial effects of the utility model are as follows:

According to the solar energy greenhouse, the sun-shading and rain-shielding effects can be achieved through the arrangement of the supporting air cylinders and the transparent greenhouse, the solar energy panel is arranged on the transparent greenhouse and can utilize solar energy to generate electricity, the transparent greenhouse is in an open state when in summer, the sun-shading area is larger, the angles of the transparent greenhouse can be adjusted by opening the supporting air cylinders on two sides when in winter, the two sides are closed, the wind shielding effect is achieved, cold wind invasion is reduced, meanwhile, the sun-shading area can be changed by adjusting the angles of the transparent greenhouse, the angles of the transparent greenhouse can be adjusted according to the position of the sun, the angles of the solar energy panel can be adjusted according to the position of the sun, and the power conversion effect of the solar energy panel is improved.

According to the utility model, through the arrangement of the structures such as the mounting plate, the corrugated spray pipe and the reciprocating cylinder, water in the lake can be pumped out by starting the water pump and sprayed onto the transparent shed and the solar panel through the corrugated spray pipe, so that the cleaning effect is realized, the transparent shed and the solar panel can be cooled in summer, and the reciprocating cylinder can be started during spraying, so that the corrugated spray pipe can swing back and forth to spray water more uniformly.

Drawings

FIG. 1 is a schematic diagram of an energy-efficient mobile kiosk according to the present utility model;

FIG. 2 is a schematic side view of an energy-efficient mobile kiosk according to the utility model;

FIG. 3 is a schematic view of a part of an energy-saving movable pavilion according to the present utility model;

FIG. 4 is a schematic view of a foot stand portion of an energy-efficient mobile kiosk according to the present utility model;

FIG. 5 is a schematic view of the portion A of FIG. 4 illustrating an energy-efficient mobile kiosk according to the present utility model;

FIG. 6 is a schematic view of a support pole portion of an energy efficient mobile kiosk according to the utility model;

FIG. 7 is a schematic view of the structure of the supporting cylinder portion of an energy-efficient movable kiosk according to the present utility model;

FIG. 8 is a schematic view of the structure of the movable connection rod portion of an energy-saving movable pavilion according to the present utility model;

FIG. 9 is a schematic view of the tripod portion of an energy efficient mobile kiosk according to the present utility model;

FIG. 10 is a schematic view of a connection pipe portion of an energy-saving movable pavilion according to the present utility model;

Fig. 11 is a schematic structural view of a movable plate portion of an energy-saving movable pavilion according to the present utility model.

In the figure: 100. a bottom support plate; 200. a foot rest; 201. a first fixing member; 202. rotating the connecting piece; 203. a first connection frame; 204. a second connecting frame; 205. a third connecting frame; 206. a second fixing member; 207. a movable member; 208. a support cylinder; 209. a connecting block; 210. an adapter; 211. a third fixing member; 212. turning over the connecting block; 213. a support rod; 214. a mounting block; 215. a first transfer block; 216. a movable connecting rod; 217. a fixing plate; 218. a second transfer block; 219. a limiting block; 220. a movable clamping block; 221. a first beam mount; 222. a second beam mount; 223. a first combining block; 224. a second combining block; 225. a connection hole; 226. a connecting rod; 227. a movable hole; 300. a fixing frame; 301. a fixed rod; 302. a reinforcing rod; 303. a transparent shed; 304. a solar panel; 305. a tripod; 306. a reinforcing block; 307. reinforcing the steel rope; 308. an anti-falling block; 309. a jack; 400. a mounting plate; 401. a water pump; 402. a water pumping pipe; 403. a delivery tube; 404. a connecting pipe; 405. a fixed block; 406. a corrugated spout; 407. a support plate; 408. a reciprocating cylinder; 409. a connecting sheet; 410. a movable plate; 411. a mounting member; 412. a T-shaped groove; 413. t-shaped strip.

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.

Referring to fig. 1 to 11, an energy-saving movable pavilion includes a bottom support plate 100, a plurality of stand frames 200 fixedly installed on the bottom support plate 100, a first fixing member 201 fixedly installed on the stand frames 200, a rotating connecting member 202 rotatably installed on the first fixing member 201, a first connecting frame 203 fixedly installed on the rotating connecting member 202, a second connecting frame 204 fixedly installed on the first connecting frame 203, a third connecting frame 205 fixedly installed on the second connecting frame 204, a second fixing member 206 fixedly installed on the stand frames 200, a movable member 207 rotatably installed on the second fixing member 206, a supporting cylinder 208 is fixedly arranged on one side of the movable piece 207, a connecting block 209 is fixedly arranged at the output end of the supporting cylinder 208, an adapter 210 is rotatably arranged on the connecting block 209, the adapter 210 is fixedly arranged on one side of the first connecting frame 203, a third fixing piece 211 is fixedly arranged on the foot stand 200, a turnover connecting block 212 is rotatably arranged on the third fixing piece 211, a supporting rod 213 is fixedly arranged on the turnover connecting block 212, a mounting block 214 is fixedly arranged on the supporting rod 213, a first adapter block 215 is rotatably arranged on the mounting block 214, a movable connecting rod 216 is fixedly arranged on the first adapter block 215, a fixed plate 217 is fixedly arranged on the movable connecting rod 216, a second switching block 218 is rotatably arranged on the fixed plate 217, the second switching block 218 is fixedly arranged on one side of the third connecting frame 205, a limiting block 219 is fixedly arranged on the top side of the third connecting frame 205, movable clamping blocks 220 are rotatably arranged on the limiting block 219, a first beam frame 221 and a second beam frame 222 are respectively fixedly arranged on the two corresponding movable clamping blocks 220, a second combining block 224 is fixedly arranged on one side of the first beam frame 221, a first combining block 223 is fixedly arranged on one side of the second beam frame 222, the first combining block 223 is rotatably arranged on the second combining block 224, two fixing frames 300 and two reinforcing rods 302 are fixedly arranged on the corresponding two first beam frames 221 and two second beam frames 222, four reinforcing rods 302 are respectively and symmetrically and fixedly arranged on the corresponding two fixing frames 300, fixing rods 301 are fixedly arranged on the corresponding two first beam frames 221 and two second beam frames 222, two fixing rods 301 are respectively and symmetrically and fixedly arranged on the four reinforcing rods 302, transparent sheds 303 are respectively and fixedly arranged on the corresponding two first beam frames 221 and two second beam frames 222, solar panels 304 are fixedly arranged on the corresponding transparent sheds 303, the first fixing member 201 and the rotating connecting member 202 can be supported by the foot stand 200, the first connecting frame 203, the second connecting frame 204 and the third connecting frame 205, the transparent shed 303 can be conveniently paved on the fixing frame 300, the fixing rods 301 and the reinforcing rods 302 between the two adjacent first fixing members 201 and the rotating connecting member 202, the transparent shed 303 can be prevented from collapsing, the transparent shed 303 can be paved to realize the effect of shielding rain, so that the reinforced steel ropes 307 can be used in summer, pass through the reinforcing blocks 306 and the jacks 309 on the tripod 305 and are fixed by the anti-falling blocks 308, the triangle stability principle is utilized to increase the stability of the first beam 221, avoid the first beam 221 from bending and toppling over, utilize the solar panel 304 to supply power for the supporting cylinder 208 and the water pump 401, can simultaneously open the solar panels 304 at both sides during winter use, the output end of the solar panel 304 can push the connecting block 209 to move, the moving connecting block 209 can push the adapter 210 to move, further the moving adapter 210 can push the first connecting frame 203 to overturn, the overturned first connecting frame 203 can drive the rotating connecting piece 202 to rotate on the first fixing piece 201, further the first connecting frame 203 can realize the overturning effect, the first connecting frame 203 rotates the connecting block 209 on the adapting piece 210 while turning over, the movable piece 207 also rotates on the second fixing piece 206 to adapt to the angle change of the first connecting frame 203, the angle of the first connecting frame 203 drives the angle change of the second connecting frame 204 and the third connecting frame 205 when adjusting, the third connecting frame 205 drives the second adapting block 218 to move when moving, the moving second adapting block 218 rotates on the fixing plate 217 and pulls the fixing plate 217 to move, the moving fixing plate 217 drives the movable connecting rod 216 to turn over, the turning movable connecting rod 216 drives the first adapting block 215 to rotate on the mounting block 214, meanwhile, the mounting block 214 drives the supporting rod 213 to move in the movable hole 227, the moving supporting rod 213 drives the turnover connecting block 212 to rotate on the third fixing piece 211, so that the supporting rod 213 can adapt to the change of the angle of the third connecting frame 205, the angle between the supporting rod 213 and the movable connecting rod 216 changes, the angle between the movable connecting rod 216 and the third connecting frame 205 changes, the third connecting frames 205 on two sides drive the movable clamping blocks 220 on two sides to move through the limiting blocks 219 while the angle changes, the movable clamping blocks 220 on two sides drive the first beam frame 221 and the second beam frame 222 to move respectively, meanwhile, the movable fixture block 220 rotates on the limiting block 219, the first beam frame 221 and the second beam frame 222 respectively drive the second combining block 224 and the first combining block 223 to turn over and move on the connecting rod 226 through the connecting hole 225, so as to change the angle between the first beam frame 221 and the second beam frame 222, further adjust the angle of the transparent shed 303 on the first beam frame 221 and the second beam frame 222, and adjust the angle of the solar panel 304, so that the solar panel 304 can be adjusted according to the position of the sun, one end of the first beam frame 221 and one end of the second beam frame 222 can be contacted with the bottom supporting plate 100 through continuous adjustment, and the first beam frame 221 and the second beam frame 222 can be respectively contacted with the two movable connecting rods 216, so that the supporting effect on the first beam frame 221 and the second beam frame 222 is improved, and meanwhile, the transparent sheds 303 on two sides can shield two sides of the pavilion and present a closed state, so that the pavilion can be used in winter.

Further, two mounting plates 400 are symmetrically and fixedly mounted on the bottom support plate 100, water pumps 401 are fixedly mounted on the top sides of the two mounting plates 400, water pumping pipes 402 and conveying pipes 403 are fixedly mounted on the two water pumps 401, connecting pipes 404 are fixedly mounted on the two conveying pipes 403, the two connecting pipes 404 are respectively communicated with the two conveying pipes 403, a plurality of fixing blocks 405 are fixedly mounted on the two connecting pipes 404, a plurality of corrugated spray pipes 406 are fixedly mounted on the two connecting pipes 404, the corrugated spray pipes 406 are communicated with the connecting pipes 404, the two fixing blocks 405 on the same side are respectively fixedly mounted on a first beam frame 221 and a second beam frame 222, support plates 407 are fixedly mounted on the corresponding two first beam frames 221 and the corresponding two second beam frames 222, reciprocating cylinders 408 are fixedly mounted on the support plates 407, connecting pieces 409 are fixedly mounted on the output ends of the reciprocating cylinders 408, the movable plate 410 is fixedly arranged on the connecting sheet 409, the movable plate 410 is slidably arranged on the supporting plate 407, a plurality of mounting pieces 411 are fixedly arranged on the movable plate 410, the mounting pieces 411 are fixedly arranged on a corresponding corrugated spray pipe 406, the water pump 401 is driven to pump water out of a lake by using the water pumping pipe 402, the water is then conveyed into the connecting pipe 404 through the conveying pipe 403, finally the water is sprayed onto the transparent shed 303 and the solar panel 304 through the corrugated spray pipe 406, the cleaning effect of the transparent shed 303 and the solar panel 304 can be provided, the cooling effect can be achieved in summer, the reciprocating cylinder 408 can be started in the spraying process, the output end of the reciprocating cylinder 408 can drive the connecting sheet 409 to reciprocate, the connecting sheet 409 in the reciprocating motion can drive the movable plate 410 to reciprocate, the movable plate 410 in the reciprocating motion can slide on the T-shaped strip 413 through the T-shaped groove 412, and the moving direction of the movable plate 410 is further limited, the continuously moving movable plate 410 drives the mounting piece 411 to move, so that the reciprocally moving mounting piece 411 drives the corrugated spout 406 to swing back and forth, and the corrugated spout 406 can spray more uniformly.

Further, the movable plate 410 is provided with a T-shaped slot 412, the T-shaped slot 412 is slidably provided with a T-shaped bar 413, the T-shaped bar 413 is fixedly arranged on one side of the supporting plate 407, and the movable plate 410 slides on the T-shaped bar 413 through the T-shaped slot 412, so that the moving direction of the movable plate 410 is limited.

Further, the tripod 305 and the reinforcing block 306 are fixedly mounted on the first beam frame 221 and the second beam frame 222, the tripod 305 and the reinforcing block 306 on the same side are movably mounted with the same reinforcing steel rope 307, two anti-falling blocks 308 are fixedly mounted on the two reinforcing steel ropes 307, the reinforcing steel ropes 307 penetrate through the insertion holes 309 on the reinforcing block 306 and the tripod 305 and are fixed by the anti-falling blocks 308, and the stability of the first beam frame 221 is improved by utilizing the principle of triangle stability, so that the first beam frame 221 is prevented from bending and falling.

Further, the tripod 305 and the reinforcing block 306 are provided with insertion holes 309, two ends of the reinforcing steel rope 307 respectively penetrate through the two insertion holes 309, and the reinforcing steel rope 307 penetrates through the reinforcing block 306 and the insertion holes 309 on the tripod 305 and is fixed by the anti-falling block 308.

Further, the first combining block 223 and the second combining block 224 are provided with connecting holes 225, the same connecting rod 226 is movably installed in the two connecting holes 225, and the first beam 221 and the second beam 222 respectively drive the second combining block 224 and the first combining block 223 to turn over and move on the connecting rod 226 through the connecting holes 225 when moving, so that the angle between the first beam 221 and the second beam 222 is changed.

Further, the second connecting frame 204 is provided with a movable hole 227, the supporting rod 213 is movably mounted in the movable hole 227, and the mounting block 214 drives the supporting rod 213 to move in the movable hole 227 when moving.

The working principle of the utility model is as follows:

The first fixing member 201 and the rotating connecting member 202 can be supported by the foot stand 200, the first connecting frame 203, the second connecting frame 204 and the third connecting frame 205, the transparent shed 303 can be conveniently paved on the fixing frame 300, the fixing rods 301 and the reinforcing rods 302 between the two adjacent first fixing members 201 and the rotating connecting member 202, the transparent shed 303 can be prevented from collapsing, the transparent shed 303 can be paved to realize the effect of shielding rain, so that the reinforced steel ropes 307 can be used in summer, pass through the reinforcing blocks 306 and the jacks 309 on the tripod 305 and are fixed by the anti-falling blocks 308, the triangle stability principle is utilized to increase the stability of the first beam 221, avoid the first beam 221 from bending and toppling over, utilize the solar panel 304 to supply power for the supporting cylinder 208 and the water pump 401, can simultaneously open the solar panels 304 at both sides during winter use, the output end of the solar panel 304 can push the connecting block 209 to move, the moving connecting block 209 can push the adapter 210 to move, further the moving adapter 210 can push the first connecting frame 203 to overturn, the overturned first connecting frame 203 can drive the rotating connecting piece 202 to rotate on the first fixing piece 201, further the first connecting frame 203 can realize the overturning effect, the first connecting frame 203 rotates the connecting block 209 on the adapting piece 210 while turning over, the movable piece 207 also rotates on the second fixing piece 206 to adapt to the angle change of the first connecting frame 203, the angle of the first connecting frame 203 drives the angle change of the second connecting frame 204 and the third connecting frame 205 when adjusting, the third connecting frame 205 drives the second adapting block 218 to move when moving, the moving second adapting block 218 rotates on the fixing plate 217 and pulls the fixing plate 217 to move, the moving fixing plate 217 drives the movable connecting rod 216 to turn over, the turning movable connecting rod 216 drives the first adapting block 215 to rotate on the mounting block 214, meanwhile, the mounting block 214 drives the supporting rod 213 to move in the movable hole 227, the moving supporting rod 213 drives the turnover connecting block 212 to rotate on the third fixing piece 211, so that the supporting rod 213 can adapt to the change of the angle of the third connecting frame 205, the angle between the supporting rod 213 and the movable connecting rod 216 changes, the angle between the movable connecting rod 216 and the third connecting frame 205 changes, the third connecting frames 205 on two sides drive the movable clamping blocks 220 on two sides to move through the limiting blocks 219 while the angle changes, the movable clamping blocks 220 on two sides drive the first beam frame 221 and the second beam frame 222 to move respectively, meanwhile, the movable fixture block 220 rotates on the limiting block 219, the first beam frame 221 and the second beam frame 222 respectively drive the second combining block 224 and the first combining block 223 to turn over and move on the connecting rod 226 through the connecting hole 225, so as to change the angle between the first beam frame 221 and the second beam frame 222, further adjust the angle of the transparent shed 303 on the first beam frame 221 and the second beam frame 222, and adjust the angle of the solar panel 304, so that the solar panel 304 can be adjusted according to the position of the sun, one end of the first beam frame 221 and one end of the second beam frame 222 can be contacted with the bottom supporting plate 100 through continuous adjustment, the first beam frame 221 and the second beam frame 222 are respectively contacted with the two movable connecting rods 216, the supporting effect on the first beam frame 221 and the second beam frame 222 is improved, meanwhile, the transparent sheds 303 on two sides can shield two sides of the pavilion and present a closed state for use in winter, the water pump 401 is driven to draw water out of a lake by the water pumping pipe 402, the water is then conveyed into the connecting pipe 404 by the conveying pipe 403, finally, the water is sprayed onto the transparent sheds 303 and the solar panels 304 by the corrugated spray pipes 406, the cleaning effect can be provided for the transparent sheds 303 and the solar panels 304, the cooling effect can be achieved in summer, and can open the reciprocating cylinder 408 in the spraying process, the output of reciprocating cylinder 408 can drive connection piece 409 reciprocating motion, and reciprocating motion's connection piece 409 then can drive fly leaf 410 reciprocating motion, and the fly leaf 410 of moving can slide on T type strip 413 through T type groove 412, and then has restricted the direction of movement of fly leaf 410, and the fly leaf 410 of lasting moving can drive mounting 411 and remove to make reciprocating movement's mounting 411 drive ripple spray tube 406 and make the back and forth swing, make ripple spray tube 406 can spray more evenly.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. An energy-efficient mobile kiosk, comprising a bottom support plate (100), characterized in that: a plurality of foot frames (200) are fixedly arranged on the bottom supporting plate (100), a first fixing piece (201) is fixedly arranged on the foot frames (200), a connecting block (209) is fixedly arranged at the output end of the supporting cylinder (208), a switching piece (210) is fixedly arranged on the connecting block (209), a first connecting frame (203) is fixedly arranged on the connecting piece (202), a second connecting frame (204) is fixedly arranged on the first connecting frame (203), a third connecting frame (205) is fixedly arranged on the second connecting frame (204), a second fixing piece (206) is fixedly arranged on the foot frames (200), a movable piece (207) is rotatably arranged on the second fixing piece (206), a supporting cylinder (208) is fixedly arranged at one side of the movable piece (207), a connecting block (209) is fixedly arranged at the output end of the supporting cylinder (208), a switching piece (210) is fixedly arranged at one side of the first connecting frame (203), a third fixing piece (211) is fixedly arranged on the foot frames (200), a turnover piece (212) is rotatably arranged on the third fixing piece (211), a supporting rod (215) is fixedly arranged on the turnover piece (212), a supporting rod (213) is fixedly arranged on the supporting rod (213), the movable connecting rod (216) is fixedly arranged on the first connecting block (215), the fixed plate (217) is fixedly arranged on the movable connecting rod (216), the second connecting block (218) is rotatably arranged on the fixed plate (217), the second connecting block (218) is fixedly arranged on one side of the third connecting frame (205), the limiting block (219) is fixedly arranged on the top side of the third connecting frame (205), the movable clamping block (220) is rotatably arranged on the limiting block (219), the first beam frame (221) and the second beam frame (222) are respectively and fixedly arranged on the two corresponding movable clamping blocks (220), the second connecting block (224) is fixedly arranged on one side of the first beam frame (221), the first connecting block (223) is rotatably arranged on the second connecting block (224), the two corresponding first beam frames (221) and the two second beam frames (222) are fixedly arranged on the two fixing frames (300) and the two reinforcing rods (302), the four reinforcing rods (302) are respectively and fixedly arranged on the two symmetrical fixing frames (301) respectively and the two fixing frames (301) are symmetrically arranged on the two fixing frames (302), transparent sheds (303) are fixedly arranged on the two corresponding first beam frames (221) and the two corresponding second beam frames (222), and solar panels (304) are fixedly arranged on the corresponding transparent sheds (303).

2. An energy efficient mobile kiosk according to claim 1 wherein: two mounting plates (400) are symmetrically and fixedly arranged on the bottom supporting plate (100), water pumps (401) are fixedly arranged on the top sides of the two mounting plates (400), water pumping pipes (402) and conveying pipes (403) are fixedly arranged on the two water pumps (401), connecting pipes (404) are fixedly arranged on the two conveying pipes (403), the two connecting pipes (404) are respectively communicated with the two conveying pipes (403), a plurality of fixing blocks (405) are fixedly arranged on the two connecting pipes (404), a plurality of corrugated spray pipes (406) are fixedly arranged on the two connecting pipes (404), the corrugated spray pipes (406) are communicated with the connecting pipes (404), the two fixing blocks (405) on the same side are respectively fixedly arranged on a first beam frame (221) and a second beam frame (222), a supporting plate (407) is fixedly arranged on the corresponding two first beam frames (221) and two second beam frames (222), a reciprocating cylinder (408) is fixedly arranged on the supporting plate (407), a connecting sheet (409) is fixedly arranged at the output end of the reciprocating cylinder (408), a plurality of corrugated spray pipes (406) are fixedly arranged on the connecting sheet (409), a plurality of movable plates (410) are fixedly arranged on the movable plates (410), the mounting member (411) is fixedly mounted on a corresponding one of the corrugated spouts (406).

3. An energy efficient mobile kiosk according to claim 2 wherein: the movable plate (410) is provided with a T-shaped groove (412), a T-shaped strip (413) is slidably arranged in the T-shaped groove (412), and the T-shaped strip (413) is fixedly arranged on one side of the supporting plate (407).

4. An energy efficient mobile kiosk according to claim 1 wherein: tripod (305) and reinforcing block (306) are fixedly mounted on the first beam frame (221) and the second beam frame (222), the same reinforcing steel rope (307) is movably mounted on the tripod (305) and the reinforcing block (306) which are positioned on the same side, and two anti-falling blocks (308) are fixedly mounted on the two reinforcing steel ropes (307).

5. The energy efficient mobile kiosk of claim 4 wherein: the tripod (305) and the reinforcing block (306) are respectively provided with jacks (309), and two ends of the reinforcing steel rope (307) respectively penetrate through the two jacks (309).

6. An energy efficient mobile kiosk according to claim 1 wherein: the first combining block (223) and the second combining block (224) are respectively provided with a connecting hole (225), and the two connecting holes (225) are internally and movably provided with the same connecting rod (226).

7. An energy efficient mobile kiosk according to claim 1 wherein: the second connecting frame (204) is provided with a movable hole (227), and the supporting rod (213) is movably arranged in the movable hole (227).