CN108365679B - Environment monitoring system based on wireless sensor network - Google Patents

Abstract

The invention discloses an environment monitoring system based on a wireless sensor network, which structurally comprises: the device comprises a fixed foot stand, a tripod, a multifunctional emergency device, a wireless sensor, an upper platform, a wind power tester, a solar power generation board, a main rod and a main machine case, wherein 3 fixed foot stands are arranged below the main rod, is connected with the main rod by screw thread, is arranged at the lower side of the multifunctional emergency device with the tripod and is buckled with the multifunctional emergency device, the multifunctional illuminator is arranged at the left upper side of the main body case, the wireless sensor is arranged on the rear side above the solar power generation panel and is locked with the main rod by welding the tripod with the main rod, the upper platform is vertically arranged above the main rod, is locked with the main rod, the wind power tester is arranged above the upper platform and is locked with the upper platform (5), the left and the right are respectively arranged, when the equipment is used, the multifunctional emergency mechanism is arranged on the equipment, the multifunctional solar water heater can avoid the problem that normal work cannot be carried out in specific environments such as at night or under the condition of no sunlight, and is more practical and multifunctional.

Description

Environment monitoring system based on wireless sensor network

Technical Field

the invention discloses an environment monitoring system based on a wireless sensor network, and belongs to the field of environment monitoring system equipment.

Background

The environmental monitoring is an important foundation of environmental protection and management work, along with the rapid development of economy, more and more people begin to concern about the quality of the environment, the efficiency improvement, the quality improvement and the transparency of the environmental protection and management work are required, the traditional environmental monitoring means is changed by the application of the information technology, the pollution source and the environmental quality are long-term, continuous and effective monitored by applying a new communication network technology, the environmental conditions of the area under jurisdiction are scientifically, accurately, comprehensively and efficiently monitored and managed, the environmental management work of the environmental protection department reaches a new situation of scientific monitoring, efficient management and fair law enforcement, the ground meteorological observation is performed with the aim of ground meteorological observation and continuous observation and determination of the atmospheric conditions and the changes of the atmospheric conditions of cloud and near ground by means of instruments, and the observation items comprise atmospheric pressure, air temperature, humidity, moisture, the wireless sensor network is a distributed sensor network, and a sensor which can sense and check the outside world is arranged at the tip of the wireless sensor network.

The prior art can not work normally at night or in specific environments without sun illumination and the like, and the use condition is limited.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an environment monitoring system based on a wireless sensor network, so as to solve the problems that the prior art can not work normally at night or under the condition of no sunlight and the like, and the use condition is limited.

In order to achieve the purpose, the invention is realized by the following technical scheme: an environment monitoring system based on a wireless sensor network structurally comprises: the solar emergency device comprises a fixed foot stand, a tripod, a multifunctional emergency device, a wireless sensor, an upper platform, a wind power tester, a solar panel, a main rod and a main case, wherein the fixed foot stand is provided with 3 parts which are arranged below the main rod and are in threaded connection with the main rod, the tripod is arranged at the lower side of the multifunctional emergency device and is in lock joint with the multifunctional emergency device, the multifunctional emergency device is arranged at the upper left side of the main case and is welded with the main rod through the tripod, the wireless sensor is arranged at the rear side above the solar panel and is in lock joint with the main rod, the upper platform is arranged above the main rod and is vertical to the main rod and is in lock joint with the main rod, the wind power tester is arranged above the upper platform and is in lock joint with the upper platform, one is arranged at each of the left side and the right side, the solar panel is arranged at the upper, the multifunctional emergency device comprises a rotary disc, a lock cap, blades, a first gear, a rotating shaft, a second gear, a third gear, a worm, a contact, an illuminator, a connecting clamping groove, a sleeve, an ejector rod, a telescopic rod, a rack group, a fourth gear, a fifth gear, a first side gear, a tooth groove, a power supply, a generator, an auxiliary gear, a motor shaft, a motor gear, a sixth gear, a fixed shaft, a main gear, a fixed rod, a high-speed shaft, an ejector rod, a contact plate, a first spring, a sliding groove, a sliding rod, a second spring, a connecting block, an ejector block, a bearing, a supporting plate, a first electromagnet, a second electromagnet, a conical gear, a second side gear and a belt, wherein the lock cap is installed on the left side of the rotary disc and is in threaded connection with the rotary disc, the rotary disc is a cylinder, the blades are embedded on the outer side of the rotary disc, the high-speed shaft is locked with the high-speed shaft, a first gear, a rotating shaft and a bevel gear are sequentially arranged on the right side of the high-speed shaft, the first gear penetrates through the high-speed shaft and is welded with the rotating shaft and the bevel gear, a second gear is arranged on the right side of the bevel gear, a second side gear is arranged on the outer side of the second gear and is in clearance fit with the second side gear, the second gear is connected with a third gear through a belt, a fifth gear is arranged on the right lower side of the third gear and is connected with a fifth gear belt, a worm is arranged above the fifth gear and is in clearance fit with the worm, a fixed rod is arranged on the left side of the worm and is sleeved with the fixed rod, a telescopic rod is arranged on the right side of the worm and is sleeved with the telescopic rod, a mandril is arranged on the right side of the telescopic rod and is in clearance fit with the mandril, the spring is welded with a connecting block, a second spring is arranged above the ejecting block and is welded with the second spring, a bearing is arranged above the second spring, the second spring is connected with a sliding rod through the bearing, a sliding groove is formed in the top of the sliding rod and is in clearance fit with the sliding groove, a supporting plate is arranged above the sliding groove and is locked with the supporting plate, a first spring is connected above the supporting plate in a locking mode, the first spring is arranged below a push rod, a contact plate is arranged above the push rod and is welded with the contact plate, a contact is arranged above the contact plate and is in clearance fit with the contact, an illuminator is arranged above the contact, a second electromagnet is arranged on the right side of the contact plate and is electrically connected with the second electromagnet, a first electromagnet is arranged below the second electromagnet and is in clearance fit with the first electromagnet, a connecting clamping groove is arranged below the first, tooth's socket and rack group clearance fit, rack group left side is equipped with the fourth gear, with fourth gear clearance fit, fourth gear left side is equipped with the fifth gear, with fourth gear clearance fit, the meshing of fifth gear below has first side gear, first side gear below is equipped with auxiliary gear, welds with auxiliary gear, auxiliary gear locates the sixth gear right side, with sixth gear clearance fit, sixth gear and left side master gear axle center collineation, the master gear below is equipped with motor gear, with motor gear clearance fit, motor gear middle part runs through there is the motor shaft, and the right side is equipped with the generator, it is equipped with the power supply ware to be equipped with the generator right side, is connected with the power supply ware electricity.

Further, the wind force tester is provided with 2.

Furthermore, a wireless sensor is arranged at the upper left of the main case.

Furthermore, a wind power tester is arranged on the upper platform.

Furthermore, a solar power generation panel is arranged on the main case.

Advantageous effects

When the environment monitoring system based on the wireless sensor network works, a fixed foot stand provides a fixed placing effect, a solar panel performs normal body power generation preparation, a wind power tester of an upper platform performs environmental wind power and wind speed tests, data are transmitted to a terminal and a main case through a wireless sensor, the main case is used for collecting, storing and collecting data, under specific environment or night conditions, emergency power supply and lighting work are performed through a multifunctional emergency device, a lock cap is locked on a rotary disc, the rotary disc drives blades to rotate under the action of wind power to drive a middle high-speed shaft, the high-speed shaft drives a right first gear and a rotating shaft to rotate, a conical gear is meshed with a right second gear, a belt drives a third gear to rotate, and the third gear drives a right lower fifth gear through a belt, the fifth gear further drives the upper worm to rotate, under the supporting action of the fixed rod, the telescopic rod on the right side of the worm extends rightwards to further form clearance fit with the ejector rod, the extrusion ejector rod ascends along the upper sleeve to further enable the ejector block and the connecting block to ascend, further to extrude a second spring, the second spring slides the sliding rod to the side along the sliding groove through a bearing, when the two ends are reached, the supporting plate moves upwards to extrude the first spring to drive the ejector rod and the contact plate to move upwards to be connected with the contact point which is connected with the upper illuminator, the fifth gear rotates to simultaneously drive the fourth gear to rotate to drive the rack group on the inner side of the tooth groove to ascend to further enable the first electromagnet and the second electromagnet to be connected in contact, and on the other side, the fifth gear rotates to drive the lower first side gear and the auxiliary gear to rotate to further be meshed with the left sixth gear side, the utility model discloses a power supply device, including a motor shaft, a motor gear, a controller, and a controller, the generator electricity generation is driven in the rotation of motor shaft, motor gear, and transmit the electric quantity to right side power supply ware, the circuit switch-on, first electro-magnet, the second electro-magnet is inhaled tightly under the electromagnetic action, the illuminator lights, the power supply ware provides the power supply for other parts of equipment simultaneously, it is reserve to carry out emergent function, when using equipment, through the multi-functional emergency mechanism that equipment was equipped with, can reach and avoid can't normally work in specific environment such as night or not having under the sun illumination condition, more practical multi-.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

Fig. 1 is a schematic structural diagram of an environment monitoring system based on a wireless sensor network according to the present invention.

Fig. 2 is a schematic structural diagram of a multifunctional emergency device according to the present invention.

Fig. 3 is a schematic structural diagram of a multifunctional emergency device according to the present invention.

Fig. 4 is a schematic structural diagram of a multifunctional emergency device B according to the present invention.

Fig. 5 is a schematic view of an opening structure of the multifunctional emergency device according to the present invention.

Fig. 6 is a schematic view of a structure a of the multifunctional emergency device of the present invention when opened.

In the figure: a fixed foot stand-1, a tripod-2, a multifunctional emergency device-3, a wireless sensor-4, an upper platform-5, a wind power tester-6, a solar power generation panel-7, a main rod-8, a main body case-9, a rotary disc-301, a lock cap-302, a blade-303, a first gear-304, a rotary shaft-305, a second gear-306, a third gear-307, a worm-308, a contact-309, a lighting device-310, a connecting card slot-311, a sleeve-312, a top rod-313, a telescopic rod-314, a rack group-315, a fourth gear-316, a fifth gear-317, a first side gear-318, a tooth slot-319, a power supply device-320, a generator-321, an auxiliary gear-322, a, A motor shaft-323, a motor gear-324, a sixth gear-325, a fixed shaft-326, a main gear-327, a fixed rod-328, a high-speed shaft-329, a push rod-330, a contact plate-331, a first spring-332, a chute-333, a slide rod-334, a second spring-335, a connecting block-336, a top block-337, a bearing-338, a support plate-339, a first electromagnet-340, a second electromagnet-341, a bevel gear-342, a second side gear-343 and a belt-344.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 6, the present invention provides an environment monitoring system based on a wireless sensor network: the structure includes: an environment monitoring system based on a wireless sensor network structurally comprises: the multifunctional emergency device comprises a fixed foot stand 1, a tripod 2, a multifunctional emergency device 3, a wireless sensor 4, an upper platform 5, a wind power tester 6, a solar panel 7, a main rod 8 and a main case 9, wherein the fixed foot stand 1 is provided with 3 parts which are arranged below the main rod 8 and are in threaded connection with the main rod 8, the tripod 2 is arranged at the lower side of the multifunctional emergency device 3 and is buckled with the multifunctional emergency device 3, the multifunctional emergency device 3 is arranged at the upper left side of the main case 9 and is welded with the main rod 8 through the tripod 2, the wireless sensor 4 is arranged at the rear side above the solar panel 7 and is locked with the main rod 8, the upper platform 5 is arranged above the main rod 8 and is vertical to the main rod 8 and is locked with the main rod 8, the wind power tester 6 is arranged above the upper platform 5 and is locked with the upper platform 5, one is arranged at the left and the right, the solar panel 7 is arranged, the multifunctional emergency device 3 comprises a rotary disc 301, a locking cap 302, a blade 303, a first gear 304, a rotating shaft 305, a second gear 306, a third gear 307, a worm 308, a contact 309, an illuminator 310, a connecting clamping slot 311, a sleeve 312, a top rod 313, a telescopic rod 314, a rack set 315, a fourth gear 316, a fifth gear 317, a first side gear 318, a tooth slot 319, a power supply 320, a generator 321, an auxiliary gear 322, a motor shaft 323, a motor gear 324, a sixth gear 325, a fixed shaft 326, a main gear 327, a fixed rod 328, a high-speed shaft 329, a top rod 330, a contact plate 331, a first spring 332, a sliding slot 333, a sliding rod 334, a second spring 335, a connecting block 336, a top block 337, a bearing 338, a supporting plate 339, a lamp holder, the locking cap 302 is mounted on the left side of the rotary disc 301 and is in threaded connection with the rotary disc 301, the rotary disc 301 is a cylinder, the blade 303 is inlaid on the outer side of the rotary disc 301, the high-speed shaft 329 is connected in a penetrating manner in the middle of the rotary disc 301 and is in locking connection with the high-speed shaft 329, the first gear 304, the rotating shaft 305 and the conical gear 342 are sequentially arranged on the right side of the high-speed shaft 329, the first gear 304 penetrates through the first gear and is welded with the rotating shaft 305 and the conical gear 342, the second gear 306 is arranged on the right side of the conical gear 342, the second side gear 343 is arranged on the outer side of the second gear 306, the conical gear 342 and the second side gear 343 are in clearance fit, the second gear 306 is connected with the third gear 307 through the belt 344, the fifth gear 317 is arranged on the right lower side of the third gear 307 and is in belt connection with the fifth gear 317, the worm 308 is arranged above the fifth gear, the worm 308 is in clearance fit with the worm 308, the left side of the worm 308 is provided with a fixing rod 328 which is sleeved with the fixing rod 328, the right side of the worm 308 is provided with a telescopic rod 314 which is sleeved with the telescopic rod 314, the right side of the telescopic rod 314 is provided with a top rod 313 which is in clearance fit with the top rod 313, a sleeve 312 penetrates through the top rod 313 and is connected with a top block 337 through the top rod 313, the middle part of the top block 337 is provided with a connecting block 336 which is welded with the connecting block 336, the top of the top block 337 is provided with a second spring 335 which is welded with the second spring 335, a bearing 338 is arranged above the second spring 335, the second spring 335 is connected with a sliding rod 334 through the bearing 338, the top of the sliding rod 334 is provided with a sliding groove 333 which is in clearance fit with the sliding groove 333, a supporting plate 339 which is locked with the supporting plate 339 is arranged above the supporting plate 339, and the, a contact plate 331 is arranged above the top rod 330 and welded with the contact plate 331, a contact 309 is arranged above the contact plate 331 and in clearance fit with the contact 309, an illuminator 310 is arranged above the contact 309, a second electromagnet 341 is arranged on the right side of the contact plate 331 and electrically connected with the second electromagnet 341, a first electromagnet 340 is arranged below the second electromagnet 341 and in clearance fit with the first electromagnet 340, a connecting slot 311 is arranged below the first electromagnet 340, a tooth space 319 and a rack group 315 are arranged below the connecting slot 311, the tooth space 319 is in clearance fit with the rack group 315, a fourth gear 316 is arranged on the left side of the rack group 315 and in clearance fit with the fourth gear 316, a fifth gear 317 is arranged on the left side of the fourth gear 316 and in clearance fit with the fourth gear 316, a first side gear 318 is meshed below the fifth gear 317, and an auxiliary gear 322 is arranged below the first side gear 318, with the auxiliary gear 322 welding, auxiliary gear 322 is located sixth gear 325 right side, with sixth gear 325 clearance fit, sixth gear 325 and left side master gear 327 axle center collineation, master gear 327 below is equipped with motor gear 324, with motor gear 324 clearance fit, motor gear 324 middle part runs through there is motor shaft 323, and the right side is equipped with generator 321, it is equipped with power supply 320 to be equipped with the generator right side, links with power supply 320 electricity, wind tester 6 is equipped with 2, main part machine case 9 upper left side is equipped with wireless sensor 4, be equipped with wind tester 6 on the upper platform 5, be equipped with solar panel 7 on the main part machine case 9.

When a user uses the equipment to work in an environment monitoring system based on a wireless sensor network, a fixed placing function is provided through the fixed foot stand 1, the solar power generation panel 7 performs normal body power generation preparation, the wind power tester 6 of the upper platform 5 performs environmental wind power and wind speed tests, data are transmitted to the terminal and the main case 9 through the wireless sensor 4, the main case 9 is used for collecting, storing and collecting data, under specific environment or night conditions, emergency power supply and illumination work are performed through the multifunctional emergency device 3, the lock cap 302 is locked on the rotary disc 301, the rotary disc 301 drives the blades 303 to rotate under the action of wind power, the middle high-speed shaft 329 is further driven, the high-speed shaft 329 drives the right first gear 304 and the rotary shaft 305 to rotate, and the conical gear 342 is meshed with the second side gear 343 arranged on the right side of the second gear 306, the third gear 307 is driven to rotate by the belt 344, the third gear 307 drives the fifth gear 317 at the lower right by the belt 344, the fifth gear 317 further drives the upper worm 308 to rotate, under the supporting action of the fixing rod 328, the telescopic rod 314 at the right side of the worm 308 extends rightwards, the push rod 313 is in clearance fit, the push rod 313 is extruded to ascend along the upper sleeve 312, the top block 337 and the connecting block 336 ascend, the second spring 335 is extruded, the sliding rod 334 slides to the 2 side along the sliding groove 333 by the second spring 335 through the bearing 338, when the two ends are reached, the supporting plate 339 displaces upwards, the first spring 332 is extruded to drive the push rod 330 and the contact plate 331 to move upwards, the contact 309 is connected with the upper illuminator 310, when the fifth gear rotates, the fourth gear 316 is driven to rotate, the rack group 315 at the inner side of the tooth groove 319 ascend, The second electromagnet 341 is connected in a contact manner, on the other side, the fifth gear 317 rotates to drive the first side gear 318 and the auxiliary gear 322 below to rotate, and further to be meshed with the gear on the side of the sixth gear 325 on the left side to drive the main gear 327 to rotate, similarly, under the lower side, the motor shaft 323 and the motor gear 324 rotate to drive the generator to generate electricity, and transmit the electricity to the right power supply 320, the circuit is switched on, the first electromagnet 340 and the second electromagnet 341 are tightly attracted under the electromagnetic action, the illuminator 310 is lighted, and the power supply 320 simultaneously supplies power to other parts of the equipment, so that the emergency function is performed for standby.

Compared with the traditional common emergency lighting equipment, the multifunctional emergency lighting equipment-3 provided by the invention is characterized in that a rotating disc-301, a lock cap-302, a blade-303, a first gear-304, a rotating shaft-305, a second gear-306, a third gear-307, a worm-308, a contact-309, a lighting device-310, a connecting clamping groove-311, a sleeve-312, a push rod-313, a telescopic rod-314, a rack set-315, a fourth gear-316, a fifth gear-317, a first side gear-318, a tooth groove-319, a power supply device-320, a generator-321, an auxiliary gear-322, a motor shaft-323, a motor gear-324, a sixth gear-325, a fixed shaft-326, a main gear-327, a fixed rod-328, a lighting device, The emergency mechanism comprises a high-speed shaft-329, a push rod-330, a contact plate-331, a first spring-332, a chute-333, a sliding rod-334, a second spring-335, a connecting block-336, a top block-337, a bearing-338, a supporting plate-339, a first electromagnet-340, a second electromagnet-341, a bevel gear-342, a second side gear-343, a belt-344 and the like, so that the equipment can normally work at night and is more convenient to deal with various environments.

The multifunctional emergency mechanism solves the problems that the prior art can not normally work in specific environments such as at night or under the condition without sunlight and the like, and the use condition is limited.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. An environment monitoring system based on a wireless sensor network structurally comprises: fixed foot rest (1), tripod (2), multi-functional emergency ware (3), wireless sensor (4), go up platform (5), wind tester (6), solar panel (7), mobile jib (8), main part machine case (9), fixed foot rest (1) is equipped with 3, installs in mobile jib (8) below, with mobile jib (8) threaded connection, with install in multi-functional emergency ware (3) downside tripod (2), with multi-functional emergency ware (3) lock joint, install in main part machine case (9) upper left side multi-functional emergency ware (3), through tripod (2) and mobile jib (8) welding, its characterized in that:

the wireless sensor (4) is installed on the rear side above the solar power generation board (7) and is in locking connection with the main rod (8), the upper platform (5) is installed above the main rod (8) and is perpendicular to the main rod (8) and is in locking connection with the main rod (8), the wind power tester (6) is arranged above the upper platform (5) and is in locking connection with the upper platform (5), the solar power generation board (7) is installed on the upper side in the main rod (8) and is welded with the main rod (8), the main rod (8) is a cylinder, the main case (9) is installed above the fixed foot stand (1) and is in locking connection with the main rod (8), and the tripod (2) is arranged above the main case;

The multifunctional emergency device (3) comprises a rotary disc (301), a lock cap (302), blades (303), a first gear (304), a rotating shaft (305), a second gear (306), a third gear (307), a worm (308), a contact (309), a lighting device (310), a connecting clamping groove (311), a sleeve (312), a top rod (313), a telescopic rod (314), a rack set (315), a fourth gear (316), a fifth gear (317), a first side gear (318), a tooth groove (319), a power supply (320), a generator (321), an auxiliary gear (322), a motor shaft (323), a motor gear (324), a sixth gear (325), a fixed shaft (326), a main gear (327), a fixed rod (328), a high-speed shaft (329), a top rod (330), a contact plate (331), a first spring (332), a sliding groove (333), a sliding rod (334), a second spring (335), The rotary table comprises a connecting block (336), a top block (337), a bearing (338), a supporting plate (339), a first electromagnet (340), a second electromagnet (341), a conical gear (342), a second side gear (343) and a belt (344), wherein a lock cap (302) is installed on the left side of a rotary table (301) and is in threaded connection with the rotary table (301), the rotary table (301) is a cylinder, blades (303) are inlaid on the outer side of the rotary table, a high-speed shaft (329) penetrates through the middle of the rotary table (301) and is locked with the high-speed shaft (329), a first gear (304), a rotating shaft (305) and a conical gear (342) are sequentially arranged on the right side of the high-speed shaft (329), the first gear (304) penetrates through the high-speed shaft and is welded with the rotating shaft (305) and the conical gear (342), the second gear (306) is arranged on the right side of the conical gear, the bevel gear (342) is in clearance fit with the second side gear (343), the second gear (306) is connected with the third gear (307) through a belt (344), a fifth gear (317) is arranged at the lower right of the third gear (307) and is in belt connection with the fifth gear (317), a worm (308) is arranged above the fifth gear (317) and is in clearance fit with the worm (308), a fixing rod (328) is arranged at the left side of the worm (308) and is sleeved with the fixing rod (328), a telescopic rod (314) is arranged at the right side of the worm (308) and is sleeved with the telescopic rod (314), a top rod (313) is arranged at the right side of the telescopic rod (314) and is in clearance fit with the top rod (313), a sleeve (312) penetrates through the upper side of the top rod (313), the sleeve (312) is connected with a top block (337) through the top rod (313), and a connecting block (336) is arranged in the middle of the top block (, the device is welded with a connecting block (336), a second spring (335) is arranged above a top block (337), the device is welded with the second spring (335), a bearing (338) is arranged above the second spring (335), the second spring (335) is connected with a sliding rod (334) through the bearing (338), a sliding groove (333) is arranged at the top of the sliding rod (334) and is in clearance fit with the sliding groove (333), a supporting plate (339) is arranged above the sliding groove (333) and is in locking connection with the supporting plate (339), a first spring (332) is locked above the supporting plate (339), the first spring (332) is arranged below a top rod (330), a contact plate (331) is arranged above the top rod (330) and is welded with the contact plate (331), a contact (309) is arranged above the contact plate (331) and is in clearance fit with the contact (309), an illuminator (310) is arranged above the contact (309), and a second electromagnet (341) is arranged on the right side of the contact plate (331), is electrically connected with a second electromagnet (341), a first electromagnet (340) is arranged below the second electromagnet (341) and is in clearance fit with the first electromagnet (340), a connecting clamping groove (311) is arranged below the first electromagnet (340), a tooth groove (319) and a rack group (315) are arranged below the connecting clamping groove (311), the tooth groove (319) is in clearance fit with the rack group (315), a fourth gear (316) is arranged on the left side of the rack group (315) and is in clearance fit with the fourth gear (316), a fifth gear (317) is arranged on the left side of the fourth gear (316) and is in clearance fit with the fourth gear (316), a first side gear (318) is meshed below the fifth gear (317), an auxiliary gear (322) is arranged below the first side gear (318) and is welded with the auxiliary gear (322), the auxiliary gear (322) is arranged on the right side of the sixth gear (325), with sixth gear (325) clearance fit, sixth gear (325) and left side master gear (327) axle center collineation, master gear (327) below is equipped with motor gear (324), with motor gear (324) clearance fit, motor gear (324) middle part has run through motor shaft (323), and the right side is equipped with generator (321), it is equipped with power supply ware (320) to be equipped with the generator right side, is connected with power supply ware (320) electricity.

2. The environment monitoring system based on the wireless sensor network as claimed in claim 1, wherein: the number of the wind power testers (6) is 2.

3. The environment monitoring system based on the wireless sensor network as claimed in claim 1, wherein: and a wireless sensor (4) is arranged at the upper left of the main case (9).

4. The environment monitoring system based on the wireless sensor network as claimed in claim 1, wherein: and the upper platform (5) is provided with a wind power tester (6).

5. The environment monitoring system based on the wireless sensor network as claimed in claim 1, wherein: the main machine case (9) is provided with a solar power generation panel (7).