CN112710902A - Probe system for electromagnetic environment monitoring - Google Patents

Abstract

The utility model relates to a probe system for electromagnetic environment monitoring, it relates to electromagnetic monitoring's technical field, the application includes the base, the pole setting of setting on the pedestal roof and the monitoring facilities of setting in the pole setting, the cover is equipped with the base that is used for bearing monitoring facilities in the pole setting, coaxial rotation is connected with the regulation seat on the lateral wall that the base deviates from pole setting one side, monitoring facilities sets up on adjusting the seat, be equipped with the drive on the base and adjust seat pivoted rotating component, be equipped with the swing mechanism that drive monitoring facilities moved along arc route on adjusting the seat. This application adjusts the seat through the rotating assembly drive and drives monitoring facilities and rotate around the base in step to monitor the electromagnetic radiation signal in the different position in monitoring area, and utilize swing mechanism drive monitoring facilities to follow the motion of arc route, make monitoring facilities fully receive the electromagnetic radiation signal in the local range in this position, thereby provide abundant reference value for the monitoring result, and then promote monitoring result's accuracy.

Description

Probe system for electromagnetic environment monitoring

Technical Field

The application relates to the technical field of electromagnetic monitoring, in particular to a probe system for electromagnetic environment monitoring.

Background

Along with the development of science and technology, the utilization of mobile communication system, broadcast television emission system, high voltage transmission and transformation system etc. and the equipment that produces electromagnetic radiation increase gradually, when satisfying various demands of people, also derive the electromagnetic pollution problem, have built transformer substation, broadcast transmission station etc. near some resident's place at present, in order to guarantee that resident's health, need utilize electromagnetic environment monitoring devices to carry out real-time supervision to the electromagnetic radiation condition near resident's place.

The Chinese utility model with the authorization notice number of CN210347781U discloses a mobile electromagnetic radiation monitoring device, which comprises a bottom frame, wherein a cover body is arranged on the bottom frame, a power supply interface and a communication interface are arranged on the outer side wall of the cover body, a vertical rod is vertically and upwardly extended on the bottom frame, the vertical rod is an adjustable telescopic rod, an annular outer cover is arranged at the top end of the vertical rod, and monitoring equipment for detecting the electromagnetic radiation condition is arranged in the annular outer cover; the utility model discloses a through the pole setting of adjustable length to monitoring facilities's monitoring height adjust, and solved the naked problem of electric wire.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: after the monitoring device is fixed on a monitoring place, although the monitoring of electromagnetic radiation signals at different heights of a monitoring area is realized through the height-adjustable vertical rod, the monitoring of the electromagnetic radiation signals in different directions cannot be realized, so that the monitoring equipment cannot sufficiently receive the electromagnetic radiation signals of the monitoring area, and the accuracy of a monitoring result is low.

Disclosure of Invention

In order to solve the problem of low accuracy in electromagnetic radiation monitoring, the application provides a probe system for electromagnetic environment monitoring.

The application provides a probe system for electromagnetic environment monitoring adopts following technical scheme:

the utility model provides a probe system for electromagnetic environment monitoring, includes the base, sets up pole setting and the monitoring facilities of setting in the pole setting on the pedestal roof, the cover is equipped with the base that is used for bearing monitoring facilities in the pole setting, coaxial rotation is connected with the regulation seat on the lateral wall that the base deviates from pole setting one side, monitoring facilities sets up on adjusting the seat, be equipped with the drive on the base and adjust seat pivoted runner assembly, be equipped with the swing mechanism that drive monitoring facilities moved along arc route on adjusting the seat.

By adopting the technical scheme, when the electromagnetic radiation signals in a certain area are monitored, the rotating assembly is utilized to drive the adjusting seat to rotate around the base, so that the monitoring equipment synchronously rotates along with the base, and the monitoring equipment can monitor the electromagnetic radiation signals in different directions of the monitoring area conveniently; after a worker adjusts the monitoring equipment to a certain position, the swinging mechanism is utilized to drive the monitoring equipment to move along the arc-shaped path, so that the monitoring equipment can fully receive electromagnetic radiation signals in a local range of the position, the monitoring equipment can obtain enough data samples, enough reference values can be provided for monitoring results, and the accuracy of the monitoring results can be improved.

Optionally, swing mechanism is including setting up the fixed block on adjusting the seat roof, run through and the swivelling joint has the axis of rotation on the lateral wall that the fixed block is close to pole setting one side, run through in the axis of rotation and be equipped with the dead lever, the one end setting that the axis of rotation was kept away from to the dead lever is on the roof of adjusting the seat, the dead lever stretches out the one end coaxial fixed with first gear of axis of rotation, the pot head that the fixed block was stretched out in the axis of rotation is equipped with the connecting plate, rotate through the pivot on the connecting plate and be connected with the second gear, second gear and first gear vertical meshing, be connected with the connecting rod on the week lateral wall of pivot, the one end that the pivot was kept away from to the.

Through adopting above-mentioned technical scheme, utilize drive assembly drive axis of rotation to rotate, the axis of rotation drives the connecting plate and rotates, because first gear is fixed with the dead lever for the second gear rotates around first gear engagement, at this moment, under the drive effect of connecting rod, monitoring facilities swings along arc route, so that fully receive the electromagnetic radiation signal in this position local range.

Optionally, the driving assembly includes a first bevel gear coaxially fixed on the rotating shaft, a first driving motor is arranged on the adjusting seat, an output shaft of the first driving motor is connected with a second bevel gear, and the second bevel gear is engaged with the first bevel gear.

Through adopting above-mentioned technical scheme, utilize first driving motor to drive second bevel gear, first bevel gear in order and rotate for first bevel gear drives the axis of rotation and rotates, thereby makes the axis of rotation drive connecting plate and rotates, and simple structure is stable.

Optionally, the top or the below that lie in the regulation seat on the lateral wall that the base deviates from pole setting one side extend and are equipped with the supporting seat, rotating assembly is including setting up the second driving motor on the supporting seat, second driving motor's output shaft has the worm, the worm rotates to be connected on the supporting seat, the coaxial worm wheel that is equipped with on the week lateral wall of regulation seat, worm wheel and worm meshing.

Through adopting above-mentioned technical scheme, utilize second driving motor drive worm to rotate for the worm drives the worm wheel and rotates, and the worm wheel drives and adjusts the seat and rotate, thereby realizes that monitoring facilities rotates around 360 degrees of pole setting, so that monitoring facilities monitors the electromagnetic radiation signal of same high different position departments.

Optionally, the adjusting seat comprises a supporting plate and a rotating sleeve, a through hole matched with the base in an inserting mode is formed in the top wall of the supporting plate in a penetrating mode, the supporting plate is coaxially sleeved with the through hole and is connected to the peripheral wall of the base in a rotating mode, the rotating sleeve is arranged on the side wall of one side of the supporting plate around the through hole, one end, far away from the supporting plate, of the rotating sleeve is sleeved on the base and is connected with the base in a rotating mode, the worm gear is coaxially fixed to the peripheral wall of the rotating sleeve, and an anti-collision space is formed between.

Through adopting above-mentioned technical scheme, in order to reduce swing mechanism, monitoring facilities and the possibility that the runner assembly bumps at the rotation in-process, play good anticollision guard action to runner assembly and monitoring facilities through preventing the collision space.

Optionally, the pole setting is inside cavity, be equipped with the spout with the pole setting inner chamber intercommunication on the lateral wall of pole setting, the base is close to the one end of pole setting and stretches into in the pole setting, be equipped with the lifting unit that the drive base reciprocated and slided in the pole setting.

Through adopting above-mentioned technical scheme, utilize lifting unit drive base to slide along the length direction of stand pole is reciprocal, help realizing the monitoring to the electromagnetic radiation signal of monitoring area not co-altitude department, further promote monitoring area data acquisition's sufficiency, and then promote monitoring facilities's monitoring effect.

Optionally, lifting unit includes third driving motor, third driving motor sets up on the interior diapire of pole setting, third driving motor's output shaft has the threaded rod, the one end that third driving motor was kept away from to the threaded rod runs through the base and stretches into the one end in the pole setting and with base threaded connection, the threaded rod passes the one end rotation of base and connects on the interior roof of pole setting.

Through adopting above-mentioned technical scheme, utilize the third driving motor drive threaded rod to rotate, under the guide effect of spout for the threaded rod drives the base and reciprocates to slide along the spout, thereby realizes the lift of base.

Optionally, be equipped with the chamber that holds with the spout intercommunication in the lateral wall of pole setting, it all slides between the two relative chamber walls of base sliding direction and the both sides that are located the spout and is connected with flexible subassembly to hold the chamber, flexible subassembly and spout are closed.

Through adopting above-mentioned technical scheme, because this probe system uses in the open air, when meetting rainwater or sand and dust weather, rainwater or sand and dust can follow in the spout gets into the pole setting, cause the influence to this probe system's use, so set up flexible subassembly, in-process at the base lift, make the base drive flexible subassembly synchronous flexible, thereby make flexible subassembly and spout keep closed state always, and then reduce the entering of external rainwater or sand and dust, help promoting this probe system's performance.

Optionally, the telescopic assembly comprises a fixed baffle, one end of the fixed baffle is fixed on the wall of the accommodating cavity, the other end of the fixed baffle is connected with a plurality of adjusting baffles in a sliding mode in sequence, and the adjusting baffles are arranged along the sliding direction of the base.

Through adopting above-mentioned technical scheme, because fixed stop fixes and holds the intracavity, when the base slided, the base drives adjusting stop and slides in step, and adjusting stop and fixed stop take place relative motion this moment for adjusting stop remains throughout with the closed state of spout, and then reduces the entering of external rainwater or dust.

Optionally, the base is sleeved with a protective cover which is connected with a rotating assembly and a swinging mechanism in a rotating mode, an opening is formed in one side, close to the monitoring device, of the protective cover, a connecting assembly is arranged on the protective cover, and the protective cover is connected with the base through the connecting assembly.

By adopting the technical scheme, the probe system is used outdoors, so that the possibility of rain or dust contamination exists, and the protective cover is arranged, so that the rotating assembly and the swinging mechanism on the base can be well protected against dust and rain; and through coupling assembling, make things convenient for the workman to install and remove the safety cover.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the rotating assembly is utilized to drive the adjusting seat to rotate around the base, so that the adjusting seat synchronously rotates along with the base, and the monitoring equipment can monitor electromagnetic radiation signals in different directions in a monitoring area; after a worker adjusts the monitoring equipment to a certain position, the monitoring equipment is driven to move along an arc-shaped path by using the swing mechanism, so that the monitoring equipment can fully receive electromagnetic radiation signals in a local range of the position, the monitoring equipment can obtain enough data samples, enough reference values can be provided for statistics of monitoring results, and the accuracy of the monitoring results can be improved;

2. the anti-collision space formed by enclosing the rotating sleeve and the supporting plate is beneficial to reducing the possibility that the monitoring equipment collides with the rotating assembly in the rotating process, so that the rotating assembly and the monitoring equipment are well protected against collision;

3. the lifting assembly is utilized to drive the base to slide back and forth along the length direction of the vertical rod, so that electromagnetic radiation signals at different heights of a certain direction can be monitored, the sufficiency and diversity of data sample collection of a monitoring area are further improved, and the monitoring effect of monitoring equipment is further improved;

4. when the base slides along the spout is reciprocal, adjusting baffle follows the base and slides in step for adjusting baffle remains throughout with the closed state of spout, helps reducing the entering of external rainwater or dust, and then guarantees this probe system's performance.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram for showing the connection relationship among the upright, the base, the adjusting base, the monitoring device and the rotating assembly in the embodiment of the present application.

Fig. 3 is a schematic structural diagram for embodying a connection relationship among the support plate, the first driving motor, the second bevel gear, the first bevel gear, the rotating shaft, the fixing block, the connecting plate, the fixing rod, the first spring, the second gear, the connecting rod, the supporting rod, and the monitoring device in the embodiment of the present application.

Fig. 4 is a schematic sectional view showing a connection relationship among the third driving motor, the screw rod, the base, and the vertical rod in the embodiment of the present application.

Fig. 5 is a schematic sectional structure view for showing the connection relationship among the fixing baffle, the adjusting baffle, the base and the upright in the embodiment of the present application.

Fig. 6 is a schematic sectional view showing the connection relationship among the protective cover, the rotary block, the vertical rod, the base and the connecting assembly in the embodiment of the present application.

Fig. 7 is an enlarged view at a in fig. 6.

Description of reference numerals: 1. a base; 2. erecting a rod; 21. a chute; 22. an accommodating chamber; 3. monitoring equipment; 31. connecting blocks; 32. a bolt; 4. a base; 41. an end plate; 411. a card slot; 5. an adjusting seat; 50. an anti-collision space; 51. a support plate; 511. perforating; 52. rotating the sleeve; 6. a rotating assembly; 61. a second drive motor; 62. a worm; 63. a worm gear; 64. a lug; 7. a fixed block; 8. a rotating shaft; 9. fixing the rod; 10. a first gear; 11. a connecting plate; 12. a rotating shaft; 13. a second gear; 14. a connecting rod; 141. a strut; 15. a drive assembly; 151. a first bevel gear; 152. a first drive motor; 153. a second bevel gear; 16. a supporting seat; 17. a lifting assembly; 171. a third drive motor; 172. a threaded rod; 18. a telescoping assembly; 181. fixing a baffle plate; 1811. a receiving cavity; 182. adjusting the baffle; 19. a protective cover; 191. an opening; 192. rotating the block; 1921. a slide hole; 193. locking the sliding chute; 20. a connecting assembly; 201. a locking block; 202. a screw; 203. screwing a cover; 23. a chassis; 24. a solar photovoltaic panel.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a probe system for electromagnetic environment monitoring. Referring to fig. 1 and 2, a probe system for electromagnetic environment monitoring includes base 1, fixedly connected with machine case 23 on the roof of base 1 one end, fixedly connected with solar photovoltaic board 24 on the roof of the base 1 other end, solar photovoltaic board 24 is connected with quick-witted case 23 electricity, machine case 23 is used for saving the electric energy, so that for this probe system power supply, fixedly connected with pole setting 2 on base 1's the roof, coaxial cover is established and is slided and be connected with base 4 in pole setting 2, base 4 rotates on deviating from the lateral wall of pole setting 2 one side and is connected with regulation seat 5, monitoring facilities 3 sets up on adjusting seat 5, be equipped with the swing mechanism that drive monitoring facilities 3 moved along arc route on adjusting seat 5.

Referring to fig. 1 and 2, the adjusting base 5 includes a supporting plate 51 and a rotating sleeve 52, a through hole 511 for the susceptor 4 to pass through is provided on a top wall of the supporting plate 51, the supporting plate 51 is coaxially sleeved and rotatably connected to an outer peripheral wall of the susceptor 4, the rotating sleeve 52 is provided on a bottom wall of the supporting plate 51 around the through hole 511, the rotating sleeve 52 can be integrally formed with the supporting plate 51, and a bottom end of the rotating sleeve 52 is rotatably connected to the peripheral wall of the bottom end of the susceptor 4.

Referring to fig. 1 and 2, the lower horizontal extension that is located rotating sleeve 52 on the lateral wall of base 4 bottom is equipped with supporting seat 16, supporting seat 16 can be with base 4 integrated into one piece, be equipped with drive adjustment seat 5 pivoted runner assembly 6 on the roof of supporting seat 16, enclose between the diapire of closing formation anticollision space 50 of rotating sleeve 52's periphery wall and backup pad 51, help reducing the possibility of swing mechanism and drive assembly 6 collision, the cover is equipped with safety cover 19 on the base 4, safety cover 19 plays good rain-proof dustproof guard action to runner assembly 6 and swing mechanism.

Referring to fig. 1 and 2, when monitoring an electromagnetic radiation signal in a certain area, the rotating assembly 6 is used to drive the adjusting seat 5 to rotate around the base 4, so that the monitoring device 3 synchronously rotates along with the adjusting seat 5, and the monitoring device 3 monitors electromagnetic radiation signals in different directions of the monitoring area, which is beneficial to improving the sufficiency of monitoring and sampling; when the monitoring device 3 stops at a certain position, the swing mechanism is used for driving the monitoring device 3 to move along the arc-shaped path, so that the monitoring device 3 fully receives electromagnetic radiation signals in a local range of the position, the monitoring device 3 obtains enough data samples, enough reference values are provided for statistics of monitoring results, and the accuracy of the monitoring results is improved.

Referring to fig. 2, the rotating assembly 6 includes a second driving motor 61, a worm 62 and a worm wheel 63, the second driving motor 61 is fixedly connected to the top wall of the supporting base 16, the worm 62 is rotatably connected to the top wall of the supporting base 16 through two lugs 64, one end of the worm 62 is connected to an output shaft of the second driving motor 61, the worm wheel 63 is coaxially and fixedly connected to the outer circumferential wall of the rotating sleeve 52, and the worm wheel 63 is engaged with the worm 62.

Referring to fig. 2, the worm 62 is driven to rotate by the second driving motor 61, the worm 62 drives the worm wheel 63 to rotate, the worm wheel 63 drives the rotating sleeve 52 to rotate, the rotating sleeve 52 drives the supporting plate 51 to rotate, the monitoring device 3 rotates around the vertical rod 2, and the monitoring device 3 monitors electromagnetic radiation signals of different directions in the monitoring area.

Referring to fig. 2 and 3, the swing mechanism includes a fixing block 7, a rotation shaft 8, a fixing rod 9, a first gear 10, a connecting plate 11, a second gear 13, a connecting rod 14 and a driving assembly 15 for driving the rotation shaft 8 to rotate, the fixing block 7 is fixedly connected to the top wall of the adjusting seat 5, the rotation shaft 8 penetrates through the side wall of the fixing block 7 and is rotatably connected with the fixing block 7, the longitudinal section of the fixing rod 9 is L-shaped, the fixing rod 9 penetrates through the end wall of the rotation shaft 8 along the length direction of the rotation shaft 8 and is rotatably connected with the rotation shaft 8, the horizontal end of the fixing rod 9 extends out of the rotation shaft 8 and is coaxially and fixedly connected with the first gear 10, and the vertical end of the.

Referring to fig. 2 and 3, the connecting plate 11 is fixedly connected to the circumferential wall of one end of the rotating shaft 8 extending out of the fixing block 7, the longitudinal section of the connecting plate 11 is L-shaped, the top wall of the horizontal end of the connecting plate 11 is rotatably connected with the second gear 13 through the rotating shaft 12, the second gear 13 is vertically meshed with the first gear 10, the longitudinal section of the connecting rod 14 is L-shaped, the horizontal end of the connecting rod 14 is fixedly connected with the circumferential wall of the rotating shaft 12, one end of the connecting rod 14 far away from the rotating shaft 12 is fixedly connected with a supporting rod 141, and the monitoring device 3 is detachably connected with the supporting rod 141 through the matching of the connecting block 31 and the bolt 32.

Referring to fig. 2 and 3, the driving assembly 15 includes a first bevel gear 151, a first driving motor 152, and a second bevel gear 153, the first bevel gear 151 is coaxially fixed on the outer circumferential wall of the rotating shaft 8, the first driving motor 152 is fixedly connected to the top wall of the adjusting seat 5 through a backing plate 1521, an output shaft of the first driving motor 152 is connected to the second bevel gear 153, and the second bevel gear 153 is engaged with the first bevel gear 151.

Referring to fig. 2 and 3, the second bevel gear 153 and the first bevel gear 151 are sequentially driven to rotate by the first driving motor 152, so that the first bevel gear 151 drives the rotating shaft 8 to rotate, the rotating shaft 8 drives the connecting plate 11 to rotate, the first gear 10 is fixed to the fixing rod 9, so that the second gear 13 rotates around the first gear 10 in a meshing manner, and at this time, the monitoring device 3 swings along an arc-shaped path under the driving action of the connecting rod 14.

Referring to fig. 2 and 4, the cross section of pole setting 2 is the rectangle, pole setting 2 is inside hollow, be equipped with the spout 21 with the intercommunication of pole setting 2 inner chamber on the lateral wall of pole setting 2 one side, base 4 is close to the one end of pole setting 2 and stretches into in pole setting 2, be equipped with drive base 4 in the pole setting 2 along the reciprocating sliding's of spout 21 lifting unit 17, lifting unit 17 includes third driving motor 171, third driving motor 171 sets up on the interior diapire of pole setting 2, the output shaft of third driving motor 171 has threaded rod 172, the one end rotation connection that third driving motor 171 was kept away from to threaded rod 172 is on the interior roof of pole setting 2, the one end that third driving motor 171 was kept away from to threaded rod 172 runs through the diapire of base 4 and with base 4 threaded connection.

Referring to fig. 2 and 4, utilize third driving motor 171 drive threaded rod 172 to rotate, under the guide effect of spout 21, threaded rod 172 drives base 4 along the reciprocal slide of length direction of spout 21 to realize the lift of base 4, so that monitoring facilities 3 monitors the electromagnetic radiation signal of co-altitude department, helps promoting monitoring area data acquisition's sufficiency, thereby promotes monitoring effect.

Referring to fig. 2 and 5, be equipped with the chamber 22 that holds with spout 21 intercommunication in the lateral wall of pole setting 2, it is equipped with flexible subassembly 18 in the chamber 22 to hold, flexible subassembly 18 is used for sheltering from spout 21, flexible subassembly 18 includes fixed stop 181 and a plurality of adjusting baffle 182 of sliding connection in order, fixed stop 181 and adjusting baffle 182's in this application quantity is one, the one end of fixed stop 181 is fixed on the chamber wall that holds chamber 22, be equipped with on the end wall of the other end of fixed stop 181 and accomodate chamber 1811, adjusting baffle 182's one end is slided and is connected in accomodating chamber 1811, adjusting baffle 182's the other end and base 4 fixed connection.

Referring to fig. 2 and 5, when the base 4 goes up and down, the base 4 drives the adjusting baffle 182 to go up and down synchronously, so that the adjusting baffle 182 always keeps a closed state with the chute 21, thereby reducing external rainwater or dust from entering the upright rod 2 from the chute 21, and further ensuring the normal use of the probe system.

Referring to fig. 1 and 6, a rotating block 192 penetrates and is rotatably connected to a top wall of the protection cover 19, a sliding hole 1921 which is in sliding fit with the vertical rod 2 penetrates and is arranged on the top wall of the rotating block 192, an opening 191 penetrates and is arranged on a side wall, close to the monitoring device 3, of the protection cover 19, a connecting assembly 20 is arranged on a side wall at the bottom end of the protection cover 19, the protection cover 19 is detachably connected with the base 4 through the connecting assembly 20, an end plate 41 extends below the supporting seat 16 on the side wall at the bottom end of the base 4, and the end plate 41 and the base 4.

Referring to fig. 6 and 7, the two opposite side walls of the end plate 41 are provided with a clamping groove 411, the side wall at the bottom end of the protection cover 19 is provided with a locking sliding groove 193 in a penetrating manner, when the protection cover 19 is received on the end plate 41, the locking sliding groove 193 is communicated with the clamping groove 411, the connection assembly 20 comprises a locking block 201, a screw 202 and a screw cap 203, one end of the locking block 201 is slidably connected in the locking sliding groove 193, the other end of the locking block 201 is in inserting connection with the clamping groove 411, the screw 202 is rotatably connected in the locking sliding groove 193, one end of the screw 202 is in threaded connection with the locking block 201, the other end of the screw 202 is in coaxial fixed connection with the screw cap 203, and.

Referring to fig. 6 and 7, after the worker receives the protection cover 19 on the end plate 41, the screw cap 203 is screwed, so that the screw cap 203 drives the screw rod 202 to rotate, and under the guiding action of the locking sliding groove 193, the screw rod 202 drives the locking block 201 to slide towards the locking groove 411 to be in inserted fit with the locking groove 411, thereby realizing the assembly and disassembly of the protection cover 19.

The implementation principle of the probe system for electromagnetic environment monitoring in the embodiment of the application is as follows: when electromagnetic radiation signals in a certain area are monitored, the worm 62 and the worm wheel 63 are sequentially driven to rotate by the second driving motor 61, so that the worm wheel 63 drives the rotating sleeve 52 to rotate, the rotating sleeve 52 drives the supporting plate 51 to rotate, and the supporting plate 51 drives the monitoring equipment 3 to synchronously rotate, so that the electromagnetic radiation signals at the same height and in different directions are monitored; after the monitoring device 3 is adjusted to a certain fixed position, the first driving motor 152 is used to sequentially drive the second bevel gear 153 and the first bevel gear 151 to rotate, so that the first bevel gear 151 drives the rotating shaft 8 to rotate, the rotating shaft 8 drives the connecting plate 11 to rotate, and the second gear 13 rotates around the first gear 10, at this time, under the driving action of the connecting rod 14, the monitoring device 3 swings along an arc-shaped path, so as to further monitor the electromagnetic radiation signal in a local range of the position; after monitoring results in different directions at the same height and in local ranges at different directions is completed, the third motor is used for driving the threaded rod 172 to rotate, and under the guiding action of the sliding groove 21, the threaded rod 172 drives the base 4 to ascend and descend, so that the monitoring equipment 3 can monitor electromagnetic radiation signals at different heights in a monitoring area; this application is through base 4, adjust seat 5, supporting seat 16, runner assembly 6, lifting unit 17, swing mechanism and monitoring facilities's common cooperation, realizes that this probe system helps promoting the sufficiency that the monitoring data sample was gathered to the monitoring of the electromagnetic radiation signal of the local range of monitoring area not co-altitude, different position and different positions to for the statistics for the monitoring result provides sufficient reference value, and then promote the accuracy of monitoring result.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a probe system for electromagnetic environment monitoring, includes base (1), setting pole setting (2) and monitoring facilities (3) of setting on pole setting (2) on base (1) roof, its characterized in that: the cover is equipped with base (4) that is used for bearing monitoring facilities (3) on pole setting (2), coaxial rotation is connected with regulation seat (5) on the lateral wall that base (4) deviates from pole setting (2) one side, monitoring facilities (3) set up on adjusting seat (5), be equipped with drive regulation seat (5) pivoted runner assembly (6) on base (4), be equipped with the swing mechanism that drive monitoring facilities (3) moved along arc route on adjusting seat (5).

2. The probe system for electromagnetic environment monitoring of claim 1, wherein: swing mechanism is including setting up fixed block (7) on adjusting seat (5) roof, run through and swivelling joint has axis of rotation (8) on the lateral wall that fixed block (7) are close to pole setting (2) one side, dead lever (9) run through in axis of rotation (8), the one end setting that axis of rotation (8) were kept away from in dead lever (9) is on adjusting the roof of seat (5), the one end coaxial fixed with first gear (10) that axis of rotation (8) were stretched out in dead lever (9), the pot head that axis of rotation (8) stretched out fixed block (7) is equipped with connecting plate (11), rotate through pivot (12) on connecting plate (11) and be connected with second gear (13), second gear (13) and first gear (10) vertical toothing, be connected with connecting rod (14) on the week lateral wall of pivot (12), the one end that pivot (12) were kept away from in connecting rod (14) is connected with monitoring facilities (3), and a driving assembly (15) for driving the rotating shaft (8) to rotate is arranged on the adjusting seat (5).

3. The probe system for electromagnetic environment monitoring of claim 2, wherein: the driving assembly (15) comprises a first bevel gear (151) coaxially fixed on the rotating shaft (8), a first driving motor (152) is arranged on the adjusting seat (5), an output shaft of the first driving motor (152) is connected with a second bevel gear (153), and the second bevel gear (153) is meshed with the first bevel gear (151).

4. The probe system for electromagnetic environment monitoring of claim 1, wherein: base (4) deviate from the top or the below extension that lie in regulation seat (5) on the lateral wall of pole setting (2) one side and are equipped with supporting seat (16), runner assembly (6) are including setting up second driving motor (61) on supporting seat (16), the output shaft of second driving motor (61) has worm (62), worm (62) rotate to be connected on supporting seat (16), the week lateral wall of regulation seat (5) is gone up coaxial worm wheel (63) that is equipped with, worm wheel (63) and worm (62) meshing.

5. The probe system for electromagnetic environment monitoring of claim 4, wherein: adjust seat (5) including backup pad (51) and rotation sleeve (52), run through on the roof of backup pad (51) and be equipped with and base (4) grafting complex perforation (511), backup pad (51) coaxial cover is established and is rotated and connect on the perisporium of base (4), rotation sleeve (52) set up on the lateral wall of backup pad (51) one side around perforation (511), the pot head that backup pad (51) was kept away from in rotation sleeve (52) is established and is rotated with base (4) and is connected on base (4), worm wheel (63) coaxial fixation is on the anticollision of rotation sleeve (52), enclose between backup pad (51) and rotation sleeve (52) and close formation space (50).

6. The probe system for electromagnetic environment monitoring of claim 1, wherein: the inside cavity of pole setting (2), be equipped with spout (21) with pole setting (2) inner chamber intercommunication on the lateral wall of pole setting (2), base (4) are close to the one end of pole setting (2) and stretch into in pole setting (2), be equipped with lifting unit (17) that drive base (4) reciprocated and slide in pole setting (2).

7. The probe system for electromagnetic environment monitoring of claim 6, wherein: lifting unit (17) includes third driving motor (171), third driving motor (171) set up on the interior diapire of pole setting (2), the output shaft of third driving motor (171) has threaded rod (172), the one end that third driving motor (171) were kept away from in threaded rod (172) runs through base (4) and stretches into the one end in pole setting (2) and with base (4) threaded connection, threaded rod (172) pass the one end rotation connection of base (4) on the interior roof of pole setting (2).

8. The probe system for electromagnetic environment monitoring of claim 7, wherein: be equipped with chamber (22) that hold with spout (21) intercommunication in the lateral wall of pole setting (2), hold chamber (22) and all slide between the two relative chamber walls of base (4) sliding direction and the both sides that are located spout (21) and be connected with flexible subassembly (18), flexible subassembly (18) and spout (21) are closed.

9. The probe system for electromagnetic environment monitoring of claim 8, wherein: the telescopic assembly (18) comprises a fixing baffle plate (181), one end of the fixing baffle plate (181) is fixed on the wall of the accommodating cavity (22), the other end of the fixing baffle plate (181) is connected with a plurality of adjusting baffle plates (182) in a sliding mode in sequence, and the adjusting baffle plates (182) are arranged along the sliding direction of the base (4).

10. The probe system for electromagnetic environment monitoring of claim 1, wherein: the utility model discloses a monitoring device, including base (4), safety cover (19), monitoring equipment (3), be equipped with coupling assembling (20) on safety cover (19), safety cover (19) are established and are rotated and be connected with and are used for protecting rotating assembly (6) and swing mechanism on base (4), one side that safety cover (19) are close to monitoring equipment (3) is equipped with opening (191), be equipped with coupling assembling (20) on safety cover (19), safety cover (19) are connected with base (4.

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