CN112672590A

CN112672590A - Remote electronic monitoring equipment

Info

Publication number: CN112672590A
Application number: CN202110279074.3A
Authority: CN
Inventors: 熊蕾
Original assignee: Jiangxi University of Technology
Current assignee: Jiangxi University of Technology
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-04-16
Anticipated expiration: 2041-03-16
Also published as: CN112672590B

Abstract

The invention relates to the technical field of structural parts of electrical equipment, and discloses remote electronic monitoring equipment, which solves the problem of low monitoring accuracy caused by adopting a fixed mounting mode for the monitoring equipment and comprises a mounting shell, wherein the top end of the mounting shell is provided with a receiving port, the bottom end of the mounting shell is fixedly connected with a mounting base, a first lifting cylinder and a second lifting cylinder are inserted into the receiving port, the top ends of the first lifting cylinder and the second lifting cylinder are connected through a substrate, two sides of the top end of the substrate are respectively provided with a second supporting rod, and the top ends of the second supporting rods are respectively provided with a first monitoring rod and a second monitoring rod; through the design of the first pull rod, the first supporting seat, the moving mechanism, the second rotating block, the first adjusting cylinder and the height adjuster, the automatic moving of the device is convenient to realize, the monitoring range of the first monitoring and the second monitoring is enlarged, the all-dimensional monitoring of the first monitoring and the second monitoring is realized, the intelligent design of the first monitoring and the second monitoring is further realized, and the monitoring precision is greatly improved.

Description

Remote electronic monitoring equipment

Technical Field

The invention belongs to the technical field of structural parts of electrical equipment, and particularly relates to remote electronic monitoring equipment.

Background

The electronic monitoring equipment that current remote monitoring used often adopts fixed mounting means, and then causes the camera monitoring range among the supervisory equipment easily to receive external object and shelter from, leads to the camera to have the control blind area, and then influences the monitoring comprehensiveness and the monitoring precision of control.

Disclosure of Invention

In view of the above situation, in order to overcome the defects in the prior art, the present invention provides a remote electronic monitoring device, which effectively solves the problem of low monitoring accuracy caused by a fixed installation manner adopted by the monitoring device in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a remote electronic monitoring device comprises an installation shell, wherein a containing opening is formed in the top end of the installation shell, an installation base is fixedly connected to the bottom end of the installation shell, a first lifting cylinder and a second lifting cylinder are inserted into the containing opening in an alternating mode, the top ends of the first lifting cylinder and the second lifting cylinder are connected through a base plate, two supporting rods are arranged on two sides of the top end of the base plate respectively, a first monitoring rod and a second monitoring rod are arranged at the top ends of the second supporting rods respectively, a first pull rod is arranged between the top ends of the first lifting cylinder and the second lifting cylinder, a supporting seat is arranged in the middle of the first pull rod, an angle regulator connected with the first monitoring rod and the second monitoring rod is arranged on the supporting seat, a containing bin is formed in the installation base, and a first supporting cylinder connected with the bottom end of the first lifting cylinder and a second;

the first monitoring device and the second monitoring device both comprise a monitoring shell, one end of the monitoring shell is in threaded connection with a sealing cover, an observation opening is formed in the sealing cover, a glass cover is mounted on the observation opening, a mounting groove is formed in one side, close to the sealing cover, of the monitoring shell, a circuit board is mounted inside the mounting groove, a camera is arranged on the circuit board, and a protective curtain is arranged at the top end of the monitoring shell;

a supporting plate is arranged in the accommodating bin, auxiliary wheels are symmetrically arranged on two sides of the bottom end of the supporting plate, a moving mechanism is arranged in the middle of the bottom end of the supporting plate, an auxiliary mechanism connected with the top end of the supporting plate is arranged in a supporting cylinder II, a double-shaft motor is arranged in a supporting cylinder I, output shafts of the double-shaft motor are connected with rotating rods, a rotating block I connected with a lifting cylinder I is arranged at the top end of the rotating rod, a rotating block II is arranged at the bottom end of the rotating rod, and an adjusting cylinder I connected with the top end of the supporting plate is sleeved outside;

the auxiliary mechanism is characterized in that a first supporting rod is arranged inside a first lifting cylinder in an inserting mode, a second adjusting cylinder is arranged on the outer bottom end of the first supporting rod in a sleeved mode, the first lifting cylinder is connected with the bottom end of the second lifting cylinder through a second pull rod, the second adjusting cylinder is connected with the first adjusting cylinder through a third pull rod, a first supporting cylinder and a second supporting cylinder are close to one side and are provided with grooves which are in sliding connection with the second pull rod and the third pull rod, the second supporting rod is of an I-shaped structure, the bottom end of the first supporting rod is connected with the inner bottom end of the second adjusting cylinder through a spring, and a second through groove which is sleeved on the first adjusting cylinder and the second adjusting cylinder.

Preferably, the first supporting cylinder and the second supporting cylinder are connected through a containing seat, and a first through groove is formed in the bottom end of the containing seat.

Preferably, the balls are embedded in two sides of the top end of the first supporting rod, and the rolling grooves are symmetrically formed in the inner wall of the second lifting cylinder.

Preferably, the two sides of the first adjusting cylinder and the second adjusting cylinder are both provided with a convex block, and the inner wall of the second through groove is provided with a sliding groove in sliding connection with the convex block.

Preferably, the angle adjuster comprises a second motor, a rotating shaft, a bidirectional belt pulley, a first rotating wheel, a first belt, a second rotating wheel, a sleeve shaft, a third motor and radiating blades, the second motor is installed on the top end of the supporting seat, the third motor is installed at the bottom end of the supporting seat, an output shaft of the second motor is connected with the rotating shaft, the sleeve shaft is respectively sleeved on the outer portions of the second supporting rods, the sleeve shaft is connected with the base plate through a bearing seat, the bidirectional belt pulley is sleeved on the rotating shaft, the first rotating wheel sleeved on the outer portion of one of the sleeve shafts is arranged below the first monitoring unit, the first rotating wheel is connected with the bidirectional belt pulley through a first belt, the second rotating wheel sleeved on the outer portion of the other sleeve shaft is arranged below the second monitoring unit, the second rotating wheel is connected with the bidirectional belt.

Preferably, an output shaft of the motor III is connected with a height adjuster.

Preferably, moving mechanism includes the supporting leg, removes wheel, axis of rotation, gear one, opening and support frame, and the supporting leg is installed in the bottom both sides of backup pad, and passes through rotation axis connection between two supporting legs, and the both ends of axis of rotation all overlap and be equipped with and remove the wheel, and the intermediate position of axis of rotation is equipped with gear one, and the intermediate position of backup pad has seted up the opening, and the support frame has been alternate to open-ended inside, and the inside of support frame is equipped with the driver of being connected with gear one.

Preferably, the driver comprises a first motor and a second gear, the first motor is mounted on the inner side wall of the support frame, and the second gear meshed with the first gear is sleeved on an output shaft of the first motor.

Preferably, altitude controller is including installation axle, rolling wheel, rolling rope, pull ring, opening, turbine and worm, and installation axle is installed in the inner wall of storage seat, and the epaxial cover of installation is equipped with the rolling wheel and is located the turbine of rolling wheel one side, and the top of support frame is seted up to the opening, and on the output shaft of motor one was located to the pull ring cover, and around having on the rolling wheel to run through in the inside rolling rope of opening, and the rolling rope is connected with the top of pull ring, and the interior bottom of storage seat is equipped with the worm of being connected with motor three output shaft.

Compared with the prior art, the invention has the beneficial effects that:

(1) during operation, the installation base, the first support cylinder, the second support cylinder, the first lifting cylinder, the second lifting cylinder, the first monitoring cylinder, the double-shaft motor, the rotating rod, the first rotating block and the auxiliary mechanism are arranged, so that the height adjustment of the first monitoring cylinder and the second monitoring cylinder is convenient to realize, the monitoring visual angles of the first monitoring cylinder and the second monitoring cylinder are further increased, the rotation of the first monitoring cylinder and the second monitoring cylinder is effectively realized by matching with the design of an angle adjuster, and meanwhile, the heat dissipation of the first monitoring cylinder and the second monitoring cylinder is realized in the rotating process; the design of a first pull rod, a first supporting seat, a moving mechanism, a second rotating block, a first adjusting cylinder and a height adjuster is matched, so that the automatic movement of the device is convenient to realize, the monitoring range of the first monitoring device and the second monitoring device is enlarged, the all-dimensional monitoring of the first monitoring device and the second monitoring device is realized, the intelligent design of the first monitoring device and the second monitoring device is further realized, the monitoring precision is greatly improved, the wireless remote monitoring can be conveniently controlled by a worker, the all-dimensional monitoring of the first monitoring device and the second monitoring device is realized, the supervision worker can be helped to know the site work, and the labor intensity of the worker is further effectively relieved;

(2) the device is convenient to move through the supporting legs, the moving wheels, the rotating shaft, the first gear, the opening, the supporting frame, the first motor and the second gear, so that the monitoring intelligence of the device is improved;

(3) the starting and stopping actions of the device in the moving process are effectively realized through the action of the angle regulator and the height regulator, and the moving intellectualization of the device is realized;

(4) through the design of the motor II, the rotating shaft, the bidirectional belt pulley, the rotating wheel I, the belt II, the rotating wheel II, the sleeve shaft, the radiating blades, the base plate and the supporting rod II, the rotation of the motor I and the motor II under the action of the base plate is effectively monitored, and the radiating of the radiating blades on the monitoring is realized simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the angle adjuster of the present invention;

FIG. 4 is a schematic structural diagram of the moving mechanism of the present invention;

FIG. 5 is a schematic view of a portion of the height adjuster of the present invention;

FIG. 6 is a perspective view of the receptacle of the present invention;

FIG. 7 is a schematic diagram of a first monitor or a second monitor according to the present invention;

in the figure: 1. installing a base; 2. an accommodating bin; 3. a first support cylinder; 4. a second support cylinder; 5. a first lifting cylinder; 6. a second lifting cylinder; 7. monitoring one; 8. monitoring II; 9. an angle adjuster; 901. a second motor; 902. a rotating shaft; 903. a bidirectional belt pulley; 904. rotating the first wheel; 905. a first belt; 906. a second belt; 907. rotating the second wheel; 908. a sleeve shaft; 909. a heat dissipating fin; 10. a first pull rod; 11. a supporting seat; 12. a support plate; 13. an auxiliary wheel; 14. a moving mechanism; 141. supporting legs; 142. a moving wheel; 143. a rotating shaft; 144. a first gear; 145. an opening; 146. a support frame; 147. a first motor; 148. a second gear; 15. a double-shaft motor; 16. rotating the rod; 17. rotating the first block; 18. rotating the second block; 19. a first adjusting cylinder; 20. an auxiliary mechanism; 201. a first supporting rod; 202. a second adjusting cylinder; 203. a second pull rod; 204. a third pull rod; 205. grooving; 206. a spring; 207. a second through groove; 21. a storage seat; 22. a first through groove; 23. a substrate; 24. a height adjuster; 241. installing a shaft; 242. a winding wheel; 243. winding the rope; 244. a pull ring; 245. a port; 246. a turbine; 247. a worm; 25. a second supporting rod; 26. a third motor; 27. monitoring the housing; 28. a sealing cover; 29. an observation port; 30. a glass cover; 31. mounting grooves; 32. a circuit board; 33. a camera; 34. a protective curtain; 35. installing a shell; 36. a receiving opening.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the first embodiment, as shown in fig. 1, 2, 3, 4, 5 and 7, the present invention includes a mounting housing 35, a receiving opening 36 is formed at the top end of the mounting housing 35, a mounting base 1 is fixedly connected to the bottom end of the mounting housing 35, a first lifting cylinder 5 and a second lifting cylinder 6 are inserted into the receiving opening 36, the top ends of the first lifting cylinder 5 and the second lifting cylinder 6 are connected through a base plate 23, two support rods 25 are respectively arranged at two sides of the top end of the base plate 23, a first monitoring rod 7 and a second monitoring rod 8 are respectively arranged at the top ends of the second support rods 25, a first pull rod 10 is arranged between the top ends of the first lifting cylinder 5 and the second lifting cylinder 6, a support base 11 is arranged at the middle position of the first pull rod 10, an angle adjuster 9 connected to the first monitoring rod 7 and the second monitoring rod 8 is arranged on the support base 11, and the design of the angle adjuster 9 is convenient for realizing the omnibearing rotation of the, the mounting base 1 is internally provided with a containing bin 2, and the top end of the mounting base 1 is provided with a first supporting cylinder 3 connected with the bottom end of a first lifting cylinder 5 and a second supporting cylinder 4 connected with the bottom end of a second lifting cylinder 6;

the first monitoring device 7 and the second monitoring device 8 both comprise a monitoring shell 27, one end of the monitoring shell 27 is in threaded connection with a sealing cover 28, the sealing cover 28 is provided with an observation port 29, a glass cover 30 is installed on the observation port 29, one side, close to the sealing cover 28, of the monitoring shell 27 is provided with a mounting groove 31, a circuit board 32 is installed inside the mounting groove 31, a camera 33 is arranged on the circuit board 32, and a protective curtain 34 is arranged at the top end of the monitoring shell 27;

the supporting plate 12 is arranged in the accommodating bin 2, the auxiliary wheels 13 are symmetrically arranged on two sides of the bottom end of the supporting plate 12, the moving mechanism 14 is arranged in the middle of the bottom end of the supporting plate 12, the device can be moved conveniently by the aid of the moving mechanism 14 and the auxiliary wheels 13, monitoring intelligence of the device is improved, the auxiliary mechanism 20 connected with the top end of the supporting plate 12 is arranged in the supporting cylinder II 4, the double-shaft motor 15 is arranged in the supporting cylinder I3, the output shaft of the double-shaft motor 15 is connected with the rotating rod 16, the top end of the rotating rod 16 is provided with the rotating block I17 connected with the lifting cylinder I5, the bottom end of the rotating rod 16 is provided with the rotating block II 18, and the adjusting cylinder I19 connected with the top end of the supporting;

the inside of the auxiliary mechanism 20 is provided with a first support rod 201 inserted in the second lifting cylinder 6, the outer bottom end of the first support rod 201 is sleeved with a second adjusting cylinder 202, the first lifting cylinder 5 is connected with the bottom end of the second lifting cylinder 6 through a second pull rod 203, the second adjusting cylinder 202 is connected with the first adjusting cylinder 19 through a third pull rod 204, the sides of the first support cylinder 3 and the second support cylinder 4, which are close to each other, are provided with grooves 205 which are in sliding connection with the second pull rod 203 and the third pull rod 204, the first support rod 201 is in an I-shaped structure, the bottom end of the first support rod 201 is connected with the inner bottom end of the second adjusting cylinder 202 through a spring 206, and the mounting base 1 is provided with a second through groove 207 which is sleeved outside the first adjusting cylinder 19 and the second adjusting cylinder 202, through the design of the auxiliary mechanism 20, the stability of a first lifting cylinder 5 and a second lifting cylinder 6 in height adjustment can be realized, and the working stability of a first monitoring cylinder 7 and a second monitoring cylinder 8 is further improved.

In the second embodiment, on the basis of the first embodiment, as shown in fig. 1, 2, 4 and 6, the first supporting cylinder 3 is connected with the second supporting cylinder 4 through the receiving seat 21, and the bottom end of the receiving seat 21 is provided with the first through groove 22, so that convenience is provided for the movement of the later moving mechanism 14.

In the third embodiment, on the basis of the first embodiment, as shown in fig. 2, balls are embedded in both sides of the top end of the first support rod 201, and rolling grooves are symmetrically formed in the inner wall of the second lifting cylinder 6, so that the moving friction force is reduced.

In the fourth embodiment, on the basis of the first embodiment, as shown in fig. 2, the two sides of the first adjusting cylinder 19 and the second adjusting cylinder 202 are both provided with a protrusion, and the inner wall of the second through groove 207 is provided with a sliding groove in sliding connection with the protrusion, so that the movement stability of the first adjusting cylinder 19 and the second adjusting cylinder 202 is improved.

Fifth embodiment, based on the first embodiment, as shown in fig. 1 to 3, the angle adjuster 9 includes a second motor 901, a rotating shaft 902, a two-way pulley 903, a first rotating wheel 904, a first belt 905, a second belt 906, a second rotating wheel 907, a sleeve shaft 908, a third motor 26 and heat dissipating blades 909, the second motor 901 is mounted at the top end of the supporting base 11, the third motor 26 is mounted at the bottom end of the supporting base 11, an output shaft of the second motor 901 is connected with the rotating shaft 902, the sleeve shafts 908 are respectively sleeved outside the supporting rods 25, the sleeve shaft 908 and the base plate 23 are connected through a bearing block, the rotating shaft 902 is sleeved with the two-way pulley 903, the first rotating wheel 904 sleeved outside one of the sleeve shafts 908 is arranged below the monitoring unit 7, the first rotating wheel 904 and the two-way pulley 903 are connected through the first belt 905, the second rotating wheel 907 sleeved outside the other sleeve shaft 908 is arranged below the monitoring unit 8, the rotating wheel II 907 is connected with the bidirectional belt pulley 903 through a belt II 906, and the top end of the outer wall of the sleeve shaft 908 is surrounded by radiating blades 909, so that full-angle rotation and heat radiation of the monitoring I7 and the monitoring II 8 are facilitated.

In the sixth embodiment, on the basis of the fifth embodiment, as shown in fig. 2, the output shaft of the motor iii 26 is connected with a height adjuster 24.

Seventh embodiment, on the basis of first embodiment, given by fig. 2 and 4, moving mechanism 14 includes supporting leg 141, remove wheel 142, axis of rotation 143, gear 144, opening 145 and support frame 146, supporting leg 141 installs in the bottom both sides of backup pad 12, and connect through axis of rotation 143 between two supporting legs 141, and the both ends of axis of rotation 143 all overlap and are equipped with and remove wheel 142, the intermediate position of axis of rotation 143 is equipped with gear 144, and the intermediate position of backup pad 12 has seted up opening 145, opening 145's inside interlude has support frame 146, the inside of support frame 146 is equipped with the driver of being connected with gear 144, thereby realize the removal of device, provide convenience for the diversified control of control 7 and control two 8.

In an eighth embodiment, on the basis of the seventh embodiment, as shown in fig. 2 and 4, the driver includes a first motor 147 and a second gear 148, the first motor 147 is installed on the inner side wall of the supporting frame 146, and the second gear 148 meshed with the first gear 144 is sleeved on an output shaft of the first motor 147, so as to effectively provide power for the movement of the device.

Ninth embodiment, on the basis of sixth embodiment, as shown in fig. 4 and 5, the height adjuster 24 includes a mounting shaft 241, a winding wheel 242, a winding rope 243, a pulling ring 244, a through hole 245, a worm wheel 246 and a worm 247, the mounting shaft 241 is mounted on the inner wall of the receptacle 21, the mounting shaft 241 is sleeved with the winding wheel 242 and the worm wheel 246 located on one side of the winding wheel 242, the through hole 245 is opened at the top end of the support frame 146, the pulling ring 244 is sleeved on the output shaft of the motor 147, the winding rope 243 penetrating through the through hole 245 is wound on the winding wheel 242, the winding rope 243 is connected with the top end of the pulling ring 244, and the inner bottom end of the receptacle 21 is provided with the worm 247 connected with the output shaft of the motor iii 26, thereby providing possibility for movement of the device.

The working principle is as follows: when the device works, when the bottom end of the installation base 1 is contacted with the ground, the auxiliary wheel 13 and the rotating shaft 143 are suspended, then the monitoring heights of the first monitoring part 7 and the second monitoring part 8 are controlled, firstly, the double-shaft motor 15 is started, the double-shaft motor 15 drives the rotating rod 16 to rotate, the rotating rod 16 drives the first rotating block 17 and the second rotating block 18 to rotate, then the first lifting cylinder 5 moves upwards under the action of the second pull rod 203 and the first pull rod 10, the height adjustment of the first monitoring part 7 is realized, meanwhile, the second lifting cylinder 6 moves upwards outside the first supporting rod 201, the height adjustment of the second monitoring part 8 is realized, meanwhile, due to the connection relationship of the third pull rod 204, the first adjusting cylinder 19 moves downwards in the accommodating bin 2, the second adjusting cylinder 202 moves downwards, then the first adjusting cylinder 19 and the second adjusting cylinder 202 drive the supporting plate 12 to move downwards, the auxiliary wheel 13 and the rotating shaft 143 are driven to be contacted with the ground, firstly, the third motor 26 is started, the third motor 26 drives the worm 247 to rotate, the mounting shaft 241 drives the winding wheel 242 to rotate through the meshing connection relationship between the worm 247 and the worm wheel 246, further, the winding wheel 242 releases the winding rope 243, the pull ring 244 drives the support frame 146 to move downwards in the opening 145, the second gear 148 is meshed with the first gear 144, then, the first motor 147 is started, the second gear 148 rotates, further, the first gear 144 rotates the rotating shaft 143, the moving wheel 142 rotates, further, the device moves, then, when the first monitoring part 7 and the second monitoring part 8 need to rotate in all directions, the second motor 901 is started, the second motor 901 rotates the rotating shaft 902, meanwhile, the rotating shaft 902 drives the base plate 23 to rotate, the base plate 23 drives the first monitoring part 7 and the second monitoring part 8 to rotate, meanwhile, the rotating shaft drives the bidirectional belt pulley 903 to rotate, and the bidirectional belt pulley 903 rotates through the bidirectional belt pulley 903, The connection relationship between the first belt 905, the second belt 906, the first rotating wheel 904 and the second rotating wheel 907 realizes the rotation of the cooling fins 909, so that the cooling fins 909 cool the first monitoring device 7 and the second monitoring device 8.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A remote electronic monitoring device comprising a mounting housing (35), characterized in that: the top end of the mounting shell (35) is provided with a containing opening (36), the bottom end of the mounting shell (35) is fixedly connected with a mounting base (1), a first lifting cylinder (5) and a second lifting cylinder (6) are inserted into the containing opening (36), the top ends of the first lifting cylinder (5) and the second lifting cylinder (6) are connected through a base plate (23), two sides of the top end of the base plate (23) are respectively provided with a second supporting rod (25), the top ends of the second supporting rods (25) are respectively provided with a first monitoring part (7) and a second monitoring part (8), a first pull rod (10) is arranged between the top ends of the first lifting cylinder (5) and the second lifting cylinder (6), the middle position of the first pull rod (10) is provided with a supporting seat (11), an angle regulator (9) connected with the first monitoring part (7) and the second monitoring part (8) is arranged on the supporting seat (11), the inside of the mounting base (1), the top end of the mounting base (1) is provided with a first supporting cylinder (3) connected with the bottom end of a first lifting cylinder (5) and a second supporting cylinder (4) connected with the bottom end of a second lifting cylinder (6);

the monitoring device comprises a monitoring shell (7) and a monitoring shell (8), wherein one end of the monitoring shell (27) is in threaded connection with a sealing cover (28), the sealing cover (28) is provided with an observation port (29), a glass cover (30) is installed on the observation port (29), one side, close to the sealing cover (28), of the monitoring shell (27) is provided with a mounting groove (31), a circuit board (32) is installed inside the mounting groove (31), a camera (33) is arranged on the circuit board (32), and a protective curtain (34) is arranged at the top end of the monitoring shell (27);

a supporting plate (12) is arranged in the accommodating bin (2), auxiliary wheels (13) are symmetrically arranged on two sides of the bottom end of the supporting plate (12), a moving mechanism (14) is arranged in the middle of the bottom end of the supporting plate (12), an auxiliary mechanism (20) connected with the top end of the supporting plate (12) is arranged in the supporting cylinder II (4), a double-shaft motor (15) is arranged in the supporting cylinder I (3), output shafts of the double-shaft motor (15) are connected with rotating rods (16), a first rotating block (17) connected with a first lifting cylinder (5) is arranged at the top end of each rotating rod (16), a second rotating block (18) is arranged at the bottom end of each rotating rod (16), and a first adjusting cylinder (19) connected with the top end of the supporting plate (12) is sleeved outside the second;

the auxiliary mechanism (20) is internally provided with a first supporting rod (201) which is inserted into the second lifting cylinder (6), the outer bottom end of the first supporting rod (201) is sleeved with a second adjusting cylinder (202), the first lifting cylinder (5) is connected with the bottom end of the second lifting cylinder (6) through a second pull rod (203), the second adjusting cylinder (202) is connected with the first adjusting cylinder (19) through a third pull rod (204), one side, close to the first supporting cylinder (3) and the second supporting cylinder (4), of the first supporting rod (3) and one side, close to the second supporting cylinder (4), of the first supporting rod (1) are respectively provided with a groove (205) which is in sliding connection with the second pull rod (203) and the third pull rod (204), the first supporting rod (201) is of an I-shaped structure, the bottom end of the first supporting rod (201) is connected with the inner bottom end of the second adjusting cylinder (202) through a spring (206), and the mounting base (1) is.

2. A remote electronic monitoring device according to claim 1, characterized in that: the first support cylinder (3) is connected with the second support cylinder (4) through a storage seat (21), and a first through groove (22) is formed in the bottom end of the storage seat (21).

3. A remote electronic monitoring device according to claim 1, characterized in that: the two sides of the top end of the first supporting rod (201) are embedded with balls, and the inner wall of the second lifting cylinder (6) is symmetrically provided with rolling grooves.

4. A remote electronic monitoring device according to claim 1, characterized in that: the two sides of the first adjusting cylinder (19) and the second adjusting cylinder (202) are both provided with a convex block, and the inner wall of the second through groove (207) is provided with a sliding groove in sliding connection with the convex block.

5. A remote electronic monitoring device according to claim 1, characterized in that: the angle regulator (9) comprises a second motor (901), a rotating shaft (902), a bidirectional belt pulley (903), a first rotating wheel (904), a first belt (905), a second belt (906), a second rotating wheel (907), a sleeve shaft (908), a third motor (26) and radiating blades (909), wherein the second motor (901) is installed at the top end of the supporting seat (11), the third motor (26) is installed at the bottom end of the supporting seat (11), an output shaft of the second motor (901) is connected with the rotating shaft (902), the sleeve shafts (908) are respectively sleeved outside the second supporting rods (25), the sleeve shafts (908) are connected with the base plate (23) through bearing seats, the bidirectional belt pulley (903) is sleeved on the rotating shaft (902), the first rotating wheel (904) sleeved outside one sleeve shaft (908) is arranged below the monitoring unit (7), and the first rotating wheel (904) and the bidirectional belt pulley (903) are connected through the first belt (905), a rotating wheel II (907) sleeved outside the other sleeve shaft (908) is arranged below the monitoring II (8), the rotating wheel II (907) is connected with the bidirectional belt pulley (903) through a belt II (906), and the top end of the outer wall of the sleeve shaft (908) is surrounded by radiating blades (909).

6. A remote electronic monitoring device according to claim 5, characterized in that: and an output shaft of the motor III (26) is connected with a height adjuster (24).

7. A remote electronic monitoring device according to claim 1, characterized in that: moving mechanism (14) are including supporting leg (141), remove wheel (142), axis of rotation (143), gear (144), opening (145) and support frame (146), supporting leg (141) are installed in the bottom both sides of backup pad (12), and connect through axis of rotation (143) between two supporting legs (141), and the both ends of axis of rotation (143) all overlap and are equipped with and remove wheel (142), the intermediate position of axis of rotation (143) is equipped with gear (144), and opening (145) have been seted up to the intermediate position of backup pad (12), support frame (146) have been worn to insert in the inside of opening (145), the inside of support frame (146) is equipped with the driver of being connected with gear (144).

8. A remote electronic monitoring device according to claim 7, characterized in that: the driver comprises a first motor (147) and a second gear (148), the first motor (147) is installed on the inner side wall of the supporting frame (146), and the second gear (148) meshed with the first gear (144) is sleeved on an output shaft of the first motor (147).

9. A remote electronic monitoring device according to claim 6, characterized in that: height adjuster (24) are including installation axle (241), wind-up pulley (242), rolling rope (243), pull ring (244), through-hole (245), turbine (246) and worm (247), installation axle (241) are installed in the inner wall of containing seat (21), the cover is equipped with wind-up pulley (242) and is located turbine (246) of wind-up pulley (242) one side on installation axle (241), the top of support frame (146) is seted up in through-hole (245), pull ring (244) cover is located on the output shaft of motor (147), and around having run through in inside rolling rope (243) of through-hole (245) on wind-up pulley (242), and rolling rope (243) are connected with the top of pull ring (244), and the inner bottom end of containing seat (21) is equipped with worm (247) with motor three (26) output shaft connection.