CN115460351B - Internet of things security equipment capable of eliminating monitoring dead angle - Google Patents

Abstract

The invention relates to the technical field of monitoring devices, in particular to an Internet of things security device capable of eliminating monitoring dead angles. The connecting mechanism is driven to rotate through the first motor, the connecting mechanism drives the transmission end of the transmission rod connected with the connecting mechanism to move the transmission rod, so that the reflecting plate moves along with the transmission rod and is located in front of the monitoring surface of the monitoring device, the angle between the reflecting plate and the monitoring surface is adjusted through the angle adjusting mechanism, the monitoring range of the monitoring device is enlarged through the reflecting plate, and the monitoring dead angle of a single monitoring device is reduced.

Description

Internet of things security equipment capable of eliminating monitoring dead angle

Technical Field

The invention relates to the technical field of monitoring devices, in particular to an Internet of things security device capable of eliminating monitoring dead angles.

Background

The monitoring device is one of the most applied devices in the security device, the construction site monitoring device which is suitable in the market is a handheld video communication device, and video monitoring is the mainstream at present. From the earliest analog monitoring to the digital monitoring of the fire in the previous years to the emerging network video monitoring, the ground covering change occurs. Today, the IP technology is gradually unified, and it is necessary to know the development history of the video monitoring apparatus again.

The existing method for eliminating monitoring dead angles of security equipment, for example, a road traffic accident timely monitoring and early warning device with a wide application range disclosed in patent No. CN202110146224.3, wherein a motor drives a turntable to rotate by means of a first rotating shaft, so as to achieve the purpose of rotating a monitoring device in the horizontal direction, and then, a second rotating shaft rotates, so that the rotating wheel slides under the driving of an inclined annular groove, thereby achieving the effect of automatically adjusting a movable sleeve up and down, and then, the angle of the monitoring device is adjusted, so that the monitoring device monitors no dead angle.

Disclosure of Invention

Aiming at the problems in the prior art, the Internet of things security equipment capable of eliminating the monitoring dead angle is provided, and the technical problem that the dead angle range of a single camera is too large is solved through a dead angle eliminating assembly consisting of a first motor, a transmission rod, a connecting mechanism, a reflecting plate and an angle adjusting mechanism.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

an Internet of things security device capable of eliminating monitoring dead angles comprises a monitoring device, wherein a protective shell is arranged on the monitoring device, the middle part of the protective shell is fixedly connected with the middle part of the monitoring device, the length of the protective shell is greater than that of the monitoring device, a gap is reserved between the protective shell and the monitoring device, a dead angle eliminating assembly is arranged on the protective shell and comprises a first motor, a transmission rod, a connecting mechanism, a reflecting plate and an angle adjusting mechanism,

the first motor is arranged between the protective shell and the monitoring device and is fixedly connected with the protective shell,

the transmission rods are uniformly distributed on the inner wall of the protection shell, and the two ends of each transmission rod are respectively provided with a connecting end and a transmission end;

the connecting mechanisms are in the same number with the transmission rods and are in one-to-one correspondence with the transmission rods, and the connecting mechanisms are respectively connected with the protective shell and the transmission rods;

the number of the reflecting plates is multiple, and each reflecting plate is hinged with the two transmission rods;

the angle adjusting mechanism is arranged outside the protective shell and connected with the protective shell.

Preferably, the inside first recess that is provided with the same and the one-to-one with transfer line quantity of protection casing, first recess and transfer line sliding connection are provided with a plurality of evenly distributed's solid fixed ring on every first recess, gu be provided with on the fixed ring with the link sliding connection's of transfer line first through-hole.

Preferably, one side that the protection casing is located solid fixed ring still is provided with a plurality of evenly distributed's fixed bolster, all is provided with a scraper blade on every fixed bolster, and the scraper blade constitutes for flexible material.

Preferably, the transmission end of the transmission rod is provided with a thread, the connecting mechanism comprises a transmission ring, a first clamping block and a synchronous belt,

the transmission rings are the same in number and correspond to the transmission rods one by one, the transmission rings are sleeved on the transmission ends of the corresponding transmission rods, first threaded holes corresponding to the threads are formed in the transmission rings, and two abutting blocks are arranged at two ends of each transmission ring;

the two ends of each transmission ring, which are positioned on the first clamping blocks, are provided with one abutting groove, the abutting grooves correspond to the abutting blocks, the abutting grooves are rotationally connected with the abutting blocks, each first clamping block is provided with two horizontal plates connected with the inner wall of the protection shell, and each horizontal plate is provided with a second threaded hole;

the hold-in range is connected with first motor and a plurality of drive ring.

Preferably, the protection casing cover is established in monitoring device's the outside, and the protection casing sets up to the V font shape, is provided with a plurality of evenly distributed's first depressed part on the protection casing, is provided with a plurality of evenly distributed's strengthening rib in the first depressed part, and the strengthening rib is the slope setting.

Preferably, the protection casing includes top cap and base, is provided with a plurality of evenly distributed's second screw hole on top cap and the base, is provided with on the base to lean on the end of being connected with monitoring device, leans on the end to constitute for flexible material, leans on to serve still to be provided with the third screw hole of being connected with the top cap, is provided with the fourth screw hole that corresponds with the third screw hole on the top cap, is provided with the fifth screw hole that is the same with second screw hole quantity and one-to-one on the monitoring device.

Preferably, still be provided with the second depressed part the same with reflecting plate quantity and one-to-one on the protection casing, be provided with first spout on the second depressed part, be provided with first connecting block and second connecting block on the reflecting plate, first connecting block is located the reflecting plate and is close to the one end with the transfer line, be provided with on the first connecting block with first spout sliding connection's first slider, first slider sets up to the cylinder shape, the second connecting block is located the reflecting plate and keeps away from the one end of transfer line, the second connecting block is connected with angle adjustment mechanism.

Preferably, the outer surface of the protection shell is provided with a first slot at each of the left end and the right end of the second depressed part, and the angle adjusting mechanism comprises an installation clamping plate, a transmission block and a hinge block;

the two mounting clamping plates are arranged on the outer side of the protection shell, and a first bolt clamped with the first slot is arranged on each of the two mounting clamping plates;

the transmission block is arranged between the two mounting clamping plates and is rotationally connected with the two mounting clamping plates;

articulated piece is articulated with the second connecting block, is provided with a threaded rod that upwards extends on the articulated piece, and the top of threaded rod is provided with one and supports and lean on the block, and the threaded rod is located to support and still is provided with a first elastic component between block and the transmission piece.

Preferably, the installation cardboard includes second joint piece and regulating block, is provided with the first bolt that corresponds with first slot on the second joint piece, and second joint piece still is provided with a guide rail, regulating block and guide rail sliding connection, and every regulating block one end all is provided with a plurality of evenly distributed's sixth screw hole.

Preferably, two installation cardboard all are provided with a second spout, and both ends are provided with a second slider respectively about the driving block, and the second slider sets up to the cylinder shape, and the both ends that the second spout is located the second slider all are provided with a second elastic component.

Compared with the prior art, the beneficial effect of this application is:

1. this application drives coupling mechanism through first motor and rotates, makes coupling mechanism drive rather than the transmission end of the transfer line of being connected, makes the transfer line remove to make the reflecting plate follow the transfer line and remove, make it be located the place ahead of monitoring device's control face, and through angle adjustment mechanism, adjust the angle of reflecting plate and control face, thereby make the monitoring range who increases monitoring device through the reflecting plate, thereby reduce single monitoring device's control dead angle.

2. This application drives a plurality of transmission rings through the hold-in range and rotates, the transmission ring can make the transfer line remove through the screw thread on the transmission end through the first screw hole that sets up on it at the rotation in-process, thereby make the transfer line remove, and every transmission ring all can be fixed by the first joint piece that its both ends set up, the second screw hole that sets up on the horizontal plate that sets up on the first joint piece and the horizontal plate, then strengthen and protection casing connection effect, prevent that the transmission ring from carrying out rectilinear movement, and the transmission ring can rotate by leaning on the piece and leaning on the groove rotation connection through leaning on, prevent that the transmission ring also removes, thereby make the hold-in range position take place to deflect, and then make the hold-in range cause the damage influence transmission effect.

3. This application passes through coupling mechanism through first motor and drives the transfer line and remove, thereby promote the reflecting plate and move forward, before this work, first elastic component can promote to lean on the cap to upwards remove, thereby make the second connecting block rebound of being connected with articulated piece, make the reflecting plate can keep an approximate horizontally inclined plane, thereby the scraper blade of being convenient for cleans, simultaneously after promoting the reflecting plate and move forward, can be convenient for the second connecting block drives the elasticity that articulated piece overcome first elastic component and move down, thereby adjust reflecting plate and monitoring device's angle through first motor, can realize the cleanness of reflecting plate through controlling first motor, flexible and angle modulation, reduce and adjust the complexity.

Drawings

FIG. 1 is a first perspective view of the present application;

fig. 2 is a partially enlarged view at a of fig. 1;

FIG. 3 is a second perspective view of the present application;

fig. 4 is a partial enlarged view at B of fig. 3;

FIG. 5 is a perspective view of the present application after the monitoring device has been concealed;

fig. 6 is a partial enlarged view at C of fig. 5;

FIG. 7 is a first exploded perspective view of the hidden monitoring device of the present application;

fig. 8 is a partial enlarged view at D of fig. 7;

FIG. 9 is a partial projection view in the lower right direction of FIG. 8;

fig. 10 is a partial enlarged view at E of fig. 7;

FIG. 11 is a second exploded perspective view of the hidden monitoring device of the present application;

fig. 12 is a partial enlarged view at F of fig. 11;

fig. 13 is a partial enlarged view at G of fig. 11;

FIG. 14 is a perspective view of the present application with the timing belt concealed in the coupling mechanism;

the reference numbers in the figures are:

1-a monitoring device;

2-a protective housing;

21-a first groove;

211-a fixed ring;

2111-first via;

212-a fixed support;

2121-a scraper;

22-a first recess;

221-reinforcing ribs;

23-a top cover;

232-fourth threaded hole;

24-a base;

241-abutting ends;

2411-a third threaded hole;

25-a second recess;

251-a first runner;

252-a first slot;

3-a first motor;

4-a transmission rod;

41-a connection end;

42-a transmission end;

5-a connection mechanism;

51-a drive ring;

511-a first threaded hole;

512-a leaning block;

52-a first clamping block;

521-an abutment groove;

522-horizontal plate;

5221-a second threaded hole;

53-synchronous belt;

6-a reflector plate;

61-a first connecting block;

611 — first slider;

62-a second connecting block;

7-an angle adjustment mechanism;

71-mounting a clamping plate;

711-a first bolt;

712-a second card block;

7121-guide rail;

713-a regulating block;

7131-sixth threaded hole;

714-a second chute;

72-a transmission block;

73-a hinged block;

731-threaded rod;

732-against a cap;

733 — first elastic member.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Referring to fig. 1 to 14, an internet of things security device capable of eliminating a monitoring dead angle comprises a monitoring device 1, and is characterized in that a protective shell 2 is arranged on the monitoring device 1, the middle part of the protective shell 2 is fixedly connected with the middle part of the monitoring device 1, the length of the protective shell 2 is greater than that of the monitoring device 1, a gap is left between the protective shell 2 and the monitoring device 1, a dead angle eliminating assembly is arranged on the protective shell 2, the dead angle eliminating assembly comprises a first motor 3, a transmission rod 4, a connecting mechanism 5, a reflecting plate 6 and an angle adjusting mechanism 7,

the first motor 3 is arranged between the protective shell 2 and the monitoring device 1, the first motor 3 is fixedly connected with the protective shell 2,

the number of the transmission rods 4 is multiple, the transmission rods 4 are uniformly distributed on the inner wall of the protective shell 2, and the two ends of each transmission rod 4 are respectively provided with a connecting end 41 and a transmission end 42;

the connecting mechanisms 5 are the same in number and correspond to the transmission rods 4 one by one, and the connecting mechanisms 5 are respectively connected with the protective shell 2 and the transmission rods 4;

a plurality of reflecting plates 6 are arranged, and each reflecting plate 6 is hinged with the two transmission rods 4;

the angle adjustment mechanism 7 is disposed outside the protective housing 2 and connected to the protective housing 2.

Firstly, the middle part of the protection shell 2 is fixedly connected with the middle part of the monitoring device 1, and the length of the protection shell 2 is greater than that of the monitoring device 1, so that the protection shell 2 covers the outer side of the monitoring device 1, the monitoring device 1 is protected, meanwhile, water drops are prevented from dripping into the monitoring surface of the monitoring device 1 to influence the monitoring effect, then, the dead angle eliminating component is protected through a gap between the protection shell 2 and the monitoring device 1, then, the first motor 3 can drive the connecting mechanism 5 to rotate, the connecting mechanism drives the driving end 42 of the driving rod 4 connected with the connecting mechanism, the driving rod 4 moves, the reflecting plate 6 moves along with the driving rod 4 and is located in front of the monitoring surface of the monitoring device 1, the angle between the reflecting plate 6 and the monitoring surface is adjusted through the angle adjusting mechanism 7, the monitoring range of the monitoring device 1 is increased through the reflecting plate 6, and the monitoring dead angle of a single monitoring device 1 is reduced.

Referring to fig. 4, 11 and 13, the protection housing 2 is provided with first grooves 21 corresponding to the transmission rods 4 in one-to-one manner, the first grooves 21 are slidably connected to the transmission rods 4, each first groove 21 is provided with a plurality of fixing rings 211 uniformly distributed, and the fixing rings 211 are provided with first through holes 2111 slidably connected to the connecting ends 41 of the transmission rods 4.

Firstly, the first groove 21 and the first through hole 2111 are respectively in sliding connection with the transmission rod 4, the moving effect of the transmission rod 4 is enhanced, meanwhile, the fixing rings 211 are also used for fixing the transmission rod 4, the transmission rod 4 is prevented from being inclined to influence the transmission effect, it needs to be explained that the first groove 21 is also used for reducing the distance between the transmission rod 4 and the monitoring device 1, and therefore under the condition that collision is prevented, the transmission rod 4 is enabled to collide with the monitoring device 1, the transmission rod 4 is damaged, the influence on the movement of the reflection plate 6 is avoided, and meanwhile, the monitoring device 1 is prevented from being damaged.

Referring to fig. 11 and 12, the protection housing 2 is further provided with a plurality of fixing brackets 212 uniformly distributed on one side of the fixing ring 211, each fixing bracket 212 is provided with a scraper 2121, and the scraper 2121 is made of a flexible material.

When the reflective plate 6 moves along with the transmission rod 4, the reflective plate 6 at the bottom end thereof contacts with the scraper 2121, so that the reflective surface of the reflective plate 6 is cleaned by the flexible scraper 2121, and the reflective effect is prevented from being affected by a large amount of dust piled on the reflective plate 6 after long-term use, the scraper 2121 is conveniently fixed by the fixing bracket 212, and it should be noted that the scraper 2121 and the fixing bracket 212 are detachable, so that the scraper 2121 can be conveniently replaced.

Referring to fig. 6 and 14, the driving end 42 of the driving rod 4 is provided with a screw thread, the connecting mechanism 5 includes a driving ring 51, a first catching block 52 and a timing belt 53,

the number of the transmission rings 51 is the same as that of the transmission rods 4, the transmission rings 51 correspond to the transmission rods 4 one by one, the transmission rings 51 are sleeved on the transmission ends 42 of the corresponding transmission rods 4, first threaded holes 511 corresponding to the threads are formed in the transmission rings 51, and two abutting blocks 512 are respectively arranged at two ends of each transmission ring 51;

the first clamping blocks 52 are arranged at two ends of each transmission ring 51, the first clamping blocks 52 are provided with abutting grooves 521 corresponding to the abutting blocks 512, the abutting grooves 521 are rotatably connected with the abutting blocks 512, each first clamping block 52 is provided with two horizontal plates 522 connected with the inner wall of the protection shell 2, and each horizontal plate 522 is provided with a second threaded hole 5221;

the timing belt 53 is connected to the first motor 3 and the plurality of driving rings 51.

First motor 3 at first drives a plurality of driving rings 51 through hold-in range 53 and rotates, driving ring 51 can make transfer line 4 remove through the screw thread on the transmission end 42 through the first screw hole 511 that sets up on it at the rotation in-process, thereby make transfer line 4 remove, and every driving ring 51 all can be fixed by the first joint piece 52 that its both ends set up, the second screw hole 5221 that sets up on the horizontal plate 522 that sets up on the first joint piece 52 and the horizontal plate 522, then strengthen and protection casing 2 linkage effect, prevent that driving ring 51 from carrying out rectilinear movement, and driving ring 51 can rotate through leaning on piece 512 and leaning on groove 521 rotation connection, prevent that driving ring 51 also removes, thereby make hold-in range 53 position take place to deflect, and then make hold-in range 53 cause to damage and influence transmission effect.

Referring to fig. 1 and 2, the protection housing 2 is sleeved outside the monitoring device 1, the protection housing 2 is in a V shape, a plurality of first concave portions 22 are uniformly distributed on the protection housing 2, a plurality of reinforcing ribs 221 are uniformly distributed in the first concave portions 22, and the reinforcing ribs 221 are obliquely arranged.

Protection casing 2 sets up to V font shape then prevents that dust and rainwater from piling up in a large number, makes the dust and the downward landing of rainwater of being convenient for, later alleviates monitoring device 1's weight through first depressed part 22, prevents to increase the gravity that monitoring device 1 received, and strengthening rib 221 is then the intensity of strengthening protection casing 2, and strengthening rib 221 also is for the slope setting then also be convenient for dust and rainwater landing downwards.

Referring to fig. 2, 7 and 11, the protective housing 2 includes a top cover 23 and a base 24, a plurality of second threaded holes 5221 uniformly distributed are provided on the top cover 23 and the base 24, an abutting end 241 connected to the monitoring device 1 is provided on the base 24, the abutting end 241 is made of a flexible material, a third threaded hole 2411 connected to the top cover 23 is further provided on the abutting end 241, a fourth threaded hole 232 corresponding to the third threaded hole 2411 is provided on the top cover 23, and fifth threaded holes corresponding to the second threaded holes 5221 in the same number and one to one are provided on the monitoring device 1.

At first through at second screw hole 5221 with the fifth screw hole on the external bolt of installation, make top cap 23 and base 24 respectively be connected with monitoring device 1 through external bolt, later make top cap 23 and base 24 be connected through third screw hole 2411 and fourth screw hole 232, the striking that makes top cap 23 top receive and other high altitude condition of throwing something, can reach to leaning on end 241 by power, thereby cushion through leaning on the end by what flexible material constitutes and prevent that protection casing 2 from taking place deformation when receiving the impact, the influence is to monitoring device 1's protective effect.

Referring to fig. 8 to 10, the protective housing 2 is further provided with second recessed portions 25 corresponding to the reflective plates 6 in number one by one, the second recessed portions 25 are provided with first sliding grooves 251, the reflective plates 6 are provided with first connecting blocks 61 and second connecting blocks 62, the first connecting blocks 61 are located at one ends, close to the transmission rods 4, of the reflective plates 6, the first connecting blocks 61 are provided with first sliding blocks 611 connected with the first sliding grooves 251 in a sliding manner, the first sliding blocks 611 are arranged in a cylindrical shape, the second connecting blocks 62 are located at one ends, far away from the transmission rods 4, of the reflective plates 6, and the second connecting blocks 62 are connected with the angle adjusting mechanism 7.

The first connecting block 61 can penetrate through the second concave portion 25 conveniently, and then the first sliding groove 251 and the first sliding block 611 can enable one end, close to the transmission rod 4, of the reflection plate 6 to move orderly, the first sliding block 611 is set to be cylindrical, and when the second connecting block 62 is driven to move through the angle adjusting mechanism 7, one end, close to the transmission rod 4, of the transmission rod 4 can rotate, so that the angle between the reflection plate 6 of the reflection plate 6 and the monitoring surface of the monitoring device 1 can be adjusted conveniently, and the dead angle area is reduced.

Referring to fig. 8 to 10, the outer surface of the protection housing 2 at the left and right ends of the second recess 25 is provided with a first slot 252, and the angle adjusting mechanism 7 includes a mounting snap-gauge 71, a transmission block 72 and a hinge block 73;

the two mounting clamping plates 71 are arranged on the outer side of the protection shell 2, and a first bolt 711 clamped with the first slot 252 is arranged on each of the two mounting clamping plates 71;

the transmission block 72 is arranged between the two mounting clamping plates 71 and is in rotary connection with the two mounting clamping plates 71;

the hinge block 73 is hinged with the second connecting block 62, a threaded rod 731 extending upwards is arranged on the hinge block 73, an abutting cap 732 is arranged at the top end of the threaded rod 731, and a first elastic member 733 is further arranged between the abutting cap 732 and the transmission block 72 of the threaded rod 731.

At first, drive transfer line 4 through coupling mechanism 5 through first motor 3 and remove, thereby promote reflecting plate 6 and move forward, before this work, first elastic component 733 can promote to lean on block 732 and upwards move, thereby make the second connecting block 62 rebound that is connected with articulated piece 73, make reflecting plate 6 can keep an approximate horizontally inclined plane, thereby be convenient for scraper 2121 to clean, simultaneously promote reflecting plate 6 and move forward the back, can be convenient for second connecting block 62 to drive articulated piece 73 and overcome the elasticity of first elastic component 733 and move down, thereby adjust reflecting plate 6 and monitoring device 1's angle through first motor 3, can realize reflecting plate 6's cleanness, flexible and angle modulation through controlling first motor 3, reduce the regulation complexity.

Referring to fig. 8 to 10, the mounting clamping plate 71 includes a second clamping block 712 and an adjusting block 713, a first bolt 711 corresponding to the first slot 252 is disposed on the second clamping block 712, the second clamping block 712 further includes a guide rail 7121, the adjusting block 713 is slidably connected to the guide rail 7121, and a plurality of uniformly distributed sixth threaded holes 7131 are disposed at one end of each adjusting block 713.

The installation cardboard 71 is connected with the protecting sheathing through second joint piece 712, later through guide rail 7121 and with guide rail 7121 sliding connection's regulating block 713 to make further adjust the distance of reflecting plate 6 and monitoring device 1 through removing regulating block 713, increase the angle of reflection, thereby reduce the area at dead angle, and sixth screw hole 7131 is then its fixed regulating block 713 position of being convenient for, prevents the phenomenon that regulating block 713 landing from appearing.

Referring to fig. 8 to 10, the two mounting clamping plates 71 are respectively provided with a second sliding slot 714, the left end and the right end of the transmission block 72 are respectively provided with a second sliding block, the second sliding block is in a cylindrical shape, and the two ends of the second sliding slot 714 located on the second sliding block are respectively provided with a second elastic element.

The transmission piece 72 makes its and second spout 714 sliding connection through the second slider to make the second slider be cylindric, thereby prevent that the phenomenon that the slope deflected also from taking place for angle adjustment in-process threaded rod 731, later through inside two second elastic component that are located the second slider both ends of second spout 714, thereby control second slider position, prevent that second slider and transfer line 4 from removing in the lump and influence the angle deflection process.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. An Internet of things security equipment capable of eliminating monitoring dead angles comprises a monitoring device (1) and is characterized in that a protective shell (2) is arranged on the monitoring device (1), the middle part of the protective shell (2) is fixedly connected with the middle part of the monitoring device (1), the length of the protective shell (2) is larger than that of the monitoring device (1), a gap is reserved between the protective shell (2) and the monitoring device (1), a dead angle eliminating assembly is arranged on the protective shell (2), and comprises a first motor (3), a transmission rod (4), a connecting mechanism (5), a reflecting plate (6) and an angle adjusting mechanism (7),

the first motor (3) is arranged between the protective shell (2) and the monitoring device (1), the first motor (3) is fixedly connected with the protective shell (2),

the number of the transmission rods (4) is multiple, the transmission rods (4) are uniformly distributed on the inner wall of the protective shell (2), and the two ends of each transmission rod (4) are respectively provided with a connecting end (41) and a transmission end (42);

the connecting mechanisms (5) are the same in number and correspond to the transmission rods (4) one by one, and the connecting mechanisms (5) are respectively connected with the protective shell (2) and the transmission rods (4);

a plurality of reflecting plates (6) are arranged, and each reflecting plate (6) is hinged with the two transmission rods (4);

the angle adjusting mechanism (7) is arranged on the outer side of the protective shell (2) and is connected with the protective shell (2);

the transmission end (42) of the transmission rod (4) is provided with a thread, the connecting mechanism (5) comprises a transmission ring (51), a first clamping block (52) and a synchronous belt (53),

the number of the transmission rings (51) is the same as that of the transmission rods (4), the transmission rings (51) correspond to the transmission rods (4) one by one, the transmission rings (51) are sleeved on the transmission ends (42) of the corresponding transmission rods (4), first threaded holes (511) corresponding to the threads are formed in the transmission rings (51), and two abutting blocks (512) are arranged at two ends of each transmission ring (51);

the two ends, located on each transmission ring (51), of each first clamping block (52) are provided with one, each first clamping block (52) is provided with a propping groove (521) corresponding to each propping block (512), each propping groove (521) is rotatably connected with each propping block (512), each first clamping block (52) is provided with two horizontal plates (522) connected with the inner wall of the protection shell (2), and each horizontal plate (522) is provided with a second threaded hole (5221);

the synchronous belt (53) is connected with the first motor (3) and the plurality of transmission rings (51);

the protective shell (2) is further provided with second concave parts (25) which are the same in number as the reflecting plates (6) and correspond to the reflecting plates one to one, first sliding grooves (251) are formed in the second concave parts (25), first connecting blocks (61) and second connecting blocks (62) are arranged on the reflecting plates (6), the first connecting blocks (61) are located at one ends, close to the transmission rods (4), of the reflecting plates (6), first sliding blocks (611) which are connected with the first sliding grooves (251) in a sliding mode are arranged on the first connecting blocks (61), the first sliding blocks (611) are arranged in a cylindrical shape, the second connecting blocks (62) are located at one ends, far away from the transmission rods (4), of the reflecting plates (6), and the second connecting blocks (62) are connected with the angle adjusting mechanism (7);

the outer surface of the protection shell (2) is provided with a first slot (252) at the left end and the right end of the second sunken part (25), and the angle adjusting mechanism (7) comprises an installation clamping plate (71), a transmission block (72) and a hinge block (73);

the two mounting clamping plates (71) are arranged on the outer side of the protective shell (2), and a first bolt (711) clamped with the first slot (252) is arranged on each of the two mounting clamping plates (71);

the transmission block (72) is arranged between the two mounting clamping plates (71) and is rotationally connected with the two mounting clamping plates (71);

the hinging block (73) is hinged with the second connecting block (62), a threaded rod (731) extending upwards is arranged on the hinging block (73), a propping cap (732) is arranged at the top end of the threaded rod (731), and a first elastic piece (733) is further arranged between the propping cap (732) and the transmission block (72) and the threaded rod (731);

installation cardboard (71) are including second joint piece (712) and regulating block (713), are provided with first bolt (711) that correspond with first slot (252) on second joint piece (712), and second joint piece (712) still is provided with a guide rail (7121), regulating block (713) and guide rail (7121) sliding connection, and every regulating block (713) one end all is provided with a plurality of evenly distributed's sixth screw hole (7131).

2. The Internet of things security equipment capable of eliminating the monitoring dead angle according to claim 1, wherein first grooves (21) which are the same in number as the transmission rods (4) and correspond to one another are formed in the protective shell (2), the first grooves (21) are in sliding connection with the transmission rods (4), a plurality of fixing rings (211) are uniformly distributed in each first groove (21), and first through holes (2111) which are in sliding connection with the connecting ends (41) of the transmission rods (4) are formed in the fixing rings (211).

3. The Internet of things security equipment capable of eliminating monitoring dead angles as claimed in claim 2, wherein a plurality of uniformly distributed fixing supports (212) are further arranged on one side, located on the fixing ring (211), of the protection shell (2), each fixing support (212) is provided with a scraper (2121), and each scraper (2121) is made of a flexible material.

4. The Internet of things security equipment capable of eliminating the monitoring dead angle according to claim 1, wherein the protection shell (2) is sleeved outside the monitoring device (1), the protection shell (2) is in a V shape, a plurality of first concave parts (22) which are uniformly distributed are arranged on the protection shell (2), a plurality of reinforcing ribs (221) which are uniformly distributed are arranged in the first concave parts (22), and the reinforcing ribs (221) are obliquely arranged.

5. The Internet of things security equipment capable of eliminating the monitoring dead angle according to claim 4, wherein the protective shell (2) comprises a top cover (23) and a base (24), a plurality of second threaded holes (5221) which are uniformly distributed are formed in the top cover (23) and the base (24), an abutting end (241) connected with the monitoring device (1) is arranged on the base (24), the abutting end (241) is made of flexible materials, a third threaded hole (2411) connected with the top cover (23) is further formed in the abutting end (241), a fourth threaded hole (232) corresponding to the third threaded hole (2411) is formed in the top cover (23), and fifth threaded holes which are the same in number as the second threaded holes (5221) and correspond to one another are formed in the monitoring device (1).

6. The Internet of things security equipment capable of eliminating the monitoring dead angle according to claim 1, wherein a second sliding groove (714) is formed in each of the two mounting clamping plates (71), a second sliding block is respectively arranged at the left end and the right end of the transmission block (72), the second sliding block is in a cylindrical shape, and a second elastic piece is arranged at each of two ends, located at the second sliding block, of each second sliding groove (714).

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