CN113391579B

CN113391579B - Intelligent building monitoring system installation

Info

Publication number: CN113391579B
Application number: CN202110560506.8A
Authority: CN
Inventors: 张惠珍
Original assignee: Zhejiang Honghai Intelligent Technology Co ltd
Current assignee: Zhejiang Honghai Intelligent Technology Co ltd
Priority date: 2021-05-21
Filing date: 2021-05-21
Publication date: 2022-03-25
Anticipated expiration: 2041-05-21
Also published as: CN113391579A

Abstract

The utility model relates to an intelligent building monitoring system installation, which comprises an installation frame and a monitoring body, wherein the installation frame comprises a first side plate and a second side plate which are hinged with each other, a driven rod is rotatably connected to the side surface of the first side plate, which is far away from the wall surface, of the second side plate, a driving rod is rotatably connected to the side surface of the second side plate, the end part of the driving rod, which is far away from the second side plate, is slidably connected to the driven rod, and the driven rods are respectively rotated to two sides close to the corner under the action of the driving rod; the monitoring body is rotatably connected to the driven rod, and the monitoring body is respectively rotated to the two side walkways facing the corner. The corner of wall body is installed respectively with first curb plate and second curb plate to operating personnel, then makes the initiative pole drive the driven lever and rotate to the both sides towards the corner, then uses two drive monitoring bodies of driving piece again and can rotate respectively to the both sides pavement towards the corner, through the cooperation with the initiative pole to make monitoring device can shine the pavement of corner both sides.

Description

Intelligent building monitoring system installation

Technical Field

The application relates to the field of monitoring, in particular to an intelligent building monitoring system installation.

Background

In the intelligent building, an automatic control system of the building, advanced computer control technology, management software and energy-saving system programs are adopted to enable the electromechanical devices of the building or the devices in a building group to operate orderly, comprehensively, coordinately and scientifically, and in order to ensure the safety in the intelligent building, a monitoring device is generally installed in the intelligent building to ensure the safety in the building.

The utility model with the publication number of CN209876435U discloses an intelligent building monitoring device convenient to install, which relates to the technical field of monitoring equipment, and the problem to be solved by the utility model is to provide an intelligent building monitoring device convenient to install, which comprises an installation base, a chute is arranged on the left side of the installation base, ball bearings are fixedly connected with the upper end and the lower end of the chute, an adjusting screw rod is rotatably connected inside the ball bearings, an adjusting handle is fixedly connected with the lower end of the adjusting screw rod extending out of the interior of the installation base, a slide block is slidably connected inside the chute, a mounting plate is fixedly connected on the left side of the slide block, a mounting hole is arranged on the upper end of the mounting plate, a connecting plate is arranged on the upper end of the mounting plate, a bolt is fixedly connected on the left side of the lower end of the connecting plate, the bolt penetrates through the mounting hole and is in threaded connection with a nut, and a bracket is fixedly connected on the right side of the upper end of the connecting plate, the upper end of the bracket is hinged with a monitoring device body through a hinge piece.

The above-mentioned related technical solutions have the following drawbacks: a plurality of corners can be met in the building, the monitoring device is installed on the wall surfaces of the corners of the building, two monitoring devices need to be installed in order to be capable of lighting the walkways on the two sides of the corners, and therefore construction quantity of operators is increased, and monitoring input cost is improved.

Disclosure of Invention

In order to make monitoring device can shine the pavement of turning both sides, this application provides an intelligent building monitored control system installation.

The technical scheme adopted for installing the intelligent building monitoring system is as follows:

the intelligent building monitoring system installation comprises an installation frame, a monitoring body with a cable, a first locking piece, a first driving piece and a second driving piece, wherein the installation frame comprises a first side plate and a second side plate which are hinged with each other;

the side face, away from the wall surface, of the first side plate is rotatably connected with a driven rod, the side face, away from the wall surface, of the second side plate is rotatably connected with a driving rod, the rotating axes of the driving rod and the driven rod are parallel to each other, the end part, away from the second side plate, of the driving rod is connected to the driven rod in a sliding mode, the driving rod is driven by the driving piece to rotate on the second side plate, and the driven rod rotates to two sides close to the corner under the action of the driving rod;

the monitoring body is rotatably connected to the driven rod, the driving piece drives the monitoring body to rotate on the driven rod, and the monitoring body rotates to the two sides of the walkways facing the corner respectively.

Through adopting above-mentioned technical scheme, operating personnel installs the corner of wall body respectively with first curb plate and second curb plate, then rotates through the drive driving lever, makes the driving lever drive the driven lever and rotates, makes the driven lever can rotate to the both sides towards the corner, then uses driving piece two drive monitoring bodies to rotate to make the monitoring body can rotate respectively to the both sides pavement towards the corner, through the cooperation with the driving lever, thereby make monitoring device can shine the pavement of corner both sides.

Preferably, still include locking piece two, the reason wire casing has been seted up on one side of driven lever, set up the groove of stretching out with external intercommunication on the reason wire casing bottom surface, the cable conductor on the control body all wears to stretch to the reason wire casing in and stretches out from stretching out the groove, it has the shielding plate to articulate on the driven lever, rotates to the butt on the driven lever and shelters from when keeping out the reason wire casing when the shielding plate, locking piece two is in the same place shielding plate and driven lever locking.

Through adopting above-mentioned technical scheme, can stretch out on having the control body again and have many cables, operating personnel collects these cables respectively in the wire casing, then uses the shielding plate with these cables spacing in the wire casing, can conveniently monitor the arrangement of cable on the body.

Preferably, still include first spring and butt pole, the reason line inslot is equipped with the fixed block, the butt joint groove has been seted up on the fixed block towards one side of shielding plate, butt joint pole sliding connection is on the butt joint groove, the both ends of first spring set up respectively on butt joint inslot diapire and butt joint pole, and when locking piece two did not lock shielding plate and driven lever together, the butt joint pole is ejecting to keeping away from the reason line groove with the shielding plate under the effect of first spring.

Through adopting above-mentioned technical scheme, the cooperation of butt pole and first spring can be when locking piece two unties shielding plate and driven lever's locking, with the automatic ejecting of shielding plate, reduce the step that operating personnel opened shielding plate.

Preferably, the wire arrangement groove is movably connected in the wire arrangement groove, an embedded groove for accommodating cables is formed in the wire arrangement groove, and the cables in the wire arrangement groove are all embedded in the embedded groove.

By adopting the technical scheme, the embedded groove can further limit the position of the cable in the wire arranging groove, and the neatness of the cable is increased.

Preferably, reason line frame is the buckle setting, one side lateral surface of butt joint groove outwards extend to with the reason wire casing intercommunication, the one end fixed connection of reason line frame is on the butt joint pole, reason line frame along the sliding direction sliding connection who is on a parallel with the butt joint pole on the butt joint groove, the embedded groove is seted up and is kept away from the one end of butt joint pole at the line frame, and when the butt joint pole stretched out the embedded groove, the reason line frame was kept away from the one end of butt joint pole and is stretched out the reason wire casing.

Through adopting above-mentioned technical scheme, along with opening of shielding plate, the tip of reason line frame can shift out the reason wire casing along with the tip of butt joint pole to drive the cable conductor and shift out the reason wire casing, make things convenient for operating personnel to repair the inspection to the cable conductor in the face of the outside.

Preferably, the second locking part comprises a first rotating rod, a second rotating rod, a first pull rope, a second spring and a moving block, the second driving part is a first motor, the first motor is arranged in the driven rod, the first rotating rod and an output shaft of the first motor are coaxially arranged, and the monitoring body is arranged at the end part of the first rotating rod extending out of the driven rod;

a sliding groove is formed in the side face, facing the shielding plate, of the driven rod, the moving block slides on the sliding groove, two ends of the second spring are respectively arranged on the bottom wall of the sliding groove and the moving block, the second rotating rod is rotatably connected in the driven rod, the rotating axis directions of the first rotating rod and the second rotating rod are the same, the second rotating rod is located on one side, away from the shielding plate, of the sliding groove, one end of the first pull rope is arranged on the first rotating rod, the other end of the first pull rope is arranged on the moving block through the second rotating rod, and an output shaft of the first motor rotates in a reciprocating mode;

the movable block is connected with a magnet, the shielding plate is provided with a magnetic block which is in adsorption fit with the magnet, when the monitoring body rotates to a position far away from a monitoring visual angle, the magnet is far away from the magnetic block under the action of the first pull rope, and when the monitoring body rotates to a position at the monitoring visual angle, the magnet adsorbs the magnetic block under the action of the second spring.

By adopting the technical scheme, when the monitoring body rotates to be positioned at the monitoring visual angle, the first pull rope is always in a loose state, the first pull rope does not apply force to the moving block, and the moving block always moves towards one side of the shielding plate under the action of the second spring, so that the magnetic block adsorbs the magnet; when the monitoring body rotates to a position far away from a monitoring visual angle, the output shaft of the first motor drives the first pull rope to wind on the first rotating rod, the first pull rope is in a tensioning state, the first pull rope drives the moving block to overcome the elastic force of the second spring to pull the moving block towards one side far away from the baffle plate, and the magnetic block can not adsorb the magnet.

Preferably, the magnetic suspension device further comprises a balance block and a third spring, the balance block is connected to the sliding groove in a sliding mode along a sliding direction parallel to the moving block, the balance block is located on one side, away from the bottom wall of the sliding groove, of the moving block, two ends of the third spring are respectively arranged on the balance block and the moving block, the magnet is arranged on the side face, facing the shielding plate, of one side of the balance block, and the elastic force of the second spring is larger than that of the third spring.

Through adopting above-mentioned technical scheme, when the control body rotates to being located the control visual angle, the movable block moves towards balancing piece one side under the effect of second spring, can make first stay cord be the state of extending all the time, reduces the probability that first stay cord is reverse twined on first bull stick, when the control body rotates to keeping away from the control visual angle, through the pulling movable block, can drive the balancing piece when the third spring is the limit stay cord state and move towards keeping away from shielding plate one side, make the unable adsorbed magnet that adsorbs again of magnetic block.

Preferably, the vehicle further comprises a second rope, and two ends of the second rope are respectively arranged on the balance block and the movable block.

Through adopting above-mentioned technical scheme, the tensile force that the third spring received can be alleviateed to the second stay cord, makes the third spring need not be in the pulling of limit stay cord state with the balancing piece, plays the guard action to the balancing piece.

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

1. through the arrangement of the abutting rod and the first spring, the abutting rod and the first spring are matched, so that the shielding plate can be automatically pushed out when the second locking piece unlocks the shielding plate and the driven rod, and the step that an operator opens the shielding plate is reduced;

2. the embedded groove is arranged, so that the position of the cable in the wire arranging groove can be further limited by the embedded groove, and the neatness of the cable is improved;

3. through setting up the second stay cord, the tensile force that the second spring received can be alleviateed to the second stay cord, makes the second spring need not be in the pulling of limit stay cord state with the balancing piece, plays the guard action to the balancing piece.

Drawings

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

Fig. 2 is a schematic structural diagram of the monitoring body rotating to the monitoring viewing angle according to the embodiment of the present application.

Fig. 3 is a sectional view taken along line a-a of fig. 2.

Fig. 4 is a schematic structural diagram illustrating the monitoring body of the embodiment of the present application rotated to a position away from the monitoring viewing angle.

Fig. 5 is a sectional view taken along line B-B in fig. 4.

Description of reference numerals: 1. a mounting frame; 111. a first side plate; 112. a second side plate; 113. a bolt; 12. a driven lever; 13. a driving lever; 131. a second motor; 14. a first block; 141. a first groove; 15. monitoring the body; 151. a housing; 152. a lens; 153. a cable wire; 16. a shielding plate; 161. a magnetic block; 17. arranging wire grooves; 171. extending out of the groove; 18. a fixed block; 181. a butt joint groove; 182. a butting rod; 183. a first spring; 19. a wire arranging frame; 191. a groove is embedded; 21. a first rotating lever; 22. a second rotating rod; 23. a sliding groove; 231. a limiting groove; 24. a counterbalance; 241. a limiting block; 25. a moving block; 261. a third spring; 262. a second spring; 271. a second pull cord; 272. a first pull cord; 28. and (4) a magnet.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an intelligent building monitoring system installation.

Referring to fig. 1 and 2, the intelligent building monitoring system installation of the embodiment includes an installation frame 1 and a monitoring body 15 with cables 153, the installation frame 1 includes a first side plate 111 and a second side plate 112 which are identical in appearance, one end of the first side plate 111 in the width direction is hinged to one end of the second side plate 112 in the width direction, the length direction of a hinge shaft of the first side plate 111 and the second side plate 112 is parallel to the length direction of the first side plate 111 and the second side plate 112, a first locking part is connected to the installation frame 1, the first locking part includes a plurality of bolts 113, and one end of each bolt 113 penetrates through the first side plate 111 or the second side plate 112 and is in threaded connection with a wall body. When the first side plate 111 and the second side plate 112 are fixed on the wall, the first side plate 111 and the second side plate 112 are respectively located on two side wall surfaces at corners of the wall, and the length directions of the first side plate 111 and the second side plate 112 are both vertically arranged.

Referring to fig. 1 and 2, a driven rod 12 is connected to the side of the first side plate 111 away from the wall surface in a rotating manner, a driving rod 13 is connected to the side of the second side plate 112 away from the wall surface in a rotating manner, one end of the driving rod 13 is connected to the first side plate 111 in a rotating manner, one end of the driven rod 12 is connected to the second side plate 112 in a rotating manner, the axial directions of the rotating shafts of the driving rod 13 and the driven rod 12 are both vertical, and the rotating paths of the driving rod 13 and the driven rod 12 are located on the same horizontal plane. The side face of one side of the driven rod 12 close to the driving rod 13 is fixed with a first block 14, the length direction of the first block 14 is parallel to the length direction of the driven rod 12, the side face of one side of the first block 14 far away from the driven rod 12 is provided with a first groove 141, the length direction of the first groove is parallel to the first block 14, the driving rod 13 is arranged in a bent mode, and one end, far away from the wall surface, of the driving rod 13 is always connected to the first groove 141 in a sliding mode along the length direction of the first groove 141. The second side plate 112 is connected with a first driving member, and the first driving member is used for driving the driving rod 13 to rotate on the second side plate 112. The first driving part is a second motor 131, the second motor 131 is fixed on the second side plate 112, and an output shaft of the second motor 131 is vertically arranged downwards and penetrates through the end part of the driving rod 13.

Referring to fig. 2 and 3, the monitoring body 15 is rotatably connected to one end of the driven rod 12 far away from the wall surface, and a second driving element is arranged on the driven rod 12 and drives the driven rod 12 to rotate. The second driving part is a first motor, the first motor is arranged at one end, far away from the wall surface, of the driven rod 12, the length direction of an output shaft of the first motor is parallel to the length direction of the driven rod 12, the output shaft of the first motor faces towards one side, far away from the wall surface, of the first rotating rod 21 which is coaxially and fixedly connected with the first rotating rod 21, and the first rotating rod 21 extends out of the driven rod 12 and is fixedly connected onto the monitoring body 15. The monitoring body 15 includes a housing 151 and a lens 152 for photographing, the lens 152 is installed at one end of the housing 151 in a length direction, and the first rotating bar 21 is vertically and fixedly connected to one side wall of the housing 151 in a width direction.

When the second motor 131 drives the driving rod 13 to rotate, the driving rod 13 rotates to drive the driven rod 12 to rotate along with the driving rod 13, the end portion of the driven rod 12 slides along the first groove 141 while rotating, and when the driven rod 12 rotates to the position, where the driven rod 12 is attached to the first side plate 111, towards one side of the second side plate 112, the first motor is driven to enable the monitoring body 15 to rotate to the walkway towards one side of the second side plate 112, so that monitoring of the walkway close to one side of the second side plate 112 can be achieved. The second motor 131 is driven to drive the driving rod 13 to rotate to drive the driven rod 12 to rotate towards the side far away from the second side plate 112, then the first motor is driven to drive the monitoring body 15 to rotate to the walkway towards one side of the first side plate 111, and monitoring on the walkway close to one side of the first side plate 111 can be achieved.

Referring to fig. 4, a wire arranging groove 17 is formed in the side surface of the driven rod 12, which is far away from the driving rod 13, the length direction of the wire arranging groove 17 is parallel to the length direction of the driven rod 12, a shielding plate 16 for shielding the wire arranging groove 17 is hinged to the side surface of the driven rod 12, which is located at one side of the wire arranging groove 17, a second locking member is connected to the driven rod 12, and when the shielding plate 16 rotates to shield the wire arranging groove 17, the second locking member locks the driven rod 12 and the shielding plate 16 together.

Referring to fig. 4, a fixing block 18 is fixedly connected in the wire arranging groove 17, the fixing block 18 is located at one end of the wire arranging groove 17 far away from the monitoring body 15, a butting groove 181 is formed in a side face of the fixing block 18 facing the shielding plate 16, the length direction of the butting groove 181 is parallel to the width direction of the driven rod 12, a butting rod 182 is connected to the butting groove 181 in a sliding manner along the length direction of the butting groove 181, the length direction of the butting rod 182 is parallel to the length direction of the butting groove 181, a first spring 183 is connected to the butting rod 182, two ends of the first spring 183 are fixedly connected to the bottom wall of the butting groove 181 and an end face of the butting rod 182 facing the bottom wall of the butting groove 181, and when the shielding plate 16 and the driven rod 12 are not locked together by a second locking member, the butting rod 182 ejects the shielding plate 16 under the action of the first spring 183 away from the wire arranging groove 17. In order to reduce the frictional damage of the abutting rod 182 when contacting the shielding plate 16, the abutting rod 182 is disposed in a semi-spherical shape toward one end of the shielding plate 16.

Referring to fig. 4, the abutting groove 181 extends outward toward a side wall of the monitoring body 15 to communicate with the wire arranging groove 17, the abutting rod 182 is fixedly connected with a wire arranging frame 19, the wire arranging frame 19 is L-shaped, one end of the wire arranging frame 19 is vertically and fixedly connected to the abutting rod 182, and the other end of the wire arranging frame 19 is disposed toward one side of the shielding plate 16. One end of the wire arranging frame 19 close to the abutting rod 182 is connected to the wire arranging groove 17 in a sliding mode along the length direction of the wire arranging groove 17, and one end, facing the shielding plate 16, of the wire arranging frame 19 is not in contact with the shielding plate 16 all the time. An insertion groove 191 for inserting the cable 153 on the monitoring body 15 is formed on a side surface of one end of the cable arranging frame 19 away from the abutting rod 182 and facing the monitoring body 15. The side surface of the driven rod 12 facing the shielding plate 16 is provided with a protruding groove 171 communicated with the wire arranging groove 17, and the protruding groove 171 is positioned below the wire arranging groove 17. The plurality of cable wires 153 on the monitoring body 15, cable wire 153 wear to stretch to reason wire casing 17 in, imbed embedded groove 191 and stretch out the groove 171 and stretch out from the driven lever 12 bottom in proper order, and when cable wire 153 imbed embedded groove 191 and stretched out the groove 171, the cable wire 153 need can be pulled out embedded groove 191 or stretch out groove 171 in the exogenic action below. When the abutting rod 182 opens the shielding plate 16 under the action of the first spring 183, one end of the cable arranging frame 19, which is far away from the abutting rod 182, extends out of the cable arranging groove 17, the cable 153 extends out of the cable arranging groove 17 along with the cable arranging frame 19, and therefore the cable 153 can be conveniently detected or repaired by an operator.

Referring to fig. 4 and 5, the second locking member includes a second rotating rod 22, a first pull rope 272, a second spring 262, a moving block 25, a balance block 24 and a third spring 261, the side surface of the driven rod 12 facing the shielding plate 16 is provided with a sliding groove 23, the sliding groove 23 is located on one side of the wire organizing groove 17 close to the monitoring body 15, the length direction of the sliding groove 23 is parallel to the width direction of the driven rod 12, the moving block 25 and the balance block 24 are both slidably connected to the sliding groove 23 along the length direction of the sliding groove 23, the balance block 24 is located on one side of the moving block 25 close to the shielding plate 16, two ends of the second spring 262 are respectively fixedly connected to the bottom wall of the sliding groove 23 and the end surface of one end of the moving block 25 facing the bottom wall of the sliding groove 23, and two ends of the third spring 261 are respectively fixedly connected to the side surface of the moving block 25 and the balance block 24 facing each other. The elastic force of the second spring 262 is greater than that of the third spring 261.

Referring to fig. 3 and 5, the second rotating rod 22 is rotatably connected in the driven rod 12, the length direction of the second rotating rod 22 is parallel to the length direction of the first rotating rod 21, the second rotating rod 22 is located above the first rotating rod 21, and the second rotating rod 22 is located on the side of the sliding groove 23 away from the shielding plate 16. One end of the first pulling rope 272 is fixed on the first rotating rod 21, and the other end of the first pulling rope 272 passes through the second rotating rod 22 and is fixedly connected to one end of the moving block 25 close to the second spring 262. Both ends of the second pulling rope 271 are respectively and fixedly connected to the side surfaces of the moving block 25 and the balance block 24 which are opposite to each other.

Referring to fig. 3 and 5, a limiting groove 231 is formed in the sliding groove 23, a side surface of the limiting groove 231, which is far away from the shielding plate 16, is flush with the bottom wall of the sliding groove 23, a length direction of the limiting groove 231 is parallel to a length direction of the sliding groove 23, a limiting block 241 is fixed on the balance block 24, and the limiting block 241 is slidably connected to the limiting groove 231 along the length direction of the limiting groove 231. The end face, facing the shielding plate 16, of the balance block 24 is fixedly connected with the magnet 28, the side face, facing the balance block 24, of the shielding plate 16 is embedded with the magnetic block 161 which is in adsorption fit with the magnet 28, when the limiting block 241 moves to abut against the limiting groove 231, the side face, facing the shielding plate 16, of the magnet 28 is flush with the side face, facing the shielding plate 16, of the driven rod 12, the magnet 161 is adsorbed by the magnet 28, the side face, facing the driven rod 12, of the shielding plate abuts against the driven rod 12, and the adsorption force generated by the magnet 28 and the magnet 161 is greater than the elastic force of the first spring 183 on the abutting rod 182. The shutter 16 can always be kept in the closed state.

Referring to fig. 2 and 3, the output shaft of the first motor rotates back and forth, and when the monitoring body 15 rotates away from the monitoring angle, the magnet 28 is away from the magnetic block 161 by the first pulling rope 272 and the second pulling rope 271. Referring to fig. 4 and 5, when the monitoring body 15 rotates to be located at the monitoring angle, the magnet 28 attracts the magnetic block 161 by the second spring 262.

The monitoring angle of view can be regarded as when the lens 152 of the monitoring body 15 is shot downwards, and the angle of view far away from the monitoring angle of view can be regarded as when the lens 152 of the monitoring body 15 is shot upwards, because the output shaft of the first motor is in reciprocating motion under the condition of artificial setting, when the monitoring body 15 is in operation, the lens 152 of the monitoring body 15 is always at the monitoring angle of view, the first pull rope 272 is not wound on the first rotating rod 21, the first pull rope 272 is always in a loose state, the first pull rope 272 does not actively apply force to the moving block 25, and at this time, the second spring balance block 262 pushes the limit block 241 to abut against the limit groove 231 towards one side of the shielding plate 16. At this time, the moving block 25 moves toward the counterweight 24 side under the action of the second spring 262, so that the first pulling rope 272 is in an extended state, the probability that the first pulling rope 272 is reversely wound on the first rotating rod 21 is reduced, meanwhile, the third spring 261 is in a compressed state, and the second pulling rope 271 is in a relaxed state.

When the monitoring body 15 needs to be maintained, the monitoring body 15 is rotated upwards to a position far away from a monitoring visual angle, at the moment, the first rotating rod 21 rotates to drive the first pull rope 272 to wind on the first rotating rod 21, the first pull rope 272 is straightened, the first pull rope 272 drives the moving block 25 to move towards the position far away from one side of the shielding plate 16, the moving block 25 drives the balance block 24 to move towards the position far away from one side of the shielding plate 16 through the second pull rope 271, after the magnet 28 is far away from the magnetic block 161 for a certain distance, the thrust of the abutting rod 182 to the shielding plate 16 under the first spring 183 is greater than the adsorption force of the magnet 28 and the magnetic block 161, the shielding plate 16 can be opened towards the position far away from one side of the driven rod 12 by the abutting rod 182, and therefore automatic opening of the automatic shielding plate 16 is achieved.

The implementation principle of the installation of the intelligent building monitoring system in the embodiment of the application is as follows: an operator fixes the first side plate 111 and the second side plate 112 to wall surfaces on two sides of the corner respectively, and then controls the output shafts of the first motor and the second motor 131 to rotate so that the lens 152 on the monitoring body 15 is aligned with the walkway position to be monitored to monitor the walkway position. When operating personnel need detect or repair the cable conductor 153 of control body 15, drive second motor 131 and make the camera lens 152 of control body 15 upwards rotate to keeping away from the control visual angle, and shielding plate 16 is opened under the push force of butt joint pole 182, and cable conductor 153 also can be followed and reason line inslot 17 is stretched out, makes things convenient for operating personnel to inspect and repair. After the inspection and repair are completed, the operator drives the lens 152 of the monitoring body 15 to rotate downward to the monitoring angle, and then closes the shielding plate 16, and the shielding plate 16 is fixed on the driven rod 12 under the action of the magnet 28 and the magnetic block 161.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above 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

1. The utility model provides an intelligent building monitored control system installation, includes mounting bracket (1) and has monitoring body (15) of cable conductor (153), its characterized in that: the mounting frame (1) comprises a first side plate (111) and a second side plate (112) which are hinged with each other, the first side plate (111) and the second side plate (112) are fixed at corners by the first locking piece, and the first side plate (111) and the second side plate (112) are respectively located on two side wall surfaces at the corners;

the side face, away from the wall face, of one side of the first side plate (111) is rotatably connected with a driven rod (12), the side face, away from the wall face, of one side of the second side plate (112) is rotatably connected with a driving rod (13), the rotating axes of the driving rod (13) and the driven rod (12) are parallel to each other, the end portion, away from the second side plate (112), of the driving rod (13) is connected to the driven rod (12) in a sliding mode, the driving rod (13) is driven to rotate on the second side plate (112) by a driving piece, and the driven rod (12) rotates to two sides close to corners under the action of the driving rod (13);

the monitoring body (15) is rotatably connected to the driven rod (12), the driving piece II drives the monitoring body (15) to rotate on the driven rod (12), and the monitoring body (15) respectively rotates to two side walkways facing to the corner;

the cable monitoring device is characterized by further comprising a second locking piece, wherein a cable arranging groove (17) is formed in the side face of one side of the driven rod (12), an extending groove (171) communicated with the outside is formed in the bottom face of the cable arranging groove (17), cables (153) on the monitoring body (15) penetrate into the cable arranging groove (17) and extend out of the extending groove (171), a shielding plate (16) is hinged to the driven rod (12), and when the shielding plate (16) rotates to abut against the driven rod (12) and shields the cable arranging groove (17), the shielding plate (16) and the driven rod (12) are locked together by the second locking piece;

still include first spring (183) and butt pole (182), be equipped with fixed block (18) in reason line groove (17), butt groove (181) have been seted up on fixed block (18) one side towards shielding plate (16), butt pole (182) sliding connection is on butt groove (181), the both ends of first spring (183) set up respectively on butt groove (181) diapire and butt pole (182), when locking piece two does not lock shielding plate (16) and driven lever (12) together, butt pole (182) are ejecting to keeping away from reason line groove (17) shielding plate (16) under the effect of first spring (183).

2. The intelligent building monitoring system installation of claim 1, wherein: wire arrangement frame (19) is movably connected in wire arrangement groove (17), lay the embedded groove (191) that supply cable conductor (153) to hold on wire arrangement frame (19), cable conductor (153) in wire arrangement groove (17) are all embedded in embedded groove (191).

3. The intelligent building monitoring system installation of claim 2, wherein: reason line frame (19) are the buckle setting, one side lateral surface of butt joint groove (181) extends outward to and manages line groove (17) intercommunication, the one end fixed connection of reason line frame (19) is on butt joint pole (182), reason line frame (19) along the slip direction sliding connection who is on a parallel with butt joint pole (182) on butt joint groove (181), the one end of keeping away from butt joint pole (182) in line frame (19) is seted up in embedded groove (191), and when butt joint pole (182) stretches out embedded groove (191), the one end that butt joint pole (182) was kept away from in line frame (19) stretches out reason line groove (17).

4. The intelligent building monitoring system installation of claim 1, wherein: the second locking piece comprises a first rotating rod (21), a second rotating rod (22), a first pull rope (272), a second spring (262) and a moving block (25), the second driving piece is a first motor, the first motor is arranged in the driven rod (12), the first rotating rod (21) and an output shaft of the first motor are coaxially arranged, and the monitoring body (15) is arranged at the end part of the first rotating rod (21) extending out of the driven rod (12);

a sliding groove (23) is formed in the side face, facing the shielding plate (16), of the driven rod (12), the moving block (25) slides on the sliding groove (23), two ends of the second spring (262) are respectively arranged on the bottom wall of the sliding groove (23) and the moving block (25), the second rotating rod (22) is rotatably connected into the driven rod (12), the directions of the rotating axes of the first rotating rod (21) and the second rotating rod (22) are the same, the second rotating rod (22) is located on one side, away from the shielding plate (16), of the sliding groove (23), one end of the first pull rope (272) is arranged on the first rotating rod (21), the other end of the first pull rope (272) is arranged on the moving block (25) through the second rotating rod (22), and the output shaft of the first motor rotates in a reciprocating mode;

the magnetic monitoring device is characterized in that a magnet (28) is connected to the moving block (25), a magnetic block (161) which is matched with the magnet (28) in an adsorption mode is arranged on the shielding plate (16), when the monitoring body (15) rotates to a position far away from a monitoring visual angle, the magnet (28) is far away from the magnetic block (161) under the action of the first pull rope (272), and when the monitoring body (15) rotates to a position far away from the monitoring visual angle, the magnet (28) adsorbs the magnetic block (161) under the action of the second spring (262).

5. The intelligent building monitoring system installation of claim 4, wherein: the balance block is characterized by further comprising a balance block (24) and a third spring (261), the balance block (24) is connected to the sliding groove (23) in a sliding mode along the sliding direction parallel to the moving block (25), the balance block (24) is located on one side, away from the bottom wall of the sliding groove (23), of the moving block (25), two ends of the third spring (261) are arranged on the balance block (24) and the moving block (25) respectively, the magnet (28) is arranged on the side face, facing the shielding plate (16), of one side of the balance block (24), and the elastic force of the second spring (262) is larger than that of the third spring (261).

6. The intelligent building monitoring system installation of claim 5, wherein: the device also comprises a second pull rope (271), and two ends of the second pull rope (271) are respectively arranged on the balance block (24) and the moving block (25).