CN115914552B - Intelligent building monitoring terminal and system - Google Patents

Abstract

The invention relates to the field of monitoring systems, and particularly discloses a building intelligent monitoring terminal, a system and a method, wherein the building intelligent monitoring terminal comprises a mounting rod, a mounting box is arranged on the mounting rod, at least 1 mounting frame capable of being spliced and connected along the height direction of the mounting box is arranged in the mounting box, a rotatable camera is arranged on the mounting frame, an adjusting mechanism for adjusting the angle of the camera is arranged on the mounting frame, a mounting box opening is formed in the end face, facing the camera, of the mounting box and the opposite end face, facing the end face, of the camera, of the mounting box, and a glass door for sealing the mounting box opening is arranged on the mounting box. According to the invention, the cameras are protected better, the service life of the cameras is prolonged, and meanwhile, a proper number of cameras can be selected for splicing and connection according to the layer height of the building.

Description

Intelligent building monitoring terminal and system

Technical Field

The invention relates to the field of monitoring systems, in particular to an intelligent building monitoring terminal, an intelligent building monitoring system and an intelligent building monitoring method.

Background

The high altitude parabolic is a behavior which is not civilized and has great social hazard. In order to avoid the phenomenon of high-altitude parabolic, cameras are often arranged at the building bypass to monitor the building, and when the high-altitude parabolic occurs, the resident can be monitored and searched to perform the high-altitude parabolic, so that the resident is subjected to the responsibility tracking. At present, cameras for monitoring high-altitude parabolic objects are usually single, the shooting effect is general, when a building is higher, the whole building cannot be effectively covered, two or more cameras are required to be arranged for effectively monitoring the whole building, when the cameras are installed, camera installation rods are firstly required to be installed, then an installer moves to the upper ends of the installation rods by means of tools such as a ladder, the cameras are then installed at the upper ends of the camera installation rods, after the cameras are installed, the cameras are required to be started and pulled to adjust the angles of the cameras, after the angle adjustment of the cameras is completed, the adjusting knob is required to be screwed to fix the cameras, and the angles of the cameras can be changed again in the process of screwing the adjusting knob. And because the angle of the camera is generally inclined upwards, dust and the like in the external environment are easy to adhere to the lens of the camera when monitoring is carried out, so that the service life of the lens of the camera is shortened.

Disclosure of Invention

In order to solve the technical problems, the invention is solved by the following technical scheme:

the utility model provides a building intelligent monitoring terminal, it includes the installation pole, is equipped with the installation case on the installation pole, is equipped with at least 1 in the installation case and can splice the mounting bracket of being connected along installation case direction of height, is equipped with rotatable camera on the mounting bracket, is equipped with the adjustment mechanism who is used for adjusting the camera angle on the mounting bracket, all is equipped with the installation case opening on the terminal surface of camera orientation and the relative terminal surface of camera orientation terminal surface in the installation case, is equipped with the glass door that is used for sealing the installation case opening on the installation case.

According to the invention, the cameras are protected better, the service life of the cameras is prolonged, and meanwhile, a proper number of cameras can be selected for splicing and connection according to the layer height of the building.

Preferably, the mounting frame comprises 4 mounting plates sequentially connected end to end, the 4 mounting plates together form a through groove with openings at two ends, a protruding part is arranged on the mounting plate at the upper end part of the mounting frame, sliding grooves arranged along the length direction of the through groove are arranged on the side walls at two ends of the protruding part, and an L-shaped plate which is in clearance fit with the sliding grooves is arranged on the mounting plate at the lower end part of the mounting frame; the mounting frame is provided with a fixing mechanism for fixing the adjacent mounting frames.

According to the invention, through the matching between the sliding groove on the protruding part of the mounting frame and the L-shaped plate, the connection and the disassembly between the two mounting frames can be realized more conveniently.

Preferably, the bulge is provided with a first wedge mounting groove, the fixing mechanism comprises a first wedge which is arranged in the first wedge mounting groove and can move along the height direction of the first wedge mounting groove, the mounting plate at the lower end part of the mounting rack is provided with a first clamping groove, and the bottom end part of the first wedge mounting groove is provided with a first spring for propping the first wedge into the first clamping groove on the adjacent mounting rack; the middle part of the first wedge block is provided with a first strip-shaped through hole, the lower end surface of the first strip-shaped through hole is downwards recessed to form a first inclined surface, and the side wall of one end of the protruding part is provided with a slot communicated with the first clamping groove; the fixing mechanism further comprises a U-shaped plugboard, and the lower end portion of the U-shaped plugboard can press the first inclined surface to enable the upper end portion of the first wedge block to retract into the first wedge block installation groove.

According to the invention, the camera can be conveniently installed and detached by arranging the fixing mechanism structure.

Preferably, a rotatable mounting seat is arranged between the two mounting plates, the mounting seat comprises two gear plates, a connecting plate for connecting the two gear plates is arranged between the two gear plates, the two connecting plates and the two gear plates together form a camera placing groove for placing a camera, a connecting plate screw hole is formed in the connecting plate, and a connecting plate bolt for fixing the camera is arranged in the connecting plate screw hole; a sealing plate used for sealing one end of the camera placing groove is further arranged between the two gear plates, and a sealing plate through hole used for the camera lens to extend out is arranged on the sealing plate.

According to the invention, the camera can be conveniently installed through the installation of the installation seat structure.

Preferably, the bottom end face of the mounting plate at the lower end part of the mounting rack is provided with a mounting plate groove, the adjusting mechanism comprises a bottom plate matched with the mounting plate groove, two end parts of the bottom plate are provided with vertical plates perpendicular to the bottom plate, a rotatable gear roller meshed with the gear plate is arranged between the two vertical plates, a locking mechanism which is positioned below the gear roller and used for locking the gear roller is also arranged on the bottom plate, the locking mechanism comprises a locking block, the upper end face of the locking block is provided with an arc-shaped surface, a rack meshed with the gear roller is arranged on the arc-shaped surface, the side wall of the bottom end part of the locking block is provided with a mounting block through hole, a half-tooth screw rod penetrating through the mounting block through hole is arranged on the bottom plate, a second spring positioned at the lower end part of the mounting block is sleeved on the half-tooth screw rod, and the second spring is used for propping the rack on the arc-shaped surface against the gear roller; the locking block is internally provided with a second strip-shaped through hole penetrating through the locking block, the bottom wall of the opening at one end of the second strip-shaped through hole is recessed inwards to form a second inclined plane, and the upper end part of the U-shaped plugboard can extrude the second inclined plane so that racks on the arc-shaped surface are separated from meshing with the gear roller.

According to the invention, through the cooperation between the gear roller and the locking mechanism in the adjusting mechanism, the angle of the camera can be adjusted by rotating the gear roller, and the camera is fixed through the locking mechanism, so that the driving and the fixing of the camera can be conveniently realized.

Preferably, the adjusting mechanism comprises a first bevel gear which is arranged on a rotating shaft at one end of the gear roller and synchronously rotates along with the gear roller, a supporting plate is arranged on a vertical plate, which is close to the first bevel gear, of the two vertical plates, a connecting ring is arranged on the supporting plate, the outer side wall, which is close to the supporting plate, of the connecting ring is outwards expanded to form a first flange which is connected with the supporting plate through bolts, the adjusting mechanism also comprises a second bevel gear which is meshed with the first bevel gear, an annular blind hole which is close to the supporting plate and is in clearance fit with the connecting ring is arranged on the end face, which is close to the supporting plate, of the second bevel gear, the side wall of the annular blind hole is outwards expanded to form an annular groove, the end part of the connecting ring extends into the annular blind hole, and the end part, which extends into the annular blind hole, of the connecting ring is outwards expanded to form a second flange which is in clearance fit with the annular groove; the upper end of the U-shaped plugboard is provided with an adjusting plate perpendicular to the U-shaped plugboard, an adjusting plate through hole is formed in the adjusting plate, the adjusting mechanism comprises an adjusting rod penetrating through the adjusting plate through hole, an annular groove in clearance fit with the adjusting plate through hole is formed in the adjusting rod, the cross section of the adjusting rod is regular hexagon, and a regular hexagon through hole in clearance fit with the adjusting rod is formed in the center of the second bevel gear.

According to the invention, due to the arrangement of the structure of the adjusting mechanism, an installer on the ladder can conveniently adjust and fix the angle of the camera, so that the safety of the installer in the installation operation is also improved.

Preferably, the bottom plate is connected with the mounting plate at the lower end part of the mounting frame through bolts.

According to the invention, the installation of the adjusting mechanism can be conveniently realized through the bolt connection between the bottom plate and the installation frame.

Preferably, the mounting box is provided with a mounting base on the bottom end face, a strip-shaped groove in clearance fit with the L-shaped plate on the mounting frame is arranged on the mounting base, a mounting base screw hole is formed in the mounting base, a counter bore is formed in a mounting plate at the bottom end part of the mounting frame, and a fixing screw bolt which penetrates through the counter bore and is matched with the mounting base screw hole is arranged on the mounting base.

According to the invention, the connection between the mounting frame and the mounting box can be realized more conveniently through the cooperation between the fixing bolt and the counter bore on the mounting plate.

The invention also provides a building intelligent monitoring system which comprises the monitoring terminal, a push flow server, a cloud storage server and a display terminal, wherein the monitoring terminal is used for collecting monitoring images, the push flow server is used for pushing the monitoring images to the cloud storage server, the cloud storage server is used for storing the monitoring images and sending the images to the display terminal, and the display terminal is used for receiving and displaying image signals of the cloud storage server.

According to the intelligent building monitoring system, the building can be monitored clearly, so that the phenomenon of high-altitude parabolic can be avoided in a limited manner.

The invention also provides a building monitoring method, which adopts the intelligent building monitoring system to monitor the building.

According to the invention, the building can be better monitored by the monitoring method, so that high-altitude parabolic objects can be effectively avoided.

Drawings

Fig. 1 is a schematic structural diagram of a monitor terminal in embodiment 1.

Fig. 2 is a schematic structural view of the mounting frame in embodiment 1.

Fig. 3 is a schematic view of the structure of the mounting box in embodiment 1.

Fig. 4 is a cross-sectional view of the mount of example 1.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is a schematic structural view of the first wedge in embodiment 1.

Fig. 7 is a schematic structural diagram of the mounting base in embodiment 1.

Fig. 8 is a half sectional view of the mount of embodiment 1.

Fig. 9 is a schematic structural view of the adjusting mechanism in embodiment 1.

FIG. 10 is an enlarged view of portion B of FIG. 4

Fig. 11 is a cross-sectional view of the support plate and the second bevel gear in embodiment 1.

Fig. 12 is a schematic structural diagram of the U-shaped board in embodiment 1.

Detailed Description

For a further understanding of the present invention, the present invention will be described in detail with reference to the drawings and examples. It is to be understood that the examples are illustrative of the present invention and are not to be construed as limiting.

Example 1

As shown in fig. 1-12, this embodiment provides a building intelligent monitoring terminal, it includes installation pole 110, be equipped with install bin 120 on the installation pole 110, be equipped with 1 at least mounting bracket 210 that can splice along the install bin 120 direction of height in the install bin 120, be equipped with rotatable camera 220 on the mounting bracket 210, be equipped with the adjustment mechanism who is used for adjusting the angle of camera 220 on the install bracket 210, the terminal surface that the camera 220 was oriented in the install bin 120 and all be equipped with install bin opening 310 on the opposite terminal surface that faces the terminal surface with camera 220, be equipped with on the install bin 120 and be used for carrying out sealed glass door 320 to install bin opening 310.

The mounting frame 210 comprises 4 mounting plates 230,4 and 230 which are sequentially connected end to jointly form a through groove 240 with two open ends, a protruding part 250 is arranged on the mounting plate 230 at the upper end part of the mounting frame 210, sliding grooves 260 arranged along the length direction of the through groove 240 are arranged on the side walls at the two ends of the protruding part 250, and an L-shaped plate 270 in clearance fit with the sliding grooves 260 is arranged on the mounting plate 230 at the lower end part of the mounting frame 210; the mounting frames 210 are provided with fixing mechanisms for fixing adjacent mounting frames 210.

The protruding part 250 is provided with a first wedge mounting groove 510, the fixing mechanism comprises a first wedge 520 which is arranged in the first wedge mounting groove 510 and can move along the height direction of the first wedge mounting groove 510, the mounting plate 230 at the lower end part of the mounting frame 210 is provided with a first clamping groove 530, and the bottom end part of the first wedge mounting groove 510 is provided with a first spring 540 for propping the first wedge 520 into the first clamping groove 530 on the adjacent mounting frame 210; the middle part of the first wedge block 520 is provided with a first bar-shaped through hole 550, the lower end surface of the first bar-shaped through hole 550 is downwards recessed to form a first inclined surface 560, and one end side wall of the protruding part 250 is provided with a slot 570 communicated with the first clamping groove 530; the securing mechanism further includes a U-shaped insert plate 410, the lower end of the U-shaped insert plate 410 being capable of pressing against the first inclined surface 560 to retract the upper end of the first wedge 520 into the first wedge mounting groove 510.

A rotatable mounting seat 440 is arranged between the two mounting plates 230, the mounting seat 440 comprises two gear plates 710, a connecting plate 720 which is used for connecting the two gear plates 710 is arranged between the two gear plates 710, the two connecting plates 720 and the two gear plates 710 together form a camera placing groove 730 for placing the camera 220, a connecting plate screw hole 740 is arranged on the connecting plate 720, and a connecting plate bolt 750 for fixing the camera 220 is arranged in the connecting plate screw hole 740; a sealing plate 760 for sealing one end of the camera accommodating groove 730 is further arranged between the two gear plates 710, and a sealing plate through hole 770 for extending out the lens of the camera 220 is arranged on the sealing plate 760.

The mounting plate 230 at the lower end of the mounting frame 210 is provided with a mounting plate groove 810, the adjusting mechanism comprises a bottom plate 910 matched with the mounting plate groove 810, and the bottom plate 910 is connected with the mounting plate 230 at the lower end of the mounting frame 210 through bolts. A stop 820 is arranged at the end of the chute 260 near the slot 570, a mounting plate opening 830 matched with the stop is arranged on the mounting plate 230 at the lower end of the mounting frame 210, and a bottom plate opening 9150 matched with the stop is arranged on the lower end surface of the bottom plate 910. The boss 250 is further provided with a second wedge mounting groove 580 located below the bottom plate 910, the slot 570 penetrates through the second wedge mounting groove 580, the second wedge mounting groove 580 is provided with a second wedge 590 capable of moving along the height direction of the second wedge mounting groove 580, the lower end surface of the bottom plate 910 is provided with a second clamping groove 5100, the bottom end of the second wedge mounting groove 580 is provided with a third spring 5110 for propping the second wedge 590 into the second clamping groove 5100 on the adjacent mounting frame 210, the second wedge 590 is provided with a third strip-shaped through hole 5120, the lower end surface of the third strip-shaped through hole 5120 is downwards recessed to form a third inclined surface 5130, and the lower end of the U-shaped plugboard 410 can press the third inclined surface 5130 so that the upper end of the second wedge 590 is retracted into the second wedge mounting groove 580. The two end parts of the bottom plate 910 are provided with vertical plates 920 perpendicular to the bottom plate 910, a rotatable gear roller 930 meshed with the gear disc 710 is arranged between the two vertical plates 920, the bottom plate 910 is also provided with a locking mechanism which is positioned below the gear roller 930 and used for locking the gear roller 930, the locking mechanism comprises a locking block 940, the upper end surface of the locking block 940 is provided with an arc surface 950, the arc surface 950 is provided with a rack 960 meshed with the gear roller 930, the side wall of the bottom end part of the locking block 940 is provided with a mounting block 970, the mounting block 970 is provided with a mounting block through hole 980, the bottom plate 910 is provided with a half-tooth screw 990 penetrating through the mounting block through hole 980, the half-tooth screw 990 is sleeved with a second spring 9100 positioned at the lower end part of the mounting block 970, and the second spring 9100 is used for propping the rack 960 on the arc surface 950 against the gear roller 930; the locking block 940 is provided with a second bar-shaped through hole 9110 penetrating through the locking block 940, a bottom wall at an opening at one end of the second bar-shaped through hole 9110 is recessed inwards to form a second inclined surface 1010, and the upper end of the u-shaped plugboard 410 can squeeze the second inclined surface 1010 to enable the rack 960 on the arc-shaped surface 950 to be disengaged from the gear roller 930.

The adjusting mechanism comprises a first bevel gear 9120 which is arranged on a rotating shaft at one end of a gear roller 930 and synchronously rotates along with the gear roller 930, a supporting plate 9130 is arranged on a riser 920, which is close to the first bevel gear 9120, of two risers 920, a connecting ring 1110 is arranged on the supporting plate 9130, the outer side wall, which is close to the supporting plate 9130, of the connecting ring 1110 is outwards expanded to form a first flange 1120 which is connected with the supporting plate 9130 through bolts, the adjusting mechanism also comprises a second bevel gear 9140 which is meshed with the first bevel gear 9120, an annular blind hole 1130 which is in clearance fit with the connecting ring 1110 is arranged on the end surface, which is close to the supporting plate 9130, of the second bevel gear 9140, the side wall of the annular blind hole 1130 is outwards expanded to form an annular groove 1140, the end part of the connecting ring 1110 extends into the annular blind hole 1130, and the end part, which extends into the annular blind hole 1130, of the connecting ring 1110 is outwards expanded to form a second flange 1150 which is in clearance fit with the annular groove 1140; the upper end of the U-shaped plugboard 410 is provided with an adjusting plate 1210 perpendicular to the U-shaped plugboard 410, the adjusting plate 1210 is provided with an adjusting plate through hole 1220, the adjusting mechanism comprises an adjusting rod 1230 penetrating through the adjusting plate through hole 1220, the adjusting rod 1230 is provided with an annular groove 1240 in clearance fit with the adjusting plate through hole 1220, the cross section of the adjusting rod 1230 is in a regular hexagon shape, and the center of the second bevel gear 9140 is provided with a regular hexagon through hole 1160 in clearance fit with the adjusting rod 1230.

The mounting box 120 is provided with a mounting base 330 on the bottom end face, the mounting base 330 is provided with a strip-shaped groove 340 in clearance fit with the L-shaped plate 270 on the mounting frame 210, the mounting base 330 is provided with a mounting base screw hole 350, the mounting plate 230 at the bottom end part of the mounting frame 210 is provided with a counter bore 420, and the mounting base 440 is provided with a fixing bolt 430 penetrating through the counter bore 420 and matched with the mounting base screw hole 350.

When the installation rack is used, firstly, one installation rack 210 is installed in the installation box 120, then the installation rod 110 is installed beside a building, then an installer climbs to the installation box 120 by means of tools such as a ladder and the like, the power supply of the camera 220 is connected, an installer on the ground receives images of the camera 220 through a display terminal such as a computer and the like, and instructs the installer on the ladder to adjust the angles of the camera 220, the step of adjusting the angles of the camera 220 is as follows, firstly, the installer on the ladder inserts the upper end part of the U-shaped plugboard 410 into the second strip-shaped through hole 9110, the locking block 940 is enabled to move downwards through the cooperation between the U-shaped plugboard 410 and the second inclined plane 1010, so that a rack 960 on the arc-shaped surface 950 of the locking block 940 is separated from engagement with a gear roller 930, then the installer on the ground can instruct the installer on the ladder to rotate forwards or reversely according to the images collected by the camera, when the installer on the ladder is instructed to adjust the camera 220 to clearly display the images, the installer on the ladder extracts the U-shaped plugboard 410 from the second through hole 9110, the locking block 960 is enabled to be meshed with the gear roller 960 under the action of the second strip-shaped plugboard 940, and the gear wheel 930 is enabled to move upwards under the action of the spring force of the second plugboard 940 to realize the gear mounting plate 710, and the gear roller mounting is enabled to be meshed with the gear roller mounting plate 710, and the gear roller mounting plate is enabled to realize the gear mounting, and the gear mounting plate mounting device. When the floor is high, the single camera 220 cannot monitor the entire building for clarity, at which time the above-ground installer speaks the adjusting mechanism and the camera 220 into another mounting bracket 210, and then delivers the mounting bracket 210 to the installer on the ladder, the installer on the ladder inserts the U-shaped insert 410 into the slot 570 mounted at the upper end of the mounting bracket 210 in the mounting box 120, at which time the first wedge 520 and the second wedge 590 are retracted into the first wedge mounting groove 510 and the second wedge mounting groove 580, respectively, and the L-shaped plate 270 at the lower end of the mounting bracket 210 delivered by the ground installer is snapped into the slide slot 260 on the mounting bracket 210 in the mounting box 120 until the floor opening 9150 on the floor 910 abuts against the stopper 820, and then pulls the U-shaped insert 410 outwards to allow the first wedge 520 and the second wedge 590 to extend into the first and the second clamping grooves 530 and 590, respectively, thereby securing the mounting bracket 210 and the floor 910, respectively. Then, an installer on the ground can instruct the installer on the ladder to adjust the angle of the camera 220 according to the picture received by the display terminal, and after the angle adjustment is finished, the camera can be fixed by pulling out the U-shaped plug board 410; after the camera 220 is installed, the glass door 320 is closed, so that the intelligent monitoring terminal of the building can be installed.

In this embodiment, the building intelligent monitoring terminal is installed in the installation frame 210 that can splice through installing the camera 220 to install the installation frame 210 in the installation box 210, not only realize the protection to the camera 220 preferred, promoted the life of camera 220, simultaneously through the setting of the installation frame 210 that can splice, not only can select the camera 220 of suitable quantity to splice according to the floor height of building to connect, when the camera 220 breaks down simultaneously, can be comparatively convenient dismantle the camera 220, thereby comparatively convenient realization is to the maintenance of this building intelligent monitoring terminal.

Wherein, through the cooperation between spout 260 and the L template on the bellying 250 of mounting bracket 210, can be comparatively convenient realization be connected and dismantle between two mounting brackets 210.

Wherein, through the setting of fixed establishment structure, can be through the cooperation between first draw-in groove 530 and the first voussoir 520 with the mounting bracket 210 of mounting bracket 210 in its bottom on to can realize the installation and the dismantlement to the mounting bracket 210 when comparatively convenient, compare in prior art through modes such as bolt installation camera support, can be comparatively convenient realization is to the installation and the dismantlement of camera 220.

Wherein, through the setting of mount pad 440 structure for the installer can put into camera standing groove 730 with camera 220 when carrying out the installation to camera 220, screw up connecting plate bolt 750 with locking the camera afterwards, thereby can be comparatively convenient realization to the installation of camera 220.

Wherein, through the cooperation between gear roller 930 and the locking mechanism among the adjustment mechanism, can adjust the angle of camera 220 through rotatory gear roller 930 to fix camera 220 through locking mechanism, thereby can comparatively conveniently realize the drive and the fixed to camera 220.

Wherein, through the setting of adjustment mechanism structure, make installer accessible twist adjust the angle of pole 1230 to camera 220 and after adjusting, can pull out U type picture peg 410 from second strip through-hole 9110 and lock camera 220, compare in the mode of fixing the camera through tightening fastening bolt through manual pulling the camera, the adjustment mode of adjustment mechanism in this embodiment is more simple and convenient, make installer on the ladder can very convenient completion to the regulation and the fixed of camera 220 angle, thereby the security of installer when carrying out the installation operation also preferred has been promoted, simultaneously, diameter ratio of gear wheel 710 is greater than 2 with the diameter ratio of gear roller 930 in this embodiment, diameter of first bevel gear 9120 and second bevel gear 9140 is greater than 2, through above-mentioned setting, make installer can carry out fine adjustment to the angle of camera 220, thereby make installer can comparatively quick regulation to the angle that needs to adjust. Through the bolted connection between bottom plate 910 and mounting bracket 210, can be comparatively convenient realization is to adjustment mechanism's installation, through mounting panel recess 810, second draw-in groove 5100 and the setting of second voussoir 590, can be fixed in the mounting bracket 210 of its below through the cooperation between second voussoir 590 and the second draw-in groove 5100, thereby even make when carrying out the installation to this building intelligent monitoring terminal, need not to be connected adjustment mechanism with mounting bracket 210, cooperation between simultaneously through second voussoir 590 and second draw-in groove 5100, also further avoided mounting bracket 210 to take place not hard up, thereby further promoted the connection effect between two mounting brackets 210, simultaneously when carrying out the maintenance to camera 220, need not to pull down adjustment mechanism and mounting bracket 210 together from the mounting bracket 210 of its below, thereby comparatively convenient maintenance to camera 220.

Wherein, through the cooperation between the counter bore on fixing bolt 430 and mounting panel 230, can be fixed in the bottom of mounting bracket 210 of mounting box 120 through fixing bolt 430 with mounting box 120 to can comparatively convenient realization mounting bracket 210 and mounting box 120 between be connected.

Example 2

The embodiment provides a building intelligent monitoring system, which comprises the monitoring terminal in the embodiment 1, a plug flow server, a cloud storage server and a display terminal, wherein the monitoring terminal is used for collecting monitoring images, the plug flow server is used for plug-flowing the monitoring images to the cloud storage server and sending the images to the display terminal, and the display terminal is used for receiving and displaying image signals of the cloud storage server.

In this embodiment, by the arrangement of the building intelligent monitoring system, the building can be monitored more clearly, so that the phenomenon of high altitude parabolic can be prevented more limitedly.

Example 3

The embodiment provides a building monitoring method, which adopts the building intelligent monitoring system in the embodiment 2 to monitor a building.

In the implementation, the building can be better monitored by the monitoring method, so that high-altitude parabolic objects can be effectively avoided.

In summary, the foregoing description is only of the preferred embodiments of the present invention, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the invention.

Claims (5)

1. Building intelligent monitoring terminal, its characterized in that: the mounting box comprises a mounting rod (110), wherein a mounting box body (120) is arranged on the mounting rod (110), at least 1 mounting frames (210) which can be spliced and connected along the height direction of the mounting box body (120) are arranged in the mounting box body (120), rotatable cameras (220) are arranged on the mounting frames (210), adjusting mechanisms for adjusting angles of the cameras (220) are arranged on the mounting frames (210), mounting box openings (310) are formed in the end faces, facing the cameras (220), of the mounting box body (120) and opposite end faces, facing the end faces, of the cameras (220), and glass doors (320) for sealing the mounting box openings (310) are arranged on the mounting box body (120);

the mounting frame (210) comprises 4 mounting plates (230) which are sequentially connected end to end, the 4 mounting plates (230) jointly form a through groove (240) with two open ends, a protruding part (250) is arranged on the mounting plate (230) at the upper end part of the mounting frame (210), sliding grooves (260) which are arranged along the length direction of the through groove (240) are formed in the side walls at the two ends of the protruding part (250), and an L-shaped plate (270) which is in clearance fit with the sliding grooves (260) is arranged on the mounting plate (230) at the lower end part of the mounting frame (210); the mounting frames (210) are provided with fixing mechanisms for fixing the adjacent mounting frames (210);

a first wedge block mounting groove (510) is formed in the protruding part (250), the fixing mechanism comprises a first wedge block (520) which is arranged in the first wedge block mounting groove (510) and can move along the height direction of the first wedge block mounting groove (510), a first clamping groove (530) is formed in a mounting plate (230) at the lower end part of the mounting frame (210), and a first spring (540) for propping the first wedge block (520) into the first clamping groove (530) on the adjacent mounting frame (210) is arranged at the bottom end part of the first wedge block mounting groove (510); the middle part of the first wedge block (520) is provided with a first strip-shaped through hole (550), the lower end surface of the first strip-shaped through hole (550) is downwards recessed to form a first inclined surface (560), and the side wall of one end of the protruding part (250) is provided with a slot (570) communicated with the first clamping groove (530); the fixing mechanism further comprises a U-shaped plugboard (410), wherein the lower end part of the U-shaped plugboard (410) can press the first inclined surface (560) so as to enable the upper end part of the first wedge block (520) to retract into the first wedge block mounting groove (510);

a rotatable mounting seat (440) is arranged between the two mounting plates (230), the mounting seat (440) comprises two gear plates (710), a connecting plate (720) which is used for connecting the two gear plates (710) is arranged between the two gear plates (710), the two connecting plates (720) and the two gear plates (710) together form a camera placing groove (730) for placing a camera (220), a connecting plate screw hole (740) is formed in the connecting plate (720), and a connecting plate bolt (750) for fixing the camera (220) is arranged in the connecting plate screw hole (740); a sealing plate (760) for sealing one end of the camera placing groove (730) is further arranged between the two gear plates (710), and a sealing plate through hole (770) for extending out of the camera (220) lens is arranged on the sealing plate (760);

the bottom end surface of the mounting plate (230) at the lower end part of the mounting frame (210) is provided with a mounting plate groove (810), the adjusting mechanism comprises a bottom plate (910) matched with the mounting plate groove (810), two end parts of the bottom plate (910) are provided with vertical plates (920) perpendicular to the bottom plate (910), a rotatable gear roller (930) meshed with the gear plate (710) is arranged between the two vertical plates (920), the bottom plate (910) is also provided with a locking mechanism which is arranged below the gear roller (930) and used for locking the gear roller (930), the locking mechanism comprises a locking block (940), the upper end surface of the locking block (940) is provided with an arc-shaped surface (950), the arc-shaped surface (950) is provided with a rack (960) meshed with the gear roller (930), the side wall of the bottom end part of the locking block (940) is provided with a mounting block (970), the bottom plate (910) is provided with a mounting block through hole (980), the bottom plate (910) is provided with a half-tooth screw (990) penetrating through the mounting block through hole (980), the half-tooth screw (990) is sleeved with a second spring (960) positioned at the lower end part of the mounting block (970), and the second spring (00) is abutted against the arc-shaped surface (950) of the gear roller (950); the second strip-shaped through hole (9110) penetrating through the locking block (940) is formed in the locking block (940), the bottom wall of the opening at one end of the second strip-shaped through hole (9110) is recessed inwards to form a second inclined surface (1010), and the upper end of the U-shaped plugboard (410) can squeeze the second inclined surface (1010) so that a rack (960) on the arc-shaped surface (950) is separated from engagement with the gear roller (930).

2. The building intelligent monitoring terminal of claim 1, wherein: the adjusting mechanism comprises a first bevel gear (9120) which is arranged on one end rotating shaft of the gear roller (930) and synchronously rotates along with the gear roller (930), a supporting plate (9130) is arranged on a vertical plate (920) which is close to the first bevel gear (9120) in the two vertical plates (920), a connecting ring (1110) is arranged on the supporting plate (9130), a first flange (1120) which is connected with the supporting plate (9130) through bolts is formed by outwards expanding the outer side wall of the connecting ring (1110) which is close to the supporting plate (9130), the adjusting mechanism also comprises a second bevel gear (9140) which is meshed with the first bevel gear (9120), an annular blind hole (1130) which is in clearance fit with the connecting ring (1110) is arranged on the end face of the second bevel gear (9140) which is close to the supporting plate (9130), an annular blind hole (1140) is formed by outwards expanding the side wall of the annular blind hole (1130), the end part of the connecting ring (1110) stretches into the annular blind hole (1130), and a second flange (1150) which is in clearance fit with the annular blind hole (1140) is formed by outwards expanding the end part of the connecting ring (1110); the upper end of U type picture peg (410) is equipped with regulating plate (1210) that perpendicular to U type picture peg (410) set up, is equipped with regulating plate through-hole (1220) on regulating plate (1210), and adjustment mechanism is equipped with on adjusting lever (1230) with regulating plate through-hole (1220) clearance fit's annular groove (1240), and the transversal regular hexagon of personally submitting of adjusting lever (1230), and the center department of second bevel gear (9140) is equipped with regular hexagon through-hole (1160) with adjusting lever (1230) clearance fit.

3. The building intelligent monitoring terminal of claim 1, wherein: the bottom plate (910) is connected with the mounting plate (230) at the lower end part of the mounting frame (210) through bolts.

4. The building intelligent monitoring terminal of claim 1, wherein: the mounting box comprises a mounting box body (120), wherein a mounting base (330) is arranged on the bottom end face of the mounting box body (120), a strip-shaped groove (340) which is in clearance fit with an L-shaped plate (270) on a mounting frame (210) is arranged on the mounting base (330), a mounting base screw hole (350) is arranged on the mounting base (330), a counter bore (420) is arranged on a mounting plate (230) at the bottom end part of the mounting frame (210), and a fixing bolt (430) which penetrates through the counter bore (420) and is matched with the mounting base screw hole (350) is arranged on a base of a mounting seat (440).

5. Building intelligent monitoring system, its characterized in that: the monitoring terminal comprises any one of claims 1-4, and further comprises a push server, a cloud storage server and a display terminal, wherein the monitoring terminal is used for collecting monitoring images, the push server is used for pushing the monitoring images to the cloud storage server, the cloud storage server is used for storing the monitoring images and sending the images to the display terminal, and the display terminal is used for receiving and displaying image signals of the cloud storage server.