CN115914552A - Building intelligent monitoring terminal, system and method - Google Patents

Abstract

The invention relates to the field of monitoring systems, and particularly discloses a building intelligent monitoring terminal, a building intelligent monitoring system and a building intelligent monitoring method. According to the invention, the cameras are well protected, the service life of the cameras is prolonged, and meanwhile, a proper number of cameras can be selected for splicing connection according to the floor height of the building.

Description

Building intelligent monitoring terminal, system and method

Technical Field

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

Background

The high-altitude throwing is an uneventful behavior and has great social hazard. In order to avoid the phenomenon of high-altitude object throwing, a camera is usually installed on a building bypass to monitor a building, and when high-altitude object throwing occurs, which resident carries out high-altitude object throwing can be searched through monitoring, so that the resident can be subjected to duty pursuing. At present, a camera used for monitoring a high altitude parabolic camera is single generally, the shooting effect is general, when a building is higher, the whole building cannot be effectively covered better, in order to effectively monitor the whole building, two or more cameras are generally required to be arranged, when the camera is installed, firstly, a camera installing rod needs to be installed, then, an installer moves to the upper end of the installing rod by means of tools such as a ladder, and then, the camera is installed at the upper end of the camera installing rod. Moreover, since the angle of the camera is usually inclined upwards, dust and the like in the external environment are easily attached to the lens of the camera during monitoring, and the service life of the camera lens is shortened.

Disclosure of Invention

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

the utility model provides a building intelligent monitoring terminal, it is including the installation pole, be equipped with the install bin on the installation pole, be equipped with 1 at least mounting bracket that can carry out the concatenation connection along the install bin direction of height in the install bin, but be equipped with the pivoted camera on the mounting bracket, be equipped with the adjustment mechanism who is used for carrying out the regulation to the camera angle on the mounting bracket, all be equipped with the install bin opening on the terminal surface of camera orientation in the install bin and the relative terminal surface towards the terminal surface with the camera, be equipped with on the install bin and be used for carrying out the glass door sealed to the install bin opening.

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

Preferably, the mounting frame comprises 4 mounting plates which are sequentially connected end to end, the 4 mounting plates jointly form a through groove with two open ends, a bulge 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 the two ends of the bulge, and an L-shaped plate in clearance fit with the sliding grooves is arranged on the mounting plate at the lower end part of the mounting frame; the mounting rack is provided with a fixing mechanism for fixing the adjacent mounting rack.

According to the invention, the connection and the disassembly between the two mounting frames can be conveniently realized through the matching between the sliding grooves on the protruding parts of the mounting frames and the L-shaped plates.

Preferably, a first wedge block mounting groove is formed in the protruding portion, the fixing mechanism comprises a first wedge block which is arranged in the first wedge block mounting groove and can move along the height direction of the first wedge block mounting groove, a first clamping groove is formed in a mounting plate at the lower end of the mounting frame, and a first spring used for enabling the first wedge block to be abutted into the first clamping groove in the adjacent mounting frame is arranged at the bottom end of the first wedge block mounting groove; a first strip-shaped through hole is formed in the middle of the first wedge block, the lower end face of the first strip-shaped through hole is downwards sunken to form a first inclined face, and a slot communicated with the first clamping groove is formed in the side wall of one end of the protruding portion; the fixing mechanism further comprises a U-shaped inserting plate, and the lower end portion of the U-shaped inserting plate can extrude the first inclined surface to enable the upper end portion of the first wedge block to retract into the first wedge block installing groove.

According to the invention, the camera can be conveniently mounted and dismounted through the arrangement of the fixing mechanism structure.

Preferably, a rotatable mounting seat is arranged between the two mounting plates, the mounting seat comprises two gear discs, a connecting plate which is used for connecting the two gear discs is arranged between the two gear discs, the two connecting plates and the two gear discs jointly 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; still be equipped with between two toothed discs and be used for carrying out the closing plate sealed to camera storage tank one end, be equipped with on the closing plate and be used for supplying the closing plate through-hole that the camera lens stretches out.

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

Preferably, the bottom end face of the mounting plate at the lower end of the mounting frame 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 disc is arranged between the two vertical plates, the bottom plate is also provided with a locking mechanism which is positioned below the gear roller and used for locking the gear roller, the locking mechanism comprises a locking block, the upper end face of the locking block is provided with an arc-shaped face, a rack meshed with the gear roller is arranged on the arc-shaped face, the side wall of the bottom end part of the locking block is provided with a mounting block, the mounting block is provided with a mounting block through hole, the bottom plate is provided with a half-tooth screw rod penetrating through the mounting block through hole, the half-tooth screw rod is sleeved with a second spring positioned at the lower end part of the mounting block, and the second spring is used for enabling the rack on the arc-shaped face to abut 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 an opening at one end of the second strip-shaped through hole is inwards recessed to form a second inclined plane, and the upper end part of the U-shaped inserting plate can extrude the second inclined plane to enable the rack on the arc-shaped surface to be separated from the meshing with the gear roller.

According to the invention, through the matching between the gear roller and the locking mechanism in the adjusting mechanism, the angle of the camera can be adjusted through rotating the gear roller, and the camera is fixed through the locking mechanism, so that the driving and 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 one of the two vertical plates close to the first bevel gear, a connecting ring is arranged on the supporting plate, the outer side wall of the connecting ring close to the supporting plate is outwards expanded to form a first flange in bolted connection with the supporting plate, the adjusting mechanism further comprises a second bevel gear meshed with the first bevel gear, an annular blind hole in clearance fit with the connecting ring is arranged on the end face of the second bevel gear close to the supporting plate, the side wall of the annular blind hole is outwards expanded to form an annular groove, the end part of the connecting ring extending into the annular blind hole extends into the annular blind hole, and the end part of the connecting ring extending into the annular blind hole is outwards expanded to form a second flange in clearance fit with the annular groove; the upper end of U type picture peg is equipped with the regulating plate that the perpendicular to U type picture peg set up, is equipped with the regulating plate through-hole on the regulating plate, and adjustment mechanism is equipped with the annular groove with regulating plate through-hole clearance fit including passing the regulation pole of regulating plate through-hole on the regulation pole, and the transversal regular hexagon of personally submitting of regulation pole, the center department of second bevel gear is equipped with the regular hexagon through-hole with regulation pole clearance fit.

According to the invention, through the arrangement of the adjusting mechanism structure, the angle of the camera can be conveniently adjusted and fixed by an installer on the ladder, so that the safety of the installer during installation operation is better improved.

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

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

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

According to the invention, the mounting frame and the mounting box can be conveniently connected through the matching of 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 stream pushing server, a cloud storage server and a display terminal, wherein the monitoring terminal is used for collecting the monitoring image, the stream pushing server is used for pushing the monitoring image to the cloud storage server, the cloud storage server is used for storing the monitoring image and sending the image to the display terminal, and the display terminal is used for receiving and displaying the image signal of the cloud storage server.

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

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

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

Drawings

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

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

Fig. 3 is a schematic structural view of the installation box in embodiment 1.

Fig. 4 is a sectional view of the mount in embodiment 1.

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

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

Fig. 7 is a schematic structural view of the mount in embodiment 1.

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

Fig. 9 is a schematic structural view of an adjustment mechanism in embodiment 1.

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

FIG. 11 is a sectional view of a support plate and a second bevel gear in embodiment 1.

Fig. 12 is a schematic structural view of a U-shaped board according to embodiment 1.

Detailed Description

For a further understanding of the invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples. It should be understood that the examples are only illustrative and not restrictive of the present invention.

Example 1

As shown in fig. 1 to 12, the present embodiment provides a building intelligent monitoring terminal, which includes an installation rod 110, an installation box 120 is disposed on the installation rod 110, at least 1 installation frame 210 capable of being spliced and connected along the height direction of the installation box 120 is disposed in the installation box 120, a rotatable camera 220 is disposed on the installation frame 210, an adjusting mechanism for adjusting the angle of the camera 220 is disposed on the installation frame 210, installation box openings 310 are disposed on the end surface of the installation box 120 toward the camera 220 and the opposite end surface of the installation box 120 toward the end surface, and a glass door 320 for sealing the installation box openings 310 is disposed on the installation box 120.

The mounting frame 210 comprises 4 mounting plates 230 sequentially connected end to end, the 4 mounting plates 230 together 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 rack 210 is provided with a fixing mechanism for fixing the adjacent mounting rack 210.

A first wedge block mounting groove 510 is formed in the boss 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 the mounting plate 230 at the lower end of the mounting frame 210, and a first spring 540 for pushing the first wedge block 520 into the first clamping groove 530 on the adjacent mounting frame 210 is arranged at the bottom end of the first wedge block mounting groove 510; a first strip-shaped through hole 550 is formed in the middle of the first wedge 520, the lower end surface of the first strip-shaped through hole 550 is recessed downwards to form a first inclined surface 560, and a slot 570 communicated with the first clamping groove 530 is formed in the side wall of one end of the protruding portion 250; the fixing mechanism further includes a U-shaped insert plate 410, and a lower end portion of the U-shaped insert plate 410 can press the first inclined surface 560 to retract an upper end portion 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 discs 710, a connecting plate 720 for connecting the two gear discs 710 is arranged between the two gear discs 710, the two connecting plates 720 and the two gear discs 710 jointly 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 placing groove 730 is further disposed between the two gear discs 710, and a sealing plate through hole 770 for allowing the lens of the camera 220 to extend is disposed on the sealing plate 760.

The bottom surface of 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 a bolt. A stop 820 is arranged at the end part of the sliding groove 260 close to the insertion groove 570, a mounting plate opening 830 matched with the stop is arranged on the mounting plate 230 at the lower end part 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 block mounting groove 580 located below the bottom plate 910, the slot 570 passes through the second wedge block mounting groove 580, a second wedge block 590 capable of moving along the height direction of the second wedge block mounting groove 580 is arranged in the second wedge block mounting groove 580, a second clamping groove 5100 is arranged on the lower end face of the bottom plate 910, a third spring 5110 for pushing the second wedge block 590 into the second clamping groove 5100 on the adjacent mounting frame 210 is arranged at the bottom end of the second wedge block mounting groove 580, a third strip-shaped through hole 5120 is arranged in the second wedge block 590, the lower end face of the third strip-shaped through hole 5120 is downwards recessed to form a third inclined face 5130, and the lower end of the u-shaped inserting plate 410 can extrude the third inclined face 5130 so that the upper end of the second wedge block 590 is retracted into the second wedge block mounting groove 580. The two end parts of the bottom plate 910 are provided with vertical plates 920 which are perpendicular to the bottom plate 910, a rotatable gear roller 930 which is meshed with the gear plate 710 is arranged between the two vertical plates 920, a locking mechanism which is positioned below the gear roller 930 and used for locking the gear roller 930 is further arranged on the bottom plate 910, the locking mechanism comprises a locking block 940, an arc-shaped surface 950 is arranged on the upper end surface of the locking block 940, a rack 960 which is meshed with the gear roller 930 is arranged on the arc-shaped surface 950, an installation block 970 is arranged on the side wall of the bottom end part of the locking block 940, an installation block through hole 980 is arranged on the installation block 970, a half-tooth screw 990 which penetrates through the installation block through hole is arranged on the bottom plate 910, a second spring 9100 which is sleeved on the half-tooth screw 990 and positioned at the lower end part of the installation block 970, and the second spring 9100 is used for enabling the rack 960 on the arc-shaped surface 950 to abut against the gear roller 930; the locking block 940 is provided with a second strip-shaped through hole 9110 penetrating through the locking block 940, the bottom wall of an opening at one end of the second strip-shaped through hole 9110 is inwards recessed to form a second inclined surface 1010, and the upper end part of the U-shaped inserting plate 410 can extrude 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 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, the outer side wall of the connecting ring 1110 which is close to the supporting plate 9130 is outwards expanded to form a first flange 1120 which is in bolt connection with the supporting plate 9130, the adjusting mechanism further 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 of the second bevel gear 9140 which is close to the supporting plate 9130, 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 of the connecting ring 1110 which extends into the annular blind hole 1130 is outwards to form a second flange 1150 which is in clearance fit with the annular groove 1140; an adjusting plate 1210 perpendicular to the U-shaped inserting plate 410 is arranged at the upper end of the U-shaped inserting plate 410, an adjusting plate through hole 1220 is formed in the adjusting plate 1210, an adjusting mechanism comprises an adjusting rod 1230 penetrating through the adjusting plate through hole 1220, an annular groove 1240 in clearance fit with the adjusting plate through hole 1220 is formed in the adjusting rod 1230, the cross section of the adjusting rod 1230 is in a regular hexagon shape, and a regular hexagon through hole 1160 in clearance fit with the adjusting rod 1230 is formed in the center of a second bevel gear 9140.

Be equipped with mounting base 330 on the bottom face of installation box 120, be equipped with on mounting base 330 with mounting bracket 210 on the bar groove 340 of L template 270 clearance fit, be equipped with mounting base screw 350 on mounting base 330, be equipped with counter bore 420 on the mounting panel 230 of mounting bracket 210 bottom portion, be equipped with on the mount pad 440 base and pass counter bore 420 and with mounting base screw 350 matched with fixing bolt 430.

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 a tool such as a ladder and the like, the power supply of the camera 220 is switched on, the installer on the ground receives an image 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 angle of the camera 220, the step of adjusting the angle of the camera 220 is as follows, firstly, the installer on the ladder inserts the upper end of the U-shaped insertion plate 410 into the second strip-shaped through hole 9110, the locking block 940 moves downwards through the matching between the U-shaped insertion plate 410 and the second inclined surface 1010, so that the rack 960 on the arc-shaped surface 950 on the locking block 940 is disengaged from the gear roller 930, then, the installer on the ground can direct or reverse rotation of the installer on the ladder according to the image collected by the camera to adjust the angle of the camera, when the image collected by the camera 220 is adjusted to be clearly displayed, the installer on the ladder can pull the U-shaped insertion plate 410 out of the locking block 9110 from the second strip-shaped insertion plate 9110, at this time, the installer can pull the spring to make the rack 940 move upwards through the elastic roller 930, and the rack 960 of the camera seat 930, thereby, and the camera seat 930, and the camera seat 710 can be engaged with the camera 930, and the camera 220, and the camera seat 930, and the camera head 930, so that the camera 220 can be engaged with the rack 930. When the floor is high, a single camera 220 cannot clearly monitor the whole building, and an installer on the ground speaks the adjusting mechanism and the camera 220 to install the camera in the other mounting frame 210, then delivers the mounting frame 210 to an installer on a ladder, and the installer on the ladder inserts the U-shaped insert plate 410 into the slot 570 of the upper end of the mounting frame 210 installed in the mounting box 120, at which time the first wedge 520 and the second wedge 590 retract into the first wedge mounting groove 510 and the second wedge mounting groove 580, respectively, inserts the L-shaped plate 270 of the lower end of the mounting frame 210 delivered by the installer into the sliding groove 260 of the mounting frame 210 in the mounting box 120 until the bottom plate opening 9150 on the bottom plate 910 abuts against the stopper 820, and then pulls the U-shaped insert plate 410 outward to make the first wedge 520 and the second wedge 590 extend into the first clamping groove 530 and the second clamping groove 5100, respectively, thereby fixing the mounting frame 210 and the bottom plate 910 respectively. Then, an installer on the ground can direct 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 is adjusted, the camera can be fixed by pulling out the U-shaped inserting plate 410; after the camera 220 is installed, the glass door 320 is closed, and then the intelligent building monitoring terminal is installed.

Building intelligent monitoring terminal is through installing camera 220 in mounting bracket 210 that can splice in this embodiment, and install mounting bracket 210 in install bin 210, not only realize the protection to the camera 220 preferred, the life of camera 220 has been promoted, simultaneously through the setting of mounting bracket 210 that can splice, not only can select the camera 220 of suitable quantity to splice the connection according to the floor height of building, when camera 220 breaks down, can comparatively convenient dismantle camera 220, thereby comparatively convenient realization is to this building intelligent monitoring terminal's maintenance.

The sliding grooves 260 on the protruding portions 250 of the mounting frames 210 are matched with the L-shaped plates, so that the two mounting frames 210 can be connected and detached conveniently.

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

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

The angle of the camera 220 can be adjusted by rotating the gear roller 930 through the matching between the gear roller 930 and the locking mechanism in the adjusting mechanism, and the camera 220 is fixed through the locking mechanism, so that the camera 220 can be driven and fixed conveniently.

Wherein, through the setting of adjustment mechanism structure, make installer accessible twist the angle of adjusting pole 1230 to adjust 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 that pulls the camera manually and fix the camera through screwing up fastening bolt, adjustment mechanism's adjustment mode in this embodiment is more simple and convenient, make installer on the ladder can very convenient completion to camera 220 angle regulation and fixed, thereby also the security when having promoted installer when carrying out the installation, and simultaneously, the diameter ratio of the diameter of gear dish 710 and the diameter of gear roller is greater than 2 in this embodiment, the diameter ratio of first bevel gear 9120 and second bevel gear 9140 is greater than 2, through the aforesaid setting, make installer can carry out slight regulation to camera 220's angle, thereby make installer can comparatively quick regulation to the angle that needs to adjust. Through the bolted connection between bottom plate 910 and the mounting bracket 210, the realization that can be comparatively convenient is to adjustment mechanism's installation, through mounting panel recess 810, the setting of second draw-in groove 5100 and second voussoir 590, can be through the cooperation between second voussoir 590 and the second draw-in groove 5100 with bottom plate 910 fixed in on the mounting bracket 210 of its below, thereby both make when carrying out the installation to this building intelligent monitoring terminal, need not to be connected adjustment mechanism and mounting bracket 210, simultaneously through the cooperation between second voussoir 590 and the second draw-in groove 5100, also further avoided mounting bracket 210 to take place to become flexible, thereby further the connection effect between two mounting brackets 210 has been promoted, when carrying out the maintenance to camera 220, simultaneously, need not to pull down adjustment mechanism and mounting bracket 210 together from mounting bracket 210 of its below, thereby comparatively convenient the maintenance to camera 220.

Through the cooperation between the fixing bolt 430 and the counter bores on the mounting plate 230, the mounting frame 210 at the bottommost end of the mounting box 120 can be fixed at the bottom end of the mounting box 120 through the fixing bolt 430, so that the mounting frame 210 and the mounting box 120 can be conveniently connected.

Example 2

The embodiment provides a building intelligent monitoring system, which comprises the monitoring terminal in the embodiment 1, and further comprises a stream pushing server, a cloud storage server and a display terminal, wherein the monitoring terminal is used for acquiring a monitoring image, the stream pushing server is used for pushing the monitoring image to the cloud storage server and sending the image to the display terminal, and the display terminal is used for receiving and displaying an image signal of the cloud storage server.

In this embodiment, through the setting of above-mentioned building intelligent monitoring system, can be comparatively clear monitor building to can be comparatively limited avoid the emergence of the object phenomenon of high altitude.

Example 3

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

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

In summary, the above-mentioned embodiments are only preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. Building intelligent monitoring terminal, its characterized in that: including installation pole (110), be equipped with install bin (120) on installation pole (110), be equipped with at least 1 mounting bracket (210) that can follow install bin (120) direction of height and splice the connection in install bin (120), be equipped with rotatable camera (220) on mounting bracket (210), be equipped with the adjustment mechanism who is used for adjusting camera (220) angle on mounting bracket (210), all be equipped with install bin opening (310) on the terminal surface of camera (220) orientation in install bin (120) and the relative terminal surface towards the terminal surface with camera (220), be equipped with on install bin (120) and be used for carrying out sealed glass door (320) to install bin opening (310).

2. The intelligent building monitoring terminal according to claim 1, wherein: 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) arranged along the length direction of the through groove (240) are formed in the side walls of 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 rack (210) is provided with a fixing mechanism for fixing the adjacent mounting rack (210).

3. The building intelligent monitoring terminal of claim 2, wherein: a first wedge block mounting groove (510) is formed in the boss (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 the mounting plate (230) at the lower end part of the mounting frame (210), and a first spring (540) for enabling the first wedge block (520) to be abutted into the first clamping groove (530) in the adjacent mounting frame (210) is arranged at the bottom end part of the first wedge block mounting groove (510); a first strip-shaped through hole (550) is formed in the middle of the first wedge block (520), the lower end face of the first strip-shaped through hole (550) is downwards recessed to form a first inclined face (560), and a slot (570) communicated with the first clamping groove (530) is formed in the side wall of one end of the protruding portion (250); the fixing mechanism further comprises a U-shaped inserting plate (410), wherein the lower end part of the U-shaped inserting plate (410) can press the first inclined surface (560) to enable the upper end part of the first wedge block (520) to be retracted into the first wedge block installing groove (510).

4. The building intelligent monitoring terminal of claim 2, wherein: a rotatable mounting base (440) is arranged between the two mounting plates (230), the mounting base (440) comprises two gear discs (710), a connecting plate (720) which is used for connecting the two gear discs (710) is arranged between the two gear discs (710), the two connecting plates (720) and the two gear discs (710) jointly form a camera placing groove (730) for placing the camera (220), connecting plate screw holes (740) are formed in the connecting plates (720), and connecting plate bolts (750) for fixing the camera (220) are arranged in the connecting plate screw holes (740); and a sealing plate (760) used for sealing one end of the camera placing groove (730) is arranged between the two gear discs (710), and a sealing plate through hole (770) used for allowing the lens of the camera (220) to extend out is arranged on the sealing plate (760).

5. The intelligent building monitoring terminal of claim 4, wherein: the bottom end face of 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), two ends 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 further provided with a locking mechanism located below the gear roller (930) and used for locking the gear roller (930), the locking mechanism comprises a locking block (940), the upper end face of the locking block (940) is provided with an arc-shaped face (950), the arc-shaped face (950) is provided with a rack (960) meshed with the gear roller (930), the side wall of the bottom end 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 hole (980), the half-tooth screw (990) is sleeved with a second spring (9100) located on the mounting block (970), and the second spring (930) is used for abutting against the gear roller (960) on the arc-shaped roller (960); be equipped with second bar through-hole (9110) that runs through latch segment (940) in latch segment (940), the diapire of the one end opening part of second bar through-hole (9110) is inwards sunken and is formed second inclined plane (1010), and the upper end of U type picture peg (410) can extrude second inclined plane (1010) so that rack (960) on arcwall face (950) break away from the meshing with gear roller (930).

6. The building intelligent monitoring terminal of claim 5, wherein: 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 vertical plate (920) which is close to the first bevel gear (9120) in two vertical plates (920), a connecting ring (1110) is arranged on the supporting plate (9130), the outer side wall of the connecting ring (1110) which is close to the supporting plate (9130) outwards expands to form a first flange (1120) which is in bolt connection with the supporting plate (9130), the adjusting mechanism further 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 of the second bevel gear (9140) which is close to the supporting plate (9130), the side wall of the annular blind hole (1130) outwards expands to form an annular groove (1140), the end of the connecting ring (1110) extends into the annular blind hole (1130) to form a second flange (1150) which is in clearance fit with the annular groove (1140); 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, be equipped with regulating plate through-hole (1220) on regulating plate (1210), adjustment mechanism is equipped with on regulating plate (1230) and adjusts ring groove (1240) of plate through-hole (1220) clearance fit including adjusting pole (1230) of passing regulating plate through-hole (1220), the cross-section of adjusting pole (1230) is personally submitted regular hexagon, the center department of second bevel gear (9140) is equipped with and adjusts regular hexagon through-hole (1160) of pole (1230) clearance fit.

7. The building intelligent monitoring terminal of claim 4, wherein: the bottom plate (910) is connected with the mounting plate (230) at the lower end part of the mounting frame (210) through bolts.

8. The building intelligent monitoring terminal of claim 2, wherein: be equipped with mounting base (330) on the bottom face of install bin (120), be equipped with on mounting base (330) with mounting bracket (210) on L template (270) clearance fit's bar groove (340), be equipped with mounting base screw (350) on mounting base (330), be equipped with counter bore (420) on mounting bracket (210) bottom mounting panel (230), be equipped with on mounting base (440) the base and pass counter bore (420) and with mounting base screw (350) matched with fixing bolt (430).

9. Building intelligent monitoring system, its characterized in that: the monitoring terminal comprises 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, 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.

10. The building monitoring method is characterized by comprising the following steps: the building intelligent monitoring system of claim 9 adapted to monitor buildings.

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