CN217273182U - A thing networking monitoring device for high-rise building - Google Patents

Abstract

The utility model relates to a thing networking control technical field, especially a thing networking monitoring device for high-rise building, including the protecting crust, hold the shell, place the shell, remove subassembly, runner assembly, fixed subassembly and coupling assembling, place the vertical setting of shell, seted up the standing groove in placing the shell, hold the shell and install on the outer wall of placing the shell, hold and set up the holding tank in the shell, the holding tank is linked together with the standing groove, the protecting crust slides and sets up in the standing groove, and the protecting crust with hold the shell and laminate mutually, seted up the mounting groove in the protecting crust, remove the unit mount in the standing groove, the runner assembly is installed in the mounting groove, and the output of runner assembly runs through the protecting crust and extends to in the holding groove. The utility model has the advantages that: the rack is driven to move up and down through two half teeth, the rotating assembly in the protective shell can be driven to move up and down along the placing groove, the camera can swing through rotation of the rotating disc, and the monitoring range of the camera can be enlarged.

Description

A thing networking monitoring device for high-rise building

Technical Field

The utility model relates to a thing networking control technical field, especially a thing networking monitoring device for high-rise building.

Background

The monitoring system is one of the most applied systems in the security system, the construction site monitoring system which is suitable in the market is a handheld video communication device at present, and video monitoring is the mainstream at present. From the earliest analog monitoring to the digital monitoring of the fire and heat in the previous years to the emerging network video monitoring, the change of the network coverage occurs. Today, the global unification of IP technology is gradually becoming more common, and it is necessary to reconsider the history of video surveillance system development. From the technical point of view, the development of video monitoring systems is divided into a first generation analog video monitoring system (CCTV), a second generation digital video monitoring system (DVR) based on 'PC + multimedia card', and a third generation video monitoring system (IPVS) based on an IP network.

High-rise buildings are common in life, residents often throw objects from balconies in the high-rise buildings, in the prior art, the set monitoring is divided into two types, one type is a fixed monitoring camera, the other type is a rotary monitoring camera, the cameras in the prior art are generally fixed at the balconies capable of monitoring the residents, but the monitoring range of the fixed monitoring camera is limited, only the upper part area of the high-rise building can be observed, the lower part area of the high-rise building cannot be observed, and in the rotary monitoring camera, only the area capable of being monitored by the camera can be transversely monitored, the monitoring area is increased relative to the fixed monitoring camera, but the rotary monitoring camera can only monitor the upper part area of the high-rise building, the lower part area of the high-rise building cannot be monitored, and whether the residents living in the lower part area of the high-rise building throw objects outwards cannot be ensured, if the balcony of each high-rise building needs to be monitored, cameras need to be installed in places with different heights, and the cost for erecting and monitoring is greatly increased by the aid of the method.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a thing networking monitoring device for high-rise building.

The purpose of the utility model is realized through the following technical scheme: a monitoring device of the Internet of things for a high-rise building comprises a protective shell, a containing shell, a moving assembly, a rotating assembly, a fixing assembly and a connecting assembly, wherein the containing shell is vertically arranged, a placing groove is formed in the containing shell, the containing shell is installed on the outer wall of the containing shell, a containing groove is formed in the containing shell and communicated with the placing groove, the protective shell is arranged in the placing groove in a sliding mode, the protective shell is attached to the containing shell, a mounting groove is formed in the protective shell, the moving assembly is installed in the placing groove, the rotating assembly is installed in the mounting groove, the output end of the rotating assembly penetrates through the protective shell and extends into the containing groove, the connecting assembly is located in the containing groove and the placing groove, one end of the connecting assembly is installed on the rotating assembly, and the other end of the connecting assembly is installed on the moving assembly, the fixing component is installed on the side wall of the placing shell.

Preferably, the moving assembly comprises a rack, a moving motor, a driving gear, two driven gears, two rotating cylinders and two half teeth, the moving motor is arranged in the placing groove, the driving gear is arranged on the output end of the moving motor, the rack is arranged on the outer wall of the protective shell, the driving gear is arranged on the output end of the moving motor, an opening for the driving gear to slide is formed in the outer wall of the rack, the driving gear and the rack are arranged in a sliding manner, the two driven gears are respectively positioned on two sides of the driving gear, each driven gear is meshed with the driving gear, the two rotating cylinders are arranged at intervals, one end of each rotating cylinder is rotatably connected with the placing groove, the other end of each rotating cylinder respectively penetrates through one driven gear and is attached to the outer wall of the protective shell, and each rotating cylinder is fixedly connected with one driven gear, and the two half teeth are respectively arranged on the outer walls of the other ends of the two rotating cylinders, and one half tooth is meshed with the rack.

Preferably, the rotating assembly comprises a camera, a 20866;, a shape block, a fixed block, a rotating block, a limiting cylinder, a connecting cylinder, a rotating disc and a telescopic rod, the fixed block is arranged in the mounting groove, one end of the rotating block is arranged on the fixed block in an arc-shaped sliding manner, the limiting cylinder is vertically arranged in the mounting groove, the rotating block is sleeved on the limiting cylinder, the rotating block and the limiting cylinder are rotatably arranged, the other end of the rotating block is provided with a sliding hole, the telescopic rod is positioned in the mounting groove, the bottom of the telescopic rod penetrates through the mounting groove and is vertically arranged in the accommodating groove, the rotating disc is mounted at the top of the telescopic rod, the connecting cylinder is vertically arranged at the top of the rotating disc, the connecting cylinder is positioned in a sliding hole at the other end of the rotating block, the 20866; 'shaped block is installed on one end of the turning block, and the camera is connected with the 20866;' shaped block through a bolt.

Preferably, coupling assembling includes belt, belt pulley, gyro wheel, main transmitting gear, from transmitting gear, transmission cylinder and stopper, from transmitting gear setting in the bottom of telescopic link, and be located the holding tank from transmitting gear, the vertical holding tank that is located of main transmitting gear, main transmitting gear and from transmitting gear intermeshing, the cylindrical one end of transmission is installed on main transmitting gear's outer wall, the cylindrical other end of transmission rotates and sets up on the inner wall of standing groove, the stopper cover is established on the transmission cylinder, and the stopper is installed in the standing groove, the gyro wheel cover is established on the transmission cylinder, the belt pulley cover is established on a rotation cylinder, the gyro wheel passes through the belt with the belt pulley and is connected.

Preferably, fixed subassembly includes first grip block, second grip block and installation piece, the installation piece sets up on the outer wall of placing the shell, first grip block is connected with the installation piece, first grip block and second grip block all are the circular arc setting, are the ring shape between first grip block and the second grip block, first grip block slides with the second grip block and sets up, be equipped with first grip block on the first grip block outer wall, be equipped with the second grip block on the outer wall of second grip block, the second grip block passes through bolted connection with first grip block.

The utility model has the advantages of it is following:

one, will when the staff the utility model discloses place the back, open the moving motor, make the output of moving motor drive the driving gear and rotate, make the driving gear drive two driven gear relative rotations, make two half-tooth drive racks reciprocate, half-tooth drives the back that the rack rises, after one half-tooth no longer with rack intermeshing, will make another half-tooth and rack intermeshing, drive the rack through two half-teeth and reciprocate, can drive the runner assembly in the protecting crust and reciprocate along the standing groove, the scope of multiplicable control has increased the practicality.

Two, open the moving motor when the staff, make the output of moving motor rotate, can make coupling assembling drive the telescopic link and rotate, make rolling disc and connection cylinder rotate, drive and connect the cylinder and remove along the sliding hole, can make the turning block swing, drive the camera swing, can make the camera swing through the rotation of rolling disc, the scope of multiplicable camera control.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of a partial three-dimensional structure of the present invention;

fig. 3 is a schematic perspective view of the moving assembly of the present invention;

fig. 4 is a schematic perspective view of the rotating assembly of the present invention;

fig. 5 is a schematic perspective view of the connection assembly of the present invention;

fig. 6 is a schematic perspective view of the fixing assembly of the present invention.

In the figure: 1-protective shell, 11-accommodating shell, 12-accommodating shell, 13-placing groove, 14-mounting groove, 15-accommodating groove, 2-moving component, 21-rack, 22-moving motor, 23-driving gear, 24-driven gear, 25-rotating cylinder, 26-half tooth, 3-rotating component, 31-camera, 32-20866;, 33-fixed block, 34-rotating block, 35-limiting cylinder, 36-connecting cylinder, 37-rotating disc, 38-telescopic rod, 4-fixed component, 41-first clamping plate, 42-second clamping plate, 43-mounting block, 44-first clamping block, 45-second clamping block, 5-connecting component, 51-belt, 52-belt pulley, 53-roller, 54-main rotating gear, 55-auxiliary rotating gear, 56-transmission cylinder, 57-limiting block.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to 6, an internet of things monitoring device for a high-rise building comprises a protective shell 1, a containing shell 11, a placing shell 12, a moving component 2, a rotating component 3, a fixing component 4 and a connecting component 5, wherein the placing shell 12 is vertically arranged, a placing groove 13 is formed in the placing shell 12, the containing shell 11 is mounted on the outer wall of the placing shell 12, an accommodating groove 15 is formed in the containing shell 11, the accommodating groove 15 is communicated with the placing groove 13, the protective shell 1 is slidably arranged in the placing groove 13, the protective shell 1 is attached to the containing shell 11, a mounting groove 14 is formed in the protective shell 1, the moving component 2 is mounted in the placing groove 13, the rotating component 3 is mounted in the mounting groove 14, the output end of the rotating component 3 penetrates through the protective shell 1 and extends into the accommodating groove 15, the connecting component 5 is located in the accommodating groove 15 and the placing groove 13, one end of the connecting component 5 is installed on the rotating component 3, the other end of the connecting component 5 is installed on the moving component 2, and the fixing component 4 is installed on the side wall of the placing shell 12.

Specifically, the moving assembly 2 includes a rack 21, a moving motor 22, a driving gear 23, two driven gears 24, two rotating cylinders 25 and two half-teeth 26, the moving motor 22 is installed in the placement groove 13, the driving gear 23 is installed at an output end of the moving motor 22, the rack 21 is installed on an outer wall of the protective housing 1, the driving gear 23 is installed at the output end of the moving motor 22, an opening for the driving gear 23 to slide is formed in an outer wall of the rack 21, the driving gear 23 and the rack 21 are slidably disposed, the two driven gears 24 are respectively located at two sides of the driving gear 23, each driven gear 24 is meshed with the driving gear 23, the two rotating cylinders 25 are disposed at intervals, one end of each rotating cylinder 25 is rotatably connected with the placement groove 13, the other end of each rotating cylinder 25 respectively penetrates through one driven gear 24 and is attached to the outer wall of the protective housing 1, every rotation cylinder 25 all with a driven gear 24 fixed connection, two half tooth 26 sets up respectively on the outer wall of two rotation cylinders 25 other ends, half tooth 26 meshes with rack 21 mutually, will when the staff the utility model discloses after placing, open mobile motor 22, make mobile motor 22's output drive driving gear 23 rotate, make driving gear 23 drive two driven gear 24 and rotate relatively, make two half tooth 26 drive rack 21 and reciprocate, half tooth 26 drives the back that rack 21 rises, after half tooth 26 no longer with rack 21 intermeshing, will make another half tooth 26 and rack 21 intermeshing, drive rack 21 through two half tooth 26 and reciprocate, can drive rotating assembly 3 in the protecting crust 1 and reciprocate in following standing groove 13, the scope of multiplicable control, increased the practicality.

Specifically, the rotating assembly 3 comprises a camera 31, a 20866, a type block 32, a fixed block 33, a rotating block 34, a limiting cylinder 35, a connecting cylinder 36, a rotating disc 37 and a telescopic rod 38, wherein the fixed block 33 is installed in the installation groove 14, one end of the rotating block 34 is arranged on the fixed block 33 in an arc-shaped sliding manner, the limiting cylinder 35 is vertically installed in the installation groove 14, the rotating block 34 is sleeved on the limiting cylinder 35, the rotating block 34 and the limiting cylinder 35 are rotatably arranged, the other end of the rotating block 34 is provided with a sliding hole, the telescopic rod 38 is positioned in the installation groove 14, the bottom of the telescopic rod 38 penetrates through the installation groove 14 and is vertically arranged in the accommodating groove 15, the rotating disc 37 is installed at the top of the telescopic rod 38, the connecting cylinder 36 is vertically installed at the top of the rotating disc 37, the connecting cylinder 36 is positioned in the sliding hole at the other end of the rotating block 34, 20866and the shaped block 32 is installed at one end of the rotating block 34, the camera 31 is connected with 20866and the shaped block 32 is connected by a bolt, when a worker turns on the moving motor 22 to rotate the output end of the moving motor 22, the connecting component 5 can drive the telescopic rod 38 to rotate, the rotating disc 37 and the connecting cylinder 36 rotate to drive the connecting cylinder 36 to move along the sliding hole, the rotating block 34 can be driven to swing, the camera 31 can be driven to swing by the rotation of the rotating disc 37, and the monitoring range of the camera 31 can be enlarged.

Specifically, the connecting assembly 5 includes a belt 51, a belt pulley 52, a roller 53, a main rotating gear 54, a secondary rotating gear 55, a transmission cylinder 56 and a limiting block 57, the secondary rotating gear 55 is disposed at the bottom of the telescopic rod 38, the secondary rotating gear 55 is disposed in the accommodating groove 15, the main rotating gear 54 is vertically disposed in the accommodating groove 15, the main rotating gear 54 and the secondary rotating gear 55 are engaged with each other, one end of the transmission cylinder 56 is mounted on the outer wall of the main rotating gear 54, the other end of the transmission cylinder 56 is rotatably disposed on the inner wall of the accommodating groove 13, the limiting block 57 is sleeved on the transmission cylinder 56, the limiting block 57 is mounted in the accommodating groove 13, the roller 53 is sleeved on the transmission cylinder 56, the belt pulley 52 is sleeved on one rotation cylinder 25, the roller 53 is connected with the belt pulley 52 through the belt 51, when the worker opens the moving motor 22, the output end of the moving motor 22 drives the driving gear 23 and the two rotating cylinders 25 to rotate, the belt pulley 52 sleeved on the rotating cylinders 25 drives the roller 53 to rotate through the belt 51, the transmission cylinder 56 drives the main rotating gear 54 to rotate, the driven rotating gear 55 meshed with the main rotating gear 54 drives the telescopic rod 38 to rotate, the camera 31 can swing, after the output end of the moving motor 22 drives the rack 21 to move up and down, the camera 31 can swing left and right once, and the up and down movement of the camera 31 and the swing of the camera 31 are carried out together through the connection of the belt 51, so that the practicability is increased.

Specifically, the fixing assembly 4 includes a first clamping plate 41, a second clamping plate 42 and an installation block 43, the installation block 43 is disposed on an outer wall of the placing shell 12, the first clamping plate 41 is connected with the installation block 43, the first clamping plate 41 and the second clamping plate 42 are both arranged in an arc shape, an annular shape is formed between the first clamping plate 41 and the second clamping plate 42, the first clamping plate 41 and the second clamping plate 42 are slidably arranged, a first clamping block 44 is disposed on an outer wall of the first clamping plate 41, a second clamping block 45 is disposed on an outer wall of the second clamping plate 42, the second clamping block 45 is connected with the first clamping block 44 through a bolt, a round bar is located between the first clamping plate 41 and the second clamping plate 42 through a worker, then the second clamping block 45 is pulled to move towards the first clamping block 44 until a distance between the first clamping plate 41 and the second clamping plate 42 is the same as a diameter of the round bar, grasp the round bar, later can accomplish through the bolt with first grip block 44 and second grip block 45 are fixed the utility model discloses a fixed, it is convenient to use, has increased the practicality.

The utility model discloses a working process as follows: the round bar is positioned between the first clamping plate 41 and the second clamping plate 42 by the worker, then the second clamping block 45 is pulled to move towards the first clamping block 44 until the distance between the first clamping plate 41 and the second clamping plate 42 is the same as the diameter of the round bar, the round bar is clamped, then the first clamping block 44 and the second clamping block 45 are fixed through bolts, the fixing of the utility model can be completed, the moving motor 22 is started, the output end of the moving motor 22 drives the driving gear 23 to rotate, the driving gear 23 drives the two driven gears 24 to rotate relatively, the two half-teeth 26 drive the rack 21 to move up and down, after the half-teeth 26 drive the rack 21 to rise, when one half-tooth 26 is not meshed with the rack 21, the other half-tooth 26 is meshed with the rack 21, the output end of the moving motor 22 drives the driving gear 23 and the two rotating cylinders 25 to rotate, the belt pulley 52 sleeved on the rotating cylinder 25 drives the roller 53 to rotate through the belt 51, so that the transmission cylinder 56 drives the main rotating gear 54 to rotate, the slave rotating gear 55 meshed with the main rotating gear 54 drives the telescopic rod 38 to rotate, the rotating disc 37 and the connecting cylinder 36 rotate, the connecting cylinder 36 is driven to move along the sliding hole, the rotating block 34 can be made to swing, and the camera 31 can be driven to swing.

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

Claims (5)

1. The utility model provides a thing networking monitoring device for high-rise building which characterized in that: comprises a protective shell (1), a containing shell (11), a placing shell (12), a moving component (2), a rotating component (3), a fixing component (4) and a connecting component (5), wherein the placing shell (12) is vertically arranged, a placing groove (13) is formed in the placing shell (12), the containing shell (11) is installed on the outer wall of the placing shell (12), an accommodating groove (15) is formed in the containing shell (11), the accommodating groove (15) is communicated with the placing groove (13), the protective shell (1) is arranged in the placing groove (13) in a sliding manner, the protective shell (1) is attached to the containing shell (11), an installing groove (14) is formed in the protective shell (1), the moving component (2) is installed in the placing groove (13), the rotating component (3) is installed in the installing groove (14), and the output end of the rotating component (3) penetrates through the protective shell (1) and extends into the accommodating groove (15), coupling assembling (5) are located holding tank (15) and standing groove (13), the one end of coupling assembling (5) is installed on runner assembly (3), and the other end of coupling assembling (5) installs on removing subassembly (2), fixed subassembly (4) are installed on the lateral wall of placing shell (12).

2. The internet of things monitoring device for the high-rise building according to claim 1, wherein: the moving assembly (2) comprises a rack (21), a moving motor (22), a driving gear (23), two driven gears (24), two rotating cylinders (25) and two half teeth (26), the moving motor (22) is installed in the placing groove (13), the driving gear (23) is installed at the output end of the moving motor (22), the rack (21) is installed on the outer wall of the protective shell (1), the driving gear (23) is installed at the output end of the moving motor (22), an opening for the driving gear (23) to slide is formed in the outer wall of the rack (21), the driving gear (23) and the rack (21) are arranged in a sliding mode, the two driven gears (24) are respectively located on two sides of the driving gear (23), each driven gear (24) is meshed with the driving gear (23), the two rotating cylinders (25) are arranged at intervals, and one end of each rotating cylinder (25) is rotatably connected with the placing groove (13), the other end of each rotating cylinder (25) penetrates through one driven gear (24) and is attached to the outer wall of the protective shell (1), each rotating cylinder (25) is fixedly connected with one driven gear (24), the two half teeth (26) are arranged on the outer walls of the other ends of the two rotating cylinders (25) respectively, and one half tooth (26) is meshed with the rack (21).

3. The internet of things monitoring device for the high-rise building according to claim 1, wherein: the rotating assembly (3) comprises a camera (31), a 20866a type block (32), a fixed block (33), a rotating block (34), a limiting cylinder (35), a connecting cylinder (36), a rotating disc (37) and a telescopic rod (38), wherein the fixed block (33) is installed in the installation groove (14), one end of the rotating block (34) is arranged on the fixed block (33) in an arc-shaped sliding manner, the limiting cylinder (35) is vertically installed in the installation groove (14), the rotating block (34) is sleeved on the limiting cylinder (35), the rotating block (34) and the limiting cylinder (35) are rotatably arranged, a sliding hole is formed in the other end of the rotating block (34), the telescopic rod (38) is located in the installation groove (14), the bottom of the telescopic rod (38) penetrates through the installation groove (14) and is vertically arranged in the accommodating groove (15), the rotating disc (37) is installed at the top of the telescopic rod (38), the connecting cylinder (36) is vertically arranged at the top of the rotating disc (37), the connecting cylinder (36) is positioned in a sliding hole at the other end of the rotating block (34), the 20866; 'shaped block (32) is arranged at one end of the rotating block (34), and the camera (31) is in bolt connection with the 20866;' shaped block (32).

4. The internet of things monitoring device for the high-rise building according to claim 2, wherein: the connecting assembly (5) comprises a belt (51), a belt pulley (52), a roller (53), a main rotating gear (54), a secondary rotating gear (55), a transmission cylinder (56) and a limiting block (57), the secondary rotating gear (55) is arranged at the bottom of the telescopic rod (38), the secondary rotating gear (55) is positioned in the accommodating groove (15), the main rotating gear (54) is vertically positioned in the accommodating groove (15), the main rotating gear (54) is meshed with the secondary rotating gear (55), one end of the transmission cylinder (56) is arranged on the outer wall of the main rotating gear (54), the other end of the transmission cylinder (56) is rotatably arranged on the inner wall of the accommodating groove (13), the limiting block (57) is sleeved on the transmission cylinder (56), the limiting block (57) is arranged in the accommodating groove (13), the roller (53) is sleeved on the transmission cylinder (56), the belt pulley (52) is sleeved on a rotating cylinder (25), and the roller (53) is connected with the belt pulley (52) through a belt (51).

5. The internet of things monitoring device for the high-rise building according to claim 1, wherein: fixed subassembly (4) include first grip block (41), second grip block (42) and installation piece (43), installation piece (43) set up on the outer wall of placing shell (12), first grip block (41) are connected with installation piece (43), first grip block (41) and second grip block (42) all are the circular arc setting, are the annular shape between first grip block (41) and second grip block (42), first grip block (41) and second grip block (42) slide the setting, be equipped with first grip block (44) on first grip block (41) outer wall, be equipped with second grip block (45) on the outer wall of second grip block (42), second grip block (45) pass through bolted connection with first grip block (44).

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