CN213783434U - Periscopic monitoring device - Google Patents

Abstract

The utility model discloses a periscopic monitoring device, the first fixed mounting of surveillance camera is internal at the cabinet, set up the eyehole corresponding with the surveillance camera on the cabinet body, first barrel fixed mounting is in the eyehole department of the cabinet body, second barrel and first barrel swing joint, be provided with first rotary mechanism between second barrel and first barrel, the second barrel is the right angle form of buckling, first reflector fixed mounting is in the turn department of second barrel, third barrel and second barrel swing joint are provided with second rotary mechanism between third barrel and second barrel, the third barrel is the right angle form of buckling, second reflector fixed mounting is in the turn department of third barrel, first reflector and second reflector all personally submit 45 contained angles with the level, the utility model discloses the advantage is: the monitoring angle is adjusted, the operation is very convenient and fast, the cleaning function is realized, and the monitoring definition is ensured.

Description

Periscopic monitoring device

Technical Field

The utility model relates to a supervisory equipment's technical field, more specifically say so and relate to supervisory equipment's for sewer technical field.

Background

The sewer is a public facility in cities, and is used for collecting and discharging urban domestic wastewater, industrial wastewater and the like, and because the sewer network is complicated and long, when the sewer has the conditions of unsmooth drainage, congestion, even overflow and the like, an accurate fault point is difficult to determine, so that the waste of wrong road surface excavation is easily caused. However, the traditional sewer monitoring camera is installed in a sewer, and because the environment in the sewer is in a humid state all the year round, once an aqueous vapor enters into the lens of the monitoring camera, the monitoring camera can cause a monitoring picture to be fuzzy after being covered by the aqueous vapor of the upper layer, the monitoring camera can be damaged seriously, the service life of the monitoring camera is influenced, and the moisture resistance of the conventional monitoring camera is not ideal. In addition, when the operation such as need overhaul or adjustment control angle to the surveillance camera head, all need be gone down and operate in the sewer, very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above-mentioned not enough and provide one kind and can avoid in the sewer the damp environment to cause adverse effect to the surveillance camera head, the surveillance camera head of being convenient for simultaneously overhauls the periscopic formula monitoring device of operations such as angular adjustment.

The utility model discloses a solve above-mentioned technical problem and the technical solution who adopts as follows:

a periscopic monitoring device comprises a cabinet body, a periscopic mechanism, a monitoring camera, a solar cell panel, a solar controller, a main controller and a storage battery, wherein the monitoring camera is fixedly arranged in the cabinet body, a sight hole corresponding to the monitoring camera is formed in the cabinet body, the periscopic mechanism comprises a first cylinder body, a second cylinder body, a third cylinder body, a first reflective mirror, a second reflective mirror, a convex lens and an LED lamp, the first cylinder body is fixedly arranged at the sight hole of the cabinet body, the second cylinder body is movably connected with the first cylinder body, a first rotating mechanism is arranged between the second cylinder body and the first cylinder body, the second cylinder body is bent at a right angle, the first reflective mirror is fixedly arranged at the turning position of the second cylinder body, the third cylinder body is movably connected with the second cylinder body, a second rotating mechanism is arranged between the third cylinder body and the second cylinder body, the third cylinder body is bent at a right angle, the second reflector is fixedly installed at the turning position of the third barrel, the first reflector and the second reflector form an included angle of 45 degrees with the horizontal plane, the convex lens is fixedly installed at the front end part of the third barrel, the LED lamp is fixedly installed on the third barrel, the solar cell panel is fixedly installed on the cabinet body, the solar controller, the main controller and the storage battery are fixedly installed in the cabinet body, the solar controller is respectively electrically connected with the solar cell panel and the storage battery, the monitoring camera, the LED lamp, the main controller, the first rotating mechanism and the second rotating mechanism are respectively electrically connected with the solar controller, and the main controller is respectively electrically connected with the LED lamp, the first rotating mechanism and the second rotating mechanism.

The cleaning mechanism comprises a swing frame, a brush plate and a first motor, a support is arranged on the third barrel, a pivot is arranged on the swing frame, the swing frame is movably arranged on the support through the pivot, a swing mechanism is arranged between the pivot and the support, the first motor is fixedly arranged on the swing frame, the brush plate is fixedly arranged on an output shaft of the first motor, brush bristles are arranged on the brush plate and correspond to the convex lenses, the first motor of the cleaning mechanism is electrically connected with a solar controller, and a main controller is electrically connected with the first motor of the cleaning mechanism.

The swing mechanism comprises a frame shell, a first worm wheel, a first worm and a second motor, the frame shell is fixedly mounted on the support, the pivot penetrates through the frame shell, the first worm wheel is fixedly mounted on the pivot located in the frame shell, the first worm is movably mounted in the frame shell and meshed with the first worm wheel, the second motor is fixedly mounted on the frame shell and connected with the first worm in a transmission mode through a first coupler, the second motor of the swing mechanism is electrically connected with the solar controller, and the main controller is electrically connected with the second motor of the swing mechanism.

The first rotating mechanism and the second rotating mechanism are respectively composed of a second worm and a third motor, a shell is respectively arranged on the first barrel and the second barrel, a second worm wheel is respectively arranged on the second barrel and the third barrel, the second worm wheels on the second barrel and the third barrel are respectively movably clamped in the shells of the first barrel and the second barrel through paired bearings, the second worm is respectively movably arranged in the shells and is respectively meshed with the second worm wheels, the third motors are respectively fixedly arranged on the shells and are respectively in transmission connection with the second worm through second couplers, the third motors of the first rotating mechanism and the second rotating mechanism are electrically connected with the solar controller, and the main controller is electrically connected with the third motors of the first rotating mechanism and the second rotating mechanism.

The utility model adopts the beneficial effect that above-mentioned technical solution can reach is:

1. because add periscopic mechanism innovatively, consequently make this periscopic monitoring device at the during operation, only need stretch into the sewer with third barrel and second barrel and can monitor the condition in the sewer, and the cabinet body and surveillance camera head then can arrange subaerial more than the sewer, thereby avoided the adverse effect that moist environment caused the surveillance camera head in the sewer, the life of surveillance camera head has been prolonged, and very be convenient for overhaul operation such as to the surveillance camera head. The third motor through first rotary mechanism or second rotary mechanism can drive the second worm and rotate, can drive the second worm wheel rotation on second barrel or the third barrel through the second worm to can make second barrel and first barrel rotate relatively, the third barrel and second barrel rotate relatively, and then the orientation of adjustable convex lens adjusts the control angle, and the operation is very convenient and fast.

2. When the convex lens surface is stained with dirt, the first worm of second motor drive of accessible swing mechanism rotates, drives first worm wheel, pivot, rocker and brush board through first worm and rotates, makes brush hair and convex lens contact, and the brush board is rotated with the brush hair to the first motor drive of rethread to scrape the brush clearance to convex lens to realized clean function, ensured the definition of control.

Drawings

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

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a partial schematic view of FIG. 2 at A;

FIG. 4 is a left side view of FIG. 3;

FIG. 5 is a cross-sectional view C-C of FIG. 4;

FIG. 6 is a partial schematic view of FIG. 2 at B;

fig. 7 is a cross-sectional view taken along line D-D of fig. 6.

Detailed Description

As shown in fig. 1 and 2, the periscopic monitoring device comprises a cabinet body 1, a periscopic mechanism, a monitoring camera 2, a solar cell panel 4, a solar controller 5, a main controller 6, a storage battery 7 and a cleaning mechanism, wherein the monitoring camera 2 is fixedly installed in the cabinet body 1, and a sight hole 8 corresponding to the monitoring camera 2 is formed in the cabinet body 1. As shown in fig. 3, 4, 6 and 7, the periscopic mechanism includes a first barrel 9, a second barrel 10, a third barrel 11, a first reflective mirror 12, a second reflective mirror 13, a convex lens 14 and an LED lamp 15, the first barrel 9 is fixedly installed at a viewing hole 8 of the cabinet 1, the second barrel 10 is movably connected with the first barrel 9, a first rotating mechanism 16 is arranged between the second barrel 10 and the first barrel 9, the second barrel 10 is bent at a right angle, the first reflective mirror 12 is fixedly installed at a turning position of the second barrel 10, the third barrel 11 is movably connected with the second barrel 10, a second rotating mechanism 17 is arranged between the third barrel 11 and the second barrel 10, the third barrel 11 is bent at a right angle, the second reflective mirror 13 is fixedly installed at a turning position of the third barrel 11, both the first reflective mirror 12 and the second reflective mirror 13 form an included angle of 45 degrees with a horizontal plane, the convex lens 14 is fixedly installed at a front end portion of the third barrel 11, the LED lamp 15 is fixedly mounted on the third barrel 11. The specific structures of the first rotating mechanism 16 and the second rotating mechanism 17, the specific connection relationship between the second cylinder 10 and the first cylinder 9, and the specific connection relationship between the third cylinder 11 and the second cylinder 10 are as follows: the first rotating mechanism 16 and the second rotating mechanism 17 are respectively composed of a second worm 29 and a third motor 30, a housing 31 is respectively arranged on the first cylinder 9 and the second cylinder 10, a second worm wheel 32 is respectively arranged on the second cylinder 10 and the third cylinder 11, the second worm wheels 32 on the second cylinder 10 and the third cylinder 11 are respectively movably clamped in the housings 31 of the first cylinder 9 and the second cylinder 10 through paired bearings 33, the second worms 29 are respectively movably arranged in the housings 31 and respectively meshed with the second worm wheels 32, and the third motors 30 are respectively fixedly arranged on the housings 31 and respectively in transmission connection with the second worms 29 through second couplers 34. As shown in fig. 3, 4 and 5, the cleaning mechanism includes a swing frame 18, a brush plate 19 and a first motor 20, a support 21 is disposed on the third cylinder 11, a pivot 22 is disposed on the swing frame 18, the swing frame 18 is movably mounted on the support 21 through the pivot 22, a swing mechanism is disposed between the pivot 22 and the support 21, the first motor 20 is fixedly mounted on the swing frame 18, the brush plate 19 is fixedly mounted on an output shaft of the first motor 20, and bristles 23 are disposed on the brush plate 19, wherein the bristles 23 correspond to the convex lenses 14. The specific structure of the swing mechanism, the pivot 22 and the connection relationship between the bracket 21 and the swing mechanism are as follows: the swing mechanism comprises a frame shell 24, a first worm wheel 25, a first worm 26 and a second motor 27, wherein the frame shell 24 is fixedly arranged on the support 21, the pivot 22 penetrates through the frame shell 24, the first worm wheel 25 is fixedly arranged on the pivot 22 in the frame shell 24, the first worm 25 is movably arranged in the frame shell 24 and is meshed with the first worm wheel 25, and the second motor 27 is fixedly arranged on the frame shell 24 and is in transmission connection with the first worm 26 through a first coupling 28. Solar cell panel 4 fixed mounting is on the cabinet body 1, solar controller 5, main control unit 6 and battery 7 fixed mounting are in the cabinet body 1, solar controller 5 is connected with solar cell panel 4 and battery 7 electricity respectively, surveillance camera head 2, LED lamp 15, main control unit 6, clean mechanism's first motor 20, swing mechanism's second motor 27, first rotary mechanism 16 and second rotary mechanism 17's third motor 30 is connected with solar controller 5 electricity respectively, main control unit 6 respectively with LED lamp 15, clean mechanism's first motor 20, swing mechanism's second motor 27, first rotary mechanism 16 and second rotary mechanism 17's third motor 30 electricity is connected. The monitoring camera 2 chooses the solar energy 4G wireless monitoring all-in-one machine that the model is JC-04BG-2MP for use, main control unit 6 adopts programmable logic controller, the utility model relates to each electrical equipment is the current product in this field, can directly purchase from the market and obtain, and the concrete electricity connection relation between each electrical equipment also is the common general knowledge in this field, need not detailed description here.

The utility model discloses a periscopic monitoring device is when using, with the cabinet body 1 fixed place subaerial more than the sewer, stretch into the sewer with third barrel 11 and second barrel 10 in, illuminate in the sewer through LED lamp 15, third motor 30 through first rotary mechanism 16 or second rotary mechanism 17 can drive second worm 29 and rotate, second worm wheel 32 on can driving second barrel 10 or third barrel 11 through second worm 29 rotates, thereby can make second barrel 10 and first barrel 9 take place relative rotation, third barrel 11 and second barrel 10 take place relative rotation, and then adjustable convex lens 14's orientation, with convex lens 14 just to the direction that needs the control in the sewer. Light reflected by the monitored object is reflected to the first reflecting mirror 12 through the second reflecting mirror 13 after being imaged by the convex lens 14, and then is reflected to the lens of the monitoring camera 2 through the first reflecting mirror 12, and the condition in a sewer is monitored through the monitoring camera 2. The convex lens 14 can be cleaned by a cleaning mechanism, which works according to the following principle: when the convex lens 14 needs to be cleaned, the second motor 27 of the swing mechanism drives the first worm 26 to rotate, the first worm 26 drives the first worm wheel 25, the pivot 22, the swing frame 18 and the brush plate 19 to rotate, so that the brush bristles 23 are in contact with the convex lens 14, and then the first motor 20 drives the brush plate 19 and the brush bristles 23 to rotate, so that the convex lens 14 is cleaned by scraping.

Claims (4)

1. Periscope formula monitoring device, its characterized in that: the periscope comprises a cabinet body, a periscopic mechanism, a monitoring camera, a solar cell panel, a solar controller, a main controller and a storage battery, wherein the monitoring camera is fixedly arranged in the cabinet body, a sight hole corresponding to the monitoring camera is formed in the cabinet body, the periscopic mechanism comprises a first cylinder body, a second cylinder body, a third cylinder body, a first reflector, a second reflector, a convex lens and an LED lamp, the first cylinder body is fixedly arranged at the sight hole of the cabinet body, the second cylinder body is movably connected with the first cylinder body, a first rotating mechanism is arranged between the second cylinder body and the first cylinder body, the second cylinder body is bent at a right angle, the first reflector is fixedly arranged at the turning position of the second cylinder body, the third cylinder body is movably connected with the second cylinder body, a second rotating mechanism is arranged between the third cylinder body and the second cylinder body, the third cylinder body is bent at a right angle, and the second reflector is fixedly arranged at the turning position of the third cylinder body, first reflector and second reflector all personally submit 45 contained angles with the level, and convex lens fixed mounting is on the front end of third barrel, and LED lamp fixed mounting is on the third barrel, solar cell panel fixed mounting is on the cabinet body, and solar controller, main control unit and battery fixed mounting are internal at the cabinet, and solar controller is connected with solar cell panel and battery electricity respectively, and surveillance camera head, LED lamp, main control unit, first rotary mechanism and second rotary mechanism are connected with solar controller electricity respectively, and main control unit is connected with LED lamp, first rotary mechanism and second rotary mechanism electricity respectively.

2. The periscopic monitoring device of claim 1, wherein: the cleaning mechanism comprises a swing frame, a brush plate and a first motor, a support is arranged on the third barrel, a pivot is arranged on the swing frame, the swing frame is movably arranged on the support through the pivot, a swing mechanism is arranged between the pivot and the support, the first motor is fixedly arranged on the swing frame, the brush plate is fixedly arranged on an output shaft of the first motor, brush bristles are arranged on the brush plate and correspond to the convex lenses, the first motor of the cleaning mechanism is electrically connected with a solar controller, and a main controller is electrically connected with the first motor of the cleaning mechanism.

3. A periscopic monitoring apparatus according to claim 2, wherein: the swing mechanism comprises a frame shell, a first worm wheel, a first worm and a second motor, the frame shell is fixedly mounted on the support, the pivot penetrates through the frame shell, the first worm wheel is fixedly mounted on the pivot located in the frame shell, the first worm is movably mounted in the frame shell and meshed with the first worm wheel, the second motor is fixedly mounted on the frame shell and connected with the first worm in a transmission mode through a first coupler, the second motor of the swing mechanism is electrically connected with the solar controller, and the main controller is electrically connected with the second motor of the swing mechanism.

4. A periscopic monitoring apparatus according to claim 1, 2 or 3, wherein: the first rotating mechanism and the second rotating mechanism are respectively composed of a second worm and a third motor, a shell is respectively arranged on the first barrel and the second barrel, a second worm wheel is respectively arranged on the second barrel and the third barrel, the second worm wheels on the second barrel and the third barrel are respectively movably clamped in the shells of the first barrel and the second barrel through paired bearings, the second worm is respectively movably arranged in the shells and is respectively meshed with the second worm wheels, the third motors are respectively fixedly arranged on the shells and are respectively in transmission connection with the second worm through second couplers, the third motors of the first rotating mechanism and the second rotating mechanism are electrically connected with the solar controller, and the main controller is electrically connected with the third motors of the first rotating mechanism and the second rotating mechanism.

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