CN114440064A - Network camera equipment for power environment - Google Patents

Abstract

The invention is suitable for the technical field of power monitoring, and provides a network camera device for a power environment, which comprises: the mounting table is provided with a telescopic cylinder, a telescopic column is arranged in the telescopic cylinder, and one end of the telescopic column is provided with a transparent box; the monitoring camera equipment is arranged in the transparent box, and a rotary driving assembly is also arranged in the transparent box; the lifting driving assembly is arranged on the telescopic column; and the drive control assembly is arranged inside the transparent box. When the monitoring camera equipment operates in a high-performance high-load state, the monitoring camera equipment generates heat due to the high load of the monitoring camera equipment, the temperature inside the transparent box is further increased, the driving control assembly can drive the lifting driving assembly to operate, the monitoring camera equipment is made to move up and down in the swinging and rotating process, the monitoring range is expanded, and dangerous conditions such as ignition and the like are avoided when the power environment operates in a high-load state.

Description

Network camera equipment for power environment

Technical Field

The invention belongs to the technical field of power monitoring, and particularly relates to network camera equipment for a power environment.

Background

The network camera is a new generation camera produced by combining the traditional camera and the network technology, can transmit the video image to the other end of the earth through the network, and a remote browser can monitor the video image by only a standard network browser without any professional software. The network camera generally comprises a lens, an image sensor, a sound sensor, a signal processor, an A/D converter, a coding chip, a main control chip, a network, a control interface and the like.

The network camera is formed by combining a network coding module and an analog camera, and the network coding module codes and compresses analog video signals acquired by the analog camera into digital signals, so that the network camera can be directly accessed to network switching and routing equipment. The network camera is internally provided with an embedded chip and adopts an embedded real-time operating system.

The network camera is a new generation product combining the traditional camera and the network video technology. The video signal transmitted by the camera is compressed by the high-efficiency compression chip after being digitalized and is transmitted to the Web server through the network bus. Users on the network can directly use the browser to watch the camera image on the Web server, and authorized users can also control the action of a camera holder lens or operate the system configuration. The network camera can simply realize monitoring, particularly remote monitoring, simpler construction and maintenance, better audio support, better alarm linkage support, more flexible video storage, richer product selection, higher definition video effect and more perfect monitoring management.

When the existing electric power monitoring camera equipment is used, most of the existing electric power monitoring camera equipment can only swing simply to monitor, but when the electric power load is high, the performance of the monitoring camera equipment also needs to be improved to improve the monitoring capability, accidents are avoided, but the monitoring range of the existing equipment cannot be enlarged when the performance is improved, the monitoring area is limited, and the whole electric power environment is difficult to consider.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a network camera device for an electric power environment, which aims to solve the problem that most of existing power monitoring camera devices can only perform simple swing to monitor when in use, but when an electric power load is high, performance of the monitoring camera device needs to be improved to improve monitoring capability, so as to avoid an accident, but the existing device cannot expand a monitoring range when improving performance, and a monitoring area is limited, so that it is difficult to consider the whole electric power environment.

The embodiment of the present invention is achieved by a network camera apparatus for a power environment, including:

the mounting table is provided with a telescopic cylinder, a telescopic column is arranged in the telescopic cylinder, and one end of the telescopic column is provided with a transparent box;

the monitoring camera equipment is arranged in the transparent box, a rotary driving assembly is further arranged in the transparent box, and the rotary driving assembly is used for controlling the monitoring camera equipment to rotate;

the lifting driving assembly is arranged on the telescopic column and used for driving the monitoring camera equipment to perform lifting movement;

and the driving control assembly is arranged in the transparent box and used for controlling the operation of the lifting driving assembly according to the temperature change in the transparent box.

Preferably, the rotary drive assembly comprises:

the connecting frame is arranged on the telescopic column, the transparent box is arranged on the connecting frame, and the first support plate is arranged on the connecting frame;

the first support is arranged on the first support plate, one side of the first support is rotatably connected with a first gear, the first gear is matched with the drive control assembly, and one side of the first gear is provided with a first rotary disc;

the mounting ring is mounted on the telescopic column, a second support plate is mounted on the side of the mounting ring, and a second support column is mounted on one side of the second support plate;

the first rotating shaft is rotatably connected to the second support, a first transmission belt is sleeved between the first rotating shaft and the first rotating disc, and a first bevel gear is mounted at one end of the first rotating shaft;

and the linkage assembly is arranged on the telescopic column and is used for controlling the monitoring camera equipment to rotate through the rotation of the first bevel gear.

Preferably, the linkage assembly comprises:

the second bevel gear is rotatably connected to the telescopic column and mutually matched with the first bevel gear, a driving shaft is installed at one end of the second bevel gear, one end of the driving shaft is arranged in the transparent box and is rotatably connected with the inner wall of the transparent box, and the monitoring camera equipment is installed on the driving shaft.

Preferably, the lifting drive assembly comprises:

the toothed plate is mounted on the inner wall of the telescopic cylinder, a third gear is rotatably connected to the telescopic column, and the third gear is matched with the toothed plate;

the third rotary table is mounted on the third gear, a fourth rotary table is rotatably connected inside the telescopic column, and a third conveying belt is sleeved between the third rotary table and the fourth rotary table;

and the control assembly is arranged on the second support plate and used for controlling the rotation of the fourth turntable by driving the control assembly.

Preferably, the control assembly comprises:

the second gear is rotatably connected to one side of the first support, and a second rotary disc is mounted on the second gear;

the third support is arranged on one side of the second support plate, a connecting shaft is rotatably connected to the third support, a second transmission belt is sleeved between one end of the connecting shaft and the second turntable, and a third bevel gear is arranged at the other end of the connecting shaft;

and the fourth bevel gear is rotatably connected to one side of the second support plate, the fourth bevel gear is meshed with the third bevel gear, and a fourth transmission belt is sleeved between the fourth bevel gear and the fourth rotary table.

Preferably, the drive control assembly includes:

the control column cavity is arranged in the transparent box, and expansion gas is filled in the transparent box;

the sliding column is arranged on the transparent box and the connecting frame in a sliding mode, one end of the sliding column is provided with an air pressure plate, and the air pressure plate is matched with the control column cavity;

the reciprocating motor is installed at one end of the sliding column, the output end of the reciprocating motor is connected with a toothed column, and the toothed column is matched with the first gear and the second gear.

Preferably, the type of expansion gas is carbon dioxide.

The network camera equipment for the power environment provided by the embodiment of the invention has the following beneficial effects:

when the network camera equipment for the power environment is used, when the monitoring camera equipment operates in a low-performance and low-load state, the temperature in the transparent box is in a normal state, and at the moment, the drive control assembly only drives the rotary drive assembly to operate to drive the monitoring camera equipment to rotate in the transparent box to monitor a local range;

when the monitoring camera equipment operates in a high-performance high-load state, the monitoring camera equipment generates heat due to the high load of the monitoring camera equipment, the temperature inside the transparent box is further increased, the driving control assembly can drive the lifting driving assembly to operate, the monitoring camera equipment is made to move up and down in the swinging and rotating process, the monitoring range is expanded, and dangerous conditions such as ignition and the like are avoided when the power environment operates in a high-load state.

Drawings

Fig. 1 is a schematic structural diagram of a network camera device for an electric power environment according to an embodiment of the present invention;

fig. 2 is a schematic partial structure diagram 1 of a network camera device for an electric power environment according to an embodiment of the present invention;

fig. 3 is a schematic partial structure diagram 2 of a network camera device for an electric power environment according to an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 1 at A;

fig. 5 is a partially enlarged view of fig. 1 at B.

In the drawings: 1-mounting a table; 2-a telescopic cylinder; 3-a telescopic column; 4-transparent box; 5-monitoring camera equipment; 6-a rotary drive assembly; 61-a connecting frame; 62-a first plate; 63-a first pillar; 64-a first gear; 65-a first carousel; 66-a mounting ring; 67-a second plate; 68-a second strut; 69-a first shaft; 610-a first conveyor belt; 611-a first bevel gear; 612-second bevel gear; 613-drive shaft; 7-a lifting drive assembly; 71-toothed plate; 72-a third gear; 73-a third carousel; 74-a fourth carousel; 75-a third conveyor belt; 76-a second gear; 77-a second carousel; 78-a third strut; 79-connecting shaft; 710-a second conveyor belt; 711-third bevel gear; 712-a fourth bevel gear; 713-a fourth conveyor; 8-driving a control component; 81-control column cavity; 82-a sliding column; 83-a pneumatic platen; 84-a reciprocating motor; 85-tooth column.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, in an embodiment of the present invention, the network imaging apparatus for a power environment includes:

the mounting platform 1 is provided with a telescopic cylinder 2, a telescopic column 3 is arranged inside the telescopic cylinder 2, and one end of the telescopic column 3 is provided with a transparent box 4;

the monitoring camera equipment 5 is installed inside the transparent box 4, a rotary driving assembly 6 is further installed inside the transparent box 4, and the rotary driving assembly 6 is used for controlling the monitoring camera equipment 5 to rotate;

the lifting driving assembly 7 is arranged on the telescopic column 3 and used for driving the monitoring camera equipment 5 to perform lifting movement;

and the driving control assembly 8 is arranged inside the transparent box 4 and is used for controlling the operation of the lifting driving assembly 7 according to the temperature change inside the transparent box 4.

When the network camera equipment for the power environment is used, when the monitoring camera equipment 5 operates in a low-performance and low-load state, the temperature inside the transparent box 4 is in a normal state, and at the moment, the drive control component 8 only drives the rotation driving component 6 to operate to drive the monitoring camera equipment 5 to rotate inside the transparent box 4 to monitor a local range;

when the monitoring camera device 5 operates in a high-performance high-load state, the monitoring camera device 5 generates heat due to the high load of the monitoring camera device 5, and then the temperature inside the transparent box 4 is increased, the driving control component 8 drives the lifting driving component 7 to operate, so that the monitoring camera device 5 performs lifting movement in the process of swinging and rotating, the monitoring range is expanded, and dangerous situations such as fire and the like when the power environment operates in a high-load state are avoided.

As shown in fig. 1 to 5, in the embodiment of the present invention, the rotary drive assembly 6 includes:

the connecting frame 61 is installed on the telescopic column 3, the transparent box 4 is installed on the connecting frame 61, and the first supporting plate 62 is installed on the connecting frame 61;

a first support 63 mounted on the first support plate 62, wherein a first gear 64 is rotatably connected to one side of the first support 63, the first gear 64 is matched with the drive control assembly 8, and a first rotating disc 65 is mounted on one side of the first gear 64;

a mounting ring 66 mounted on the telescopic column 3, a second support plate 67 mounted on the side of the mounting ring 66, and a second support 68 mounted on one side of the second support plate 67;

a first rotating shaft 69 rotatably connected to the second support 68, a first transmission belt 610 is sleeved between the first rotating shaft 69 and the first rotating disk 65, and a first bevel gear 611 is mounted at one end of the first rotating shaft 69;

and a linkage assembly mounted on the telescopic column 3 for controlling the rotation of the monitoring camera apparatus 5 by the rotation of the first bevel gear 611.

As shown in fig. 1 to 5, in the embodiment of the present invention, the linkage assembly includes:

and a second bevel gear 612 rotatably connected to the telescopic column 3, wherein the second bevel gear 612 is matched with the first bevel gear 611, one end of the second bevel gear 612 is provided with a driving shaft 613, one end of the driving shaft 613 is arranged inside the transparent box 4 and is rotatably connected with the inner wall of the transparent box 4, and the monitoring camera device 5 is installed on the driving shaft 613.

When the monitoring camera device is used, the driving control component 8 drives the first gear 64 to rotate, and then drives the first rotating shaft 69 to rotate through the first rotating disc 65 and the first transmission belt 610, and then the first rotating shaft 69 drives the second rotating gear 612 to rotate through the first bevel gear 611, and then drives the monitoring camera device 5 to rotate inside the transparent box 4 through the driving shaft 613, so that the monitoring camera device performs swing type monitoring.

As shown in fig. 1 to 5, in the embodiment of the present invention, the lifting driving assembly 7 includes:

the toothed plate 71 is mounted on the inner wall of the telescopic cylinder 2, a third gear 72 is rotatably connected to the telescopic column 3, and the third gear 72 is matched with the toothed plate 71;

the third rotating disc 73 is installed on the third gear 72, a fourth rotating disc 74 is rotatably connected inside the telescopic column 3, and a third conveying belt 75 is sleeved between the third rotating disc 73 and the fourth rotating disc 74;

and a control assembly mounted on the second support plate 67 for controlling the rotation of the fourth turntable 74 by driving the control assembly 8.

As shown in fig. 1 to 5, in the embodiment of the present invention, the control assembly includes:

a second gear 76 rotatably connected to one side of the first support 63, the second gear 76 having a second turntable 77 mounted thereon;

the third supporting column 78 is installed on one side of the second supporting plate 67, a connecting shaft 79 is rotatably connected to the third supporting column 78, a second transmission belt 710 is sleeved between one end of the connecting shaft 79 and the second rotating disc 77, and a third bevel gear 711 is installed at the other end of the connecting shaft 79;

and a fourth bevel gear 712 rotatably connected to one side of the second support plate 67, wherein the fourth bevel gear 712 is meshed with the third bevel gear 711, and a fourth transmission belt 713 is sleeved between the fourth bevel gear 712 and the fourth rotating disc 74.

During the use, the driving control assembly 8 can drive the second gear 76 to rotate, and then drive the connecting shaft 79 to rotate through the second rotating disc 77, and make the third bevel gear 711 rotate synchronously, then the third bevel gear 711 can drive the fourth rotating disc 74 to rotate through the fourth bevel gear 712 and the fourth transmission band 713, and then control the third gear 72 to rotate through the third transmission band 75 and the third rotating disc 73, and then utilize the cooperation relation between the third gear 72 and the toothed plate 71 to control the telescopic column 3 to perform reciprocating type lifting motion, so as to drive the monitoring camera device 5 to perform lifting motion while swinging, and expand the monitoring range.

As shown in fig. 1 to 5, in the embodiment of the present invention, the driving control assembly 8 includes:

a control column chamber 81 installed inside the transparent case 4, the transparent case 4 being filled with an expansion gas;

the sliding column 82 is arranged on the transparent box 4 and the connecting frame 61 in a sliding mode, one end of the sliding column 82 is provided with an air pressure plate 83, and the air pressure plate 83 is matched with the control column cavity 81;

and the reciprocating motor 84 is installed at one end of the sliding column 82, the output end of the reciprocating motor 84 is connected with a toothed column 85, and the toothed column 85 is matched with the first gear 64 and the second gear 76.

During the use, when surveillance camera equipment 5 high load operation, its self can produce higher heat, then according to expend with heat and contract with cold's principle, the inside expanding gas of transparent case 4 also can begin to expand, comes extrusion sliding column 82 through atmospheric pressure dish 83, makes sliding column 82 outwards remove, then sliding column 82's removal can make tooth post 85 and second gear 76 contact, then the operation of tooth post 85 can drive rotary drive subassembly 6 and lift drive subassembly 7 simultaneously this moment, drives surveillance camera equipment 5 and carries out monitoring on a large scale.

As shown in fig. 1 to 5, in the embodiment of the present invention, the type of the expansion gas is carbon dioxide.

To sum up, when the network camera device for the power environment is used, when the monitoring camera device 5 operates in a low-performance and low-load state, the temperature inside the transparent box 4 is in a normal state, and at this time, the driving control component 8 only drives the rotation driving component 6 to operate, so as to drive the monitoring camera device 5 to rotate inside the transparent box 4, and perform monitoring in a local range;

when the monitoring camera device 5 operates in a high-performance high-load state, the monitoring camera device 5 generates heat due to the high load of the monitoring camera device 5, and then the temperature inside the transparent box 4 is increased, the driving control component 8 drives the lifting driving component 7 to operate, so that the monitoring camera device 5 performs lifting movement in the process of swinging and rotating, the monitoring range is expanded, and dangerous situations such as fire and the like when the power environment operates in a high-load state are avoided.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A network imaging apparatus for a power environment, characterized by comprising:

the mounting table is provided with a telescopic cylinder, a telescopic column is arranged in the telescopic cylinder, and one end of the telescopic column is provided with a transparent box;

the monitoring camera equipment is arranged in the transparent box, a rotary driving assembly is further arranged in the transparent box, and the rotary driving assembly is used for controlling the monitoring camera equipment to rotate;

the lifting driving assembly is arranged on the telescopic column and used for driving the monitoring camera equipment to perform lifting movement;

and the driving control assembly is arranged in the transparent box and used for controlling the operation of the lifting driving assembly according to the temperature change in the transparent box.

2. The network camera apparatus for power environment according to claim 1, wherein the rotation driving assembly includes:

the connecting frame is arranged on the telescopic column, the transparent box is arranged on the connecting frame, and the first support plate is arranged on the connecting frame;

the first support is arranged on the first support plate, one side of the first support is rotatably connected with a first gear, the first gear is matched with the drive control assembly, and one side of the first gear is provided with a first rotary disc;

the mounting ring is mounted on the telescopic column, a second support plate is mounted on the side of the mounting ring, and a second support column is mounted on one side of the second support plate;

the first rotating shaft is rotatably connected to the second support, a first transmission belt is sleeved between the first rotating shaft and the first rotating disc, and a first bevel gear is mounted at one end of the first rotating shaft;

and the linkage assembly is arranged on the telescopic column and is used for controlling the monitoring camera equipment to rotate through the rotation of the first bevel gear.

3. The network camera device for the power environment according to claim 2, wherein the linkage assembly includes:

the second bevel gear is rotatably connected to the telescopic column and mutually matched with the first bevel gear, a driving shaft is installed at one end of the second bevel gear, one end of the driving shaft is arranged in the transparent box and is rotatably connected with the inner wall of the transparent box, and the monitoring camera equipment is installed on the driving shaft.

4. The network camera device for the power environment according to claim 2, wherein the elevating drive assembly includes:

the toothed plate is mounted on the inner wall of the telescopic cylinder, a third gear is rotatably connected to the telescopic column, and the third gear is matched with the toothed plate;

the third rotary table is mounted on the third gear, a fourth rotary table is rotatably connected inside the telescopic column, and a third conveying belt is sleeved between the third rotary table and the fourth rotary table;

and the control assembly is arranged on the second support plate and used for controlling the rotation of the fourth turntable by driving the control assembly.

5. The network camera apparatus for power environment according to claim 4, wherein the control unit includes:

the second gear is rotatably connected to one side of the first support, and a second rotary disc is mounted on the second gear;

the third support is arranged on one side of the second support plate, a connecting shaft is rotatably connected to the third support, a second transmission belt is sleeved between one end of the connecting shaft and the second turntable, and a third bevel gear is arranged at the other end of the connecting shaft;

and the fourth bevel gear is rotatably connected to one side of the second support plate, the fourth bevel gear is meshed with the third bevel gear, and a fourth transmission belt is sleeved between the fourth bevel gear and the fourth rotary table.

6. The network camera apparatus for power environment according to claim 4, wherein the drive control module includes:

the control column cavity is arranged in the transparent box, and expansion gas is filled in the transparent box;

the sliding column is arranged on the transparent box and the connecting frame in a sliding mode, one end of the sliding column is provided with an air pressure plate, and the air pressure plate is matched with the control column cavity;

the reciprocating motor is installed at one end of the sliding column, the output end of the reciprocating motor is connected with a toothed column, and the toothed column is matched with the first gear and the second gear.

7. The network image pickup apparatus for electric power environment according to claim 6, wherein a kind of the inflation gas is carbon dioxide.

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