CN218295225U - Monitoring device for electric automation equipment - Google Patents

Abstract

The utility model discloses an electric automation equipment is with monitoring device, including base, hydraulic stem, surveillance camera head, sweeper shell, cleaning plate and brush, install the line rail on the base, install the surveillance camera head support on the layer board, set up the eccentric wheel on the first rotation axis, one side runs through the installation eccentric shaft on the eccentric wheel, install first piston rod on the eccentric shaft, the cleaning plate is cleaned in the installation on the second rotation axis. The device is provided with one set of automatic moving device and one set of automatic cleaning device: a user can start the hydraulic cylinder to push the monitoring camera to move left and right, so that the monitoring range of the camera can be enlarged; the user can start the micro motor of sweeper shell one side under the stained circumstances of surveillance camera head for the motor drives the brush on cleaning the board through drive mechanism and cleans surveillance camera head camera lens, does not need the manpower to climb to the eminence and cleans the camera, has improved the security, has prolonged supervisory equipment's life.

Description

Monitoring device for electric automation equipment

Technical Field

The utility model relates to a monitoring device technical field specifically is a monitoring device for electrical automation equipment.

Background

The monitoring device for the electric automation equipment is a device for carrying out video monitoring on the electric automation equipment, in large-scale industrial production, the electric automation plays a great role, when the high electric automation of production equipment, the production site does not need too much manual work to meet complex production operation, the efficiency is high, of course, large-scale electric automation equipment needs remote monitoring to monitor the working state under the condition of reducing manpower use, so as to ensure the normal operation of the electric automation equipment, however, most monitoring devices on the market either can not adjust the monitoring visual angle or can not move, the monitoring range can be enlarged by only adjusting the angle of the internal probe of the monitoring, a plurality of monitoring devices need to be installed to meet the requirement when monitoring the large-scale electric automation equipment, the monitoring devices are quite wasteful, are generally arranged at high positions, most monitoring devices do not have automatic cleaning devices, when a lens is stained, the monitoring devices need to manually climb to the high positions to be cleaned, and the monitoring devices are quite dangerous.

So we have provided a monitoring device for electrical automation equipment, so that solve most monitoring device in the market that proposes in the aforesaid or can't adjust the control visual angle, or self can't remove, the angle that can only adjust probe in the control enlarges the monitoring range, need install a plurality of supervisory equipment just can satisfy the demand when monitoring large-scale electrical automation equipment, it is very extravagant, and supervisory equipment generally sets up at the eminence, most supervisory equipment does not have automatic cleaning device, need artifical the eminence of climbing to clean it when the camera lens is stained, very dangerous problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electric automation equipment is with monitoring device, with solve most monitoring device on the market that above-mentioned background art provided or can't adjust the control visual angle, or self can't remove, the angle that can only adjust probe in the control enlarges the control range, need install a plurality of supervisory equipment just can satisfy the demand when keeping watch on large-scale electric automation equipment, it is very extravagant, and supervisory equipment generally sets up at the eminence, most supervisory equipment does not have automatic cleaning device, need the manual work to climb to the eminence when the camera lens is stained and clean it, very dangerous problem.

In order to achieve the above purpose, the utility model provides a following technical scheme: a monitoring device for electric automation equipment comprises a base, a hydraulic rod, a monitoring camera, a sweeper shell, a sweeping plate and a brush, wherein a linear rail is installed on the base, a sliding block is arranged on the linear rail, a supporting plate is installed on the sliding block, a hydraulic cylinder support is installed on the right side of the base, a hydraulic cylinder is installed on the left side of the hydraulic cylinder support, the hydraulic rod is arranged in the hydraulic cylinder, the monitoring camera support is installed on the supporting plate, the monitoring camera is installed on the top of the monitoring camera support, the sweeper shell is installed on the left side of the supporting plate, a first rotating shaft is installed on the left side of the inside of the sweeper shell in a penetrating mode, an eccentric wheel is arranged on the first rotating shaft, a first piston rod is installed on the eccentric wheel in a penetrating mode, a first piston rod is installed on the eccentric shaft, a piston cylinder support is installed in the middle of the sweeper shell, a piston cylinder support is installed on the piston cylinder support, a piston is arranged in the piston cylinder support, a second piston rod is arranged on the right side of the piston, a second rotating shaft support is installed on the top of the right side of the outside the sweeper shell, a second rotating shaft support is installed on the right side of the second rotating shaft, the sweeping plate, and the top of the brush is installed on the top of the sweeping plate.

Preferably, the sliding block forms a sliding structure on the linear rail, the sliding direction is parallel to the base, and when a user needs to expand the monitoring range of the monitoring camera, the sliding block on the linear rail can be driven by the mechanism, so that the sliding block drives the camera assembly mounted on the sliding block to move back and forth along the linear rail, and the monitoring range of the monitoring camera is expanded.

Preferably, the hydraulic rod constitutes sliding structure in the pneumatic cylinder, and the slip direction is parallel to each other with the base, and when the user need drive the slider and remove, can start the pneumatic cylinder on hydraulic cylinder support left side for the hydraulic rod is tensile or shorten along the cylinder body under the drive of pneumatic cylinder, thereby drives the layer board of being connected with the hydraulic rod and installs the slider that is under the layer board and do the seesaw along the line rail.

Preferably, the first rotating shaft and the eccentric wheel mutually form a rotating structure, the rotating center lines of the first rotating shaft and the eccentric wheel are mutually overlapped, the center line and the base are mutually vertical, and when the monitoring camera is polluted and blocks the visual field of the camera, a user can start the micro motor directly connected with the first rotating shaft through external control, so that the first rotating shaft is driven to rotate, and the eccentric wheel also rotates along with the first rotating shaft.

Preferably, the piston forms a piston transmission structure in the piston cylinder, the transmission direction is parallel to the base, when the eccentric wheel starts to rotate, the eccentric shaft on the eccentric wheel makes a circular motion around the shaft center of the first rotating shaft, and simultaneously, one end of the first piston rod on the eccentric shaft is driven to make a circular motion around the shaft center of the first rotating shaft, so that the other end of the first piston rod drives the piston connected with the first piston rod in the piston cylinder to make a back-and-forth circular reciprocating motion along the cylinder body.

Preferably, the piston, the first piston rod and the second piston rod are both in a shaft connecting structure, the right end of the second piston rod and the lower end of the cleaning plate are also in a shaft connecting structure, when the piston does front-back circular reciprocating motion along the cylinder body, the second piston rod also starts to do front-back circular reciprocating motion along with the piston, and because the right end of the second piston rod and the lower end of the cleaning plate are in a shaft connecting structure, when the second piston rod transmits a reciprocating motion effect to the lower end of the cleaning plate, in order to ensure that the cleaning plate can rotate around the shaft center of the second rotating shaft, the left side of the second piston rod can do small-angle adjustment around a shaft connected with the piston while doing front-back circular reciprocating motion along with the piston.

Preferably, the second rotation axis and the cleaning plate mutually constitute revolution mechanic, and the rotation center line of the second rotation axis and the cleaning plate coincides mutually, center line and base mutually perpendicular, when the lower extreme of cleaning plate is along with the piston do the front and back circulation reciprocating motion, the cleaning plate is when keeping the rotatory effect of the axle center around the second rotation axis, reverse front and back circulation reciprocating motion is started to be done to the upper end of cleaning plate, make the brush on the cleaning plate can clean the surveillance camera head surface, when cleaning and accomplishing, cleaning plate upper end can remove to the border position of surveillance camera head one side, can not block the field of vision of surveillance camera head, the whole operation of cleaning is whole automatic, and is very efficient.

Compared with the prior art, the beneficial effects of the utility model are that: this monitoring device for electrical automation equipment is provided with one set of automatic moving device and one set of automatic cleaning device:

1. a user can start the hydraulic cylinder to push the monitoring camera on the supporting plate to move left and right along the linear rail, so that the monitoring range of the monitoring camera can be enlarged, and the use efficiency of the monitoring equipment is improved;

2. the user can start the micro motor of sweeper shell one side under the stained circumstances of surveillance camera head for the motor passes through drive mechanism and drives the cleaning board and do front and back circulation reciprocating motion, makes the brush on the cleaning board can clean the first camera lens of surveillance camera, does not need the manpower to climb to the eminence and cleans the surveillance camera head, has improved the security, has prolonged supervisory equipment's life.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the hydraulic cylinder of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a schematic view of the new structure of the sweeper assembly of the present invention;

fig. 5 is a schematic structural view of the piston cylinder assembly of the present invention;

fig. 6 is the schematic view of the monitoring camera structure of the present invention.

In the figure: 1. a base; 2. a linear rail; 3. a slider; 4. a support plate; 5. a hydraulic cylinder support; 6. a hydraulic cylinder; 7. a hydraulic lever; 8. a surveillance camera mount; 9. a surveillance camera; 10. a sweeper housing; 11. a first rotating shaft; 12. an eccentric wheel; 13. an eccentric shaft; 14. a first piston rod; 15. a piston cylinder support; 16. a piston cylinder; 17. a second piston rod; 18. a second rotating shaft support; 19. a second rotation shaft; 20. cleaning a board; 21. a brush; 22. and a piston.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a monitoring device for electric automation equipment comprises a base 1, a linear rail 2, a sliding block 3, a supporting plate 4, a hydraulic cylinder support 5, a hydraulic cylinder 6, a hydraulic rod 7, a monitoring camera support 8, a monitoring camera 9, a sweeper shell 10, a first rotating shaft 11, an eccentric wheel 12, an eccentric shaft 13, a first piston rod 14, a piston cylinder support 15, a piston cylinder 16, a second piston rod 17, a second rotating shaft support 18, a second rotating shaft 19, a cleaning plate 20, a brush 21 and a piston 22, wherein the linear rail 2 is arranged on the base 1, the sliding block 3 is arranged on the linear rail 2, the supporting plate 4 is arranged on the sliding block 3, the sliding block 3 forms a sliding structure on the linear rail 2, the sliding direction is parallel to the base 1, and when a user needs to expand the monitoring range of the monitoring camera 9, the sliding block 3 on the linear rail 2 can be driven by a mechanism, so that the sliding block 3 drives the camera assembly arranged on the linear rail 2 to move back and forth along the linear rail 2, and forth, and the monitoring range of the monitoring camera 9 is expanded.

Base 1 goes up right side installation pneumatic cylinder support 5, and at 5 left sides installation pneumatic cylinder 6 of pneumatic cylinder support, set up hydraulic stem 7 in the pneumatic cylinder 6, install surveillance camera head support 8 on layer board 4, and install surveillance camera head 9 at surveillance camera head support 8 top, hydraulic stem 7 constitutes sliding construction in pneumatic cylinder 6, and sliding direction and base 1 are parallel to each other, when the user needs drive slider 3 to remove, can start the left pneumatic cylinder 6 of pneumatic cylinder support 5, make hydraulic stem 7 stretch or shorten along the cylinder body under the drive of pneumatic cylinder 6, thereby drive layer board 4 of being connected with hydraulic stem 7 and install slider 3 under layer board 4 and be the seesaw along linear rail 2.

A sweeper shell 10 is installed on the left side of a supporting plate 4, a first rotating shaft 11 penetrates through the left side in the sweeper shell 10, an eccentric wheel 12 is arranged on the first rotating shaft 11, an eccentric shaft 13 penetrates through one side of the eccentric wheel 12, a first piston rod 14 is installed on the eccentric shaft 13, the first rotating shaft 11 and the eccentric wheel 12 form a rotating structure, the rotating center lines of the first rotating shaft 11 and the eccentric wheel 12 are overlapped with each other, the center line and a base 1 are perpendicular to each other, when a monitoring camera 9 is stained and blocks the visual field of the camera, a user can start a micro motor directly connected with the first rotating shaft 11 through external control, and therefore the first rotating shaft 11 is driven to rotate, and the eccentric wheel 12 rotates accordingly.

A piston cylinder support 15 is arranged in the middle of the cleaner shell 10, a piston cylinder 16 is arranged on the piston cylinder support 15, a piston 22 is arranged in the piston cylinder 16, the piston 22 forms a piston transmission structure in the piston cylinder 16, the transmission direction is parallel to the base 1, when the eccentric wheel 12 starts to rotate, the eccentric shaft 13 on the eccentric wheel 12 makes circular motion around the shaft center of the first rotating shaft 11, and meanwhile, one end of the first piston rod 14 on the eccentric shaft 13 is driven to make circular motion around the shaft center of the first rotating shaft 11, so that the other end of the first piston rod 14 in the piston cylinder 16 drives the piston 22 connected with the piston rod to make reciprocating motion back and forth along the cylinder body.

The right side of the piston 22 is provided with a second piston rod 17, the piston 22, the first piston rod 14 and the second piston rod 17 are both in a shaft connection structure, the right end of the second piston rod 17 and the lower end of the cleaning plate 20 are also in a shaft connection structure, when the piston 22 performs reciprocating motion in a front-back circulating mode along the cylinder body, the second piston rod 17 also starts to perform reciprocating motion in a front-back circulating mode along with the piston 22, and because the right end of the second piston rod 17 and the lower end of the cleaning plate 20 are in the shaft connection structure, when the second piston rod 17 transmits a reciprocating motion effect to the lower end of the cleaning plate 20, in order to ensure that the cleaning plate 20 can rotate around the shaft center of the second rotating shaft 19, the left side of the second piston rod 17 can perform reciprocating motion in a front-back circulating mode along with the piston 22 and can also perform small-angle adjustment around the shaft connected with the piston.

The second rotating shaft support 18 is installed at the top of the right side outside the sweeper housing 10, the second rotating shaft 19 is installed at the right side of the second rotating shaft support 18, the sweeping board 20 is installed on the second rotating shaft 19, the brush 21 is installed at the top of the sweeping board 20, the second rotating shaft 19 and the sweeping board 20 mutually form a rotating structure, the rotating center lines of the second rotating shaft 19 and the sweeping board 20 are mutually overlapped, the center lines and the base 1 are mutually vertical, when the lower end of the sweeping board 20 performs reciprocating back and forth along with the piston 22, the upper end of the sweeping board 20 starts to perform reciprocating back and forth in a reverse direction while the sweeping board 20 keeps rotating effect around the shaft center of the second rotating shaft 19, so that the brush 21 on the sweeping board 20 can sweep the surface of the monitoring camera 9, when sweeping is completed, the upper end of the sweeping board 20 can move to the edge position of the monitoring camera 9 side, the view of the monitoring camera 9 cannot be blocked, and the sweeping operation is automatic and very efficient.

The working principle is as follows: when using this monitoring device for electrical automation equipment, when the user need enlarge surveillance camera head 9's monitoring range, can pass through slider 3 on the mechanism drive linear rail 2 for slider 3 drives the camera subassembly of installing above that and is the seesaw along linear rail 2, thereby enlarges surveillance camera head 9's monitoring range. When a user needs to drive the sliding block 3 to move, the hydraulic cylinder 6 on the left side of the hydraulic cylinder bracket 5 can be started, so that the hydraulic rod 7 is driven by the hydraulic cylinder 6 to stretch or shorten along the cylinder body, and the supporting plate 4 connected with the hydraulic rod 7 and the sliding block 3 arranged right below the supporting plate 4 are driven to move back and forth along the line rail 2. When the monitoring camera 9 is stained and the visual field of the camera is blocked, a user can start the micro motor directly connected with the first rotating shaft 11 through external control, so that the first rotating shaft 11 is driven to rotate, and the eccentric wheel 12 rotates along with the first rotating shaft 11. When the eccentric wheel 12 starts to rotate, the eccentric shaft 13 on the eccentric wheel 12 makes a circular motion around the axial center of the first rotating shaft 11, and simultaneously, one end of the first piston rod 14 on the eccentric shaft 13 is driven to make a circular motion around the axial center of the first rotating shaft 11, so that the other end of the first piston rod 14 drives the piston 22 connected with the same to make a back-and-forth circular reciprocating motion along the cylinder body in the piston cylinder 16. When the piston 22 reciprocates back and forth along the cylinder, the second piston rod 17 also begins to reciprocate back and forth, because the right end of the second piston rod 17 and the lower end of the cleaning plate 20 are connected by a shaft, when the second piston rod 17 transmits the reciprocating effect to the lower end of the cleaning plate 20, in order to ensure that the cleaning plate 20 can rotate around the shaft center of the second rotating shaft 19, the left side of the second piston rod 17 can reciprocate back and forth along with the piston 22 and can also make small angle adjustment around the shaft connected with the piston inside. When the lower end of the cleaning plate 20 does the back-and-forth circular reciprocating motion along with the piston 22, the cleaning plate 20 keeps the shaft center rotating effect around the second rotating shaft 19, and the upper end of the cleaning plate 20 starts to do the reverse back-and-forth circular reciprocating motion, so that the brush 21 on the cleaning plate 20 can clean the surface of the monitoring camera 9, when the cleaning is completed, the upper end of the cleaning plate 20 can move to the edge position of one side of the monitoring camera 9, the visual field of the monitoring camera 9 cannot be blocked, and the whole set of cleaning operation is automatic in the whole process and very efficient. Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides an electric monitoring device for automation equipment, includes base (1), hydraulic stem (7), surveillance camera head (9), sweeper shell (10), cleans board (20) and brush (21), its characterized in that: the cleaning machine is characterized in that a linear rail (2) is installed on a base (1), a sliding block (3) is arranged on the linear rail (2), a supporting plate (4) is installed on the sliding block (3), a hydraulic cylinder support (5) is installed on the right side of the base (1), a hydraulic cylinder (6) is installed on the left side of the hydraulic cylinder support (5), a hydraulic rod (7) is arranged in the hydraulic cylinder (6), a monitoring camera support (8) is installed on the supporting plate (4), a monitoring camera (9) is installed at the top of the monitoring camera support (8), a cleaner shell (10) is installed on the left side of the supporting plate (4), a first rotating shaft (11) is installed in the cleaner shell (10) in a penetrating manner, an eccentric wheel (12) is arranged on the first rotating shaft (11), an eccentric shaft (13) is installed on one side of the eccentric wheel (12), a first piston rod (14) is installed on the eccentric shaft (13), a middle mounting support (15) is installed in the cleaner shell (10), a piston cylinder (16) is installed on the piston cylinder support (15), a piston rod (22) is arranged in the piston cylinder (22), and a second piston rod (17) is installed on the right side of the piston support (17), and a second rotating shaft (19) is installed on the right side of the second rotating shaft support (18), a cleaning plate (20) is installed on the second rotating shaft (19), and a brush (21) is installed on the top of the cleaning plate (20).

2. The monitoring device for an electrical automation apparatus according to claim 1, characterized in that: the sliding block (3) forms a sliding structure on the linear rail (2), and the sliding direction is parallel to the base (1).

3. The monitoring device for an electrical automation apparatus according to claim 1, characterized in that: the hydraulic rod (7) forms a sliding structure in the hydraulic cylinder (6), and the sliding direction is parallel to the base (1).

4. The monitoring device for an electrical automation apparatus according to claim 1, characterized in that: the first rotating shaft (11) and the eccentric wheel (12) mutually form a rotating structure, the rotating center lines of the first rotating shaft (11) and the eccentric wheel (12) are mutually overlapped, and the center line is mutually vertical to the base (1).

5. The monitoring device for an electrical automation apparatus according to claim 1, characterized in that: the piston (22) forms a piston transmission structure in the piston cylinder (16), and the transmission direction is parallel to the base (1).

6. The monitoring device for an electrical automation apparatus according to claim 1, characterized in that: the piston (22), the first piston rod (14) and the second piston rod (17) are all in a shaft connecting structure, and the right end of the second piston rod (17) and the lower end of the cleaning plate (20) are also in a shaft connecting structure.

7. The monitoring device for an electrical automation apparatus according to claim 1, characterized in that: the second rotating shaft (19) and the cleaning plate (20) mutually form a rotating structure, the rotating center lines of the second rotating shaft (19) and the cleaning plate (20) are mutually overlapped, and the center lines are mutually vertical to the base (1).

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