CN110886956A

CN110886956A - Network machine room circulating mobile monitoring device

Info

Publication number: CN110886956A
Application number: CN201911205454.1A
Authority: CN
Inventors: 邓少华; 李彤; 曹沙; 朱咏琪
Original assignee: China Three Gorges University CTGU
Current assignee: China Three Gorges University CTGU
Priority date: 2019-11-29
Filing date: 2019-11-29
Publication date: 2020-03-17

Abstract

The invention provides a circulating mobile monitoring device for a network machine room, which comprises a first cross beam and a second cross beam which are arranged in parallel, wherein the first cross beam and the second cross beam are fixedly connected with the top of the machine room through a hoisting structure, the tops of the first cross beam and the second cross beam are respectively and fixedly provided with parallel slide rails through cushion blocks, the slide rails are provided with top plates in a sliding fit manner, the bottom ends of the top plates are provided with monitoring cabinets for installing monitoring equipment, the side walls of the monitoring cabinets are provided with transmission mechanism installation boxes, and power devices for driving the whole top plates to slide along the slide rails are installed in the transmission mechanism installation boxes. This monitoring device can remove in the regional certain limit of computer lab, and then can cover whole computer lab, has effectually overcome the control blind area and has monitored dead angle position, great reinforcing the operation security of computer lab.

Description

Network machine room circulating mobile monitoring device

Technical Field

The invention belongs to the technical field of machine room monitoring, and particularly relates to a circulating mobile monitoring device for a network machine room.

Background

Present network computer lab supervisory equipment installs the position at the computer lab apex angle usually, and adopt fixed mounting means, its effect that can satisfy comprehensive control to mini-size computer lab, but to the great computer lab of area, adopt foretell fixed mounting means can't satisfy the needs that use, there is the problem of monitoring incompleteness, and there is the control dead angle, in order to guarantee omnidirectional control, need guarantee that controlgear can remove in the certain limit, and then enlarge the coverage of control, reach the purpose of comprehensive control, finally strengthen the security of computer lab.

Disclosure of Invention

In order to solve the technical problems, the invention provides a circularly moving monitoring device for a network machine room, which can move in a certain range of a machine room area, further can cover the whole machine room, effectively overcomes monitoring blind areas and monitoring dead angle positions, and greatly enhances the operation safety of the machine room.

In order to achieve the technical features, the invention is realized as follows: network computer lab circulating mobile monitoring device, it includes parallel arrangement's first crossbeam and second crossbeam, first crossbeam and second crossbeam pass through fixed linking to each other in the top of hoisting structure and computer lab, the top of first crossbeam and second crossbeam all has parallel arrangement's slide rail through cushion fixed mounting respectively, install the roof through sliding fit on the slide rail, the monitoring cabinet that is used for installing supervisory equipment is installed to the bottom of roof, installs the drive mechanism install bin on the lateral wall of monitoring cabinet, drive mechanism install bin internally mounted has and is used for driving whole roof along the gliding power device of slide rail.

The hoisting structure comprises a plurality of hanging rods fixedly connected with the top of the machine room, a connecting plate is fixedly mounted at the bottom end of each hanging rod, L-shaped hanging plates are symmetrically fixed at the bottom of the connecting plate, and a first cross beam and a second cross beam are supported and mounted between the L-shaped hanging plates respectively.

The bottom four corners of roof are installed the slider, slider and slide rail constitute sliding fit.

The power device comprises a motor fixed inside the transmission mechanism installation box, a gear is installed on an output shaft of the motor, and the gear and a rack fixed on the inner side wall of the second cross beam form gear transmission fit.

The bottom jib is installed to the bottom of control cabinet, is connected with the tow-cable on the control cabinet, the tow-cable supports on the tow-chain backup pad of first crossbeam.

The roof positioning device is characterized in that a first sensor and a second sensor for detecting roof positioning signals are mounted at two ends of the first cross beam, the first sensor and the second sensor are respectively fixed on an angle plate through locking nuts, and the angle plate is fixed on the inner side wall of the first cross beam.

And an electric cabinet is arranged at one end of the second cross beam.

The motor adopts a servo motor, and a driver of the servo motor is connected with the electric cabinet through a signal wire and controls the action of the motor.

The invention has the following beneficial effects:

1. through adopting the monitoring device of above-mentioned structure, can remove in the regional certain limit of computer lab, and then can cover whole computer lab, the effectual monitoring blind area and the control dead angle position of having overcome, great reinforcing the operational safety nature of computer lab. In the use, through the whole monitoring cabinet of power device drive along the slide rail slip, and then drive the inside supervisory equipment of monitoring cabinet and remove along the slide rail to carry out effectual control to the whole condition in the computer lab region through supervisory equipment, reach the purpose of all-round control, finally guaranteed the security of computer lab operation.

2. The power device is used for providing walking power, the gear is driven by the motor, and the whole transmission mechanism installation box is driven to stably slide along the sliding rail by the transmission matching between the gear and the rack, so that the monitoring equipment is driven to move in a machine room area, and the monitoring area is enlarged.

Drawings

The invention is further illustrated by the following figures and examples.

FIG. 1 is a first perspective three-dimensional view of the present invention.

FIG. 2 is a second perspective three-dimensional view of the present invention.

FIG. 3 is a first perspective three-dimensional view of the invention after removal of the top panel.

FIG. 4 is a second perspective three-dimensional view of the invention after removal of the top panel.

In the figure: the device comprises a hanger rod 1, a connecting plate 2, an L-shaped hanger plate 3, a first cross beam 4, a cushion block 5, a slide rail 6, a slide block 7, a top plate 8, a monitoring cabinet 9, a transmission mechanism installation box 10, a towing cable 11, a bottom hanger rod 12, a rack 13, a gear 14, a second cross beam 15, a locking nut 16, a first sensor 17, a second sensor 18, an electric cabinet 19, an angle plate 20, a motor 21 and a towing chain support plate 22.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1-4, the network machine room circulating mobile monitoring device comprises a first beam 4 and a second beam 15 which are arranged in parallel, wherein the first beam 4 and the second beam 15 are fixedly connected with the top of the machine room through a hoisting structure, the tops of the first beam 4 and the second beam 15 are respectively and fixedly provided with sliding rails 6 which are arranged in parallel through cushion blocks 5, the sliding rails 6 are provided with top plates 8 in a sliding fit manner, the bottom ends of the top plates 8 are provided with monitoring cabinets 9 for installing monitoring equipment, the side walls of the monitoring cabinets 9 are provided with transmission mechanism installation boxes 10, and power devices for driving the whole top plates 8 to slide along the sliding rails 6 are installed inside the transmission mechanism installation boxes 10. Through adopting the monitoring device of above-mentioned structure, can remove in the regional certain limit of computer lab, and then can cover whole computer lab, the effectual monitoring blind area and the control dead angle position of having overcome, great reinforcing the operational safety nature of computer lab. In the use, slide along slide rail 6 through whole monitoring cabinet 9 of power device drive, and then drive the inside supervisory equipment of monitoring cabinet 9 and remove along slide rail 6 to carry out effectual control to the whole condition in the computer lab region through supervisory equipment, reach the purpose of all-round control, finally guaranteed the security of computer lab operation.

Further, hoisting structure includes many jibs 1 that link to each other with the computer lab top is fixed, the bottom fixed mounting of jib 1 has connecting plate 2, the bottom symmetry of connecting plate 2 is fixed with L type hanger plate 3, support between the L type hanger plate 3 and support first crossbeam 4 of installation and second crossbeam 15 respectively. Through foretell hoisting structure can fix and install whole monitoring device, and then install it at the top of computer lab, reach the purpose that covers whole computer lab.

Further, the four corners of the bottom of the top plate 8 are provided with slide blocks 7, and the slide blocks 7 and the slide rails 6 form sliding fit. Through the sliding fit, the top plate 8 can stably slide along the sliding rail 6, and the sliding stability of the top plate is further ensured.

Further, the power device comprises a motor 21 fixed inside the transmission mechanism installation box 10, a gear 14 is installed on an output shaft of the motor 21, and the gear 14 and a rack 13 fixed on the inner side wall of the second cross beam 15 form gear transmission fit. The power device is used for providing power for walking, in the working process, the gear 14 is driven by the motor 21, and the whole transmission mechanism installation box 10 is driven to stably slide along the sliding rail 6 by the transmission fit between the gear 14 and the rack 13, so that the monitoring equipment is driven to move in a machine room area, and the monitoring area is enlarged.

Further, a bottom suspension rod 12 is installed at the bottom of the monitoring cabinet 9, a towing cable 11 is connected to the monitoring cabinet 9, and the towing cable 11 is supported on a towing chain support plate 22 of the first cross beam 4. The cable of the monitoring equipment can be protected by the towing cable 11, and the cable can be ensured to be bent along the sliding rail in the moving process, so that the safety of the cable is improved.

Furthermore, a first sensor 17 and a second sensor 18 for detecting the in-place signal of the top plate 8 are mounted at two ends of the first cross beam 4, the first sensor 17 and the second sensor 18 are respectively fixed on an angle plate 20 through a locking nut 16, and the angle plate 20 is fixed on the inner side wall of the first cross beam 4. The moving position of the top plate 8 can be detected by the first sensor 17 and the second sensor 18, when the moving position reaches the tail end of the sliding rail, the in-place signal is detected by the first sensor 17 and the second sensor 18, the action of the motor 21 is controlled by the in-place signal, and then the reverse direction of the motor is controlled, so that the purpose of controlling the reciprocating motion of the motor is achieved.

Further, an electric cabinet 19 is mounted at one end of the second cross beam 15. And the electric control box 19 is used for realizing automatic control.

Further, the motor 21 is a servo motor, and a driver of the servo motor is connected with the electric cabinet 19 through a signal line and controls the action of the motor. The control precision is improved by adopting the servo motor, the reciprocating motion of the servo motor is further facilitated, and finally the area of the whole machine room can be covered.

The using process of the invention is as follows:

installing the monitoring equipment inside the monitoring cabinet 9, adjusting the monitoring angle, starting the power device, driving the gear 14 through the motor 21, and driving the whole transmission mechanism installation box 10 to stably slide along the sliding rail 6 through the transmission fit between the gear 14 and the rack 13, so as to drive the monitoring equipment to move in a machine room area and expand the monitoring area; when the machine room moves to the end position of the slide rail 6, the in-place signal is detected by the first sensor 17 and the second sensor 18, the action of the motor 21 is controlled by the in-place signal, and the reverse direction of the motor is controlled, so that the aim of controlling the reciprocating motion of the motor is fulfilled.

Claims

1. Network computer lab circulation mobile monitoring device, its characterized in that: it includes parallel arrangement's first crossbeam (4) and second crossbeam (15), first crossbeam (4) and second crossbeam (15) are fixed continuous through the top of hoisting structure with the computer lab, the top of first crossbeam (4) and second crossbeam (15) all has parallel arrangement's slide rail (6) through cushion (5) fixed mounting respectively, install roof (8) through sliding fit on slide rail (6), monitoring cabinet (9) that are used for installing supervisory equipment are installed to the bottom of roof (8), install drive mechanism install bin (10) on the lateral wall of monitoring cabinet (9), drive mechanism install bin (10) internally mounted has and is used for driving whole roof (8) along the gliding power device of slide rail (6).

2. The network room circulation mobile monitoring device of claim 1, wherein: hoisting structure includes many jib (1) fixed linking to each other with the computer lab top, the bottom fixed mounting of jib (1) has connecting plate (2), the bottom symmetry of connecting plate (2) is fixed with L type hanger plate (3), support between L type hanger plate (3) and support installation first crossbeam (4) and second crossbeam (15) respectively.

3. The network room circulation mobile monitoring device of claim 1, wherein: and the four corners of the bottom of the top plate (8) are provided with sliding blocks (7), and the sliding blocks (7) are in sliding fit with the sliding rails (6).

4. The network room circulation mobile monitoring device of claim 1, wherein: the power device comprises a motor (21) fixed inside the transmission mechanism installation box (10), a gear (14) is installed on an output shaft of the motor (21), and the gear (14) and a rack (13) fixed on the inner side wall of the second cross beam (15) form gear transmission fit.

5. The network room circulation mobile monitoring device of claim 1, wherein: the bottom of the monitoring cabinet (9) is provided with a bottom suspension rod (12), a towing cable (11) is connected to the monitoring cabinet (9), and the towing cable (11) is supported on a towing chain supporting plate (22) of the first cross beam (4).

6. The network room circulation mobile monitoring device of claim 1, wherein: a first sensor (17) and a second sensor (18) for detecting in-place signals of the top plate (8) are mounted at two ends of the first cross beam (4), the first sensor (17) and the second sensor (18) are respectively fixed on an angle plate (20) through locking nuts (16), and the angle plate (20) is fixed on the inner side wall of the first cross beam (4).

7. The network room circulation mobile monitoring device of claim 1, wherein: an electric cabinet (19) is arranged at one end of the second cross beam (15).

8. The network room circulation mobile monitoring device of claim 4, wherein: the motor (21) adopts a servo motor, and a driver of the servo motor is connected with the electric cabinet (19) through a signal line and controls the action of the motor.