CN219549973U - Three-dimensional visual supervisory equipment of modularization data center - Google Patents

Abstract

The utility model discloses three-dimensional visual monitoring equipment of a modularized data center, which belongs to the technical field of three-dimensional visual monitoring equipment of the data center.

Description

Three-dimensional visual supervisory equipment of modularization data center

Technical Field

The utility model relates to the technical field of three-dimensional visual monitoring equipment of a data center, in particular to three-dimensional visual monitoring equipment of a modularized data center.

Background

Data centers are globally coordinated, specific equipment networks used to transfer, accelerate, display, calculate, store data information over the internet infrastructure, with most of the electronic components of the data center being run from low dc power.

The existing three-dimensional visual monitoring equipment of the modularized data center has the following problems: the existing three-dimensional visual monitoring equipment for the data center generally has no effect of adjusting the monitoring angle during monitoring, so that the monitored area is fixed, monitoring dead angles are easy to appear, and the applicability of the three-dimensional visual monitoring equipment for the data center is low, so that the three-dimensional visual monitoring equipment for the data center is inconvenient to use.

Disclosure of Invention

1. Technical problem to be solved

The utility model provides three-dimensional visual monitoring equipment for a modularized data center, which aims to solve the problems that the existing three-dimensional visual monitoring equipment for the data center generally does not have the effect of adjusting the monitoring angle during monitoring, so that the monitored area is fixed, the monitoring dead angle is easy to appear, the applicability of the three-dimensional visual monitoring equipment for the data center is low, and the use is inconvenient.

2. Technical proposal

The utility model is realized in such a way that the three-dimensional visual monitoring equipment of the modularized data center comprises a body, a connecting rod and a connecting plate, wherein the connecting rod is welded at the top of the body;

the angle adjusting mechanism comprises a first motor, a screw rod, a lifting plate, a lifting rod, a first rotating rod, a connecting block, a first camera, a fixed rod and a second rotating shaft, wherein the first motor is bolted to the inner top wall of the body, the screw rod is bolted to the output end of the first motor, the lifting plate is in threaded connection with the outside of the screw rod, the lifting rod is welded to the bottom of the lifting plate, the first rotating rod is rotationally connected to the bottom of the lifting rod, the connecting block is welded to the outer wall of the first rotating rod, the first camera is bolted to the bottom of the connecting block, the fixed rod is welded to the outer bottom wall of the body, the second rotating shaft is rotationally connected to the bottom of the fixed rod, and the second rotating shaft is rotationally connected to the top of the first camera.

In order to increase the monitoring range of the first camera, as a preferred three-dimensional visual monitoring device of the modularized data center, the observation assembly comprises a first gear, a second motor and a second gear, wherein the first gear is welded on the outer wall of the connecting rod, the second motor is bolted to the bottom of the connecting plate, the second gear is bolted to the output end of the second motor, and the first gear is meshed with the second gear.

In order to reduce friction of the lifting plate during lifting, the three-dimensional visual monitoring device of the modularized data center is preferable in the utility model, wherein two rotating wheels are rotatably connected in the lifting plate, and the rotating wheels are closely attached to the inner two side walls of the body.

In order to prevent the lifting plate from contacting with the inner bottom wall of the body when the lifting plate descends, the inner bottom wall of the body is preferably bonded with an elastic pad as the three-dimensional visual monitoring equipment of the modularized data center.

In order to increase the monitoring channel during monitoring, as a three-dimensional visual monitoring device of the modularized data center, preferably, the bottom of the screw is bolted with a second camera, and the bottom of the screw penetrates through the inside of the body and extends to the outside of the body.

In order to facilitate the fixing of the connecting plate during the installation, the three-dimensional visual monitoring equipment of the modularized data center is preferable in the utility model, bolts are distributed on the inner circumference of the connecting plate, and the bolts are bolted with the connecting plate.

In order to prevent the second camera from shaking when rotating, the three-dimensional visual monitoring equipment for the modularized data center is preferable in the utility model, a stabilizing circular groove is formed in the outer bottom wall of the body, and a stabilizing ring is bolted to the top of the second camera.

3. Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that:

this three-dimensional visual supervisory equipment of modularization data center through setting up body, connecting rod, connecting plate, angle adjustment mechanism and observing the subassembly, the cooperation of connecting rod and connecting plate is used when using, can make the body be convenient for install, when using, angle adjustment mechanism can make the inside supervisory equipment of body carry out the rotation of co-altitude, make supervisory equipment can be abundant monitor the article that needs to monitor, prevent to appear monitoring dead angle, through setting up the observing the subassembly, when using, the observing the subassembly can make the body rotatory, the body rotation drives the inside equipment rotation of body, the scope of control has been increased.

Drawings

FIG. 1 is an overall block diagram of the present utility model;

FIG. 2 is a left side view of the present utility model;

FIG. 3 is a perspective cross-sectional view of the utility model at A-A in FIG. 2;

FIG. 4 is a schematic view of a viewing assembly of the present utility model;

fig. 5 is an enlarged view of the utility model at a in fig. 3.

The reference numerals in the figures illustrate:

1. a body; 2. a connecting rod; 3. a connecting plate; 4. an angle adjusting mechanism; 5. an observation assembly; 6. a rotating wheel; 7. an elastic pad; 8. a second camera; 9. a bolt; 10. a stable circular groove; 11. a stabilizing ring; 401. a first motor; 402. a screw; 403. a lifting plate; 404. a lifting rod; 405. a first rotating lever; 406. a connecting block; 407. a first camera; 408. a fixed rod; 409. a second rotating shaft; 501. a first gear; 502. a second motor; 503. and a second gear.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1-5, the present utility model provides the following technical solutions: the three-dimensional visual monitoring equipment of the modularized data center comprises a body 1, a connecting rod 2 and a connecting plate 3, wherein the connecting rod 2 is welded at the top of the body 1, the connecting plate 3 is rotationally connected at the top of the connecting rod 2, an angle adjusting mechanism 4 is arranged in the body 1, and an observation assembly 5 is arranged at the top of the body 1;

the angle adjustment mechanism 4 comprises a first motor 401, a screw rod 402, a lifting plate 403, a lifting rod 404, a first rotating rod 405, a connecting block 406, a first camera 407, a fixed rod 408 and a second rotating shaft 409, wherein the first motor 401 is bolted to the inner top wall of the body 1, the screw rod 402 is bolted to the output end of the first motor 401, the lifting plate 403 is in threaded connection with the outside of the screw rod 402, the lifting rod 404 is welded to the bottom of the lifting plate 403, the first rotating rod 405 is rotationally connected to the bottom of the lifting rod 404, the connecting block 406 is welded to the outer wall of the first rotating rod 405, the first camera 407 is bolted to the bottom of the connecting block 406, the fixed rod 408 is welded to the outer bottom wall of the body 1, the second rotating shaft 409 is rotationally connected to the bottom of the fixed rod 408, and the second rotating shaft 409 is rotationally connected to the top of the first camera 407.

In this embodiment: through setting up body 1, connecting rod 2, connecting plate 3, angle adjustment mechanism 4 and observing subassembly 5, the cooperation of connecting rod 2 and connecting plate 3 is used when using, can make body 1 be convenient for install, when using, angle adjustment mechanism 4 can make the inside monitoring facilities of body 1 carry out the rotation of co-altitude, make monitoring facilities can be abundant monitor the article that needs to monitor, prevent to appear monitoring dead angle, through setting up observing subassembly 5, when using, observing subassembly 5 can make body 1 rotatory, body 1 rotatory drives the inside equipment rotation of body 1, the scope of control has been increased.

As a technical optimization scheme of the utility model, the observation assembly 5 comprises a first gear 501, a second motor 502 and a second gear 503, wherein the first gear 501 is welded on the outer wall of the connecting rod 2, the second motor 502 is bolted to the bottom of the connecting plate 3, the second gear 503 is bolted to the output end of the second motor 502, and the first gear 501 is meshed with the second gear 503.

In this embodiment: through setting up first gear 501, second motor 502 and second gear 503, when using, second motor 502 drives second gear 503 rotation, and second gear 503 meshes with first gear 501, so first gear 501 will drive connecting rod 2 and body 1 rotation, increases the monitoring scope of first camera 407.

As a technical optimization scheme of the utility model, two rotating wheels 6 are rotatably connected in the lifting plate 403, and the rotating wheels 6 are closely attached to the inner two side walls of the body 1.

In this embodiment: by providing the runner 6, the runner 6 can reduce friction between the lifter plate 403 and the inner side wall of the body 1 when the lifter plate 403 is lifted.

As a technical optimization scheme of the utility model, an elastic pad 7 is adhered to the inner bottom wall of the body 1.

In this embodiment: by providing the elastic pad 7, the elastic pad 7 can prevent the lifting plate 403 from being excessively lowered when the lifting plate 403 is lowered, thereby causing damage to the first camera 407.

As a technical optimization scheme of the utility model, the bottom of the screw 402 is bolted with the second camera 8, and the bottom of the screw 402 penetrates through the inside of the body 1 and extends to the outside of the body 1.

In this embodiment: by arranging the second camera 8, when the screw 402 rotates, the screw 402 drives the second camera 8 to rotate, so that the position which is not monitored by the first camera 407 can be monitored.

As a technical optimization scheme of the utility model, bolts 9 are distributed on the inner circumference of the connecting plate 3, and the bolts 9 are bolted with the connecting plate 3.

In this embodiment: through setting up bolt 9, when needs are installed fixedly body 1, can fix connecting plate 3 on external equipment through bolt 9, play the effect of being convenient for install.

As a technical optimization scheme of the utility model, a stabilizing circular groove 10 is formed in the outer bottom wall of the body 1, and a stabilizing ring 11 is bolted to the top of the second camera 8.

In this embodiment: through setting up stable circular slot 10 and stable ring 11, when second camera 8 is rotatory, can make second camera 8 rotatory along stable circular slot 10, increased the stability of second camera 8.

Working principle: when monitoring is needed, the first motor 401 is started first, the first motor 401 drives the screw 402 to rotate, because the lifting plate 403 is in threaded connection with the screw 402, when the screw 402 rotates, the lifting plate 403 will lift, the lifting rod 404, the first rotating rod 405, the connecting block 406 and the first camera 407 will lift when the lifting plate 403 lifts, then the first camera 407 rotates through the second rotating shaft 409, so as to achieve the effect of adjusting the monitoring angle, when the monitoring range needs to be enlarged, the second motor 502 can be started to drive the second gear 503 to rotate, the second gear 503 is meshed with the first gear 501, so the first gear 501 will drive the connecting rod 2 and the body 1 to rotate, and the monitoring range of the first camera 407 is increased.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The utility model provides a three-dimensional visual supervisory equipment of modularization data center, includes body (1), connecting rod (2) and connecting plate (3), its characterized in that: the connecting rod (2) is welded at the top of the body (1), the connecting plate (3) is rotationally connected at the top of the connecting rod (2), an angle adjusting mechanism (4) is arranged in the body (1), and an observation assembly (5) is arranged at the top of the body (1);

the angle adjusting mechanism (4) comprises a first motor (401), a screw rod (402), a lifting plate (403), a lifting rod (404), a first rotating rod (405), a connecting block (406), a first camera (407), a fixed rod (408) and a second rotating shaft (409), wherein the first motor (401) is bolted to the inner top wall of the body (1), the screw rod (402) is bolted to the output end of the first motor (401), the lifting plate (403) is in threaded connection with the outside of the screw rod (402), the lifting rod (404) is welded to the bottom of the lifting plate (403), the first rotating rod (405) is rotationally connected to the bottom of the lifting rod (404), the connecting block (406) is welded to the outer wall of the first rotating rod (405), the first camera (407) is bolted to the bottom of the connecting block (406), the fixed rod (408) is welded to the outer bottom wall of the body (1), the second rotating shaft (409) is rotationally connected to the bottom of the fixed rod (408), and the second rotating shaft (409) is rotationally connected to the top of the first camera (407).

2. A modular data center three-dimensional visualization monitoring device as defined in claim 1, wherein: the observation assembly (5) comprises a first gear (501), a second motor (502) and a second gear (503), wherein the first gear (501) is welded on the outer wall of the connecting rod (2), the second motor (502) is bolted to the bottom of the connecting plate (3), the second gear (503) is bolted to the output end of the second motor (502), and the first gear (501) is meshed with the second gear (503).

3. A modular data center three-dimensional visualization monitoring device as defined in claim 1, wherein: the inside rotation of lifter plate (403) is connected with two runner (6), runner (6) are closely laminated with the interior both sides wall of body (1).

4. A modular data center three-dimensional visualization monitoring device as defined in claim 1, wherein: an elastic pad (7) is adhered to the inner bottom wall of the body (1).

5. A modular data center three-dimensional visualization monitoring device as defined in claim 1, wherein: the bottom of screw rod (402) is bolted with second camera (8), the inside of body (1) is run through to the bottom of screw rod (402) and extends to the outside of body (1).

6. A modular data center three-dimensional visualization monitoring device as defined in claim 1, wherein: bolts (9) are distributed on the inner circumference of the connecting plate (3), and the bolts (9) are bolted with the connecting plate (3).

7. A modular data center three-dimensional visualization monitoring device as defined in claim 5, wherein: a stabilizing circular groove (10) is formed in the outer bottom wall of the body (1), and a stabilizing ring (11) is bolted to the top of the second camera (8).