CN210636741U

CN210636741U - Perforated floor capable of monitoring airflow direction under machine room floor in real time

Info

Publication number: CN210636741U
Application number: CN201920873193.XU
Authority: CN
Inventors: 时冰伟; 杨起松; 张士蒙; 任群
Original assignee: Phoenix Shanghai Environment Control Technology Co ltd
Current assignee: Phoenix Shanghai Environment Control Technology Co ltd
Priority date: 2019-06-12
Filing date: 2019-06-12
Publication date: 2020-05-29
Anticipated expiration: 2029-06-12

Abstract

The utility model discloses a perforated floor capable of monitoring the airflow direction under the floor of a machine room in real time, which comprises a plate body, wherein the bottom surface of the plate body is fixed with a frame, the inside of the frame is provided with an integrated reinforced rib, the surface of the reinforced rib is connected with a wind direction rod, the bottom of the wind direction rod is fixed with a rotating shaft, the longitudinal axis of the rotating shaft is sleeved with a supporting column, the surface of the rotating shaft is sleeved with a wind vane, one end of the wind vane is provided with an arrow mark which is convenient for site personnel to directly observe the airflow direction, the other end of the wind vane is provided with a wind sensing plate which senses the airflow direction and drives the wind vane to rotate, thereby being convenient for the machine room operation, the air flow organization structure of the data center machine room is optimized, the air inlet/cold points of the cabinet are eliminated, the overall energy utilization rate of the machine room is improved, the air flow organization structure is a good innovation scheme, and the air flow organization structure has a good market popularization prospect.

Description

Perforated floor capable of monitoring airflow direction under machine room floor in real time

Technical Field

The utility model relates to a computer lab heat dissipation technical field, in particular to but trompil floor of real-time supervision computer lab underfloor airflow direction.

Background

In order to prevent the electronic equipment from being influenced by strong electromagnetic interference sources such as direct lightning or high-voltage high-frequency transmission lines, high-power motors, displays, strong magnetic fields and the like to cause that the equipment cannot work or work abnormally, and the equipment is damaged when the equipment is in the worst condition, the arrangement of a special machine room for the electronic equipment has become a current trend. The cooling system of the electronic equipment in the closed machine room is an extremely important ring, which affects the safe operation and service life of the electronic equipment and is also a ring which is easy to ignore. The general cooling system in the machine room is arranged in a floor air supply mode, namely, a floor system of the machine room is constructed, and indoor equipment is cooled by air blowing through a channel arranged below the floor of the machine room.

For a data center machine room adopting under-floor air supply, the quality of the under-floor air flow organization can have important influence on the flow field of the whole machine room and the cooling effect of equipment. If the direction of the air flow below the floor can be monitored in time, the influence factors (such as air conditioners from which the air conditioner is located and the influence of obstacles under the floor on which the air conditioner is located) of the floor air supply at the position can be effectively judged, and the method is helpful for operation and maintenance of the machine room and energy-saving reconstruction personnel to take measures in time so as to optimize the air flow organization structure of the machine room of the data center, eliminate the air inlet/cold point of the cabinet and improve the overall energy utilization rate of the machine room.

It is known that, currently, a streamer or an anemometer is mostly adopted to measure the direction of the airflow under the floor, but both methods are limited to temporary measurement and cannot realize real-time monitoring. In addition, the influence of the size of the opening of the floor is large in the streamer method and the anemometer method, and for some floors with small openings, the probe or the streamer cannot be directly extended to the position below the floor, and the floor at the position can be removed for measurement, so that the measurement efficiency is reduced, and on the other hand, the airflow field is influenced by removing the floor, and the measurement uncertainty is caused. Has the defects that the actual requirements cannot be met.

In summary, in view of the problems in the prior art, a perforated floor capable of monitoring the airflow direction under the floor of a machine room in real time is particularly needed to solve the deficiencies in the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but trompil floor of real-time supervision computer lab underfloor airflow direction, the modern design, simple structure, the computer lab fortune of being convenient for dimension and energy-conserving transformation personnel know underfloor airflow direction in real time to carry out effectual management and optimization to the air current organization and the energy consumption of data center computer lab, the practicality is excellent, has solved the defect of prior art.

In order to achieve the above purpose, the technical solution of the present invention is as follows:

the utility model provides a but trompil floor of real-time supervision computer lab underfloor airflow direction, which comprises a plate body, the bottom surface of plate body is fixed with the frame, the inside strengthening rib strip that is provided with integrated into one piece of frame, strengthening rib strip surface connection has the wind direction pole, the bottom of wind direction pole is fixed with the pivot, the support column has been cup jointed to the vertical axle center department of pivot, the wind vane is cup jointed on the pivot surface, the surface of support column sets up to the smooth cylinder of wind vane pivoted of being convenient for, the wind vane adopts light material to make, wind vane one end is provided with the arrow point sign of the on-the-spot personnel direct observation airflow direction of being convenient for, the wind vane other end is provided with perception airflow direction and.

Further, the length of the wind vane is smaller than the distance between the adjacent wind direction rods.

Furthermore, the circumference of the wind vane does not exceed the installation outer edge of the plate body.

Furthermore, the arrow mark is formed by the butt joint of the horizontal direction and the vertical direction, and the wind direction sensing plate is arrow-shaped.

Furthermore, the reinforcing rib strips and the wind direction rod are connected by threads or welded to form, and the wind direction rod and the reinforcing rib strips are vertically arranged.

Furthermore, the inner wall of wind direction pole bottom is seted up there is the internal thread, and the external screw thread has been seted up at the top of support column, and the boss that is used for supporting the wind vane is seted up to the bottom of support column, and the external screw thread is screwed up and is accomplished the fixed between wind direction pole and the support column in the internal thread.

Furthermore, the material that the wind vane adopted is the plastic.

Furthermore, the number of the wind direction rods is 1-6, and the arrangement of the adjacent wind direction rods is linear.

Further, the plate body adopts unified specification, and the shape of plate body is the square, and the gas pocket of transmission air conditioning is seted up on the plate body surface, and the gas pocket adopts waist shape hole or circular port.

Furthermore, the wind vane and the rotating shaft are connected in a splicing mode.

The utility model has the advantages that: the novel design, simple structure, the computer lab fortune of being convenient for maintenance and energy-conserving transformation personnel know the underfloor airflow direction in real time to optimize the air current organizational structure of data center computer lab, eliminate the rack and advance wind heat/cold spot, improve the whole energy utilization ratio of computer lab, the practicality is excellent, is a fine innovation scheme, has very much the marketing prospect.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments:

FIG. 1 is a back structure view of the floor of the present invention;

FIG. 2 is a front structural view of the floor of the present invention;

FIG. 3 is a diagram of the structure of the vane of the present invention;

fig. 4 is a drawing showing a split structure of the rotating shaft of the present invention.

In the figure 100-plate body; 110-air holes; 120-a frame; 130-wind direction pole; 140-wind vane, 150-wind sensing plate, 160-arrow mark, 170-rotating shaft, 180-reinforcing rib and 190-supporting column.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

As shown in fig. 1, 2, 3, and 4, a perforated floor capable of monitoring an airflow direction under a floor of a machine room in real time includes a plate body 100, a frame 120 is fixed to a bottom surface of the plate body 100, the plate body 100 is installed above the frame 120, the frame 120 is connected to the frame 120 by welding, the frame 120 is used for supporting a structure of the whole floor and can bear a certain load, an integrally formed reinforcing rib 180 is disposed inside the frame 120, a wind direction rod 130 is connected to a surface of the reinforcing rib 180, a wind vane 140 is connected to the wind direction rod 170 by plugging, a rotating shaft 170 is fixed to a bottom of the wind direction rod 130, a supporting column 190 is sleeved on a longitudinal axis of the rotating shaft 170, a wind vane 140 is sleeved on a surface of the rotating shaft 170, a smooth cylinder for facilitating rotation of the wind vane 140 is disposed on the surface of the supporting column 190, the wind vane 140 is made of plastic, an arrow mark 160 for facilitating direct observation, the other end of the wind vane 140 is provided with a wind sensing plate 150 for sensing the direction of the airflow and driving the wind vane 140 to rotate, and the wind vane 140 is used for indicating the direction of the airflow.

The arrow indicator 160 consists of a horizontally oriented and vertically oriented arrow that interfaces to facilitate the field personnel viewing the direction of airflow directly from above the floor. The wind sensing plate 150 is shaped like an arrow, and the wind sensing plate 150 is used for sensing the direction of the airflow and driving the vane to rotate.

The wind vane 140 is connected with the rotating shaft 170, the rotating shaft 170 is mainly used for supporting the wind vane 140 and connecting the wind vane 140 with the wind rod 130, inner threads are formed in the inner wall of the bottom of the wind rod 130, outer threads are formed in the top of the supporting column 190, a boss used for supporting the wind vane 140 is formed in the bottom of the supporting column 190, the outer threads are screwed on the inner threads to complete fixing between the wind rod 130 and the supporting column 190, and a smooth section is formed in the middle of the rotating shaft 170 so as to reduce friction resistance when the wind vane 140 rotates.

The quantity of wind direction pole 140 is 1-6, and arranging of adjacent wind direction pole 140 is the linearity, the utility model discloses the optimal scheme wind direction pole quantity is five, and four wind direction poles distribute in four angles of frame, and another one wind direction pole sets up in the middle of, adopts threaded connection or welded forming between strengthening rib strip 140 and the wind direction pole 140, and wind direction pole 140 and strengthening rib strip 180 set up perpendicularly.

The length of the wind vane 140 is smaller than the distance between the adjacent wind direction rods 130, and the size and the installation position of the wind vane 140 meet the above conditions, so that the wind vanes do not interfere with each other in the rotating process, and the phenomenon of jamming is prevented. The wind vane 140 rotates around a circumference not exceeding the mounting outer edge of the plate body 100. To facilitate quick installation and removal of the floor.

Plate body 100 adopts unified specification, and plate body 100's shape is the square, and plate body 100 surface is seted up the gas pocket 110 of transmission air conditioning, and gas pocket 110 adopts waist shape hole or circular port, can set up the aperture of different diameters and quantity according to the difference of floor percent opening to ensure under various incoming flow circumstances, the user homoenergetic conveniently follows the floor top and looks over the air current direction.

The perforated floor has the characteristics of capability of monitoring the airflow direction under the floor in real time, reliable structure, sensitive reaction, good visibility and maintainability and the like.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a but trompil floor of real-time supervision computer lab underfloor airflow direction, includes the plate body, and the bottom surface of plate body is fixed with frame, its characterized in that: the inside strengthening rib strip that is provided with integrated into one piece of frame, strengthening rib strip surface connection has the wind direction pole, the bottom of wind direction pole is fixed with the pivot, the support column has been cup jointed in the vertical axle center department of pivot, the wind vane is cup jointed on the pivot surface, the surface of support column sets up to the smooth cylinder of the wind vane pivoted of being convenient for, the wind vane adopts the light material to make, wind vane one end is provided with the arrow point sign of the on-the-spot personnel direct observation air current direction of being convenient for, the wind vane other end is provided with perception air current direction and drives the rotatory wind direction of wind vane and feels the board.

2. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the length of the wind vane is smaller than the distance between the adjacent wind direction rods.

3. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the circumference of the wind vane does not exceed the installation outer edge of the plate body.

4. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the arrow mark is formed by butting arrows in the horizontal direction and the vertical direction, and the wind direction sensing plate is arrow-shaped.

5. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: adopt threaded connection or welded molding between strengthening rib strip and the wind direction pole, wind direction pole and strengthening rib strip set up perpendicularly.

6. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the inner wall of wind direction pole bottom is seted up there is the internal thread, and the external screw thread has been seted up at the top of support column, and the boss that is used for supporting the wind vane is seted up to the bottom of support column, and the external screw thread is screwed up and is accomplished the fixed between wind direction pole and the support column in the internal thread.

7. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the wind vane is made of plastic.

8. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the number of the wind direction rods is 1-6, and the arrangement of the adjacent wind direction rods is linear.

9. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the plate body adopts unified specification, and the shape of plate body is the square, and the gas pocket of transmission air conditioning is seted up on plate body surface, and the gas pocket adopts waist shape hole or circular port.

10. The perforated floor capable of monitoring the airflow direction under the floor of the machine room in real time according to claim 1, characterized in that: the wind vane and the rotating shaft are connected in a splicing mode.