CN210638254U - Perforated floor capable of blocking incoming flow in certain specific direction - Google Patents

Abstract

The utility model discloses a can block trompil floor that a certain specific direction came, which comprises a plate body, the deep bead, the welding of plate body bottom surface has the frame that bears load, and threaded hole has all been seted up to frame medial surface all around, and it is protruding that the circular arc has been seted up to one side of deep bead, and the opposite side of deep bead is seted up and is convenient for superimposed screw thread through-hole between the deep bead, and the corresponding thru hole with the threaded hole position is seted up on the bellied surface of circular arc, and thru hole and threaded hole butt joint pass through the bolt fastening, constitute the structure of keeping. The novel design can block the incoming flow of a certain specific direction under the floor through different configurations, avoids the influence of the incoming flow of the direction on the air outlet of the floor, optimizes the air flow organization of the data center and the cooling effect of the equipment, is a good innovative scheme, and has great market promotion prospect.

Description

Perforated floor capable of blocking incoming flow in certain specific direction

Technical Field

The utility model relates to a computer lab heat dissipation technical field, in particular to can block trompil floor that a certain specific direction came flow.

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. To some computer rooms that adopt the modularization air conditioner, when the compressor of a certain module was out of work, its air-out temperature was equal to air conditioner return air temperature basically, can cause the inflow temperature of a certain specific direction under the floor higher from this, leads to the air-out temperature on floor to promote, is unfavorable for the cooling of computer lab equipment, and in addition, to some computer rooms, its floor still can have stronger torrent to the outflow, causes the disturbance to the floor air output, causes the amount of wind not enough, can not satisfy actual needs.

In view of the above, there is a need for an open-hole floor that can block the incoming flow in a specific direction to solve the problems of the prior art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can block trompil floor that a certain specific direction came, the modern design can block the coming current of a certain specific direction under the floor through the configuration of difference, when the compressor of a certain module was out of work to ensure the cooling effect of computer lab, practicality is excellent, has solved prior art's defect.

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

the utility model provides a can block trompil floor that certain specific direction came flow, which comprises a plate body, the deep bead, the welding of plate body bottom surface has the frame that bears the load, the screw thread mouth has all been seted up to frame medial surface all around, it is protruding that the circular arc has been seted up to one side of deep bead, superimposed screw thread through-hole between the deep bead of being convenient for is seted up to the opposite side of deep bead, the bellied surface of circular arc has been seted up with the corresponding thru hole in screw thread mouth position, the thru hole passes through the bolt fastening with the butt joint of screw.

Further, the number of the screw openings is 16, and the distance between every two adjacent screw openings is the same.

Furthermore, the included angle between the wind shield and the arc bulge is zero degree or 45 degrees.

Further, the longitudinal axes of the threaded through hole and the through hole are in the same straight line.

Further, the surface structure of the thread opening is a flaring-shaped structure matched with the arc bulge.

Furthermore, the wind shield is made of a stainless steel plate or a plastic plate.

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.

The utility model has the advantages that: the novel design, simple structure can block the incoming flow of a certain specific direction under the floor through the configuration of difference, avoids the influence of the incoming flow of this direction to the floor air-out, optimizes data center's air current organization and the cooling effect of equipment, and 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 structural view of the wind deflector of the present invention.

Fig. 4 is a structural view of the lengthened wind deflector of the present invention.

Fig. 5 is a structure diagram of the diagonal flow arrangement of the present invention.

Fig. 6 is a diagram of the flow-shifting arrangement of the present invention with 45 degrees inclined.

Fig. 7 is a structural diagram of the parallel flow arrangement of the present invention.

In the figure 100-plate body; 110-a frame; 120-pores; 130-wind deflector; 140-threaded port, 150-threaded through hole, 160-bolt, 170-circular arc bulge and 180-through hole.

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.

Example 1:

as shown in fig. 1, 2, and 3, a perforated floor capable of blocking incoming flow in a specific direction includes a plate body 100 and a wind shield 130, a frame 110 for bearing load is welded to the bottom surface of the plate body 100, screw ports 140 are formed on inner side surfaces of the periphery of the frame 110, the screw ports 140 are used for connecting the wind shield 130, the wind shield 130 is installed below the frame 110, an arc protrusion 170 is formed on one side of the wind shield 130, through holes 180 corresponding to the positions of the screw ports 140 are formed on the surface of the arc protrusion 170, the through holes 180 and the screw ports 140 are fixed by bolts 160 in a butt joint manner to form a wind shield structure for incoming flow in a specific direction, incoming flow in a specific direction under the floor can be effectively blocked, expandability is high, installation is convenient, and flexible configuration can be performed according to actual conditions of.

In addition, the number of the screw ports 140 is 16, and the intervals between the adjacent screw ports 140 are the same. The four sides of the frame are four per side. The angle between the wind deflector 130 and the circular arc protrusion 170 is zero degrees.

The surface structure of the screw mouth 140 is a flare-like structure that fits the circular arc protrusion 150. The wind shield 130 is made of a stainless steel plate or a plastic plate. The plate body 100 adopts a uniform specification, the shape of the plate body 100 is square, the surface of the plate body 100 is provided with air holes 120 for transmitting cold air, the air holes 120 adopt waist-shaped holes or circular holes, and small holes with different diameters and quantities can be formed according to different floor opening rates.

Example 2:

as shown in fig. 4, threaded through hole 150 convenient for superposition between the wind shields is opened to the opposite side of wind shield 130 to wind shield 130's extension extends, and threaded through hole 150 and through hole 180's vertical axle center are in same straight line, and it is fixed to be convenient for superpose between the wind shields, and according to the circumstances of the flow that comes of different computer lab floors, polylith wind shield 130 accessible threaded through hole 150 connects, increases holistic height of keeping out the wind, thereby stops this direction more effectively and flows.

Example 3: as shown in FIG. 5, the 90 diagonal flow arrangement can block two 90 diagonal flows under the floor.

Example 4: as shown in fig. 6, the included angle between the wind deflector 130 and the arc protrusion 170 is 45 degrees, and the wind deflector can be effectively mounted on the frame to form an oblique 45-degree flow-blocking configuration, which can effectively block the incoming flow in the 45-degree angle direction.

Example 5: as shown in fig. 7, the parallel flow-blocking configuration can block the incoming flow in the vertical direction, and force the underfloor airflow in the area to flow in the horizontal direction.

The utility model has the advantages that: the novel design, simple structure can block the incoming flow of a certain specific direction under the floor through the configuration of difference, avoids the influence of the incoming flow of this direction to the floor air-out, optimizes data center's air current organization and the cooling effect of equipment, and the practicality is excellent, is a fine innovation scheme, has very much the marketing prospect.

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 (7)

1. An open pore floor capable of blocking incoming flow in a specific direction, which is characterized in that: the wind shield comprises a plate body, a wind shield, wherein a frame bearing load is welded on the bottom surface of the plate body, threaded openings are formed in the inner side surfaces of the periphery of the frame, a circular arc bulge is formed in one side of the wind shield, a threaded through hole which is convenient to overlap between the wind shields is formed in the other side of the wind shield, through holes corresponding to the threaded openings are formed in the surface of the circular arc bulge, and the through holes and the threaded openings are in butt joint and fixed through bolts to form a wind shielding structure for.

2. An open-cell floor as claimed in claim 1, wherein said floor is adapted to block incoming flow in a particular direction, and wherein: the number of the screw openings is 16, and the intervals between the adjacent screw openings are the same.

3. An open-cell floor as claimed in claim 1, wherein said floor is adapted to block incoming flow in a particular direction, and wherein: the included angle between the wind shield and the arc bulge is zero degree or 45 degrees.

4. An open-cell floor as claimed in claim 1, wherein said floor is adapted to block incoming flow in a particular direction, and wherein: the longitudinal axes of the threaded through hole and the through hole are in the same straight line.

5. An open-cell floor as claimed in claim 1, wherein said floor is adapted to block incoming flow in a particular direction, and wherein: the surface structure of the thread opening is a flaring-shaped structure matched with the arc bulge.

6. An open-cell floor as claimed in claim 1, wherein said floor is adapted to block incoming flow in a particular direction, and wherein: the wind shield is made of a stainless steel plate or a plastic plate.

7. An open-cell floor as claimed in claim 1, wherein said floor is adapted to block incoming flow in a particular direction, and wherein: 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.

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