CN219574765U - Server wind scooper and server - Google Patents

Abstract

The utility model discloses a server wind scooper and a server, which are used for realizing attractive wire arrangement without affecting wind guiding and heat dissipation of the wind scooper. The wind scooper comprises a wind scooper body, at least two wire fixing buckles and a plurality of bolts; the upper part of the wind scooper body is provided with a main wind channel, a first side wind channel, a second side wind channel, a third side wind channel and a fourth side wind channel for guiding flow; a supporting plate is arranged at the lower part of the wind scooper body, so that an accommodating space routing physical line and a shielding physical line are reserved between the lower part of the wind scooper body and the bottom of the server case; the lower end of the air outlet of the main air duct is connected with a fixed line clip which is used for fixing a physical line; the upper end of each air inlet of the air guide cover body is provided with a cover body, a plurality of bolt holes are uniformly distributed on the cover body, and bolts are positioned in the bolt holes and are matched and fixed with the cooling fan through the bolts; u-shaped holes are formed in two sides of the air guide cover body, and the air guide cover body is fixed in the server case through the cooperation of the U-shaped holes and the I-shaped nails at the bottom of the server case.

Description

Server wind scooper and server

Technical Field

The utility model relates to the field of server equipment, in particular to a server wind scooper and a server.

Background

As the functions of the server become more powerful, the component configuration becomes more and more, the power consumption becomes larger, and the heat dissipation requirement of the whole system is also higher. At this time, the air guide cover is required to guide the air flow in the server case, so that important core components in the server case radiate heat preferentially to maintain the normal operation of the server. Thus, the wind scooper is an important component of all servers that are required for use in substantially all servers.

The more powerful the server, the more densely the distribution of the parts inside the server is required, and at present, the wind scooper is generally arranged between the fan and the adapter card, and various physical high-speed lines and power lines of the server exist between the wind scooper and the adapter card.

However, the existing wind scoopers can only conduct simple zoned wind guiding and heat dissipation in the case, and cannot solve the problem of how to reasonably run physical wires and power wires, and the wind guiding quality of the wind scoopers is affected.

Disclosure of Invention

In order to solve the problems, the utility model provides a server wind scooper and a server, which are used for improving the wind scooper wind guiding quality.

The first aspect of the present utility model provides a server wind scooper, the server wind scooper comprising:

the wind scooper comprises a wind scooper body, at least two wire fixing buckles and a plurality of bolts;

the upper part of the wind scooper body is provided with a main wind channel, a first side wind channel, a second side wind channel, a third side wind channel and a fourth side wind channel, the first side wind channel and the second side wind channel are symmetrically arranged on two sides of the main wind channel, the third side wind channel is positioned on one side of the first side wind channel far away from the main wind channel, and the fourth side wind channel is positioned on one side of the second side wind channel far away from the main wind channel;

the main air duct, the first side air duct, the second side air duct, the third side air duct and the fourth side air duct are respectively provided with a corresponding air guide channel, and an air inlet of each air guide channel corresponds to an air outlet of a cooling fan of the server and is used for guiding air blown out by the corresponding fan into the server through the air guide channels to guide and dissipate heat in the server;

the lower part of the wind scooper body is provided with a supporting plate, so that when the wind scooper body is installed in the server case, an accommodating space is reserved between the lower part of the wind scooper body and the bottom of the server case, and the accommodating space is used for routing physical wires and shielding the physical wires;

the lower end of the air outlet of the main air duct is connected with the fixing line clamp, and the fixing line clamp is used for fixing the physical line;

the upper end of the air inlet of each air channel of the air guide cover body is provided with a cover body, a plurality of bolt holes are uniformly distributed on the cover body, and bolts are positioned in the bolt holes and are used for being matched and fixed with the cooling fan through the bolts when the air guide cover is installed in a server;

u-shaped holes are formed in two sides of the wind scooper body, and the wind scooper body is matched with I-shaped nails at the bottom of the server case through the U-shaped holes to fix the wind scooper body in the server case.

Optionally, the front ends of the air outlets of the first side air duct and the second side air duct are respectively provided with a breakable plate, and the breakable plates are used for accommodating radiators with different specifications and sizes in an adapting manner.

Optionally, the first side air duct comprises a first top cover plate positioned at the top, first side wall cover plates at two sides and a first bottom cover plate at the bottom;

the first top cover plate is connected with the first side wall cover plate, and the first bottom cover plate is positioned below the first top cover plate and connected with the first side wall cover plate to form an air guide channel with an air inlet and an air outlet;

the front end of the air outlet of the first bottom cover plate is connected with the breakable plate, and the first bottom cover plate is matched with the breakable plate to be used for accommodating radiators with different specifications and sizes.

Optionally, the first top cover plate is disposed parallel to the first bottom cover plate, and the first sidewall cover plate is disposed perpendicular to the first top cover plate.

Optionally, the front end of the air outlet of the fourth side air duct is provided with a fourth bottom cover plate, a square clamping groove is formed in the fourth bottom cover plate, the square clamping groove is used for installing a BBU battery of the standby power supply unit, and the fourth side air duct is used for guiding air corresponding to the fan to the BBU battery to cool the BBU battery.

Optionally, a main bottom cover plate is arranged at the front end of the air outlet of the main air duct, and a third bottom cover plate is arranged at the front end of the air outlet of the third side air duct;

and the main bottom cover plate and the third bottom cover plate are respectively provided with a mounting hole, and the mounting holes are used for mounting and fixing the mechanical HDD hard disk.

Optionally, the main air duct comprises a main air outlet mask, and the main air outlet mask is a smooth inclined plate;

at least 2 air outlets are arranged on the main air outlet cover;

the main air outlet mask is inclined downwards from the top and is connected with the main bottom cover plate.

Optionally, the main air duct, the first side air duct, the second side air duct, the third side air duct and the fourth side air duct are mutually communicated.

Optionally, the air outlet widths of the first side air duct and the second side air duct are larger than the air outlet widths of the third side air duct and the fourth side air duct.

A second aspect of the present utility model provides a server comprising: the server wind scooper, the chassis and the plurality of heat dissipation fans arranged side by side according to any one of the first aspect;

the case comprises a case bottom shell and a case cover plate;

the server wind scooper and the cooling fan are positioned in the chassis bottom shell;

the plurality of cooling fans are arranged at the air inlet of the server air guide cover side by side, and the air outlet of the cooling fans corresponds to the air inlet of the server air guide cover;

the server wind scooper is matched with the I-shaped nails of the chassis bottom shell through U-shaped holes arranged on two sides of the server wind scooper, and the server wind scooper is fixedly arranged on the chassis bottom shell;

the server wind scooper is fixedly connected with the cooling fan by inserting a bolt arranged on the server wind scooper into a fan bolt hole of the cooling fan;

the chassis comprises a server physical line, wherein the server physical line is fixed through a fixed line fastener of the server wind scooper and is placed in an accommodating space formed by the server wind scooper and the chassis bottom shell;

the case cover plate is covered with the case bottom shell, and the cooling fan and the server wind scooper are fixedly arranged in the case.

From the above technical scheme, the utility model has the following advantages:

the upper part of the server wind scooper is provided with each wind guide channel for guiding wind by the main wind channel, the first side wind channel, the second side wind channel, the third side wind channel and the fourth side wind channel, and the wind guide channels are used for guiding the wind in the server to realize heat dissipation. The lower part of the server is provided with a supporting plate, so that an accommodating space is reserved between the lower part of the wind scooper body and the bottom of the server case when the wind scooper body is installed on the server, and physical wires are routed and shielded through the accommodating space. Meanwhile, the lower end of the air outlet of the main air duct is connected with a wire fixing buckle, and a physical wire is fixed through the wire fixing buckle, so that the internal circuit of the server is tidy. Therefore, the design of wind guiding and heat dissipation of the wind scooper is not affected while attractive wire arrangement is realized, the wind guiding quality is improved, and the wind scooper has good practicability.

Drawings

FIG. 1 is a schematic perspective and front view of an embodiment of a wind scooper of a server according to the present utility model;

FIG. 2 is a schematic top view of an embodiment of a server wind scooper according to the present utility model;

FIG. 3 is a schematic diagram of an overall assembly (chassis cover not shown) of a server according to the present utility model;

fig. 4 is a schematic diagram of an overall assembly and disassembly structure of the server according to the present utility model.

The meaning of each reference symbol in the specification is as follows: 100-a server wind scooper; 200-a bottom shell of the case; 300-a heat dissipation fan; 400-case cover plate; 1-a wind scooper body; 2-fixing wire buckle; 3-a bolt; 10-a main air duct; 11-a first side air duct; 12-a second side air duct; 13-a third side air duct; 14-a fourth side air duct; 15-supporting plates; a 16-U-shaped hole; 17-a frangible panel; 18-square clamping grooves; 19-mounting holes.

Detailed Description

The utility model provides a server wind scooper and a server, which are used for realizing attractive wire arrangement, simultaneously not influencing the wind scooper wind guiding and heat dissipating design, improving the wind guiding quality and having good practicability.

In the present utility model, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely used to illustrate the relative positional relationships between the components or portions, and do not particularly limit the specific mounting orientations of the components or portions.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present utility model will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the structures, proportions, sizes, etc. shown in the drawings are shown only in connection with the present disclosure for the purpose of understanding and reading by those skilled in the art, and are not intended to limit the scope of the utility model, which is defined by the appended claims, so that any structural modifications, proportional changes, or dimensional adjustments should not be made in the essential significance of the present disclosure without affecting the efficacy or achievement of the present utility model.

Furthermore, the terms "first," "second," "third," and the like in this description, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the utility model described herein are capable of operation in other sequences than described or illustrated herein.

The following description of the embodiments of the present utility model will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 2, the server wind scooper provided by the present utility model includes:

the wind scooper comprises a wind scooper body 1, at least two fixing line buckles 2 and a plurality of bolts 3; the upper part of the wind scooper body 1 is provided with a main wind channel 10, a first side wind channel 11, a second side wind channel 12, a third side wind channel 13 and a fourth side wind channel 14, wherein the first side wind channel 11 and the second side wind channel 12 are symmetrically arranged on two sides of the main wind channel 10, the third side wind channel 13 is positioned on one side of the first side wind channel 11 far away from the main wind channel 10, and the fourth side wind channel 14 is positioned on one side of the second side wind channel 12 far away from the main wind channel 10; the main air duct 10, the first side air duct 11, the second side air duct 12, the third side air duct 13 and the fourth side air duct 14 are respectively provided with a corresponding air guide channel, and an air inlet of each air guide channel corresponds to an air outlet of the cooling fan 300 of the server, so that air blown by the corresponding fan is guided to the inside of the server through the air guide channels to guide and dissipate heat of the inside of the server.

The lower part of the wind scooper body 1 is provided with a supporting plate 15, so that when the wind scooper body 1 is installed in the server chassis, an accommodating space is reserved between the lower part of the wind scooper body 1 and the bottom of the server chassis bottom shell 200, and the accommodating space is used for routing physical wires and shielding the physical wires. Specifically, a supporting plate 15 may be disposed at the lower portion of the connection between the first side air duct 11 and the third side air duct 13, and a supporting plate 15 may be disposed at the lower portion of the connection between the second side air duct 12 and the fourth side air duct 14, so that an accommodating space is left between the bottoms of the left and right sides of the air guiding cover body 1 and the side wall of the chassis bottom shell 200, and the accommodating space is used for routing various physical wires contained in the server and shielding the physical wires, so as to prevent the physical wires from being placed in the chassis in a disordered manner to generate contact friction with devices on the motherboard in the chassis. In addition, the lower extreme of the air outlet of main wind channel 10 is connected with the solid line buckle 2, and this solid line buckle 2 is used for fixed physical line. Specifically, two fixing line buckles 2 are arranged at the lower end of the air outlet of the main air duct 10, so that physical lines on the server are respectively arranged and fixed, and are distributed into the accommodating space to be placed, and the inside of the server is tidier.

Wherein, the main air duct 10, the first side air duct 11, the second side air duct 12, the third side air duct 13 and the fourth side air duct 14 of the air guiding cover body 1 are provided with cover bodies at the upper ends of the air inlets, and the cover bodies can be integrally formed plate-type cover covers extending towards the direction of the cooling fan. A plurality of bolt holes are uniformly distributed on the cover body, and bolts 3 are positioned in the bolt holes and used for being matched and fixed with the cooling fan 300 through the bolts 3 when the server wind scooper 100 is installed in the server case. Specifically, 4 bolt holes can be uniformly distributed and arranged side by side on the cover body, one bolt 3 is inserted into any bolt hole, and the bolt 3 extends out of the length of the bolt Kong Yushe. When the server wind scooper 100 and the cooling fan 300 are installed in the chassis bottom case 200, the pins 3 extended by a preset length are inserted into the fan pin holes of the cooling fan 300.

U-shaped holes 16 are formed in two sides of the air guide cover body 1, and the air guide cover body 1 is matched with I-shaped nails at the bottom of the server case through the U-shaped holes 16 to fix the air guide cover body 1 in the server case.

Therefore, the server wind scooper 100 provided by the present utility model has wind guiding channels for guiding wind by the main wind channel 10, the first side wind channel 11, the second side wind channel 12, the third side wind channel 13 and the fourth side wind channel 14 at the upper part, and the wind guiding channels are used for guiding the wind in the server to realize heat dissipation. The lower part of the server is provided with a supporting plate 15, so that when the wind scooper body 1 is installed on the server, an accommodating space is reserved between the lower part of the wind scooper body 1 and the bottom of the server case, and physical wires are routed and shielded through the accommodating space. Meanwhile, the lower end of the air outlet of the main air duct 10 is connected with the fixed line fastener 2, and physical lines are fixed through the fixed line fastener 2, so that the internal lines of the server are neat and convenient to run. Therefore, the design of wind guiding and heat dissipation of the wind scooper is not affected while attractive wire arrangement is realized, the wind guiding quality is improved, and the wind scooper has good practicability. And the server wind scooper is quickly installed with the cooling fan 300 through the bolt 3, and is in guide fit with the server case through the U-shaped hole 16, so that the installation time is saved, and the working labor intensity is reduced. In addition, the server wind scooper 100 can be produced in batch, the product quality is controllable, and the fault maintenance cost is reduced.

Optionally, the air guide channels of the main air duct 10, the first side air duct 11, the second side air duct 12, the third side air duct 13 and the fourth side air duct 14 are mutually communicated, so that rapid flow guiding in the server is realized, and the heat dissipation effect is improved.

Optionally, front ends of air outlets of the first side air duct 11 and the second side air duct 12 are respectively provided with a breakable plate 17, and the breakable plates 17 are used for accommodating radiators with different specifications and sizes. Specifically, the breakable plate 17 can be connected with the first side air duct 11 or the second side air duct 12 in a detachable connection manner, so that the breakable plate 17 can be reinstalled while being broken, and the reuse rate of the breakable plate 17 is improved. The breaking of the frangible panel 17 may also be accomplished by other means, not limited herein.

Further, the first side air duct 11 includes a first top cover plate at the top, a first side wall cover plate at both sides, and a first bottom cover plate at the bottom; the first top cover plate is connected with the first side wall cover plate, and the first bottom cover plate is positioned below the first top cover plate and connected with the first side wall cover plate to form an air guide channel with an air inlet and an air outlet; the front end of the air outlet of the first bottom cover plate is connected with the breakable plate 17, and the first bottom cover plate is matched with the breakable plate 17 for adapting and placing radiators with different specifications and sizes.

The first top cover plate and the first bottom cover plate are arranged in parallel, and the first side wall cover plate and the first top cover plate are arranged vertically, so that wind blown by the cooling fan can be directly blown out by the first side air duct 11, and the flow guiding effect is improved. Alternatively, the first top cover plate and the first side cover plate may be disposed at an inclined angle, which is not limited herein.

Optionally, a fourth bottom cover plate is provided at the front end of the air outlet of the fourth side air duct 14, a square clamping groove 18 is provided on the fourth bottom cover plate, the square clamping groove 18 is used for installing the BBU battery, and the fourth side air duct 14 is used for guiding the wind of the corresponding fan to the BBU battery to cool the BBU battery.

The square clamping groove 18 is matched with the BBU battery in size. The BBU battery is used to power the Raid. When the BBU battery is installed, the BBU battery can be directly clamped into the square clamping groove 18 for internal fixation, so that screw-free and tool-free fixed installation is realized.

Optionally, a main bottom cover plate is arranged at the front end of the air outlet of the main air duct 10, and a third bottom cover plate is arranged at the front end of the air outlet of the third side air duct 13; the main bottom cover plate and the third bottom cover plate are respectively provided with a mounting hole 19, and the mounting holes 19 are used for mounting and fixing the mechanical HDD hard disk.

Specifically, mounting holes 19 for fixing the 2.5HDD hard disk are formed in the main bottom cover plate and the third bottom cover plate. When the HDD hard disk of the server is built in the server, the HDD hard disk can be built in the main bottom cover plate or the third bottom cover plate through the mounting hole 19, so that the air blown by the cooling fan 300 can be blown out from the air guiding duct of the main air duct 10 or the third side air duct 13 to dissipate heat of the HDD hard disk.

The mounting hole 19 may be a threaded hole, by which the HDD hard disk is fixed by a screw/bolt, or the mounting hole 19 may be a hole adapted to a connection pin of the HDD hard disk, and the connection pin of the HDD hard disk may be directly inserted into the mounting hole 19 for fixing and mounting during mounting, or may be other mounting methods, and is not limited specifically herein.

Optionally, the main air duct 10 includes a main air outlet mask, and the main air outlet mask is a smooth inclined plate; at least 2 air outlets are arranged on the main air outlet cover; the main air outlet mask is inclined downwards from the top and is connected with a main bottom cover plate.

One air outlet corresponds to one cooling fan 300, so that the air outlet cooling efficiency of the fan is improved. The upper end of the main air outlet mask is connected with the mask body close to the cooling fan 300, and the lower end is connected with the main bottom cover plate, and the inclination angle of the main air outlet mask can be 30-75 degrees or other angles. Through smooth swash plate, adjust the wind that the radiator fan blows out as far as possible from the air outlet, improve the fan flow conductivity.

Optionally, the air outlet widths of the first side air duct 11 and the second side air duct 12 are larger than the air outlet widths of the third side air duct 13 and the fourth side air duct 14, so that the air outlet quantity of the first side air duct 11 and the second side air duct 12 is improved, rapid diversion is conveniently performed for a radiator installed at the front end of the air outlet of the first side air duct 11 or the second side air duct 12, and the radiating effect is improved.

The server wind scooper provided by the present utility model is described above, and the server provided by the present utility model is described below:

referring to fig. 3 to 4, the server provided by the present utility model includes:

as described above, the server wind scooper 100, the chassis, and the plurality of cooling fans 300 disposed side by side; the chassis includes a chassis bottom case 200 and a chassis cover 400; the server wind scooper 100 and the cooling fan 300 are located in the chassis bottom case 200; the plurality of cooling fans 300 are arranged at the air inlet of the server air guide cover 100 side by side, and the air outlet of the cooling fans 300 corresponds to the air inlet of the server air guide cover 100; the server wind scooper 100 is matched with the I-shaped nails of the chassis bottom shell 200 through U-shaped holes 16 arranged on two sides of the server wind scooper 100, and the server wind scooper 100 is fixedly arranged on the chassis bottom shell 200; the server wind scooper 100 is fixedly connected with the cooling fan 300 by inserting a pin 3 provided therein into a fan pin hole of the cooling fan 300; the chassis comprises a server physical line which is fixed through a line fixing buckle 2 of the server wind scooper 100 and reasonably arranged in an accommodating space formed by the server wind scooper 100 and the chassis bottom shell 200; the chassis cover 400 is covered with the chassis bottom case 200, and the cooling fan 300 and the server wind scooper 100 are fixedly installed in the chassis.

When the server is installed, the server wind scooper 100 is placed and installed from top to bottom, the plurality of pins 3 of the server wind scooper 100 are matched and fixed with the cooling fan 300, and the U-shaped holes 16 on the left side and the right side of the server wind scooper 100 are matched and guided with the i-shaped nails on the two sides of the chassis bottom shell 200 of the server, after the pins 3 and the i-shaped nails are installed in place, various adapter cards, a back plate, physical wires such as connector cables, power wires and the like on the main board are fixed through the fixing and clamping buckle 2 of the server wind scooper 100, and physical wires are routed and shielded through accommodating spaces on the left side and the right side. Finally, the service chassis cover 400 is pressed over the server wind scooper 100 for securing to complete the installation.

The whole installation process is simple, and other complex proofreading is not needed. The whole server wind scooper 100 is installed to save production installation time greatly, labor intensity can be relieved, batch production is achieved, product quality is easy to control, and the server wind scooper 100 is high in structural reliability, high in flexibility, convenient to wire, neat in the inside of a server, capable of improving operation and maintenance efficiency, low in fault maintenance cost and high in use value.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A server wind scooper, characterized in that the server wind scooper comprises:

the wind scooper comprises a wind scooper body, at least two wire fixing buckles and a plurality of bolts;

the upper part of the wind scooper body is provided with a main wind channel, a first side wind channel, a second side wind channel, a third side wind channel and a fourth side wind channel, the first side wind channel and the second side wind channel are symmetrically arranged on two sides of the main wind channel, the third side wind channel is positioned on one side of the first side wind channel far away from the main wind channel, and the fourth side wind channel is positioned on one side of the second side wind channel far away from the main wind channel;

the main air duct, the first side air duct, the second side air duct, the third side air duct and the fourth side air duct are respectively provided with a corresponding air guide channel, and an air inlet of each air guide channel corresponds to an air outlet of a cooling fan of the server and is used for guiding air blown out by the corresponding fan into the server through the air guide channels to guide and dissipate heat in the server;

the lower part of the wind scooper body is provided with a supporting plate, so that when the wind scooper body is installed in the server case, an accommodating space is reserved between the lower part of the wind scooper body and the bottom of the server case, and the accommodating space is used for routing physical wires and shielding the physical wires;

the lower end of the air outlet of the main air duct is connected with the fixing line clamp, and the fixing line clamp is used for fixing the physical line;

the upper end of the air inlet of each air channel of the air guide cover body is provided with a cover body, a plurality of bolt holes are uniformly distributed on the cover body, and bolts are positioned in the bolt holes and are used for being matched and fixed with the cooling fan through the bolts when the air guide cover is installed in a server;

u-shaped holes are formed in two sides of the wind scooper body, and the wind scooper body is matched with I-shaped nails at the bottom of the server case through the U-shaped holes to fix the wind scooper body in the server case.

2. The server wind scooper of claim 1, wherein front ends of air outlets of the first side air duct and the second side air duct are provided with breakable plates, and the breakable plates are used for accommodating radiators of different specifications and sizes.

3. The server wind scooper of claim 2 wherein the first side wind tunnel includes a first top cover plate at the top, first side wall cover plates on both sides, and a first bottom cover plate at the bottom;

the first top cover plate is connected with the first side wall cover plate, and the first bottom cover plate is positioned below the first top cover plate and connected with the first side wall cover plate to form an air guide channel with an air inlet and an air outlet;

the front end of the air outlet of the first bottom cover plate is connected with the breakable plate, and the first bottom cover plate is matched with the breakable plate to be used for accommodating radiators with different specifications and sizes.

4. A server wind scooper according to claim 3 wherein said first top shroud is disposed parallel to said first bottom shroud and said first side wall shroud is disposed perpendicular to said first top shroud.

5. The server wind scooper of claim 1, wherein a fourth bottom cover plate is arranged at the front end of the air outlet of the fourth side air duct, a square clamping groove is arranged on the fourth bottom cover plate, the square clamping groove is used for installing a standby power group BBU battery, and the fourth side air duct is used for guiding wind corresponding to the fan to the BBU battery to cool the BBU battery.

6. The server wind scooper according to any one of claims 1 to 5, characterized in that a main bottom cover plate is provided at an air outlet front end of the main air duct, and a third bottom cover plate is provided at an air outlet front end of the third side air duct;

and the main bottom cover plate and the third bottom cover plate are respectively provided with a mounting hole, and the mounting holes are used for mounting and fixing the mechanical HDD hard disk.

7. The server ducting of claim 6 wherein said main duct comprises a main air outlet mask, said main air outlet mask being a smooth sloping plate;

at least 2 air outlets are arranged on the main air outlet cover;

the main air outlet mask is inclined downwards from the top and is connected with the main bottom cover plate.

8. The server wind scooper of any of claims 1 to 5 wherein wind scoopers of the main wind channel, the first side wind channel, the second side wind channel, the third side wind channel, and the fourth side wind channel are intercommunicated.

9. The server wind scooper of any one of claims 1 to 5 wherein the air outlet widths of the first and second side air ducts are greater than the air outlet widths of the third and fourth side air ducts.

10. A server, the server comprising: the server wind scooper, the chassis, and a plurality of heat radiation fans arranged side by side according to any one of claims 1 to 9;

the case comprises a case bottom shell and a case cover plate;

the server wind scooper and the cooling fan are positioned in the chassis bottom shell;

the plurality of cooling fans are arranged at the air inlet of the server air guide cover side by side, and the air outlet of the cooling fans corresponds to the air inlet of the server air guide cover;

the server wind scooper is matched with the I-shaped nails of the chassis bottom shell through U-shaped holes arranged on two sides of the server wind scooper, and the server wind scooper is fixedly arranged on the chassis bottom shell;

the server wind scooper is fixedly connected with the cooling fan by inserting a bolt arranged on the server wind scooper into a fan bolt hole of the cooling fan;

the chassis comprises a server physical line, wherein the server physical line is fixed through a fixed line fastener of the server wind scooper and is placed in an accommodating space formed by the server wind scooper and the chassis bottom shell;

the case cover plate is covered with the case bottom shell, and the cooling fan and the server wind scooper are fixedly arranged in the case.