CN113778203A

CN113778203A - Energy-saving server case

Info

Publication number: CN113778203A
Application number: CN202111205250.5A
Authority: CN
Inventors: 袁永峰; 邹晓光; 田龙; 李海洋
Original assignee: Standard Storage Information Technology Zhejiang Co ltd
Current assignee: Standard Storage Information Technology Zhejiang Co ltd
Priority date: 2021-10-15
Filing date: 2021-10-15
Publication date: 2021-12-10

Abstract

The invention discloses an energy-saving server case, which relates to the technical field of energy conservation and environmental protection and comprises a front case and a rear case, wherein a plurality of fan sets are arranged in the rear case, the front case comprises a case shell and a case upper cover, a front installation space is defined between the case shell and the case upper cover, a plurality of vertical partition plates are arranged in the front installation space, a plurality of transverse partition plates are arranged in the front installation space, an installation cavity is defined by adjacent transverse partition plates and adjacent vertical partition plates, a hard disk box is arranged in the installation cavity, a top overhead structure is arranged between the top of the hard disk box and the top wall of the installation cavity, a side overhead structure is arranged between the side of the hard disk box and the side wall of the installation cavity, a bottom overhead structure is arranged between the bottom of the hard disk box and the bottom wall of the installation cavity, the side overhead structure is electrically connected with an acquisition module, the acquisition module is electrically connected with a control module, and the control module is electrically connected with a reminding module. The invention has the advantages of automatic monitoring, good heat dissipation effect, high efficiency and vibration resistance.

Description

Energy-saving server case

Technical Field

The invention relates to the technical field of energy conservation and environmental protection, in particular to an energy-saving server case.

Background

With the development of computer technology, the demands of users on servers are more and more diversified, and the servers are used as nodes of a network to store and process 80% of data and information on the network, so that the servers are also called as souls of the network, and have great advantages in the aspects of processing capacity, stability, reliability, safety, expandability, manageability and the like compared with microcomputers. However, when the existing server case is used, a large number of fans need to be installed inside the server case to cool down the processor, and due to poor heat dissipation effect and low heat dissipation efficiency, a large amount of electric energy is wasted, so that the use cost is increased, too many internal space positions of the server case are occupied, the inside of the case can be vibrated to a certain degree, the processor, the hard disk, the memory and the like inside the server are loosened or separated, and the normal use of the server is affected.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an energy-saving server case.

An energy-saving server case comprises a front case and a rear case which can be mutually spliced into a whole, wherein a plurality of fan sets are arranged in the rear case, the front case comprises a case shell and a case upper cover arranged at the top of the case shell, a front installation space is defined between the case shell and the case upper cover, a plurality of vertical partition plates are sequentially and uniformly vertically arranged in the front installation space from left to right, a plurality of transverse partition plates are sequentially and uniformly horizontally arranged in the front installation space from top to bottom, a placing cavity is defined between every two adjacent transverse partition plates and every two adjacent vertical partition plates, and a hard disk box is arranged in the placing cavity; a top overhead structure is arranged between the top of the hard disk box and the top wall of the placing cavity, a side overhead structure is arranged between the side of the hard disk box and the side wall of the placing cavity, and a bottom overhead structure is arranged between the bottom of the hard disk box and the bottom wall of the placing cavity; the top overhead structure is used for elastically limiting the top of the hard disk cartridge and is also used for forming an up-flow channel between the hard disk cartridge and the top wall of the placing cavity; the side overhead structure is used for elastically limiting the side of the hard disk cartridge and is also used for enabling a side flow channel to be formed between the hard disk cartridge and the side wall of the placing cavity; the bottom overhead structure is used for forming a downstream channel between the hard disk cartridge and the top wall of the placing cavity; when the front chassis and the rear chassis are spliced, the fan set is opposite to the placing cavity; the utility model discloses a hard disk cartridge, including lateral part built on stilts structure electric connection, collection module, control module, collection module, control module, warning module, hard disk cartridge, control module, warning module, control module, and the module is connected to the module, and the warning module is connected to the module.

Preferably, the side overhead structure comprises a first side limiting structure and a second side limiting structure; the first side limiting structure is arranged in the middle section of the side face of the hard disk box, the second side limiting structure is arranged at the end part of the side face of the hard disk box, and the first side limiting structure and the second side limiting structure are used for elastically limiting the side portion of the hard disk box and enabling the hard disk box and the side wall of the placing cavity to form the side flow channel. First side limit structure and second side limit structure mating reaction can effectively improve spacing reliability and vibrations compensation performance.

Preferably, the first side structure comprises: the convex strips are arranged on the side wall of the placing cavity; the elastic pressing sheets are sequentially and uniformly arranged on the side surface of the hard disk box from front to back; the elastic pressing sheets are used for generating elastic deformation under the action of external force, and after the hard disk cartridge is placed in the placing cavity, the elastic pressing sheets are respectively in contact with the convex strips and generate elastic deformation under the abutting of the convex strips. In the process of loading the hard disk cartridge into the placing cavity, the elastic pressing pieces alternately contact different convex strips, and after the hard disk cartridge is loaded into the placing cavity, all the elastic pressing pieces respectively abut against all the convex strips, so that an operator can directly feel whether the hard disk cartridge is loaded; the structure of elasticity pressing sheet is the ruggedness, including the joint portion at both ends and the butt portion of central authorities, joint portion card is established on the hard disk cartridge, and butt portion is convex outwards, receives external force extrusion back when butt portion, and whole ruggedness structure must outwards be deformed and expand to the joint portion that makes both ends forms deformation, thereby produces elasticity in butt portion, under the effect of a plurality of elasticity pressing sheets, can realize spacing to the reliable elasticity of hard disk cartridge.

Preferably, the second side structure comprises: an extending port arranged at the side end of the hard disk box; the elastic shifting piece is arranged in the hard disk box; the limiting port is formed in the side wall of the placing cavity; the tail end of the elastic shifting sheet is fixed on the inner wall of the hard disk box, the head end of the elastic shifting sheet is bent to extend to form a limiting head, the limiting head extends out of the hard disk box from the extending through hole, when the hard disk box moves in the placing cavity, the limiting head generates elastic deformation by abutting against the side wall of the placing cavity and retracts from the extending through hole, and when the hard disk box is placed in the placing cavity, the limiting head is buckled into the limiting through hole. Whole elasticity plectrum head end is in unfixed state, and elasticity plectrum end is in fixed state, therefore the spacing head of elasticity plectrum head end receives external extrusion back, and elasticity plectrum head end produces the perk of certain degree for the end to form elastic deformation and produce elasticity.

Preferably, the acquisition module comprises a first acquisition module, a second acquisition module and a processing module; the first acquisition module is used for acquiring first position information of the elastic pressing sheet after the elastic pressing sheet contacts the convex strip; the second acquisition module is used for acquiring second position information of the limiting head after the limiting head is buckled into the limiting through hole; the processing module is used for generating hard disk box position information according to the first position information and the second position information.

Preferably, the first acquisition module comprises: the pressure sensing element is arranged on the convex strip; the first detection circuit is arranged on the inner wall of the placing cavity and is electrically connected with the pressure sensing element; the first detection circuit is electrically connected with the processing module, the pressure sensing element is used for collecting pressure signals of the elastic pressing sheet after the elastic pressing sheet is contacted with the convex strip, and the first detection circuit is used for converting the pressure signals into first position information and sending the first position information to the processing module.

Preferably, the second acquisition module comprises: the photosensitive sensing element is arranged inside the limiting through opening; the second detection circuit is arranged on the inner wall of the placing cavity and is electrically connected with the optical sensing element; the second detection circuit is electrically connected with the processing module, the photosensitive sensing element is used for collecting optical signals of the limiting head after the limiting head is buckled into the limiting through hole, and the second detection circuit is used for converting the optical signals into second position information and sending the second position information to the processing module. Because the convex strip has a certain length, the pressure sensing element on the convex strip can detect the tiny displacement of the elastic pressing sheet on the convex strip, and the vibration frequency of the hard disk cartridge can be researched, so that the monitoring scientificity and the monitoring reliability are improved; furthermore, the optical sensing unit only collects the optical signal of the limiting head after the limiting head is buckled into the limiting through hole, so that the optical sensing unit is mainly used for judging whether the whole hard disk box is in the preset position, and under any condition, the hard disk box can be judged to be loosened as long as the limiting head is moved out of the limiting through hole.

Preferably, top overhead structure includes from a left side to the right side evenly sets up a plurality of elasticity pressing blades at hard disk cartridge top surface in proper order, elasticity pressing blade is used for producing elastic deformation under the exogenic action, works as after hard disk cartridge packs into and lays the chamber, and a plurality of hard disk cartridge top surface elasticity pressing blade supports and lays the chamber roof and produce elastic deformation.

Preferably, the bottom overhead structure comprises a plurality of support bars disposed on the diaphragm. Gaps are arranged between adjacent support bars, and the gaps are combined together to form a down-flow channel.

Preferably, the rear chassis further comprises a network box and a power box arranged at intervals between the plurality of fan sets. The network card box can remotely transmit all information acquired by the acquisition module, and can also control the acquisition module through a cloud end; net card box and power pack interval set up between a plurality of fan groups, can guarantee that it possesses better radiating effect.

The invention has the beneficial effects that:

1. in the invention, the front chassis and the rear chassis are arranged in a split manner, so that the fan set of the rear chassis does not occupy too much internal space of the server chassis, and the cleaning and maintenance efficiency of the whole rear chassis can be improved; further, through inside a plurality of cross slabs and the perpendicular baffle of setting up of installation space in the front, installation space's structural strength before can improving on the one hand, on the other hand has also improved the heat conduction area between inside air of installation space and each metallic structure before to let the radiating effect better, and then rationally reduce the fan group of assembling at rear portion quick-witted incasement portion, also can reduce the power of use of fan group certain degree, improved energy-conserving level greatly.

2. In the invention, after the hard disk box is arranged in the placing cavity, the top overhead structure generates downward pressure on the hard disk box under the action of elastic limit of the top overhead structure, so that the hard disk box is not easy to loosen in the vertical direction.

3. In the invention, the lateral overhead structure generates horizontal pressure on the hard disk cartridge under the action of elastic limit to ensure that the hard disk cartridge is not easy to loosen in the horizontal direction, more importantly, the vibration displacement of the hard disk cartridge in the horizontal direction can be directly compensated through the elastic limit of the lateral overhead structure, so that the vibration displacement of the whole hard disk cartridge in any direction in space can be compensated to a certain degree, thereby greatly improving the vibration resistance and the anti-loosening performance of the whole server case, meanwhile, a lateral flow channel is formed between the hard disk cartridge and the top wall of the placing cavity by utilizing the lateral overhead structure, under the action of the fan group, the side surface of the hard disk cartridge can be continuously and directly contacted with flowing air, the heat dissipation effect of the lateral part of the hard disk cartridge is greatly improved, thereby further reducing the fan group assembled in the rear case and reducing the use power of the fan group, further improving the energy saving level.

4. In the invention, the bottom overhead structure enables the hard disk cartridge and the bottom wall of the placing cavity to form the downstream channel, and the bottom surface of the hard disk cartridge can continuously and directly contact with flowing air under the action of the fan set, so that the heat dissipation effect of the bottom of the hard disk cartridge is greatly improved.

5. According to the invention, the acquisition module is connected to the side overhead structure, the position of the hard disk cartridge can be monitored in real time, the acquired position information is analyzed and processed by the control module, if the position information is in a problem, namely exceeds a preset threshold value, the position of the hard disk cartridge is changed, the hard disk cartridge needs to be maintained immediately, the control module sends a control command, the reminding module directly sends a prompt according to the control command, so that maintenance personnel can be ensured to receive the prompt of needing to be maintained in time, the whole monitoring process is automatically carried out, the energy consumption is low, and meanwhile, the reliability of a detection result is ensured to be high under the high heat dissipation efficiency of a side flow channel.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of a front chassis according to the present invention;

FIG. 2 is a schematic structural diagram of a rear chassis of the present invention;

FIG. 3 is a perspective view of a portion of the front housing of the present invention;

FIG. 4 is an enlarged view of a portion of the invention at A in FIG. 3;

FIG. 5 is a schematic diagram of a portion of a front housing of the present invention;

FIG. 6 is a front view of the hard disk cartridge and the housing chamber of the present invention;

FIG. 7 is a schematic diagram of a portion of the hard disk cartridge of the present invention;

FIG. 8 is an enlarged view of a portion of the invention at B in FIG. 7;

FIG. 9 is an enlarged view of a portion of the invention at C of FIG. 7;

FIG. 10 is an enlarged view of a portion of the invention at D in FIG. 7;

FIG. 11 is an enlarged view of a portion of the invention at E in FIG. 7;

FIG. 12 is a schematic diagram of a portion of a front housing of the present invention;

FIG. 13 is an enlarged fragmentary view taken at F of FIG. 12 in accordance with the invention;

FIG. 14 is a schematic view of a portion of the components of the present invention.

Reference numerals:

1-front case, 11-case shell, 12-case upper cover, 13-vertical partition, 14-transverse partition, 15-hard disk box, 16-top overhead structure, 17-side overhead structure, 171-first side limit structure, 1711-raised line, 1712-elastic pressing sheet, 1712 a-clamping part, 1712 b-abutting part, 172-second side limit structure, 1721-extending through hole, 1722-elastic shifting sheet, 1722 a-limit head, 1723-limit through hole, 18-bottom overhead structure, 181-supporting bar, 2-rear case, 21-fan group, 22-mesh box, 23-power box, 3-placing cavity, 31-upper flow channel, 32-side flow channel, 33-lower flow channel, 4-acquisition module, 41-first acquisition module, 411-pressure sensing element, 412-first detection circuit, 42-second acquisition module, 421-photosensitive sensing element, 422-second detection circuit, 43-processing module, 5-control module and 6-reminding module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be noted that the terms "inside", "outside", "upper", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally arranged when products of the present invention are used, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements indicated must have specific orientations, be constructed in specific orientations, and operated, and thus, cannot be construed as limiting the present invention.

As shown in fig. 1 to 13, an energy-saving server chassis comprises a front chassis 1 and a rear chassis 2 which can be spliced into a whole, a plurality of fan sets 21 are arranged in the rear chassis 2, the front chassis 1 comprises a chassis shell 11 and a chassis upper cover 12 arranged on the top of the chassis shell 11, a front installation space is defined between the chassis shell 11 and the chassis upper cover 12, a plurality of vertical partition plates 13 are uniformly and vertically arranged in the front installation space from left to right in sequence, a plurality of transverse partition plates 14 are uniformly and horizontally arranged in the front installation space from top to bottom in sequence, a placing cavity 3 is defined between each adjacent transverse partition plate 14 and each adjacent vertical partition plate 13, and a hard disk box 15 is arranged in the placing cavity 3; a top overhead structure 16 is arranged between the top of the hard disk box 15 and the top wall of the placing cavity 3, a side overhead structure 17 is arranged between the side of the hard disk box 15 and the side wall of the placing cavity 3, and a bottom overhead structure 18 is arranged between the bottom of the hard disk box 15 and the bottom wall of the placing cavity 3; the top overhead structure 16 is used for elastically limiting the top of the hard disk box 15, and the top overhead structure 16 is also used for forming an up-flow channel 31 between the hard disk box 15 and the top wall of the placing cavity 3; the side overhead structure 17 is used for elastically limiting the side of the hard disk cartridge 15, and the side overhead structure 17 is also used for enabling a side flow channel 32 to be formed between the hard disk cartridge 15 and the side wall of the placing cavity 3; the bottom overhead structure 18 is used for forming a lower flow passage 33 between the hard disk box 15 and the top wall of the placing cavity 3; when the front chassis 1 and the rear chassis 2 are spliced, the fan set 21 is opposite to the placing cavity 3; 17 electrically connected of lateral part overhead structure has collection module 4, collects module 4 electrically connected with

control module

5, and 5 electrically connected of control module have warning module 6, and collection module 4 is used for gathering 15 positional information of hard disk cartridge in real time, and control module 5 is used for sending control command according to 15 positional information of hard disk cartridge, reminds module 6 to send the warning according to control command.

In this embodiment, it should be noted that, the front chassis 1 and the rear chassis 2 are separately arranged, so that the fan set 21 of the rear chassis 2 does not occupy too much of the internal space of the server chassis, and the cleaning and maintenance efficiency of the whole rear chassis 2 can be improved; further, through installing the inside a plurality of cross slabs 14 and erecting baffle 13 that set up of space in the front, the structural strength of installing the space before can improving on the one hand, on the other hand has also improved the heat conduction area between the inside air of preceding installing the space and each metallic structure to let the radiating effect better, and then rationally reduce the fan group of assembling at rear portion quick-witted incasement portion, also can reduce the power of use of fan group certain degree, improved energy-conserving level greatly.

It should be further noted that, after the hard disk cartridge 15 is installed in the placing chamber 3, the top overhead structure 16 generates downward pressure on the hard disk cartridge 15 under the elastic limiting effect, so as to ensure that the hard disk cartridge 15 is not easy to loosen in the vertical direction, and more importantly, when the hard disk cartridge 15 vibrates in the vertical direction, the elastic limiting effect of the top overhead structure 16 can directly compensate the vibration displacement of the hard disk cartridge 15, and meanwhile, the top overhead structure 16 is utilized to form an up-flow channel 31 between the hard disk cartridge 15 and the top wall of the placing chamber 3, so that the top surface of the hard disk cartridge 15 can be continuously and directly contacted with flowing air under the action of the fan set 21, thereby greatly improving the heat dissipation effect of the top of the hard disk cartridge 15; further, the side overhead structure 17 generates horizontal pressure on the hard disk cartridge 15 under the elastic limiting effect, and it is ensured that the hard disk cartridge 15 is not easy to loosen in the horizontal direction, more importantly, the elastic limiting effect of the side overhead structure 17 can directly compensate the vibration displacement of the hard disk cartridge 15 in the horizontal direction, so that the vibration displacement of the whole hard disk cartridge 15 in any direction in space can be compensated to a certain extent, thereby greatly improving the anti-vibration performance and the anti-loosening performance of the whole server case, meanwhile, the side overhead structure 17 is utilized to form a side flow channel 32 between the hard disk cartridge 15 and the top wall of the placing cavity 3, under the action of the fan set 21, the side surface of the hard disk cartridge 15 can continuously and directly contact with flowing air, and the heat dissipation effect of the side of the hard disk cartridge 15 is greatly improved; further, bottom aerial structure 18 makes hard disk cartridge 15 and forms downflow channel 33 between the chamber 3 diapire of laying, under fan group 21's effect, let hard disk cartridge 15 bottom surface can be constantly direct and the air contact that flows, the radiating effect of hard disk cartridge 15 bottom has been improved greatly, to sum up, on the reliable spacing basis of whole hard disk cartridge 15, through upflow channel 31, the radiating efficiency of whole hard disk cartridge 15 has been improved to sidestream channel 32 and downflow channel 33 maximize, thereby further rationally reduce the fan group of assembly in rear portion machine incasement portion, reduce heat dissipation cost and energy consumption, energy-conserving level has further been improved.

It should also be noted that, connect collection module 4 on lateral part overhead structure 17, the position of hard disk cartridge 15 can real time monitoring, recycle control module 5 and carry out analysis processes to the positional information who gathers, if when positional information goes wrong, also exceed and preset the threshold value, then represent hard disk cartridge 15 position change, need maintain immediately, control module 5 sends control command this moment, remind module 6 directly to send the warning according to control command, can guarantee that maintainer in time receives the warning that needs to maintain, whole monitoring process is automatic to be gone on, the energy consumption is little, simultaneously under the high radiating efficiency of side flow passageway 32, guarantee that the testing result reliability is high.

Specifically, the side overhead structure 17 includes a first side limiting structure 171 and a second side limiting structure 172; wherein, first side limit structure 171 sets up in hard disk cartridge 15 side middle section, and second side limit structure 172 sets up in hard disk cartridge 15 side end, and first side limit structure 171 and second side limit structure 172 all are used for carrying out elasticity to the hard disk cartridge 15 side and spacing and make hard disk cartridge 15 and lay and form side flow channel 32 between the chamber 3 lateral wall.

In the present embodiment, it should be noted that the first side limiting structure 171 and the second side limiting structure 172 cooperate to effectively improve the limiting reliability and the vibration compensation performance.

Specifically, the first side structure includes: a plurality of convex strips 1711 arranged on the side wall of the placing cavity 3; a plurality of elastic pressing pieces 1712 which are uniformly arranged on the side surface of the hard disk box 15 from front to back; the elastic pressing pieces 1712 are configured to elastically deform under the action of an external force, and after the hard disk cartridge 15 is loaded into the loading chamber 3, the elastic pressing pieces 1712 respectively contact the plurality of protruding strips 1711, and the elastic pressing pieces 1712 elastically deform under the abutment of the protruding strips 1711.

In this embodiment, it should be noted that, in the process of loading the hard disk cartridge 15 into the housing cavity 3, the elastic pressing pieces 1712 alternately contact the different convex strips 1711, and after the hard disk cartridge 15 is loaded into the housing cavity 3, all the elastic pressing pieces 1712 respectively abut against all the convex strips 1711, so that the operator can directly feel whether the hard disk cartridge 15 is loaded; the structure of elasticity pressing sheet 1712 is preferred as shown in fig. 8, is the ruggedized form, including the butt portion of the joint portion at both ends and the butt portion of central authorities, joint portion card is established on hard disk cartridge 15, and the butt portion is outwards protruding, receives external force extrusion back when the butt portion, and whole ruggedized form structure must outwards be deformed and expand to the joint portion that makes both ends forms deformation, thereby produces elasticity in the butt portion, under a plurality of elasticity pressing sheet 1712's effect, can realize spacing to hard disk cartridge 15's reliable elasticity.

Specifically, the second side structure includes: an extension opening 1721 opened at the side end of the hard disk cartridge 15; an elastic pick 1722 disposed inside the hard disk cartridge 15; and a limit port 1723 arranged on the side wall of the placing cavity 3; wherein, the terminal hard disk cartridge 15 inner wall of fixing of elasticity plectrum 1722, elasticity plectrum 1722 head end is buckled and is extended to limit head, and limit head extends out hard disk cartridge 15 from extending opening 1721 department, when hard disk cartridge 15 when laying intracavity 3 and removing, limit head is through propping to laying 3 lateral walls in chamber and producing elastic deformation and from extending opening 1721 department and retracting, and after hard disk cartridge 15 packed into and laid chamber 3, limit head detained in spacing opening 1723.

In this embodiment, it should be noted that the head end of the whole elastic shifting piece 1722 is in an unfixed state, and the tail end of the elastic shifting piece 1722 is in a fixed state, so that after the limiting head at the head end of the elastic shifting piece 1722 is extruded from the outside, the head end of the elastic shifting piece 1722 tilts up to a certain degree relative to the tail end, thereby forming elastic deformation and generating elastic force.

Specifically, the acquisition module 4 comprises a first acquisition module 41, a second acquisition module 42 and a processing module 43; the first collecting module 41 is configured to collect first position information of the elastic pressing piece 1712 after the elastic pressing piece 1712 contacts the convex strip 1711; the second collecting module 42 is used for collecting second position information of the limiting head after the limiting head is buckled into the limiting through hole 1723; the processing module 43 is configured to generate the hard disk cartridge 15 location information according to the first location information and the second location information.

Specifically, the first acquisition module 41 includes: a pressure sensing element 411 disposed on the convex strip 1711; and a first detection circuit 412 disposed on the inner wall of the housing chamber 3 and electrically connected to the pressure sensing element 411; the first detection circuit 412 is electrically connected to the processing module 43, the pressure sensing unit 411 is configured to collect a pressure signal of the elastic pressing piece 1712 after the elastic pressing piece 1712 contacts the convex strip 1711, and the first detection circuit 412 is configured to convert the pressure signal into first position information and send the first position information to the processing module 43.

Specifically, the second acquisition module 42 includes: the photosensitive sensing element 421 is arranged inside the limiting through hole 1723; and the second detection circuit 422 which is arranged on the inner wall of the placing cavity 3 and is electrically connected with the optical sensing element; the second detection circuit 422 is electrically connected to the processing module 43, the photosensitive sensing unit 421 is configured to collect an optical signal of the limiting head after the limiting head is buckled into the limiting port 1723, and the second detection circuit 422 is configured to convert the optical signal into second position information and send the second position information to the processing module 43.

In this embodiment, it should be noted that, since the convex strip 1711 has a certain length, the pressure sensing element 411 thereon can detect the small displacement of the elastic pressing piece 1712 on the convex strip 1711, and thus, the vibration frequency of the hard disk cartridge 15 can be studied, thereby improving the monitoring scientificity and reliability; furthermore, the optical sensor unit only collects the optical signal of the limiting head after the limiting head is buckled into the limiting port 1723, and therefore, the optical sensor unit is mainly used for judging whether the whole hard disk cartridge 15 is located at the preset position, and under any condition, the hard disk cartridge 15 can be judged to be loosened as long as the limiting head is moved out of the limiting port 1723.

Specifically, top overhead structure 16 includes a plurality of elasticity pressing tabs 1712 that evenly set up in proper order at hard disk cartridge 15 top surface from a left side to the right side, and elasticity pressing tabs 1712 is used for producing elastic deformation under the exogenic action, and after hard disk cartridge 15 packed into and laid chamber 3, a plurality of elasticity pressing tabs 1712 of hard disk cartridge 15 top surface supported and laid 3 roof of chamber and produced elastic deformation.

Specifically, the bottom overhead structure 18 includes a plurality of support bars 181 disposed on the diaphragm 14.

In this embodiment, it should be noted that, a gap is provided between adjacent support bars 181, and all the gaps are combined together to form the down flow passage 33.

Specifically, the rear chassis 2 further includes a network card box 22 and a power supply box 23 disposed at intervals between the plurality of fan sets 21.

In this embodiment, it should be noted that the network card box 22 can remotely transmit all information acquired by the acquisition module 4, and can also control the acquisition module 4 through the cloud end; the net card box 22 and the power supply box 23 are arranged among the plurality of fan sets 21 at intervals, so that a good heat dissipation effect can be guaranteed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims

1. An energy-saving server case is characterized by comprising a front case and a rear case which can be mutually spliced into a whole, wherein a plurality of fan sets are arranged in the rear case, the front case comprises a case shell and a case upper cover arranged at the top of the case shell, a front installation space is defined between the case shell and the case upper cover to form a front installation space, a plurality of vertical partition plates are sequentially and uniformly vertically arranged in the front installation space from left to right, a plurality of transverse partition plates are sequentially and uniformly and horizontally arranged in the front installation space from top to bottom, a placing cavity is defined between each adjacent transverse partition plate and each adjacent vertical partition plate, and a hard disk box is arranged in the placing cavity; wherein the content of the first and second substances,

a top overhead structure is arranged between the top of the hard disk box and the top wall of the placing cavity, a side overhead structure is arranged between the side of the hard disk box and the side wall of the placing cavity, and a bottom overhead structure is arranged between the bottom of the hard disk box and the bottom wall of the placing cavity;

the top overhead structure is used for elastically limiting the top of the hard disk cartridge and is also used for forming an up-flow channel between the hard disk cartridge and the top wall of the placing cavity;

the side overhead structure is used for elastically limiting the side of the hard disk cartridge and is also used for enabling a side flow channel to be formed between the hard disk cartridge and the side wall of the placing cavity;

the bottom overhead structure is used for forming a downstream channel between the hard disk cartridge and the top wall of the placing cavity;

when the front chassis and the rear chassis are spliced, the fan set is opposite to the placing cavity;

the utility model discloses a hard disk cartridge, including lateral part built on stilts structure electric connection, collection module, control module, collection module, control module, warning module, hard disk cartridge, control module, warning module, control module, and the module is connected to the module, and the warning module is connected to the module.

2. The energy efficient server chassis of claim 1, wherein the side overhead structure comprises a first side limiting structure and a second side limiting structure; wherein the content of the first and second substances,

first side limit structure sets up in hard disk cartridge side middle section, second side limit structure sets up at hard disk cartridge side tip, first side limit structure with second side limit structure all is used for carrying out elasticity to the hard disk cartridge lateral part spacing and makes the hard disk cartridge and lay and form between the chamber lateral wall the side flow passageway.

3. The energy efficient server chassis of claim 2, wherein the first side structure comprises:

the convex strips are arranged on the side wall of the placing cavity; and

the elastic pressing sheets are sequentially and uniformly arranged on the side surface of the hard disk box from front to back; wherein the content of the first and second substances,

the elastic pressing pieces are used for generating elastic deformation under the action of external force, and when the hard disk cartridge is placed in the placing cavity, the elastic pressing pieces are in contact with the convex strips respectively and generate elastic deformation under the abutting of the convex strips.

4. The energy efficient server chassis of claim 3, wherein the second side structure comprises:

an extending port arranged at the side end of the hard disk box;

the elastic shifting piece is arranged in the hard disk box; and

a limiting through hole formed in the side wall of the placing cavity; wherein the content of the first and second substances,

the tail end of the elastic shifting piece is fixed on the inner wall of the hard disk box, the head end of the elastic shifting piece is bent to extend to form a limiting head, the limiting head extends out of the hard disk box from the extending through hole, when the hard disk box moves in the placing cavity, the limiting head generates elastic deformation by abutting against the side wall of the placing cavity and retracts from the extending through hole, and when the hard disk box is placed in the placing cavity, the limiting head is buckled in the limiting through hole.

5. The energy-efficient server chassis of claim 4, wherein the collection module comprises a first collection module, a second collection module, and a processing module; wherein the content of the first and second substances,

the first acquisition module is used for acquiring first position information of the elastic pressing sheet after the elastic pressing sheet contacts the convex strip;

the second acquisition module is used for acquiring second position information of the limiting head after the limiting head is buckled into the limiting through hole;

the processing module is used for generating hard disk box position information according to the first position information and the second position information.

6. The energy efficient server chassis of claim 5, wherein the first acquisition module comprises:

the pressure sensing element is arranged on the convex strip; and

the first detection circuit is arranged on the inner wall of the placing cavity and is electrically connected with the pressure sensing element; wherein the content of the first and second substances,

the first detection circuit is electrically connected with the processing module, the pressure sensing element is used for collecting pressure signals of the elastic pressing sheet after the elastic pressing sheet contacts the convex strip, and the first detection circuit is used for converting the pressure signals into first position information and sending the first position information to the processing module.

7. The energy efficient server chassis of claim 6, wherein the second acquisition module comprises:

the photosensitive sensing element is arranged inside the limiting through opening; and

the second detection circuit is arranged on the inner wall of the placing cavity and is electrically connected with the optical sensing element; wherein the content of the first and second substances,

the second detection circuit is electrically connected with the processing module, the photosensitive sensing element is used for collecting optical signals of the limiting head after the limiting head is buckled into the limiting through hole, and the second detection circuit is used for converting the optical signals into second position information and sending the second position information to the processing module.

8. The energy-saving server case according to any one of claims 1 to 7, wherein the top overhead structure comprises a plurality of elastic pressing sheets uniformly arranged on the top surface of the hard disk box from left to right, the elastic pressing sheets are used for generating elastic deformation under the action of external force, and after the hard disk box is loaded into the loading cavity, the plurality of elastic pressing sheets on the top surface of the hard disk box abut against the top wall of the loading cavity and generate elastic deformation.

9. The energy efficient server chassis of any one of claims 1 to 7, wherein the bottom overhead structure comprises a plurality of support bars disposed on a bulkhead.

10. The energy efficient server chassis of any one of claims 1 to 7, wherein the rear chassis further comprises a power box and a network box spaced between the plurality of fan sets.