CN214311547U - Modular server data storage rack structure - Google Patents

Abstract

The utility model relates to a modular server data storage rack structure, including bearing the base, bear the roof, cut fork lifing arm, bear the tray, ratchet, binding post and drive circuit, it is located directly over bearing the base and connects through two cut fork lifing arms to bear the roof, it is articulated with cut fork lifing arm medial surface through ratchet to bear the tray both sides face, binding post quantity is unanimous with bearing tray quantity, every bears the tray side surface and all establishes at least one binding post, drive circuit inlays in bearing the base, and respectively with cut fork lifing arm, lift drive mechanism and binding post electrical connection. This novel structure and the bearing height of rack can be adjusted in a flexible way to satisfy and use structure and quantity storage device to concentrate the needs of depositing the bearing, and can effectively prevent to deposit the harm that causes peripheral storage device when individual storage device trouble.

Description

Modular server data storage rack structure

Technical Field

The utility model relates to a data storage is quick-witted case for equipment, exactly is a modular server data storage rack structure.

Background

The computer system mainly installs and manages and runs data storage equipment through a special cabinet in the process of carrying out mass data storage operation at present, and the actual work finds that the currently used storage equipment cabinets are often all of the structure structures with the traditional structures, so that although the requirement of carrying operation on the storage equipment and corresponding auxiliary circuit systems can be met, on one hand, the cabinet body equipment with single structure and poor adjustment capability exist in different degrees, and the bearing capability and the structure of the cabinet body cannot be flexibly adjusted according to the use requirement, so that the cabinet body mechanism cannot be flexibly adjusted according to the requirements of transportation, installation construction, bearing on the storage equipment and the like, and the flexibility and the convenience of use of the cabinet body are seriously influenced; on the other hand, the current cabinet body is arranged in the storage device bearing process, and effective isolation protection capability is lacked between the storage device and the auxiliary electrical equipment, so that peripheral equipment is easily affected due to individual equipment faults in operation and cannot normally operate, meanwhile, quick replacement and maintenance cannot be performed on the fault equipment, and the stability and the fault removal rate of the storage device in operation are serious.

Therefore, in view of the current situation, it is urgently needed to develop a computer case device to meet the requirement of practical use.

SUMMERY OF THE UTILITY MODEL

The utility model provides a modular server data storage rack structure, this novel simple structure, the degree of integrating is high, it is nimble convenient to use, can be according to the needs that use, the structure and the bearing height of nimble adjustment rack, thereby satisfy and use structure and quantity storage equipment to concentrate the needs of depositing the bearing, thereby help improving storage equipment erection site, change and maintain the flexibility and the convenience of operation, and can effectively prevent to deposit the harm that causes peripheral storage equipment when individual storage equipment trouble, thereby very big improvement storage equipment operation's stability and reliability.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

a combined server data storage cabinet structure comprises a bearing base, a bearing top plate, scissor lifting arms, a bearing tray, a ratchet mechanism, a positioning chute, a lifting driving mechanism, a wiring terminal and a driving circuit, wherein the bearing base and the bearing top plate are of a frame structure which is rectangular transversely, the bearing top plate is positioned right above the bearing base and coaxially distributed with the bearing base, the bearing base and the bearing top plate are connected through two scissor lifting arms, the scissor lifting arms are symmetrically distributed on two sides of the axis of the bearing base, the scissor lifting arms are vertically connected with the bearing base and the upper end surface and the lower end surface of the bearing top plate and respectively distributed with the bearing base and the axis of the bearing top plate in parallel, the bearing trays are a plurality of bearing trays and are positioned between the bearing base and the bearing top plate, the bearing trays are coaxially distributed with the bearing base and uniformly distributed along the axis of the bearing base from top to bottom, and the distance between two adjacent bearing bases is 0-50 cm, two side surfaces of the bearing tray are respectively hinged with the inner side surface of the scissor lifting arm through a ratchet mechanism, the ratchet mechanism and the scissor lifting arm are coaxially distributed between hinge shafts, and is vertical to and intersected with the axis of the bearing base, the upper end surface of the bearing tray is provided with a plurality of positioning chutes, the positioning chutes are distributed in parallel with the upper end surface of the bearing tray and are vertically distributed with the axis of the ratchet mechanism, at least two lifting driving mechanisms are arranged, the symmetrical distribution is in bearing base axis both sides, and lift actuating mechanism up end and lower terminal surface respectively with bear the base, bear roof lateral surface and articulate, be located the scissors lifing arm outside and with scissors lifing arm lateral surface parallel distribution, binding post quantity is unanimous with bearing tray quantity, every bears tray side surface and all establishes at least one binding post, drive circuit inlays in bearing the base to respectively with scissors lifing arm, lift actuating mechanism and binding post electrical connection.

Further, bear base rear end face establish two direction slide rails, the direction slide rail with bear base rear end face and be connected, the symmetric distribution is in bearing base axis both sides to with bear base axis parallel distribution, bear roof, scissor lift arm trailing flank all with direction slide rail sliding connection, the direction slide rail with each bear the tray down the terminal surface distribution through two at least elastic telescopic links interconnect, two elastic telescopic link preceding terminal surfaces with bear the tray under the terminal surface articulated, the rear end face passes through slider and direction slide rail sliding connection, and articulated through the hinge between slider and the elastic telescopic link, and elastic telescopic link axis and bear the tray lower extreme and personally submit 0-60 contained angle, elastic telescopic link axis and direction slide rail axis are 0-90 contained angle.

Furthermore, establish flexible protection casing between the direction slide rail, flexible protection casing up end and lower terminal surface are connected with bearing the roof respectively, bear the base rear end to with bear the base axis parallel distribution, flexible protection casing is the transversal name "U" font slot-shaped structure, the cladding is outside two direction slide rails and with direction slide rail surface sliding connection.

Furthermore, the upper end face of the bearing tray and the horizontal plane form an included angle of 0-90 degrees, the bearing tray comprises a base, insulating cushion blocks, an electrostatic adsorption net and a heat dissipation fan, wherein the base is of an H-shaped groove-shaped structure in the cross section, the bottom of the base is a grid plate mechanism, the bottom of the upper end face of the base is connected with a positioning chute and is distributed in parallel with the axis of the base, the electrostatic adsorption net is embedded in the parallel distribution with the axis of the base and is distributed coaxially with the base, the rear end face of the electrostatic adsorption net is connected with the bottom of the base through a plurality of insulating cushion blocks, at least one heat dissipation fan is positioned between the electrostatic adsorption net and the bottom of the base and is connected with the bottom of the base, the axis of the heat dissipation fan is distributed vertically with the lower end face of the base, and the electrostatic adsorption net and the heat dissipation fan are both electrically connected with a wiring terminal.

Furthermore, the upper end surface of the bearing tray is provided with at least one bearing groove, the positioning groove is of a frame structure with a rectangular cross section and is in sliding connection with the upper end surface of the bearing tray through a positioning sliding groove, and when the number of the bearing grooves on the same bearing tray is two or more, the bearing grooves are mutually connected in parallel, and the distance between every two adjacent bearing grooves is 3-20 mm.

Furthermore, the axes of the lifting driving mechanisms are respectively and vertically connected with the bearing base and the bearing top plate, the axes of the two lifting driving mechanisms and the axis of the bearing base are distributed in the same plane which is vertically distributed with the upper end face of the bearing base, and the lifting driving mechanisms are any one of electric telescopic rods, hydraulic telescopic rods, pneumatic telescopic rods and screw rod mechanisms.

Furthermore, the driving circuit is based on any one of a DSP chip and an FPGA chip, and is additionally provided with an MOS driving circuit which is respectively and electrically connected with the scissor lifting arm, the lifting driving mechanism and the wiring terminal through the MOS driving circuit.

This novel simple structure, the degree of integrating is high, and it is nimble convenient to use, can be according to the needs that use, the structure and the bearing height of nimble adjustment rack to satisfy and use structure and quantity storage device to concentrate the needs of depositing the bearing, thereby help improving storage device installation location, change and maintain the flexibility and the convenience of operation, and can effectively prevent to deposit the harm that causes peripheral storage device when individual storage device trouble, thereby very big improvement storage device operation's stability and reliability.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic diagram of the novel cross section partial structure.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1 and 2, a combined server data storage cabinet structure includes a supporting base 1, a supporting top plate 2, scissor lift arms 3, supporting trays 4, a ratchet mechanism 5, a positioning chute 6, a lift driving mechanism 7, a connecting terminal 8 and a driving circuit 9, wherein the supporting base 1 and the supporting top plate 2 are both frame structures which are rectangular in cross section, the supporting top plate 2 is located right above the supporting base 1 and coaxially distributed with the supporting base 1, the supporting base 1 and the supporting top plate 2 are connected through two scissor lift arms 3, the scissor lift arms 3 are symmetrically distributed on two sides of the axis of the supporting base 1, the scissor lift arms 3 are vertically connected with the supporting base 1 and the upper end surface and the lower end surface of the supporting top plate 2 and are respectively distributed parallel to the axis of the supporting base 1 and the supporting top plate 2, the supporting trays 4 are located between the supporting base 1 and the supporting top plate 2, the two side surfaces of the bearing tray 4 are respectively hinged with the inner side surface of the scissor lifting arm 3 through a ratchet mechanism 5, the ratchet mechanism 5 is coaxially distributed with the hinging shaft of the scissor lifting arm 3 and is vertical to and intersected with the axis of the bearing base 1, the upper end surface of the bearing tray 4 is provided with a plurality of positioning chutes 6, the positioning chutes 6 are distributed in parallel with the upper end surface of the bearing tray 4 and are distributed in parallel with the axis of the ratchet mechanism 5, at least two lifting driving mechanisms 7 are symmetrically distributed on the two sides of the axis of the bearing base 1, the upper end surface and the lower end surface of each lifting driving mechanism 7 are respectively hinged with the outer side surfaces of the bearing base 1 and the bearing top plate 2, are positioned on the outer side of the scissor lifting arm 3 and are distributed in parallel with the outer side surface of the scissor lifting arm 3, and the number of the wiring terminals 8 is consistent with the number of the bearing trays 4, at least one wiring terminal 8 is all established to every 4 side surfaces of bearing the tray, and drive circuit 9 inlays in bearing base 1 to respectively with cutting fork lifing arm 3, lifting drive mechanism 4 and wiring terminal 8 electrical connection.

It is emphasized that two guide slide rails 10 are arranged on the rear end face of the bearing base 1, the guide slide rails 10 are connected with the rear end face of the bearing base 1, symmetrically distributed on two sides of the axis of the bearing base 1 and distributed in parallel with the axis of the bearing base 1, the rear side faces of the bearing top plate 2 and the scissor lifting arm 3 are both connected with the guide slide rails 10 in a sliding manner, the guide slide rails 10 are connected with the lower end faces of the bearing trays 4 through at least two elastic telescopic rods 11, the front end faces of the two elastic telescopic rods 11 are hinged with the lower end face of the bearing tray 4, the rear end faces are connected with the guide slide rails 10 in a sliding manner through a sliding block 12, the sliding block 12 is hinged with the elastic telescopic rods 11 through hinges, the axis of the elastic telescopic rods 11 and the lower end face of the bearing tray 4 form an included angle of 0-60 degrees, and the axis of the elastic telescopic rods 11 and the axis of the guide slide rails 10 form an included angle of 0-90 degrees.

Meanwhile, a telescopic protective cover 13 is arranged between the guide sliding rails 10, the upper end surface and the lower end surface of the telescopic protective cover 13 are respectively connected with the bearing top plate 2 and the rear end of the bearing base 1 and are distributed in parallel with the axis of the bearing base, the telescopic protective cover 13 is of a U-shaped groove-shaped structure with a transverse name, and is coated outside the two guide sliding rails 10 and is in sliding connection with the outer surfaces of the guide sliding rails 10.

In addition, the upper end surface of the bearing tray 4 forms an included angle of 0-90 degrees with the horizontal plane, the bearing tray 4 comprises a base 41, an insulating cushion block 42, an electrostatic adsorption net 43 and a heat dissipation fan 44, wherein the base 41 is in an H-shaped groove-shaped structure in cross section, the bottom of the base 41 is provided with a grid plate mechanism, the groove bottom of the upper end surface of the base 41 is connected with the positioning chute 6 and is distributed parallel to the axis of the base 41, the electrostatic adsorption net 43 is embedded in the groove and is distributed parallel to the axis of the base 41, is coaxially distributed with the base 41, the rear end surface of the electrostatic adsorption net is connected with the bottom of the groove at the bottom of the base 41 through a plurality of insulating cushion blocks, at least one heat radiation fan is positioned between the electrostatic adsorption net 43 and the bottom of the base 41, and is connected with the bottom of the base 41, and the axis of the heat radiation fan 44 is vertically distributed with the lower end surface of the base 41, and the electrostatic adsorption net 43 and the heat radiation fan 44 are electrically connected with the wiring terminal 8.

It should be noted that, at least one bearing groove 14 is disposed on the upper end surface of the bearing tray 4, the positioning groove 14 is a frame structure with a rectangular cross section and is slidably connected to the upper end surface of the bearing tray 4 through the positioning sliding groove 6, and when two or more bearing grooves 14 are disposed on the same bearing tray 4, the bearing grooves 14 are connected in parallel, and the distance between two adjacent bearing grooves 14 is 3-20 mm.

Preferably, the axes of the lifting driving mechanisms 7 are respectively and vertically connected with the bearing base 1 and the bearing top plate 2, the axes of the two lifting driving mechanisms 7 and the axis of the bearing base 1 are distributed in the same plane vertically distributed with the upper end face of the bearing base 1, and the lifting driving mechanisms 7 are based on any one of an electric telescopic rod, a hydraulic telescopic rod, an air telescopic rod and a screw rod mechanism.

In this embodiment, the driving circuit 9 is based on any one of a DSP chip and an FPGA chip, and the driving circuit is additionally provided with an MOS driving circuit and is electrically connected to the scissor lifting arm 3, the lifting driving mechanism 7, and the connection terminal 8 through the MOS driving circuit.

This is novel in the concrete implementation, at first to constituting this neotype base of bearing, bear the roof, cut fork lifing arm, bear tray, ratchet, location spout, lift actuating mechanism, binding post and drive circuit and assemble, accomplish this novel assembly.

In the novel transfer operation, the scissor lifting arm and the lifting driving mechanism are driven to contract at first, so that the novel transfer operation is in a contraction state, the structure and the volume of the novel transfer operation are effectively reduced, and the flexibility and the convenience of transfer, installation and use are improved; when carrying out storage facilities and supplementary electrical equipment simultaneously, the quantity of feeling required erection equipment, the operation is extended to drive scissors lifing arm and lift actuating mechanism, increase this neotype height, set up corresponding installation space for taking erection equipment, when satisfying the equipment fixing needs, reduce cabinet body equipment unnecessary space and occupy, simultaneously when erection equipment quantity and structure volume are great, the accessible increases scissors lifing arm and adjusts lift actuating mechanism stroke in addition, effectively satisfies the needs of different volume adjustments.

Furthermore, this is novel in concrete operation, bear individual storage device and corresponding supplementary electrical equipment through each bearing tray, and all independently install through the bearing groove between each equipment, and be connected with external circuit and communications facilities indirectly through binding post, simultaneously carry out independent setting and isolation to each equipment through the bearing groove, thereby prevent to lead to whole storage system trouble because of individual equipment trouble, improve the stability of the whole operation of storage system, simultaneously when carrying out equipment replacement operation, can directly reach the electrical connection of cutting off fast through separating with binding post, and through carrying out the whole change of independent equipment or directly bearing tray and each equipment of connecting to single at the groove and wholly changing, thereby reach the purpose of quick troubleshooting.

In addition, in this novel operation, the electrostatic absorption net of terminal surface carries out the dust absorption under the tray in addition accessible, dispels the heat when moving storage device through cooling fan to further improve storage device operation's stability and reliability.

This novel simple structure, the degree of integrating is high, and it is nimble convenient to use, can be according to the needs that use, the structure and the bearing height of nimble adjustment rack to satisfy and use structure and quantity storage device to concentrate the needs of depositing the bearing, thereby help improving storage device installation location, change and maintain the flexibility and the convenience of operation, and can effectively prevent to deposit the harm that causes peripheral storage device when individual storage device trouble, thereby very big improvement storage device operation's stability and reliability.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a modular server data storage rack structure which characterized in that: the combined server data storage cabinet structure comprises a bearing base, a bearing top plate, scissor lifting arms, a bearing tray, a ratchet mechanism, a positioning chute, a lifting driving mechanism, a wiring terminal and a driving circuit, wherein the bearing base and the bearing top plate are of a frame structure which is rectangular transversely, the bearing top plate is positioned right above the bearing base and coaxially distributed with the bearing base, the bearing base and the bearing top plate are connected through the two scissor lifting arms, the scissor lifting arms are symmetrically distributed on two sides of the axis of the bearing base, the scissor lifting arms are vertically connected with the upper end surface and the lower end surface of the bearing base and the bearing top plate and respectively distributed in parallel with the axes of the bearing base and the bearing top plate, the bearing tray is a plurality of bearing trays, the bearing trays are positioned between the bearing base and the bearing top plate, are coaxially distributed with the bearing base and uniformly distributed along the axis of the bearing base from top to bottom, and the distance between two adjacent bearing bases is 0-50 cm, the bearing tray is characterized in that two side surfaces of the bearing tray are hinged with the inner side surfaces of the scissor lifting arms through ratchet mechanisms respectively, the ratchet mechanisms and the scissor lifting arm hinge shafts are coaxially distributed and are perpendicular to and intersected with the axis of the bearing base, a plurality of positioning chutes are formed in the upper end surface of the bearing tray, the positioning chutes are distributed in parallel with the upper end surface of the bearing tray and are distributed in perpendicular to the axis of the ratchet mechanisms, at least two lifting driving mechanisms are symmetrically distributed on two sides of the axis of the bearing base, the upper end surface and the lower end surface of each lifting driving mechanism are hinged with the outer side surfaces of the bearing base and the bearing top plate respectively, the lifting driving mechanisms are positioned outside the scissor lifting arms and are distributed in parallel with the outer side surfaces of the scissor lifting arms, the number of the wiring terminals is consistent with the number of the bearing trays, at least one wiring terminal is arranged on the side surface of each bearing tray, the driving circuit is embedded in the bearing base and is respectively connected with the scissor lifting arms, The lifting driving mechanism is electrically connected with the wiring terminal.

2. A modular server data storage rack structure as in claim 1 wherein: bear the base rear end face establish two direction slide rails, the direction slide rail with bear the base rear end face and be connected, the symmetric distribution is in bearing base axis both sides to with bear base axis parallel distribution, bear roof, scissor lift arm trailing flank all with direction slide rail sliding connection, the direction slide rail with each bear terminal surface distribution under the tray through two at least elastic telescopic links interconnect, two elastic telescopic link preceding terminal surfaces with bear the tray terminal surface articulated, the rear end face passes through slider and direction slide rail sliding connection, and articulated through the hinge between slider and the elastic telescopic link, and elastic telescopic link axis and bear the tray lower extreme and personally submit 0-60 contained angles, elastic telescopic link axis and direction slide rail axis are 0-90 contained angles.

3. A modular server data storage rack structure as in claim 2 wherein: the telescopic protective cover is of a U-shaped groove-shaped structure with a transverse name and is coated outside the two guide slide rails and is in sliding connection with the outer surfaces of the guide slide rails.

4. A modular server data storage rack structure as in claim 1 wherein: the bearing tray is characterized in that the upper end face of the bearing tray and the horizontal plane form an included angle of 0-90 degrees, the bearing tray comprises a base, insulating cushion blocks, an electrostatic adsorption net and a cooling fan, wherein the base is of an H-shaped groove-shaped structure in the cross section, the groove bottom of the base is a grid plate mechanism, the groove bottom of the upper end face of the base is connected with a positioning sliding groove and is distributed in parallel with the axis of the base, the electrostatic adsorption net is embedded in the parallel distribution with the axis of the base and is distributed coaxially with the base, the rear end face of the electrostatic adsorption net is connected with the groove bottom of the base through the insulating cushion blocks, at least one cooling fan is located between the electrostatic adsorption net and the groove bottom of the base and is connected with the groove bottom of the base, the axis of the cooling fan is vertically distributed with the lower end face of the base, and the electrostatic adsorption net and the cooling fan are both electrically connected with a wiring terminal.

5. A modular server data storage rack structure as in claim 1 wherein: the upper end surface of the bearing tray is provided with at least one bearing groove, each bearing groove is of a frame structure with a rectangular cross section and is in sliding connection with the upper end surface of the bearing tray through a positioning sliding groove, and when the number of the bearing grooves on the same bearing tray is two or more, the bearing grooves are mutually connected in parallel, and the distance between every two adjacent bearing grooves is 3-20 mm.

6. A modular server data storage rack structure as in claim 1 wherein: the axes of the two lifting driving mechanisms and the axis of the bearing base are distributed in the same plane which is vertically distributed with the upper end face of the bearing base, and the lifting driving mechanism is based on any one of an electric telescopic rod, a hydraulic telescopic rod, a pneumatic telescopic rod and a screw rod mechanism.

7. A modular server data storage rack structure as in claim 1 wherein: the driving circuit is based on any one of a DSP chip and an FPGA chip, and is additionally provided with an MOS driving circuit which is electrically connected with the scissor lifting arm, the lifting driving mechanism and the wiring terminal through the MOS driving circuit.

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