CN211123928U - Block chain link point service device for multi-block chain platform - Google Patents

Abstract

The utility model relates to a block chain link point server for many block chain platforms, including rack and heat dissipation mechanism, be equipped with the tray that is the lamellar arrangement in the rack, be equipped with the server on the tray, heat dissipation mechanism includes heat absorption subassembly and radiator unit, and radiator unit sets up outside the rack, and heat absorption subassembly sets up inside the rack, and heat absorption subassembly passes through the heat-conducting piece and is connected with radiator unit, and heat absorption subassembly corresponds with the server and arranges, and heat absorption subassembly movable mounting, heat absorption subassembly connect adjustment mechanism, and adjustment mechanism is used for adjusting heat absorption subassembly laminating or keeping away from with the server, the utility model discloses novel structure, rationally distributed, easy operation, the operation is stable, and server simple to operate can carry out effectual heat dissipation to the server, and the radiating effect is good makes the server can the steady operation, has satisfied present operation requirement.

Description

Block chain link point service device for multi-block chain platform

Technical Field

The utility model relates to a calculate the field, concretely relates to block chain link point service device for many block chain platforms.

Background

Blockchains are a term of art in information technology. In essence, the system is a shared database, and the data or information stored in the shared database has the characteristics of 'unforgeability', 'whole-course trace', 'traceability', 'public transparency', 'collective maintenance', and the like. Based on the characteristics, the block chain technology lays a solid 'trust' foundation, creates a reliable 'cooperation' mechanism and has wide application prospect.

The block chain technology is more and more popular now, the block chain technology needs powerful server to calculate and support, this kind of server needs good heat dispersion could guarantee that continuation and the stability of calculation go on, block chain link point is used for integrating and transmits a large amount, generally be the set of a plurality of block chain servers, this kind of set service device needs good quick heat dissipation, just can guarantee the stable of work and go on, although server itself has heat dissipation mechanism, but back in the electric appliance cabinet is concentrated to a plurality of servers, the temperature is too high easily in the electric appliance cabinet, lead to the heat dissipation not good, the heat dissipation is timely inadequately, it leads to the trouble to overheat after long-time work easily, serious can burn out the server and lose data, can not satisfy present operation requirement.

Disclosure of Invention

The utility model aims at providing a block chain link point service device for many block chain platforms, its purpose has realized quick, the effectual heat dissipation of multiserver, guarantees the stable work of server.

The technical proposal adopted by the utility model is as follows.

The utility model provides a block chain link point service device for multi-block chain platform, including rack and heat dissipation mechanism, be equipped with the tray that is the stratiform and arranges in the rack, the server is equipped with on the tray, heat dissipation mechanism includes heat absorption subassembly and radiator unit, radiator unit sets up outside the rack, heat absorption subassembly sets up inside the rack, heat absorption subassembly passes through the heat conduction piece and is connected with radiator unit, heat absorption subassembly corresponds with the server and arranges, heat absorption subassembly movable mounting, heat absorption subassembly connects adjustment mechanism, adjustment mechanism is used for adjusting heat absorption subassembly laminating or keeping away from with the server.

Preferably: the tray is distributed at intervals from top to bottom, the heat absorption assemblies are arranged in one-to-one correspondence with the tray, and each heat absorption assembly is connected with the heat dissipation assembly through the heat conduction piece.

Preferably: the heat absorption assembly comprises two heat absorption members with the same structure, the two heat absorption members are arranged right above and below the server, the side surfaces, close to the server, of the two heat absorption members are heat absorption surfaces, the heat absorption surfaces are parallel to the upper side surface and the lower side surface of the server, the two heat absorption members are connected with the adjusting mechanism, the adjusting mechanism is used for adjusting the two heat absorption members to ascend and descend, and the heat absorption surfaces of the two heat absorption members are attached to or separated from the side surfaces of the server.

Preferably: the heat absorbing part is paved with heat conducting pipes, heat conducting liquid is filled in the heat conducting pipes, liquid inlet connectors and liquid outlet connectors are arranged on two sides of the heat absorbing part respectively, two ends of each heat conducting pipe are connected with the liquid inlet connectors and the liquid outlet connectors, each heat conducting part comprises a liquid inlet pipe and a liquid outlet pipe which are vertically arranged, one end of each liquid inlet pipe and one end of each liquid outlet pipe are sealed, the other end of each liquid inlet pipe and one end of each liquid outlet pipe are connected with a heat dissipation assembly, and the liquid inlet connectors and the liquid outlet connectors are communicated with.

Preferably: the heat conduction pipes are laid on the plate surface of the heat absorbing piece at equal intervals.

Preferably: and a heat insulation sleeve is arranged on the surface of the heat absorbing piece far away from the server.

Preferably: the radiating assembly comprises a circulating pump and a radiating pipe, one end of the radiating pipe is connected with the liquid outlet pipe, the other end of the radiating pipe is connected with the circulating pump, the circulating pump is connected with the liquid inlet pipe, and radiating fins are arranged on the radiating pipe.

Preferably: the adjusting mechanism comprises a nut and a screw rod, the nut is fixedly installed at the left end and the right end of the heat absorbing part, the screw rod is vertically arranged at the left end and the right end of the heat absorbing part, the nut is matched with the screw rod, the lower end of the screw rod is connected with a transmission assembly, the transmission assembly is connected with a motor, and the motor drives the two screw rods to rotate at a constant speed in opposite directions through the transmission assembly.

Preferably: the front side of the cabinet is provided with a glass door, the rear side of the cabinet is provided with an air hole communicated with the outside, and the cabinet is internally provided with an anti-electromagnetic interference interlayer.

Preferably: the tray comprises two supporting pieces which are arranged in parallel, the two supporting pieces are arranged on the two outer sides of the heat absorbing piece, the supporting pieces are used for supporting the left side edge and the right side edge of the server, and the heat absorbing piece does not interfere with the supporting pieces when being lifted.

The utility model discloses the technological effect who gains does: through heat absorption assembly's setting, the realization is absorbed the heat that the server gived off, and transmit on the radiator unit through heat conduction piece, radiator unit is giving off the heat, through heat absorption assembly movable mounting's setting, when installing the server, only need place the server on the tray, then adjustment mechanism adjusts the heat absorption assembly motion, make heat absorption assembly and server laminating, be convenient for dispel the heat, high durability and convenient installation, when needing to get rid of the server, adjustment mechanism adjusts the heat absorption assembly and keeps away from the server, take out the server again both can, high durability and convenient use.

Through the setting of a plurality of trays, realized placing work of a plurality of servers, each server corresponds a set of heat absorption subassembly simultaneously for every server homoenergetic obtains effectual heat dissipation, guarantees the steady operation of server.

Through the setting of heat absorbing member, realize the absorption to the side heat effluvium about the server, effectual radiating effect and the speed of having promoted, adjust the structure simultaneously and only need adjust the heat absorbing member and go up and down, both can realize laminating and the separation of heat absorbing member and server, the server installation of being convenient for and taking out have satisfied the operation requirement.

Through the setting of heat pipe, realize that the liquid that flows in it absorbs the heat, then will circulate to the rack outside through feed liquor pipe and drain pipe and cool off, realized the liquid cooling function.

Lay on the face of heat absorbing piece through heat pipe equidistance interval, realize that the heat absorbing piece can evenly absorb heat everywhere for the radiating effect of server everywhere is unanimous, avoids the uneven problem of local heat dissipation, has guaranteed the radiating effect.

Through the setting of radiation shield, avoid heat pipe and heat absorbing member to absorb the heat in the air, the effectual heat absorption effect of having guaranteed has satisfied the operation requirement.

Through circulating pump, cooling tube and radiating fin's setting, realize the circulation function of liquid, and arrange the outside function of rack with the heat.

Through the setting of nut and screw rod, realized ordering about the raising and lowering functions of heat absorbing member, the drive is stable, and it is convenient to adjust, has satisfied the operation requirement.

Through the setting of bleeder vent, the circulation of server afterbody heat dissipation fan and outside air of being convenient for avoids the inside high temperature of rack, through the setting of anti-electromagnetic interference intermediate layer, avoids the work of external electromagnetic signal interference server.

Through the setting of propping the support, realized propping the function of holding in the palm the server, can not hinder the heat absorbing piece simultaneously and go up and down, guarantee that the heat absorbing piece can laminate with the side about the server, satisfied operation requirement.

The utility model discloses novel structure, it is rationally distributed, easy operation, the operation is stable, and server simple to operate can carry out effectual heat dissipation to the server, and the radiating effect is good makes the server can the steady job, has satisfied present operation requirement.

Drawings

Fig. 1 is a schematic structural diagram of a block link point service device for a multi-block chain platform according to the present invention;

fig. 2 is a schematic structural diagram of a heat absorption assembly in a block link spot service device for a multi-block chain platform according to the present invention;

fig. 3 is a schematic structural diagram of a heat absorption assembly and an adjusting mechanism in a block link point service device for a multi-block chain platform according to the present invention.

The corresponding relation of all the reference numbers is as follows: 100-cabinet, 200-heat dissipation mechanism, 210-heat absorption component, 211-heat absorption component, 212-heat conduction pipe, 213-liquid inlet joint, 214-liquid outlet joint, 215-hose, 216-heat insulation sleeve, 220-heat dissipation component, 230-heat conduction component, 231-liquid inlet pipe, 232-liquid outlet pipe, 300-server, 400-tray, 410-support component, 500-adjustment mechanism, 510-screw rod and 520-nut.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

Example 1

Referring to fig. 1 to 3, in the present embodiment, a block link point service device for a multi-block chain platform is provided, including a cabinet 100 and a heat dissipation mechanism 200, a tray 400 arranged in a layered manner is installed in the cabinet 100, a server 300 is installed on the tray 400, the heat dissipation mechanism 200 includes a heat absorption component 210 and a heat dissipation component 220, the heat dissipation component 220 is disposed outside the cabinet 100, the heat absorption component 210 is disposed inside the cabinet 100, the heat absorption component 210 is connected with the heat dissipation component 220 through a heat conduction member 230, the heat absorption component 210 is arranged corresponding to the server 300, the heat absorption component 210 is movably installed, the heat absorption component 210 is connected with an adjustment mechanism 500, and the adjustment mechanism 500 is used for adjusting the heat absorption component 210 to be attached to or away from.

Through heat absorbing assembly 210's setting, the realization is absorbed the heat that server 300 gived off, and transmit on heat radiating assembly 220 through heat conduction piece 230, heat radiating assembly 220 is giving off the heat, through heat absorbing assembly 210 movable mounting's setting, when installation server 300, only need place the server on tray 400, then adjustment mechanism 500 adjusts heat absorbing assembly 210 motion, make heat absorbing assembly 210 and server laminating, be convenient for dispel the heat, and convenient for installation, when needing to get rid of the server, adjustment mechanism 500 adjusts heat absorbing assembly 210 and keeps away from server 300, take out server 300 again both, and is convenient for operation, and high durability and convenient use.

The tray 400 is distributed at intervals up and down, the heat absorbing components 210 are arranged corresponding to the tray 400 one by one, and each heat absorbing component 210 is connected with the heat dissipating component 220 through the heat conducting member 230.

Through the setting of a plurality of trays 400, realized the work of placing of a plurality of servers 300, each server 300 corresponds a set of heat absorption assembly 210 simultaneously for every server 300 homoenergetic obtains effectual heat dissipation, guarantees the steady operation of server 300.

The heat absorbing assembly 210 comprises two heat absorbing members 211 with the same structure, the two heat absorbing members 211 are arranged right above and right below the server 300, the side surfaces of the two heat absorbing members 211 close to the server 300 are heat absorbing surfaces, the heat absorbing surfaces are parallel to the upper side surface and the lower side surface of the server 300, the two heat absorbing members 211 are connected with an adjusting mechanism 500, and the adjusting mechanism 500 is used for adjusting the two heat absorbing members 211 to lift and fall, so that the heat absorbing surfaces of the two heat absorbing members 211 are attached to or separated from the side surfaces of the server 300.

Through the setting of heat absorbing piece 211, realize the absorption to server 300 upper and lower side radiating heat, the effectual radiating effect and the speed that has promoted adjusts structure 500 simultaneously and only needs to adjust heat absorbing piece 211 and go up and down, both can realize the laminating and the separation of heat absorbing piece 211 and server 300, and the server 300 of being convenient for is installed and is taken out, has satisfied the operation requirement.

The heat absorbing member 211 is paved with heat conducting pipes 212, the heat conducting pipes 212 are filled with heat conducting liquid, two sides of the heat absorbing member 211 are respectively provided with a liquid inlet connector 213 and a liquid outlet connector 214, two ends of each heat conducting pipe 212 are connected with the liquid inlet connector 213 and the liquid outlet connector 214, the heat conducting member 230 comprises a liquid inlet pipe 231 and a liquid outlet pipe 232 which are vertically arranged, one ends of the liquid inlet pipe 231 and the liquid outlet pipe 232 are sealed, the other ends of the liquid inlet pipe 231 and the liquid outlet pipe 232 are connected with a heat radiating assembly 220, and the liquid inlet connector 213 and the liquid outlet connector 214 are communicated with pipe bodies of the corresponding.

Through the setting of heat pipe 212, realize that the liquid that flows in it absorbs the heat, then will circulate to the rack outside through feed liquor pipe 231 and drain pipe 232 and cool off, realized the liquid cooling function.

The heat pipes 212 are disposed on the surface of the heat absorbing member 211 at regular intervals.

The heat pipes 212 are equidistantly and alternately laid on the plate surface of the heat absorbing piece 211, so that the heat absorbing piece 211 can absorb heat uniformly everywhere, the heat dissipation effect of each part of the server 300 is consistent, the problem of uneven local heat dissipation is avoided, and the heat dissipation effect is ensured.

The face of the heat absorbing member 211 remote from the server 300 is provided with an insulating sleeve 216.

Through the setting of radiation shield 216, avoid heat pipe 212 and heat absorbing member 211 to absorb the heat in the air, the effectual heat absorption effect of having guaranteed has satisfied the operation requirement.

Radiating component 220 includes circulating pump and cooling tube, and drain pipe 232 is connected to cooling tube one end, and the circulating pump is connected to the other end, and feed liquor pipe 231 is connected to the circulating pump, is equipped with radiating fin on the cooling tube.

Through circulating pump, cooling tube and radiating fin's setting, realize the circulation function of liquid, and arrange the outside function of rack with the heat.

The adjusting mechanism 500 comprises a nut 520 and a screw 510, the nut 520 is fixedly installed at the left end and the right end of the heat absorbing member 211, the screw 510 is vertically arranged at the left end and the right end of the heat absorbing member 211, the nut 520 is matched with the screw 510, the lower end of the screw 510 is connected with a transmission assembly, the transmission assembly is connected with a motor, and the motor drives the two screws 510 to rotate at a constant speed in opposite directions through the transmission assembly.

Through the arrangement of the nut 520 and the screw 510, the lifting function of the heat absorbing piece 211 is realized, the driving is stable, the adjustment is convenient, and the use requirement is met.

A glass door is arranged on the front side of the cabinet 100, air holes communicated with the outside are formed in the rear side of the cabinet 100, and an anti-electromagnetic interference interlayer is arranged in the cabinet 100.

Through the setting of bleeder vent, the circulation of server afterbody heat dissipation fan and outside air of being convenient for avoids the inside high temperature of rack 100, through the setting of anti-electromagnetic interference intermediate layer, avoids external electromagnetic signal to disturb the work of server 300.

The tray 400 includes two supporting members 410 disposed in parallel, the two supporting members 410 are disposed at two outer sides of the heat absorbing member 211, the supporting members 410 are used for supporting the left and right sides of the server 300, and the heat absorbing member 211 does not interfere with the supporting members 410 when being lifted.

Through the setting of propping the piece 410, realized the function of propping the support server 300, can not hinder the heat absorbing piece 211 simultaneously and go up and down, guarantee that the heat absorbing piece 211 can laminate with the side about the server 300, satisfied the operation requirement.

The utility model discloses novel structure, it is rationally distributed, easy operation, the operation is stable, and server simple to operate can carry out effectual heat dissipation to the server, and the radiating effect is good makes the server can the steady job, has satisfied present operation requirement.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (10)

1. A block-link point service device for a multi-block-chain platform, comprising: including rack (100) and heat dissipation mechanism (200), be equipped with tray (400) that is the stratiform and arranges in rack (100), server (300) are equipped with on tray (400), heat dissipation mechanism (200) are including heat absorption subassembly (210) and radiator unit (220), radiator unit (220) set up outside rack (100), heat absorption subassembly (210) set up inside rack (100), heat absorption subassembly (210) are connected with radiator unit (220) through heat-conducting piece (230), heat absorption subassembly (210) correspond with server (300) and arrange, heat absorption subassembly (210) movable mounting, adjustment mechanism (500) is connected in heat absorption subassembly (210), adjustment mechanism (500) are used for adjusting heat absorption subassembly (210) laminating or keep away from with server (300).

2. The block-link point service device for a multi-block-chain platform according to claim 1, wherein: the tray (400) is distributed at intervals up and down, the heat absorption assemblies (210) are arranged in one-to-one correspondence with the tray (400), and each heat absorption assembly (210) is connected with the heat dissipation assembly (220) through the heat conducting piece (230).

3. The block-link point service device for a multi-block-chain platform according to claim 2, wherein: the heat absorption assembly (210) comprises two heat absorption pieces (211) with the same structure, the two heat absorption pieces (211) are arranged right above and right below the server (300), the side faces, close to the server (300), of the two heat absorption pieces (211) are heat absorption faces, the heat absorption faces are parallel to the upper side face and the lower side face of the server (300), the two heat absorption pieces (211) are connected with the adjusting mechanism (500), the adjusting mechanism (500) is used for adjusting the two heat absorption pieces (211) to ascend and descend, and the heat absorption faces of the two heat absorption pieces (211) are attached to or separated from the side faces of the server (300).

4. The block-link point service device for a multi-block-chain platform according to claim 3, wherein: the heat absorption device is characterized in that heat conduction pipes (212) are paved on the heat absorption member (211), heat conduction liquid is filled in the heat conduction pipes (212), liquid inlet connectors (213) and liquid outlet connectors (214) are respectively arranged on two sides of the heat absorption member (211), two ends of each heat conduction pipe (212) are respectively connected with the liquid inlet connectors (213) and the liquid outlet connectors (214), the heat conduction member (230) comprises a liquid inlet pipe (231) and a liquid outlet pipe (232) which are vertically arranged, one ends of the liquid inlet pipe (231) and the liquid outlet pipe (232) are sealed, the other ends of the heat dissipation assemblies (220) are connected, and the liquid inlet connectors (213) and the liquid outlet connectors (214) are respectively communicated with pipe bodies of the corresponding liquid inlet pipe (231) and the corresponding liquid outlet pipe.

5. The block-link point service device for a multi-block-chain platform according to claim 4, wherein: the heat conducting pipes (212) are laid on the plate surface of the heat absorbing member (211) at equal intervals.

6. The block-link point service device for a multi-block-chain platform according to claim 5, wherein: the heat absorbing piece (211) is provided with a heat insulating sleeve (216) on the plate surface far away from the server (300).

7. The block-link point service device for a multi-block-chain platform according to claim 6, wherein: radiating component (220) are including circulating pump and cooling tube, and drain pipe (232) are connected to cooling tube one end, and the circulating pump is connected to the other end, and feed liquor pipe (231) is connected to the circulating pump, is equipped with radiating fin on the cooling tube.

8. The block-link point service device for a multi-block-chain platform according to claim 7, wherein: the adjusting mechanism (500) comprises nuts (520) and screws (510), the nuts (520) are fixedly mounted at the left end and the right end of the heat absorbing piece (211), the screws (510) are vertically arranged at the left end and the right end of the heat absorbing piece (211), the nuts (520) are matched with the screws (510), the lower end of each screw (510) is connected with a transmission assembly, the transmission assemblies are connected with a motor, and the motors drive the two screws (510) to rotate at a constant speed in opposite directions through the transmission assemblies.

9. The block-link point service device for a multi-block-chain platform according to claim 8, wherein: the glass door is arranged on the front side of the cabinet (100), the air holes communicated with the outside are formed in the rear side of the cabinet (100), and the anti-electromagnetic interference interlayer is arranged in the cabinet (100).

10. The block-link point service device for a multi-block-chain platform according to claim 9, wherein: the tray (400) comprises two supporting pieces (410) which are arranged in parallel, the two supporting pieces (410) are arranged on the two outer sides of the heat absorbing piece (211), the supporting pieces (410) are used for supporting the left side and the right side of the server (300), and the heat absorbing piece (211) does not interfere with the supporting pieces (410) when being lifted.

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