CN219644410U - Server cabinet convenient for heat dissipation - Google Patents

Abstract

The utility model discloses a server cabinet convenient for heat dissipation, which belongs to the technical field of server cabinets and comprises a base and a server cabinet, wherein the server cabinet is fixedly arranged on one side above the base, a door plate is arranged on the server cabinet in a matched mode, a plurality of sieve holes are formed in the surface of the door plate, and a water cooling heat dissipation mechanism capable of rapidly cooling a server is arranged above the base. According to the utility model, the water pump is used for guiding the cooling liquid in the cooling liquid tank into the outer layer of the heat exchange cavity through the water cooling heat dissipation mechanism, the cooling liquid takes away the heat on the surface of the heat exchange cavity, then the water pump is used for pumping the liquid in the outer layer of the heat exchange cavity into the cold water machine, the liquid returns to the cooling liquid tank after being cooled by the cold water machine, and the cooling liquid is reciprocated in the cooling liquid tank, so that each server is subjected to heat dissipation, and the four surfaces of the heat exchange cavity are in full contact with the corresponding server, so that the heat transfer area is increased to the greatest extent, and the heat dissipation effect is better.

Description

Server cabinet convenient for heat dissipation

Technical Field

The utility model belongs to the technical field of server cabinets, and particularly relates to a server cabinet convenient for heat dissipation.

Background

The server cabinet is an independent or self-supporting shell for accommodating server machine parts, the server can emit more heat in the working process, if the server does not timely disperse the heat emitted by the server cabinet, the heat is gathered, so that the temperature inside the server cabinet is higher, the server is easy to damage, and potential safety hazards such as fire disaster are caused, and the server cabinet convenient to dissipate heat is provided.

The utility model provides a server rack, including server rack body, condensation heat abstractor, first induced draft heat abstractor and second induced draft heat abstractor, the inside rear end of server rack body is equipped with condensation heat abstractor, has through the condensation heat abstractor that sets up at the inside rear end of server rack body and its inside distributed condenser pipe, can be efficient through the fixed condensation inlet tube that sets up in condenser pipe upper end outside and the fixed condenser outlet pipe lug direct connection cooling water that sets up in lower extreme outside refrigerates, and the radiating rate is fast, through the first induced draft heat abstractor and the second induced draft heat abstractor that set up through the mounting panel in server rack body top and bottom, can be efficient through motor drive fan impeller internal heat that gives off, two-way giving off effectually, extension server rack's life, this heat dispersion is good server rack, through supporting leg and the fixed support leg of threaded connection in the bottom of server rack body outer end, the direct adjustment height of being convenient for, through the silica gel pad in the locating piece bottom for the stability of support is high, wear-resisting, through the fixed support's fixed support bar that makes the fixed connection in the outer side of supporting leg, the fixed bar is convenient for the fixed strength of support, the fixed connection is convenient for the fixed with the fixed bar is welded in the fixed structure outside through the fixed high-speed.

But it is found through research that: the device takes away the heat that the server produced through the inside cooling water of condenser pipe, but the device condenser pipe is limited with the server area of contact, and the heat transfer effect is not good, and the device does not have the structure of scattering the air current that induced draft heat abstractor produced in addition for the air current flow scope is limited, and the radiating effect is limited, can't carry out the complete evacuation with the heat that every server produced, still has heat gathering inside the control cabinet, and the high temperature can damage the server, influences the life of server, and moreover, the device does not seal the structure of protection to the server, consequently provides a novel device and solves this problem.

Disclosure of Invention

The utility model aims at: in order to solve the above-mentioned problems, a server cabinet is provided that facilitates heat dissipation.

The technical scheme adopted by the utility model is as follows: the utility model provides a server rack convenient to heat dissipation, includes base and server rack, base top one side fixed mounting has the server rack, the supporting door plant that is provided with of server rack, and the door plant surface is provided with a plurality of sieve meshes;

and a water cooling mechanism capable of rapidly cooling the server is arranged above the base.

The water cooling mechanism comprises a mounting plate, a heat exchange cavity, a cooling liquid tank, a water pump, a cold water machine and a water pump, wherein the mounting plate is arranged in the server cabinet through a sliding rail in a sliding manner, a server mounting groove is embedded in the surface of the mounting plate, the heat exchange cavity is movably connected with the server mounting groove, one side of the heat exchange cavity corresponding to the front side of the server is provided with a cambered surface screen mesh, the position of the heat exchange cavity corresponding to the back side of the server is embedded with air holes, other parts of the heat exchange cavity are arranged in a double-layer manner, the other side of the base is fixedly provided with the cooling liquid tank, the outlet of the cooling liquid tank is connected with the water pump, the inlet of the outer layer of the heat exchange cavity is connected with the water pump through a quick connector, the outlet of the outer layer of the heat exchange cavity is connected with the water pump through a quick connector, the cooling liquid tank, the water pump, the heat exchange cavity, the water pump and the cold water machine form a closed loop, the inside the server cabinet is provided with at least four mounting plates, the two mounting plates above the mounting plate are respectively, the two sides of the heat exchange cavity are arranged at least, the two sides of the heat exchange cavity are symmetrically connected with the two side elastic pieces of the mounting plate are connected with the elastic pieces, and the elastic pieces are connected with the two sides of the elastic pieces by the elastic pieces, and the elastic pieces are embedded in the elastic pieces are connected with the two elastic pieces, and the elastic pieces are embedded in the elastic pieces.

The fan is installed to the door plant inboard, the door plant inboard corresponds the department with the fan and is connected with the connecting rod through servo motor symmetry rotation, and the outside nestification of connecting rod is provided with a plurality of impellers, connecting rod one side corresponds department fixed mounting with the cambered surface screen cloth of heat exchange chamber one side has the brush board, the air extraction fan is installed at server rack top.

In summary, due to the adoption of the technical scheme, the beneficial effects of the utility model are as follows:

1. according to the utility model, the water cooling heat dissipation mechanism is adopted, the water pump is used for guiding the cooling liquid in the cooling liquid tank into the outer layer of the heat exchange cavity, the cooling liquid takes away the heat on the surface of the heat exchange cavity, then the water pump is used for pumping the liquid in the outer layer of the heat exchange cavity into the water chiller, the liquid returns to the cooling liquid tank after being cooled by the water chiller, so that the cooling liquid is reciprocated, each server is subjected to heat dissipation, and the four surfaces of the heat exchange cavity are in complete contact with the corresponding servers, so that the heat transfer area is increased to the greatest extent, and the heat dissipation effect is better.

2. According to the utility model, the induced fan blows air flow into the server cabinet, the servo motor drives the connecting rod and the impeller to rotate, the impeller breaks up the air flow blown by the induced fan, so that the air flow spreading area is wider, the induced fan is matched with the induced fan to pump away redundant air in the server cabinet to perform secondary heat dissipation on the server, the brush plate continuously rotates along with the connecting rod and continuously sweeps the surface of the cambered surface screen on one side of the heat exchange cavity, the cambered surface screen is cleaned, the heat dissipation effect is prevented from being influenced by the accumulation of impurities on the surface of the cambered surface screen, the heat dissipation effect of the device is further improved, the damage of the server caused by heat accumulation is avoided, and the service life of the server is ensured.

3. According to the utility model, the heat exchange cavity seals and protects the server, the cambered surface screen mesh on one side of the heat exchange cavity removes part of dust and other impurities, so that the dust and other impurities are furthest reduced from entering the heat exchange cavity, the pollution degree of the dust to the server is reduced, in addition, a worker smoothly removes the heat exchange cavity from the mounting plate by pressing the touch rod, and the server is overhauled and more portable to use.

Drawings

FIG. 1 is a schematic illustration of the overall elevation cross-sectional structure of the present utility model;

FIG. 2 is a schematic diagram of the enlarged construction of FIG. 1 at A in accordance with the present utility model;

FIG. 3 is a schematic diagram of the enlarged structure of FIG. 2 at B in the present utility model;

FIG. 4 is a schematic diagram of the overall side cross-sectional structure of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4 at C in accordance with the present utility model;

FIG. 6 is a schematic diagram of a heat exchange cavity in a partial three-dimensional structure in the utility model;

fig. 7 is a schematic diagram of a partial three-dimensional structure of a connecting rod in the utility model.

The marks in the figure: 1. a base; 101. a server cabinet; 1011. a door panel; 1012. a mounting plate; 1013. a touch lever; 102. a heat exchange cavity; 1021. a spring plate; 2. a cooling liquid tank; 201. a water pump; 202. a water chiller; 2021. a water pump; 3. a fan; 301. a connecting rod; 3011. a servo motor; 3012. brushing a plate; 302. an exhaust fan.

Detailed Description

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

In the utility model, the following components are added:

referring to fig. 1-7, a server cabinet convenient for heat dissipation comprises a base 1 and a server cabinet 101, wherein the server cabinet 101 is fixedly installed on one side above the base 1, a door plate 1011 is arranged on the server cabinet 101 in a matching way, and a plurality of sieve holes are formed in the surface of the door plate 1011;

a water cooling mechanism capable of rapidly cooling the server is arranged above the base 1.

Referring to fig. 1, 2, 3, 4, 6, further, the water cooling mechanism comprises a mounting plate 1012, a heat exchange cavity 102, a cooling liquid tank 2, a water pump 201, a water chiller 202 and a water pump 2021, wherein the inside of a server cabinet 101 is slidably connected with the mounting plate 1012 through a sliding rail, a server mounting groove is embedded in the surface of the mounting plate 1012, the heat exchange cavity 102 is movably connected with the server mounting groove above the mounting plate 1012, one side of the heat exchange cavity 102 corresponding to the front side of the server is provided with a cambered surface screen mesh, the position of the heat exchange cavity 102 corresponding to the back side of the server is embedded with an air vent, other parts of the heat exchange cavity 102 are in double-layer arrangement, the other side of the upper side of the base 1 is fixedly provided with the cooling liquid tank 2, the outlet of the cooling liquid tank 2 is connected with the water pump 201, the inlet of the outer layer of the heat exchange cavity 102 is connected with the water pump 201 through a quick connector, the back of the server cabinet 101 is fixedly provided with a water chiller 202, the inlet of the water chiller 202 is connected with a water pump 2021, the outer layer outlet of the heat exchange cavity 102 is connected with the water pump 2021 through a quick connector, a closed loop is formed by a cooling liquid tank 2, a water pump 201, the heat exchange cavity 102, the water pump 2021 and the water chiller 202, at least four mounting plates 1012 are arranged in the server cabinet 101, at least two server mounting grooves are formed above one mounting plate 1012, elastic pieces 1021 are symmetrically and elastically connected to the two sides of the outer part of the heat exchange cavity 102, recesses which are in fit with the elastic pieces 1021 are embedded in the two sides of the inner part of the server mounting groove above the mounting plate 1012, touch rods 1013 are elastically connected to the two sides of the outer part of the server mounting groove above the mounting plate 1012 through grooves, and the tail ends of the touch rods 1013 extend into the recesses;

the staff pulls out the mounting panel 1012, put into the server mounting groove with the server, afterwards, the staff blocks into the server mounting groove top with corresponding heat transfer chamber 102, the shell fragment 1021 pops into the recess of server mounting groove inboard both sides, fix heat transfer chamber 102 above the server mounting groove, and heat transfer chamber 102 surface is protected in the surrounding of server to heat transfer chamber 102 work production to the corresponding server front of heat transfer chamber 102 screen cloth side, the water pump 201 work, the inside coolant liquid of coolant tank 2 is imported into the heat transfer chamber 102 external layer, the coolant liquid takes away the heat of heat transfer chamber 102 surface, afterwards, the water pump 2021 pumps the outside liquid of heat transfer chamber 102 into the cold water machine 202 inside, get back into coolant tank 2 after the cooling of cold water machine 202, so reciprocating, dispel the heat to the server, the staff breaks away from the recess through pressing the touch lever 1013, the end of touch lever 1013 breaks away from the recess in the support of shell fragment 1021, remove heat transfer chamber 102 smoothly from the mounting panel 1012.

Referring to fig. 1, 4, 5 and 7, further, an induced fan 3 is installed on the inner side of a door plate 1011, a connecting rod 301 is symmetrically and rotatably connected to the inner side of the door plate 1011 corresponding to the induced fan 3 through a servo motor 3011, a plurality of impellers are nested outside the connecting rod 301, a brush plate 3012 is fixedly installed at the position corresponding to a cambered screen on one side of the heat exchange cavity 102 on one side of the connecting rod 301, and an induced draft fan 302 is installed on the top of the server cabinet 101;

induced fan 3 simultaneous working blows the air current to inside the server rack 101, servo motor 3011 drives connecting rod 301 and impeller rotation, the impeller breaks up the air current that induced fan 3 blown out, make the air current spread area wider, partial air current gets into in the positive cambered surface screen mesh of heat transfer chamber 102, derive from heat transfer chamber 102 back bleeder vent, induced draft fan 302 cooperation is taken away unnecessary air in the server rack 101, carry out the secondary heat dissipation to the server, brush board 3012 rotates along with connecting rod 301 constantly, and sweep from heat transfer chamber 102 one side cambered surface screen surface, clear up the cambered surface screen, avoid impurity accumulation to influence the radiating effect at cambered surface screen surface.

Referring to fig. 1, 4 and 5, further, the water pump 201, the water chiller 202, the water pump 2021, the induced draft fan 3, the servo motor 3011 and the induced draft fan 302 are all electrically connected to an external power supply through a control panel.

Working principle: firstly, a worker pulls out a mounting plate 1012, puts a server into a server mounting groove, lays a silica gel cooling fin on the server, then the worker clamps a corresponding heat exchange cavity 102 above the server mounting groove, a spring piece 1021 is sprung into depressions on two sides in the server mounting groove, the heat exchange cavity 102 is fixed above the server mounting groove, one side of a cambered surface screen of the heat exchange cavity 102 corresponds to the front of the server, the server is surrounded and protected, heat generated by the operation of the server is transferred to the surface of the heat exchange cavity 102, a water pump 201 is operated, cooling liquid in a cooling liquid tank 2 is led into an outer layer of the heat exchange cavity 102, the cooling liquid takes away the heat on the surface of the heat exchange cavity 102, then a water pump 2021 pumps liquid in the outer layer of the heat exchange cavity 102 into a water chiller 202, and returns to the inside of the cooling liquid tank 2 after being cooled by the water chiller 202, and the like is reciprocated, the server is subjected to heat exchange and heat dissipation, the worker presses the touch rod 1013, the tail end of the touch rod 1013 is separated from the recess by pushing the elastic sheet 1021, the heat exchange cavity 102 is smoothly removed from the mounting plate 1012, then the induced fan 3 works simultaneously, air flow is blown into the server cabinet 101, the servo motor 3011 drives the connecting rod 301 and the impeller to rotate slowly, the impeller breaks up the air flow blown by the induced fan 3, the air flow spreading area is wider, part of the air flow enters from the sieve holes of the cambered surface sieve on the front side of the heat exchange cavity 102, the air is led out from the vent holes on the back of the heat exchange cavity 102, the induced draft fan 302 is matched with the air pump away redundant in the server cabinet 101, the server is subjected to secondary heat dissipation, finally the brush plate 3012 continuously rotates along with the connecting rod 301 and sweeps out from the surface of the cambered surface sieve on one side of the heat exchange cavity 102, and the cambered surface sieve is cleaned, so that impurities are prevented from accumulating on the surface of the cambered surface sieve to affect the heat dissipation effect.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (4)

1. The utility model provides a server rack convenient to heat dissipation, includes base (1) and server rack (101), base (1) top one side fixed mounting has server rack (101), its characterized in that: the server cabinet (101) is provided with a door plate (1011) in a matching way, and the surface of the door plate (1011) is provided with a plurality of sieve holes;

a water cooling heat dissipation mechanism capable of rapidly cooling the server is arranged above the base (1);

the water cooling mechanism comprises a mounting plate (1012), a heat exchange cavity (102), a cooling liquid tank (2), a water pump (201), a water chiller (202) and a water pump (2021);

the utility model discloses a cooling water cooling device for the intelligent cabinet temperature control system, including server rack (101), mounting panel (1012) is inside to be provided with through slide rail sliding connection, and mounting panel (1012) surface embedding is provided with the server mounting groove, mounting panel (1012) top server mounting groove department swing joint has heat exchange chamber (102), and heat exchange chamber (102) are cambered surface screen cloth setting with server front corresponding one side, and heat exchange chamber (102) are provided with the bleeder vent with server back corresponding department embedding, and heat exchange chamber (102) other part is double-deck setting, base (1) top opposite side fixed mounting has cooling liquid groove (2), cooling liquid groove (2) exit is connected with water pump (201), and heat exchange chamber (102) outer entrance is through quick-operation joint and water pump (201) pipe connection, server rack (101) back fixed mounting has cold water machine (202), and cold water machine (202) entrance is connected with water pump (2021), and heat exchange chamber (102) outer exit is through quick-operation joint and water pump (1) pipe connection, cooling liquid groove (2), water pump (201), heat exchange chamber (102), water pump (2021) and cold water machine (202) form a closed circuit.

2. The server enclosure for facilitating heat dissipation of claim 1, wherein: the server cabinet (101) is internally provided with at least four mounting plates (1012), and at least two server mounting grooves are formed above one mounting plate (1012).

3. A server enclosure for facilitating heat dissipation as recited in claim 2, wherein: elastic pieces (1021) are symmetrically and elastically connected to the two sides of the outside of the heat exchange cavity (102), depressions matched with the elastic pieces (1021) are embedded into the two sides of the inside of the server installation groove above the installation plate (1012), touch rods (1013) are elastically connected to the two sides of the outside of the server installation groove above the installation plate (1012) through grooves, and the tail ends of the touch rods (1013) extend into the depressions.

4. The server enclosure for facilitating heat dissipation of claim 1, wherein: induced fan (3) are installed to door plant (1011) inboard, door plant (1011) inboard and induced fan (3) correspond department and are connected with connecting rod (301) through servo motor (3011) symmetry rotation, and connecting rod (301) outside nested a plurality of impellers that are provided with, connecting rod (301) one side corresponds department fixed mounting with cambered surface screen cloth on one side of heat transfer chamber (102) and has brush board (3012), induced draught fan (302) are installed at server rack (101) top.