CN210983268U - Heat dissipation mechanism of calculation power server - Google Patents

Abstract

The utility model discloses a calculate heat dissipation mechanism of power server, including calculating power server body, install bin and motor, motor fixed mounting is on the one end lateral wall of install bin, be equipped with fixed subassembly on the bottom of install bin, calculate the contact of the casing of power server body and fixed subassembly's expansion end counterbalance, all communicate on the both ends relative lateral wall of install bin and be equipped with the through-hole, the outside intercommunication of one of them through-hole is equipped with the ventilation pipe, ventilation pipe fixed connection is on the one end lateral wall of install bin, equal fixed mounting has the dust guard in another through-hole and the ventilation pipe, all be equipped with the mediation subassembly on two dust guards, the terminal fixedly connected with pivot of output shaft of motor, the one end that the motor was kept away from in the pivot is rotated and. The utility model discloses not only be convenient for fix the power server body of calculating of multiple size, can also cool down the power server body of calculating effectively.

Description

Heat dissipation mechanism of calculation power server

Technical Field

The utility model relates to a calculate power server technical field, especially relate to a calculate power server's heat dissipation mechanism.

Background

The computing server can generate heat during operation, if a large amount of heat generated by the computing server during long-term use is not timely dissipated, internal elements can be damaged, and in order to protect the elements on the computing server, a heat dissipation mechanism of the computing server needs to be used for carrying out heat treatment on the elements, so that the service life of the computing server is prolonged.

Most of the heat dissipation mechanisms of the calculation power servers used in the current market can not effectively perform heat dissipation treatment on the calculation power server bodies and can not effectively fix the calculation power server bodies with various sizes.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving among the prior art and calculating the heat dissipation mechanism of power server and mostly can not carry out the heat dissipation processing to calculating the power server body effectively, and can not carry out the phenomenon of fixing to the power server body of calculating of multiple size effectively, and the heat dissipation mechanism of a power server that calculates that provides, it not only is convenient for fix the power server body of calculating of multiple size, can also cool down to calculating the power server body effectively.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a heat dissipation mechanism of a force calculation server comprises a force calculation server body, an installation box and a motor, wherein the motor is fixedly installed on one end side wall of the installation box, a fixing component is arranged at the bottom of the installation box, a shell of the force calculation server body is abutted to and contacted with a movable end of the fixing component, through holes are respectively communicated and arranged on opposite side walls at two ends of the installation box, a ventilation pipe is communicated and arranged at the outer side of one of the through holes, the ventilation pipe is fixedly connected to one end side wall of the installation box, dustproof plates are respectively and fixedly installed in the other through hole and the ventilation pipe, dredging components are respectively arranged on the two dustproof plates, a rotating shaft is fixedly connected to the tail end of an output shaft of the motor, one end, far away from the motor, of the rotating shaft rotates to penetrate through the installation box, and the same first transmission component is arranged between, and a same second transmission assembly is arranged between the driving end of the dredging assembly close to one side of the motor and the output shaft of the motor, a fan blade is arranged in the through hole far away from one side of the motor, and the fan blade is fixedly connected with the dredging assembly at the same side.

Preferably, fixed subassembly is including setting up the spout on the install bin bottom, be equipped with two assorted sliders with it in the spout, it is connected with the bolt to rotate on the one end inner wall of spout, the one end lateral wall setting that runs through the spout is rotated to the one end of bolt, is located bolt screw thread in the spout runs through two slider settings, two the equal fixedly connected with supporting shoe in upper end of slider, two the equal fixedly connected with L type limiting plate in upper end of supporting shoe, calculate the equal offset contact in relative inner wall and the bottom of power server body's casing and two L type limiting plates, fixed subassembly's setting has realized that this mechanism carries out the effect of fixing to the power server body of calculating of multiple size.

Preferably, the mediation subassembly is including rotating the rotation post that runs through one of them dust guard setting, rotate two piece fixedly connected with mediation boards on the post, two the brush hair end of mediation board all offsets the contact with the lateral wall of dust guard, keeps away from the rotation post and the first drive assembly fixed connection of motor one side are close to the rotation post and the second drive assembly fixed connection of motor one side, the coaxial fixed connection of flabellum is in keeping away from the rotation post of motor one side, and the setting of mediation subassembly has dredged the dust guard effectively, and then has avoided the probability that the dust guard is blockked up.

Preferably, first drive assembly includes two first belt pulleys of coaxial fixed connection respectively in pivot and one of them rotation post, two connect through the transmission of same root first belt between the first belt pulley, and the setting of first drive assembly has improved the utilization ratio of this mechanism to the motor.

Preferably, the second transmission assembly comprises two second belt pulleys which are respectively and fixedly connected to the motor output shaft and one of the rotating columns in a coaxial mode, the two second belt pulleys are in transmission connection through the same second belt, and the utilization rate of the motor by the mechanism is further improved due to the arrangement of the second transmission assembly.

Preferably, the rubber cushion layer is fixedly connected to the part, which is abutted to the force calculation server body, of the two L-type limiting plates, and the arrangement of the rubber cushion layer effectively buffers the force calculation server body, so that the damage probability of the force calculation server body when being fixed by the L-type limiting plate is reduced.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up and calculate power server body, install bin, motor, through-hole, ventilation pipe, dust guard, pivot, flabellum, spout, slider, bolt, supporting shoe and L type limiting plate etc. have realized the fixed action to not unidimensional power server body that calculates, and wherein the setting of rubber cushion layer has carried out the buffering to calculating power server body effectively to the fixed damage probability to it when calculating power server body of L type limiting plate has been reduced.

2. The utility model discloses a power server body, install bin, motor, through-hole, ventilation pipe, dust guard, pivot, flabellum, spout, slider, bolt, supporting shoe and L type limiting plate etc. are calculated in the setting, have carried out the thermal treatment to calculating power server body effectively, and then have improved the life who calculates power server body, and wherein the setting of mediation subassembly has carried out the mediation to the dust guard effectively, and then has avoided the probability that the dust guard is blockked up.

Drawings

Fig. 1 is a perspective view of a heat dissipation mechanism of a computing power server according to the present invention;

fig. 2 is a schematic external structural diagram of a heat dissipation mechanism of a computing power server according to the present invention;

fig. 3 is a partial side view of the heat dissipation mechanism of the computing power server according to the present invention.

In the figure, a force calculation server body 1, an installation box 2, a motor 3, a through hole 4, a ventilation pipe 5, a dust guard 6, a rotating shaft 7, fan blades 8, a sliding groove 9, a sliding block 10, a bolt 11, a supporting block 12, a limiting plate 13L, a rotating column 14, a dredging plate 15, a first belt pulley 16, a first belt pulley 17, a second belt pulley 18, a second belt 19 and a rubber cushion layer 20 are arranged.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a heat dissipation mechanism of a force calculation server comprises a force calculation server body 1, an installation box 2 and a motor 3, wherein the motor 3 is fixedly installed on one end side wall of the installation box 2, a fixing component is arranged at the bottom of the installation box 2, a shell of the force calculation server body 1 is abutted against and contacted with a movable end of the fixing component, through holes 4 are respectively communicated with and arranged on opposite side walls at two ends of the installation box 2, a ventilation pipe 5 is communicated with and arranged at the outer side of one through hole 4, the ventilation pipe 5 is fixedly connected with one end side wall of the installation box 2, dust-proof plates 6 are respectively and fixedly installed in the other through hole 4 and the ventilation pipe 5, dredging components are respectively arranged on the two dust-proof plates 6, a rotating shaft 7 is fixedly connected with the tail end of an output shaft of the motor 3, one end of the rotating shaft 7, which is far away from the motor 3, be equipped with same second drive assembly between the drive end of the mediation subassembly that is close to motor 3 one side and the output shaft of motor 3, keep away from being equipped with flabellum 8 in the through-hole 4 of motor 3 one side, flabellum 8 and homonymy mediation subassembly fixed connection need explain that, calculate power server body 1 and external line connection be prior art, no longer describe here, need explain in addition, as shown in fig. 2, be equipped with the chamber door on the one end lateral wall of install bin 2.

Fixed subassembly is including setting up spout 9 on install bin 2 bottom, be equipped with two assorted sliders 10 with it in spout 9, it is connected with bolt 11 to rotate on spout 9's the one end inner wall, the one end lateral wall setting that runs through spout 9 is rotated to bolt 11's one end, the bolt 11 screw thread that is located spout 9 runs through two slider 10 settings, the equal fixedly connected with supporting shoe 12 in upper end of two slider 10, the equal fixedly connected with L type limiting plate 13 in upper end of two supporting shoe 12, calculate power server body 1's casing and two L type limiting plate 13's relative inner wall and the equal offset contact in bottom, fixed subassembly's setting, realized this mechanism and carried out the effect of fixing to power server body 1 of multiple size, the mediation subassembly is including rotating the rotation post 14 that runs through wherein a dust guard 6 sets up, rotate two mediation boards 15 of fixedly connected with on the post 14, the ventilation pipe end of two mediation boards 15 all offsets the contact with the lateral wall of dust guard 6, the rotation post 14 and the first transmission subassembly fixed connection that keep away from motor 3 one side, rotation post 14 and second transmission subassembly fixed connection that the coaxial fixed subassembly was kept away from on one side of motor 6 is the dust guard and the dustproof board is the demonstration of the dustproof board, the dustproof board is the one end of the effective, the demonstration of the dustproof board is the dustproof board of the flexible brush 6, the flexible brush hair of dredging 6 and the mediation, the mediation subassembly is set up the flexible brush hair of dredging 6, the flexible brush hair 6, the mediation, the flexible brush hair board is the.

First drive assembly includes two first belt pulleys 16 of coaxial fixed connection respectively on pivot 7 and one of them rotation post 14, connect through the transmission of same root first belt 17 between two first belt pulleys 16, the setting of first drive assembly, the utilization ratio of this mechanism to motor 3 has been improved, second drive assembly includes two coaxial fixed connection respectively and rotates the second belt pulley 18 on post 14 in motor 3 output shaft and one of them, connect through the transmission of same root second belt 19 between two second belt pulleys 18, the setting of second drive assembly, the utilization ratio of this mechanism to motor 3 has further been improved, equal fixedly connected with rubber cushion 20 on the part that two L type limiting plates 13 and calculation power server body 1 offset contact, the setting of rubber cushion 20, buffering power server body 1 has been carried out effectively, thereby the damage probability to it when L type limiting plate 13 is fixed power server body 1 has been reduced.

The utility model discloses in, when needs dispel the heat to calculation power server body 1, the work of starter motor 3, motor 3 rotates and drives pivot 7 and rotate, under first drive assembly and second drive assembly's transmission effect, two rotate the equal rotation of post 14, and then make flabellum 8 and polylith dredge board 15 all rotate, flabellum 8 rotates and introduces install the case 2 with external air current, the air current that gets into in install the case 2 draws forth install bin 2 outside calculating the heat that power server body 1 produced, wherein the flow of air has carried out the heat dissipation to calculation power server body 1 effectively, polylith dredge board 15 rotates and has carried out the mediation to dust guard 6 in addition, and then the probability that dust guard 6 is blockked up by the dust has been reduced, when needing to fix the calculation power server body 1 of multiple different sizes, open the chamber door, manual rotation bolt 11, bolt 11 rotates and makes two sliders 10 do relative or opposite horizontal motion along bolt 11, and do not follow bolt 11 and do relative or opposite horizontal motion, and make two supporting shoe 12 and two L type limiting plates 13 all do not do relative or opposite horizontal motion of the calculation power server body, and then calculate power server body 13, the calculation power server body is suitable for calculation power server body and calculate the calculation power server body and calculate power server body 13, wherein the calculation power server body is calculated to calculate the calculation power server body and is a fixed between a fixed bolt 13, it is the calculation power server body is a rubber 13, it is no longer required to calculate the calculation power server body is a fixed between the calculation power server body is a fixed model 2, it is a rubber 13, it is the calculation power server body is a fixed model 2, it is the calculation power server body is a fixed.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A heat dissipation mechanism of a power calculation server comprises a power calculation server body (1), an installation box (2) and a motor (3), wherein the motor (3) is fixedly installed on one end side wall of the installation box (2), the heat dissipation mechanism is characterized in that a fixing component is arranged on the bottom of the installation box (2), a shell of the power calculation server body (1) is in abutting contact with a movable end of the fixing component, through holes (4) are formed in opposite side walls of two ends of the installation box (2) in a communicated mode, a ventilation pipe (5) is arranged on the outer side of one through hole (4) in a communicated mode, the ventilation pipe (5) is fixedly connected to one end side wall of the installation box (2), dust-proof plates (6) are fixedly installed in the other through hole (4) and the ventilation pipe (5), dredging components are arranged on the two dust-proof plates (6), and a rotating shaft (7) is fixedly connected to the tail end of an output shaft of, one end that motor (3) were kept away from in pivot (7) rotates and runs through install bin (2) setting, keeps away from be equipped with same first transmission assembly between drive end and pivot (7) of the mediation subassembly of motor (3) one side, be close to be equipped with same second transmission assembly between the drive end of the mediation subassembly of motor (3) one side and the output shaft of motor (3), keep away from be equipped with flabellum (8) in through-hole (4) of motor (3) one side, flabellum (8) and homonymy mediation subassembly fixed connection.

2. The heat dissipation mechanism of the calculation power server according to claim 1, wherein the fixing component comprises a sliding groove (9) arranged at the bottom of the installation box (2), two sliding blocks (10) matched with the sliding groove (9) are arranged in the sliding groove (9), a bolt (11) is rotatably connected to an inner wall of one end of the sliding groove (9), one end of the bolt (11) is rotatably arranged through a side wall of one end of the sliding groove (9), the bolt (11) in the sliding groove (9) is arranged through the two sliding blocks (10) in a threaded manner, a supporting block (12) is fixedly connected to the upper end of each sliding block (10), L type limiting plates (13) are fixedly connected to the upper end of each supporting block (12), and a shell of the calculation power server body (1) is in contact with the inner wall and the bottom of each L type limiting plate (13) in a propping manner.

3. The heat dissipation mechanism of the calculation power server according to claim 1, wherein the dredging component comprises a rotation column (14) which is rotatably arranged through one of the dust-proof plates (6), the rotation column (14) is fixedly connected with two dredging plates (15), the bristle ends of the two dredging plates (15) are respectively abutted to the outer side wall of the dust-proof plate (6), the rotation column (14) far away from one side of the motor (3) is fixedly connected with the first transmission component, the rotation column (14) close to one side of the motor (3) is fixedly connected with the second transmission component, and the fan blades (8) are coaxially and fixedly connected to the rotation column (14) far away from one side of the motor (3).

4. The heat dissipation mechanism of a computing power server as claimed in claim 3, wherein the first transmission assembly comprises two first belt pulleys (16) coaxially and fixedly connected to the rotating shaft (7) and one of the rotating columns (14), and the two first belt pulleys (16) are in transmission connection with each other through a same first belt (17).

5. The heat dissipation mechanism of the computing power server as claimed in claim 3, wherein the second transmission assembly comprises two second pulleys (18) coaxially and fixedly connected to the output shaft of the motor (3) and one of the rotation columns (14), and the two second pulleys (18) are in transmission connection with each other through a same second belt (19).

6. The heat dissipation mechanism of the force calculation server as claimed in claim 2, wherein a rubber cushion layer (20) is fixedly connected to the portions of the L-type limiting plates (13) which are in contact with the force calculation server body (1).

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