CN110996637A

CN110996637A - Movable cooling storage type cabinet

Info

Publication number: CN110996637A
Application number: CN202010061229.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Wenzhou Lanyou Network Technology Co Ltd
Current assignee: Wenzhou Lanyou Network Technology Co Ltd
Priority date: 2020-01-19
Filing date: 2020-01-19
Publication date: 2020-04-10

Abstract

The invention discloses a movable cooling storage type cabinet which comprises a main machine body, wherein a first transmission cavity is arranged in the main machine body, a motor is fixedly arranged on the rear right side wall of the first transmission cavity, a first transmission shaft is arranged on the left side wall of the motor, a spline groove is formed in the first transmission shaft, a first cylindrical gear is sleeved on the first transmission shaft, a spline which is in sliding fit with the spline groove is arranged on the inner ring of the first cylindrical gear, and an auxiliary plate is fixedly arranged on the first transmission shaft and is positioned on the left side of the spline groove; the fan blade assembly is simple and convenient to operate and low in manufacturing cost, air in the storage cavity can be sucked into the flow channel through the fan blade II, the air in the flow channel takes away the temperature of the air when flowing through cooling liquid, and the cooled air is discharged into the storage cavity through the fan blade I, so that the circulating flow of the air in the storage cavity is realized.

Description

Movable cooling storage type cabinet

Technical Field

The invention relates to the technical field of servers, in particular to a movable cooling storage type cabinet.

Background

The heat dissipation of present server is realized mainly through its inside fan, when a plurality of servers are installed in same rack, because every server all need use self fan to dispel the heat, lead to a large amount of heat accumulation in the server rack, make the inside temperature of server rack rise, influence the inside and outside air exchange's of server rack efficiency, even lead to the server overheated and shut down the operation, be equipped with a plurality of servers in the general server mechanism, lead to its weight to increase, when needs change the place, just need all dismantle with its inside server, transport to new place after the reassembly, the consuming time of operation process is hard.

Disclosure of Invention

The invention aims to provide a mobile cooling storage type cabinet, which is used for overcoming the defects in the prior art.

The movable cooling storage type cabinet comprises a main machine body, wherein a first transmission cavity is arranged in the main machine body, a motor is fixedly arranged on the rear right side wall of the first transmission cavity, a first transmission shaft is arranged on the left side wall of the motor, a spline groove is formed in the first transmission shaft, a first cylindrical gear is sleeved on the first transmission shaft, a spline which is in sliding fit with the spline groove is arranged on the inner ring of the first cylindrical gear, an auxiliary plate is fixedly arranged on the first transmission shaft and is positioned on the left side of the spline groove, electromagnets are symmetrically and vertically and fixedly arranged on the right side wall of the auxiliary plate, a first spring is fixedly arranged between the electromagnets and the first cylindrical gear, a storage cavity is arranged on the right side of the first transmission cavity, a support plate is arranged in the storage cavity, threaded holes which extend leftwards and rightwards are symmetrically arranged in the support plate, and a first screw rod is rotatably arranged between, the first screw rod in the storage cavity is arranged in the threaded hole in the front side, a cylindrical gear II and a belt wheel I are sequentially and fixedly arranged in the first screw rod from left to right in the transmission cavity, the cylindrical gear II is located at the left side of the cylindrical gear I, a screw rod II is further rotatably arranged between the first transmission cavity and the storage cavity, the screw rod II is arranged in the threaded hole in the rear side in the storage cavity, a belt wheel II is fixedly arranged on the screw rod II in the transmission cavity, a belt I is arranged between the belt wheel II and the belt wheel I in a transmission manner, when the electromagnet is electrified, the cylindrical gear I is meshed with the cylindrical gear II, and the left-right moving direction of the supporting plate can be realized only by changing the rotating direction of the motor.

On the basis of the technical scheme, a transmission cavity II communicated with the transmission cavity I is arranged on the upper side of the transmission cavity I, a transmission shaft II and a transmission shaft III are sequentially and rotatably arranged between the left wall and the right wall of the transmission cavity II from front to back, a belt wheel III, a cylindrical gear III and a belt wheel IV are sequentially and fixedly arranged on the transmission shaft II from left to right, a belt wheel V and a belt wheel VI are sequentially and fixedly arranged on the transmission shaft III from left to right, a belt II is arranged between the belt wheel VI and the belt wheel IV in a transmission manner, and a cooling device for cooling air in the storage cavity in a circulating manner is arranged on the upper side of the.

On the basis of the technical scheme, the cooling device comprises an air outlet cavity and an air inlet cavity which are arranged from left to right on the upper side of a second transmission cavity, the air outlet cavity is communicated with the right side of the air inlet cavity, a water cavity is arranged on the left side of the second transmission cavity, a runner communicated with the air outlet cavity and the air inlet cavity is arranged on the upper side wall of the water cavity, the right side of the air outlet cavity and the left side of the air inlet cavity are both tapered, so that the flow speed of air is accelerated when the air flows through a tapered opening, the air flow in the storage cavity is promoted, the cooling time is reduced, a forward-extending transmission shaft IV is arranged on the rear side wall of the air outlet cavity in a rotating manner, a belt wheel IV and a fan blade I are sequentially and fixedly arranged on the transmission shaft IV from left to right, a belt III is arranged between the belt wheel IV and the belt III, and a, eight and the flabellum two of band pulley have set firmly in proper order from a left side to the right side on the transmission shaft five, eight band pulley with the transmission is equipped with belt four between five band pulleys, the conical surface symmetry is equipped with the drying board around giving vent to anger the chamber right side, the drying board is used for reducing go out moisture in the chamber exhaust air, prevent the server in the storage intracavity leads to the damage because of the moisture in the air is too big.

On the basis of the technical scheme, a partition plate is fixedly arranged on the right side of the supporting plate and used for separating the storage cavity from the outside of the storage cavity, a first guide groove is symmetrically formed in the front and back positions of the upper side end face of the supporting plate, a plurality of second guide grooves are formed in the side wall, close to the symmetrical center, of each guide groove, a first ejector pin is arranged in each guide groove in a sliding mode, a second spring is fixedly arranged between each first ejector pin and the bottom of each second guide groove, and each first ejector pin is used for clamping a server placed in each first guide groove and preventing the server from shaking.

On the basis of the technical scheme, the front wall and the rear wall of the supporting plate are symmetrically provided with auxiliary grooves, a transmission shaft six is rotatably arranged between the upper wall and the lower wall of each auxiliary groove, rollers are fixedly arranged on the transmission shaft six, the front wall and the rear wall of the storage cavity are provided with guide grooves three, the rollers are arranged in the guide grooves three in a rolling mode, and the guide and supporting effects are achieved through the rolling of the rollers in the guide grooves three.

On the basis of the technical scheme, a plurality of guide grooves IV are formed in the lower side wall of the storage cavity, ejector pins II are arranged in the guide grooves IV in a sliding mode, springs III are fixedly arranged between the ejector pins II and the bottoms of the guide grooves IV, and the ejector pins II are used for supporting and reducing vibration received by the supporting plate.

On the basis of the technical scheme, the position symmetry of fore-and-aft direction and the position symmetry rotation of left and right directions are equipped with axis of rotation 53 on the wall around the host computer body, the tire has set firmly in the axis of rotation, the position symmetry has set firmly the fixed axle on the wall around the host computer body, the fixed axle is located the rear side the axis of rotation upside, the fixed axle rotates and is equipped with the braking vane, direction side five has been seted up to the symmetry on the wall around the host computer body, the round pin axle that extends is equipped with to the extension in the guide way five, hemisphere groove has been seted up to the side wall on the guide way five, guide way six has been seted up on the round pin axle, it is equipped with the bayonet lock to slide in the guide way six, the bayonet lock with spring four has been set firmly in guide.

The invention has the beneficial effects that: the invention has simple and convenient operation and low manufacturing cost, can realize the left-right movement of the supporting plate by engaging the first cylindrical gear with the second cylindrical gear by electrifying the electromagnet and changing the rotation direction of the motor, can also suck the air in the storage cavity into the flow channel by the second fan blade, takes the temperature in the air when the air in the flow channel flows through cooling liquid, and then discharges the cooled air into the storage cavity by the first fan blade to realize the circular flow of the air in the storage cavity.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic front view of an internal structure of a mobile cooling storage type cabinet according to the present invention;

FIG. 2 is a front view of the outer structure of FIG. 1;

FIG. 3 is a schematic view of the structure at A-A in FIG. 1;

FIG. 4 is a schematic view of the structure at B-B in FIG. 1;

FIG. 5 is a schematic view of the structure at C-C in FIG. 1;

FIG. 6 is a schematic view of the structure at D-D in FIG. 1;

FIG. 7 is a schematic view of the structure at E-E in FIG. 6;

FIG. 8 is a schematic view of the structure at F in FIG. 1;

FIG. 9 is a schematic view of the structure at G in FIG. 6;

fig. 10 is a schematic structural view at H in fig. 6.

Detailed Description

The invention will now be described in detail with reference to fig. 1-10, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 10, a mobile cooling storage type cabinet according to an embodiment of the present invention includes a main body 1, a first transmission cavity 2 is provided in the main body 1, a motor 3 is fixedly provided on a rear right side wall of the first transmission cavity 2, a first transmission shaft 4 is provided on a left side wall of the motor 3, a spline groove 5 is provided on the first transmission shaft 4, a first spur gear 6 is sleeved on the first transmission shaft 4, a spline 7 slidably fitted in the spline groove 5 is provided on an inner ring of the first spur gear 6, an auxiliary plate 8 is fixedly provided on the first transmission shaft 4 and located on a left side of the spline groove 5, electromagnets 9 are symmetrically and vertically provided on a right side wall of the auxiliary plate 8, a first spring 10 is fixedly provided between the electromagnets 9 and the first spur gear 6, a storage cavity 11 is provided on a right side of the first transmission cavity 2, a support plate 12 is provided in the storage cavity 11, threaded holes 13 extending left and right are symmetrically and back symmetrically provided in, a first screw 14 is rotatably arranged between the first transmission cavity 2 and the storage cavity 11, the first screw 14 in the storage cavity 11 is arranged in the threaded hole 13 at the front side, a second cylindrical gear 15 and a first belt wheel 16 are fixedly arranged on the first screw 14 in the first transmission cavity 2 from left to right in sequence, the second cylindrical gear 15 is positioned at the left side of the first cylindrical gear 6, a second screw 17 is further rotatably arranged between the first transmission cavity 2 and the storage cavity 11, the second screw 17 in the storage cavity 11 is arranged in the threaded hole 13 at the rear side, a second belt wheel 18 is fixedly arranged on the second screw 17 in the first transmission cavity 2, a first belt 19 is arranged between the second belt wheel 18 and the first belt wheel 16 in a transmission manner, when the electromagnet 9 is electrified, the first cylindrical gear 6 is meshed with the second cylindrical gear 15, and only the rotation direction of the motor 3 needs to be changed, the left-right movement direction of the support plate 12 can be realized.

In addition, in one embodiment, a second transmission cavity 20 communicated with the first transmission cavity 2 is arranged on the upper side of the first transmission cavity 2, a second transmission shaft 21 and a third transmission shaft 22 are sequentially and rotatably arranged between the left wall and the right wall of the second transmission cavity 20 from front to back, a third belt pulley 23, a third cylindrical gear 24 and a fourth belt pulley 25 are sequentially and fixedly arranged on the second transmission shaft 21 from left to right, a fifth belt pulley 26 and a sixth belt pulley 27 are sequentially and fixedly arranged on the third transmission shaft 22 from left to right, a second belt 28 is arranged between the sixth belt pulley 27 and the fourth belt pulley 25 in a transmission manner, and a cooling device 29 for cooling the air in the storage cavity 11 in a circulating manner is arranged on the upper side of.

In addition, in one embodiment, the cooling device 29 includes an air outlet cavity 30 and an air inlet cavity 31 which are arranged in a left-to-right positional relationship on the upper side of the second transmission cavity 20, the right side of the air outlet cavity 30 and the right side of the air inlet cavity 31 are both communicated with the storage cavity 11, a water cavity 32 is arranged on the left side of the second transmission cavity 20, a flow passage 33 communicated with the air outlet cavity 30 and the air inlet cavity 31 is formed on the upper side wall of the water cavity 32, the right side of the air outlet cavity 30 and the left side of the air inlet cavity 31 are both provided with a cone shape, so that the flow speed of air is increased when the air flows through the cone, the air flow in the storage cavity 11 is promoted, the cooling time is reduced, a transmission shaft four 34 which extends forwards is arranged on the rear side wall of the air outlet cavity 30 in a rotating manner, a pulley seven 35 and a fan blade one 36 are sequentially fixed on the transmission shaft four, a transmission shaft five 37 extending forwards is rotatably arranged on the rear side wall of the air inlet cavity 31, a belt pulley eight 38 and a fan blade two 39 are fixedly arranged on the transmission shaft five 37 from left to right in sequence, a belt four 40 is arranged between the belt pulley eight 38 and the belt pulley five 26 in a transmission manner, drying plates 41 are symmetrically arranged on the front conical surface and the rear conical surface on the right side of the air outlet cavity 30, and the drying plates 41 are used for reducing moisture in the air discharged from the air outlet cavity 30 and preventing the damage of a server in the storage cavity 11 due to overlarge moisture in the air; the cooling device 29 sucks the air in the storage cavity 11 into the flow channel 33 through the rotation of the second fan blade 39, the cooling liquid in the water cavity 32 takes the temperature of the air sucked into the flow channel 33, the air with the temperature reduced in the flow channel 33 is discharged into the storage cavity 11 through the first fan blade 36, and the air passes through the drying plate 41 before being discharged, so that the moisture in the air is reduced.

In addition, in one embodiment, a partition plate 42 is fixedly arranged on the right side of the supporting plate 12, the partition plate 42 is used for separating the storage cavity 11 from the outside of the storage cavity, first guide grooves 43 are symmetrically formed in the front and back positions of the upper end surface of the supporting plate 12, a plurality of second guide grooves 44 are formed in one side wall, close to the symmetric center, of the guide grooves 43, first ejector pins 45 are slidably arranged in the second guide grooves 44, second springs 46 are fixedly arranged between the first ejector pins 45 and the bottoms of the second guide grooves 44, and the first ejector pins 45 are used for clamping the servers placed in the first guide grooves 43 and preventing the servers from shaking.

In addition, in one embodiment, the front wall and the rear wall of the supporting plate 12 are symmetrically provided with auxiliary grooves 64, a transmission shaft six 47 is rotatably arranged between the upper wall and the lower wall of the auxiliary groove 64, rollers 48 are fixedly arranged on the transmission shaft six 47, the front wall and the rear wall of the storage chamber 11 are provided with guide grooves three 49, the rollers 48 are arranged in the guide grooves three 49 in a rolling manner, and the guiding and supporting functions are achieved through the rolling of the rollers 48 in the guide grooves three 49.

In addition, in one embodiment, the lower side wall of the storage chamber 11 is provided with a plurality of guide grooves four 50, the guide grooves four 50 are internally provided with ejector pins two 51 in a sliding manner, a spring three 52 is fixedly arranged between the ejector pins two 51 and the bottoms of the guide grooves four 50, and the ejector pins two 51 support and reduce the vibration of the support plate 12.

In addition, in an embodiment, a rotation shaft 53 is arranged on the front wall and the rear wall of the main body 1 in a symmetrical manner in the front-rear direction and in a symmetrical manner in the left-right direction, a tire 54 is fixedly arranged on the rotation shaft 53, a fixing shaft 55 is fixedly arranged on the front wall and the rear wall of the main body 1 in a symmetrical manner, the fixing shaft 55 is positioned at the rear side and on the upper side of the rotation shaft 53, a braking plate 56 is rotatably arranged on the fixing shaft 55, guide grooves five 57 are symmetrically arranged on the front wall and the rear wall of the main body 1 in a symmetrical manner, pin shafts 58 extending outwards are arranged in the guide grooves five 57, hemispherical grooves 65 are arranged on the upper side wall of the guide grooves five 57, guide grooves six 59 are arranged on the pin shafts 58, bayonet pins 60 are slidably arranged in the guide grooves six 59, four springs 61 are fixedly arranged at the bottoms of the bayonet pins 60 and the guide.

In the initial state, the electromagnet 9 is in a power-off state, so that the cylindrical gear 6 is meshed with the cylindrical gear III 24 under the action of the spring I10, and the supporting plate 12 is positioned in the storage cavity 11.

When the server needs to be installed, the electromagnet 9 is electrified, the first cylindrical gear 6 is meshed with the second cylindrical gear 15, the motor 3 is started, the support plate 12 moves rightwards and moves out of the storage cavity 11, the server is installed in the first guide groove 43, the server is prevented from shaking through the first ejector pin 45, and after the server is installed, the motor 3 rotates reversely, and the support plate 12 is retracted into the storage cavity 11 again.

When the gas server starts to work, the electromagnet 9 is powered off, the motor 3 is meshed with the third cylindrical gear 24 through the first cylindrical gear 6 to drive the second transmission shaft 21 to rotate, the second transmission shaft 21 drives the third transmission shaft 22 to rotate through the fourth belt wheel 25, the second belt 28 and the sixth belt wheel 27, so that the cooling device 29 is started to reduce the temperature in the storage cavity 11, and after the cooling device 29 operates for a period of time, the cooling effect of the cooling device 29 can be unchanged only by replacing the cooling liquid in the drying plate 41 and the water cavity 32.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a remove cooling and accomodate formula rack, includes the main engine body, its characterized in that: the main machine body is internally provided with a first transmission cavity, a motor is fixedly arranged on the rear right side wall of the first transmission cavity, a first transmission shaft is arranged on the left side wall of the motor, a spline groove is formed in the first transmission shaft, a first cylindrical gear is sleeved on the first transmission shaft, a spline which is in sliding fit with the spline groove is arranged on the inner ring of the first cylindrical gear, an auxiliary plate is fixedly arranged on the first transmission shaft and is positioned on the left side of the spline groove, electromagnets are symmetrically and vertically and fixedly arranged on the right side wall of the auxiliary plate, a first spring is fixedly arranged between the electromagnets and the first cylindrical gear, a storage cavity is arranged on the right side of the first transmission cavity, a support plate is arranged in the storage cavity, threaded holes which extend leftwards and rightwards are symmetrically and longitudinally in the support plate, a first screw rod is rotatably arranged between the first transmission cavity and the storage cavity, and, the cylindrical gear II and the belt wheel I are sequentially fixedly arranged in the screw rod I from left to right in the transmission cavity I, the cylindrical gear II is located at the left side of the cylindrical gear I, the screw rod II is further rotatably arranged between the transmission cavity I and the storage cavity, the screw rod II is arranged in the threaded hole at the rear side in the storage cavity, the belt wheel II is fixedly arranged on the screw rod II in the transmission cavity I, a belt I is arranged between the belt wheel II and the belt wheel I in a transmission manner, when the electromagnet is electrified, the cylindrical gear I is meshed with the cylindrical gear II, and the left-right moving direction of the supporting plate can be realized only by changing the rotating direction of the motor.

2. A mobile cooling stowing cabinet according to claim 1, characterized in that: the upper side of the transmission cavity is provided with a transmission cavity II communicated with the transmission cavity II, the transmission cavity II is provided with a transmission shaft II and a transmission shaft III in a rotating mode from the front to the back between the left wall and the right wall, the transmission shaft II is fixedly provided with a belt wheel III, a cylindrical gear III and a belt wheel IV in a rotating mode from the left to the right in sequence, the transmission shaft III is fixedly provided with a belt wheel V and a belt wheel VI in a rotating mode from the left to the right in sequence, a belt II is arranged between the belt wheel VI and the belt wheel IV in a driving mode, and the upper side of the transmission cavity II is.

3. A mobile cooling stowing cabinet according to claim 2, characterized in that: the cooling device comprises an air outlet cavity and an air inlet cavity which are arranged from left to right on the upper side of a second transmission cavity, the air outlet cavity and the right side of the air inlet cavity are communicated with the storage cavity, a water cavity is arranged on the left side of the second transmission cavity, a runner communicated with the air outlet cavity and the air inlet cavity is arranged on the side wall of the water cavity, the right side of the air outlet cavity and the left side of the air inlet cavity are both tapered, so that the flow rate of air is accelerated when the air flows through a taper opening, the air flow in the storage cavity is promoted, the cooling time is reduced, a forward extending transmission shaft IV is arranged on the rear side wall of the air outlet cavity in a rotating manner, a belt wheel VII and a fan blade I are sequentially and fixedly arranged on the transmission shaft IV from left to right, a belt III is arranged between the belt wheel VII and the belt III, a forward extending transmission shaft V is arranged on the rear side wall of the air inlet, the eight and the transmission of band pulley is equipped with belt four between the five, the conical surface symmetry is equipped with drying plate around going out the air cavity right side, drying plate is used for reducing go out the moisture in the air cavity exhaust air, prevent the server in the storage intracavity leads to the damage because of the moisture in the air is too big.

4. A mobile cooling stowing cabinet according to claim 1, characterized in that: the storage cavity is separated from the outside of the storage cavity by the partition plate, a first guide groove is symmetrically formed in the front and back positions of the upper side end face of the support plate, a plurality of second guide grooves are formed in the side wall, close to the symmetrical center, of the first guide groove, a first ejector pin is arranged in the second guide groove in a sliding mode, a second spring is fixedly arranged between the first ejector pin and the bottom of the second guide groove, and the first ejector pin is used for clamping a server placed in the first guide groove and preventing the server from shaking.

5. A mobile cooling stowing cabinet according to claim 1, characterized in that: the front wall and the rear wall of the supporting plate are symmetrically provided with auxiliary grooves, a transmission shaft six is rotatably arranged between the upper wall and the lower wall of each auxiliary groove, rollers are fixedly arranged on the transmission shaft six, the front wall and the rear wall of the storage cavity are provided with guide grooves three, the rollers are arranged in the guide grooves three in a rolling mode, and the guide and supporting effects are achieved through the rolling of the rollers in the guide grooves three.

6. A mobile cooling stowing cabinet according to claim 1, characterized in that: a plurality of guide grooves IV are formed in the lower side wall of the storage cavity, a jacking pin II is arranged in the guide grooves IV in a sliding mode, a spring III is fixedly arranged between the jacking pin II and the four bottoms of the guide grooves, and the jacking pin II plays a role in supporting and reducing vibration received by the supporting plate.

7. A mobile cooling stowing cabinet according to claim 1, characterized in that: the utility model discloses a tire is equipped with in the axis of rotation 53, the axis of rotation has set firmly the tire, the symmetry has set firmly the fixed axle on the wall of host computer body front and back on the wall, the fixed axle is located the rear side the axis of rotation upside, the fixed axle rotates and is equipped with the brake block, the symmetry has seted up direction side five on the wall around the host computer body, be equipped with the round pin axle of outside extension in the guide way five, hemisphere groove has been seted up to the wall on five sides of guide way, sell epaxial guide way six of having seted up, it is equipped with the bayonet lock to slide in six sides of guide way, the bayonet lock with six bottoms of guide way have set firmly spring four, five outer in the guide way the handle has set firmly on the bayonet lock.