CN113271750A - Cloud data server's cooling processing apparatus - Google Patents

Abstract

The invention relates to the field of cloud data servers, in particular to a cooling processing device of a cloud data server. The environment around the cloud data server can be cooled. Including drive assembly, movable assembly, spout the subassembly, the frame subassembly, the transfer line, drive inner driving-disc motion through the dwang, and then drive the motion of toper cock stem hinge bar through inner driving-disc, and then drive the motion of toper cock stem through toper cock stem hinge bar, and then make toper cock stem and spout apart from changing, be type toper because of the contact surface of toper cock stem and spout, and then change through making toper cock stem and spout apart from changing, and then make the volume of the coolant liquid through the spout change in the unit interval, and then the convenience is adjusted according to actual conditions and is cooled down the effect.

Description

Cloud data server's cooling processing apparatus

Technical Field

The invention relates to the field of cloud data servers, in particular to a cooling processing device of a cloud data server.

Background

A cooling processing device of a cloud data server is a common device in the field of cloud data servers, but the function of the field of common cloud data servers is single.

Disclosure of Invention

The invention aims to provide a cooling processing device of a cloud data server, which can cool the environment around the cloud data server.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a cloud data server's cooling processing apparatus, includes drive assembly, movable assembly, spout pipe assembly, frame subassembly, transfer line, drive assembly is connected with movable assembly, and drive assembly is connected with spout pipe assembly, and frame subassembly all is connected with drive assembly, movable assembly, spout pipe assembly, and the transfer line is connected between two drive assemblies.

As a further optimization of the technical scheme, the invention relates to a cooling processing device of a cloud data server, which comprises a driving assembly, a first connecting rotating rod, a first eccentric driving rod, a kidney slot outer frame, a first inner rotating rod, a first inner slider, a driving terminal, a first oscillating rod hinge rod, a first inner straight tooth, a cross bracket, a first outer end bevel gear ring, a first inner annular limiting rod, a first driven straight gear ring, a second eccentric driving rod, a first inner end clamping groove, a first bevel tooth, a second bevel tooth, a first bevel gear shaft, a third bevel tooth, a fourth bevel gear shaft, a second bevel tooth, a fifth bevel tooth, a sixth bevel tooth, a first inner end spherical clamping rod and a first inner end spherical clamping rod push spring, wherein the first connecting rotating rod is rotatably connected with the driving bracket, the first eccentric driving rod is fixedly connected with the first connecting rotating rod, the kidney slot outer frame is fixedly connected with the first eccentric driving rod, the first inner rotating rod is rotatably connected with the kidney slot, the first inner slider is in threaded connection with the first rotating rod, an inner end slider I is connected with the kidney slot outer frame in a sliding mode, a driving terminal I is connected with an inner end slider I in a rotating mode, a swing rod I is connected with the driving terminal I in a matching mode, a swing rod hinge rod I is connected with the driving support in a hinged mode, a swing rod hinge rod I is connected with the swing rod I in a hinged mode, the cross support is connected with the driving support in a rotating mode, a driven straight gear ring I is fixedly connected with the cross support, an outer end bevel gear ring I is fixedly connected with the driven straight gear ring I, an inner end annular limiting rod is fixedly connected with the cross support, an inner end straight gear I is in meshed transmission with the driven straight gear ring I, an eccentric driving rod II is fixedly connected with the kidney slot outer frame, an inner end clamping groove I is arranged on the eccentric driving rod II, a plurality of eccentric driving rods are arranged, the eccentric driving rod II is connected with the inner end straight, the inner end spherical clamping rod I is connected with the inner end slider I in a sliding mode, the inner end spherical clamping rod I is connected with the inner end clamping groove I in a matching mode, the inner end spherical clamping rod I is provided with two inner end spherical clamping rods, the inner end spherical clamping rod push spring I is arranged between the two inner end spherical clamping rods I, the bevel gear I is fixedly connected with the inner end rotating rod I, the bevel gear II is in meshing transmission with the bevel gear I, the bevel gear II and the bevel gear III are fixedly connected with the bevel gear shaft I, the bevel gear shaft I is in rotating connection with the eccentric driving rod I, the bevel gear III is in rotating connection with the bevel gear IV, the bevel gear IV is fixedly connected with the bevel gear shaft II, the bevel gear shaft II is fixedly connected with the bevel gear V, the bevel gear shaft II is in rotating connection with the eccentric driving rod II, and the bevel gear V is in meshing transmission with the bevel gear VI.

As a further optimization of the technical scheme, according to the cooling processing device of the cloud data server, the transmission rod is fixedly connected between the adjacent one of the first connecting rotating rod and the other one of the cross brackets.

As a further optimization of the technical scheme, the invention provides a cooling processing device of a cloud data server, wherein a movable assembly comprises a liquid pumping sleeve, a first connecting pipe, a second connecting pipe, a first piston rod, a first hinged connecting rod, a second hinged connecting rod, a third hinged connecting rod, a first inner end spring, a first inner end communicating hole, a first inner end spherical slider, a first communicating cavity, a second inner end spring, a second inner end spherical slider, a second communicating cavity and a second inner end communicating hole, wherein the first connecting pipe is fixedly connected and communicated with the first connecting pipe, the second connecting pipe is fixedly connected with the liquid pumping sleeve, the first piston rod is connected with the liquid pumping sleeve in a sliding manner, one end of the first hinged connecting rod is connected with the liquid pumping sleeve in a hinged manner, the other end of the liquid pumping sleeve is connected with the third hinged connecting rod in a hinged manner, one end of the second hinged connecting rod is connected with the first hinged connecting rod, the other end of the second hinged connecting rod is connected with the first piston rod in a hinged manner, the first inner end spring is arranged at the inner end of the first piston rod, the inner end of the piston rod I is hollow, the inner end spherical slider I is connected with the piston rod I in a sliding mode, the communicating cavity I is arranged on the piston rod I, the piston rod I is communicated with the inner end of the piston rod I and the inner end of the liquid pumping sleeve, the inner end communicating hole I is arranged on the piston rod I and is communicated with the inner end of the piston rod I, the inner end communicating hole II is arranged on the connecting pipe II and is communicated with the connecting pipe II and the liquid pumping sleeve, the inner end spring II is arranged at the inner end of the connecting pipe II, the inner end spherical slider II is connected with the connecting pipe II in a sliding mode, the communicating cavity II is arranged on the connecting pipe II and is communicated with the communicating cavity II, and the hinge connecting rod III is connected with the hinge connecting rod III in a hinged mode.

As a further optimization of the technical scheme, in the cooling processing device of the cloud data server, the aperture of the first communicating cavity is smaller than the spherical diameter of the first inner-end spherical slider, and the aperture of the second communicating cavity is smaller than the spherical diameter of the second inner-end spherical slider.

As a further optimization of the technical scheme, the cooling processing device of the cloud data server comprises a spray pipe sleeve, a first outer-end conical tooth, a second outer-end conical tooth, a first outer-end conical tooth shaft, a third outer-end conical tooth, a spray pipe, a nozzle, a rotating rod, a first communication hole, a conical plug rod pushing spring, a second communication hole, a conical plug rod hinge rod and an inner end driving disk, wherein the conical plug rod is fixedly connected with the spray pipe sleeve, the first outer-end conical tooth is in meshing transmission with the second outer-end conical tooth, the second outer-end conical tooth is fixedly connected with the first outer-end conical tooth shaft, the first outer-end conical tooth shaft is fixedly connected with the third outer-end conical tooth, the spray pipe is fixedly connected with the spray pipe sleeve, the nozzle is arranged on the spray pipe, the rotating rod is rotatably connected with the spray pipe sleeve, the first communication hole is arranged on the rotating rod, the first communication hole is communicated with the inner end of the spray pipe sleeve, and the second communication hole is communicated with the spray pipe sleeve and the spray pipe sleeve, toper cock stem and spray tube sliding connection, toper cock stem pushes away the spring and cup joints with toper cock stem and is connected, and toper cock stem pushes away the spring setting between toper cock stem and spray tube, toper cock stem hinge bar one end is articulated to be connected on toper cock stem hinge bar, on the toper cock stem hinge bar, inner driving-disc and spray tube sleeve pipe sliding connection, inner driving-disc and dwang threaded connection, intercommunicating pore one is connected with even pipe one through communicating pipe A, communicating pipe A is connected with the cooperation of intercommunicating pore one, outer end awl tooth three meshes the transmission with outer end awl ring gear.

As a further optimization of the technical scheme, the cooling processing device of the cloud data server comprises a frame assembly, a roller, a first support, a second support, an input motor and a third support, wherein the roller is rotatably connected with the frame assembly, the first support, the second support, the input motor and the third support are fixedly connected with the frame assembly, the frame assembly is loaded with a cooling liquid accommodating device a, the cooling liquid accommodating device a is connected with a second communicating cavity through a hose a, the driving support is fixedly connected with the frame assembly, a liquid pumping sleeve is fixedly connected with the third support, a spray pipe sleeve is rotatably connected with the first support, an outer end bevel gear shaft is rotatably connected with the second support, and an output shaft of the input motor is fixedly connected with an adjacent first connecting rotating rod.

The cooling processing device of the cloud data server has the beneficial effects that:

according to the cooling processing device of the cloud data server, the rotating rod drives the inner end driving disc to move, the inner end driving disc drives the conical plug rod hinge rod to move, the conical plug rod hinge rod drives the conical plug rod to move, the distance between the conical plug rod and the nozzle is changed, the contact surface between the conical plug rod and the nozzle is conical, the distance between the conical plug rod and the nozzle is changed, the amount of cooling liquid passing through the nozzle in unit time is changed, and the cooling effect can be conveniently adjusted according to actual conditions.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first schematic structural diagram of the driving assembly 1 of the present invention;

FIG. 4 is a schematic structural diagram II of the driving assembly 1 of the present invention;

FIG. 5 is a schematic structural diagram III of the driving assembly 1 of the present invention;

FIG. 6 is a fourth schematic structural view of the driving assembly 1 of the present invention;

FIG. 7 is a schematic structural diagram of the driving assembly 1 of the present invention;

FIG. 8 is a first schematic structural view of the movable assembly 2 of the present invention;

FIG. 9 is a second schematic structural view of the movable assembly 2 of the present invention;

FIG. 10 is a first schematic structural view of the nozzle assembly 3 of the present invention;

FIG. 11 is a second schematic structural view of the nozzle assembly 3 of the present invention;

FIG. 12 is a third schematic structural view of the nozzle assembly 3 of the present invention;

figure 13 is a schematic structural view of the carriage assembly 4 of the present invention.

In the figure: a drive assembly 1; 1-1 of a movable support; connecting a first rotating rod 1-2; 1-3 of an eccentric driving rod I; 1-4 parts of a waist groove outer frame; 1-5 of an inner end rotating rod; inner end sliders I1-6; drive terminals one 1-7; 1-8 parts of a first swing rod; 1-9 parts of a first swing rod hinge rod; 1-10 straight teeth at the inner end; 1-11 parts of a cross bracket; 1-12 parts of an outer end bevel gear ring; inner end annular limiting rods 1-13; 1-14 parts of a driven straight gear ring; 1-15 parts of an eccentric driving rod II; a first clamping groove at the inner end is 1-16; 1-17 parts of a first bevel gear; 1-18 parts of a second bevel gear; 1-19 of a bevel gear shaft I; 1-20 parts of bevel gear III; 1-21 parts of bevel gear; a second bevel gear shaft 1-22; 1-23 parts of bevel gear five; 1-24 parts of bevel gear; 1-25 parts of an inner end spherical clamping rod I; the inner end of the spherical clamping rod pushes a spring 1-26; a movable assembly 2; a liquid driving and pumping sleeve 2-1; 2-2 of a connecting pipe I; 2-3 of a connecting pipe II; 2-4 parts of a first piston rod; 2-5 parts of a first hinged connecting rod; a second hinged connecting rod 2-6; a third hinged connecting rod 2-7; the inner end of the spring I is 2-8; the inner end communication hole I is 2-9; 2-10 parts of an inner end spherical slider I; the communication cavity I is 2-11; a second inner end spring 2-12; 2-13 parts of inner end spherical slider; 2-14 parts of a communicating cavity II; inner end communicating holes 2-15; a spout assembly 3; a nozzle sleeve 3-1; 3-2 parts of outer end bevel teeth; 3-3 parts of outer end bevel teeth; 3-4 parts of an outer end bevel gear shaft; 3-5 parts of outer end bevel gear; 3-6 parts of a spray pipe; 3-7 parts of a nozzle; rotating the rods 3-8; 3-9 of a communication hole I; 3-10 parts of a conical plug rod; a conical plug rod push spring 3-11; communicating holes II 3-12; conical plug rod hinge rods 3-13; inner end driving disks 3-14; a frame assembly 4; a frame body 4-1; 4-2 of rollers; 4-3 of a first bracket; 4-4 parts of a second bracket; inputting a motor 4-5; 4-6 parts of a bracket III; a transmission rod 5.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes this embodiment with reference to fig. 1 to 13, and the cooling processing apparatus for a cloud data server includes a driving assembly 1, a movable assembly 2, a nozzle assembly 3, a frame assembly 4, and a transmission rod 5, where the driving assembly 1 is connected to the movable assembly 2, the driving assembly 1 is connected to the nozzle assembly 3, the frame assembly 4 is connected to the driving assembly 1, the movable assembly 2, and the nozzle assembly 3, and the transmission rod 5 is connected between the two driving assemblies 1.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-13, and the driving assembly 1 includes a driving support 1-1, a first connecting rotating rod 1-2, a first eccentric driving rod 1-3, a kidney slot outer frame 1-4, a first inner rotating rod 1-5, a first inner slider 1-6, a first driving terminal 1-7, a first oscillating rod 1-8, a first oscillating rod hinge rod 1-9, a first inner straight tooth 1-10, a cross support 1-11, a first outer end bevel gear ring 1-12, a first inner annular limiting rod 1-13, a first driven straight gear ring 1-14, a second eccentric driving rod 1-15, a first inner end clamping groove 1-16, a first bevel tooth 1-17, a second bevel tooth 1-18, a first bevel gear shaft 1-19, a third bevel gear 1-20, 1-21 parts of bevel gear IV, 1-22 parts of bevel gear shaft II, 1-23 parts of bevel gear V, 1-24 parts of bevel gear VI, 1-25 parts of inner end spherical clamping rod I and 1-26 parts of inner end spherical clamping rod push spring I, wherein the connecting rotating rod I1-2 is rotatably connected with the driving bracket 1-1, 1-3 parts of eccentric driving rod I is fixedly connected with 1-2 parts of connecting rotating rod I, 1-4 parts of kidney slot outer frame is fixedly connected with 1-3 parts of eccentric driving rod I, 1-5 parts of inner end rotating rod I is rotatably connected with 1-4 parts of kidney slot outer frame, 1-6 parts of inner end slider I is in threaded connection with 1-5 parts of inner end rotating rod I, 1-6 parts of inner end slider I is in sliding connection with 1-4 parts of kidney slot outer frame, 1-7 parts of driving terminal I is rotatably connected with 1-6 parts of inner end slider I, 1-8 parts of swing rod I is in fit connection with 1-7 parts of driving terminal I, a first swing rod hinged rod 1-9 is hinged with a driving support 1-1, a first swing rod hinged rod 1-9 is hinged with a first swing rod 1-8, a cross support 1-11 is rotatably connected with the driving support 1-1, a first driven straight gear ring 1-14 is fixedly connected with the cross support 1-11, a first outer end bevel gear ring 1-12 is fixedly connected with a first driven straight gear ring 1-14, an inner end annular limiting rod 1-13 is fixedly connected with the cross support 1-11, a first inner straight gear 1-10 is in meshing transmission with a first driven straight gear ring 1-14, a second eccentric driving rod 1-15 is fixedly connected with a waist groove outer frame 1-4, a first inner end clamping groove 1-16 is arranged on a second eccentric driving rod 1-15, a plurality of second eccentric driving rods 1-15 are arranged, and the second eccentric driving rods 1-15 are rotatably connected with the first inner straight gear 1-10, the eccentric driving rod II 1-15 is connected with the inner end annular limiting rod 1-13 in a matching way, the inner end slider I1-6 is connected with the eccentric driving rod II 1-15 in a sliding way, the inner end spherical clamping rod I1-25 is connected with the inner end slider I1-6 in a sliding way, the inner end spherical clamping rod I1-25 is connected with the inner end clamping groove I1-16 in a matching way, the inner end spherical clamping rod I1-25 is provided with two, the inner end spherical clamping rod push springs I1-26 are arranged between the two inner end spherical clamping rods I1-25, the conical teeth I1-17 are fixedly connected with the inner end rotating rod I1-5, the conical teeth II 1-18 are in meshing transmission with the conical teeth I1-17, the conical teeth II 1-18 and the conical teeth III 1-20 are fixedly connected with the conical teeth I1-19, the conical teeth I1-19 are rotatably connected with the eccentric driving rod I1-3, the third bevel gear 1-20 is rotationally connected with the fourth bevel gear 1-21, the fourth bevel gear 1-21 is fixedly connected with the second bevel gear shaft 1-22, the second bevel gear shaft 1-22 is fixedly connected with the fifth bevel gear 1-23, the second bevel gear shaft 1-22 is rotationally connected with the first eccentric driving rod 1-3, and the fifth bevel gear 1-23 is in meshing transmission with the sixth bevel gear 1-24.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 13, and the present embodiment further describes the first embodiment, wherein the transmission rod 5 is fixedly connected between one adjacent connecting rotating rod 1-2 and the other cross-shaped bracket 1-11.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-13, and the embodiment further describes the first embodiment, the movable assembly 2 includes a liquid pumping casing 2-1, a connecting pipe one 2-2, a connecting pipe two 2-3, a piston rod one 2-4, a hinge connecting rod one 2-5, a hinge connecting rod two 2-6, a hinge connecting rod three 2-7, an inner end spring one 2-8, an inner end communicating hole one 2-9, an inner end spherical slider one 2-10, a communicating cavity one 2-11, an inner end spring two 2-12, an inner end spherical slider two 2-13, a communicating cavity two 2-14, and an inner end communicating hole two 2-15, the connecting pipe one 2-2 is fixedly connected and communicated with the connecting pipe one 2-2, the connecting pipe two 2-3 is fixedly connected with the liquid pumping casing 2-1, a first piston rod 2-4 is connected with a liquid pumping sleeve 2-1 in a sliding way, one end of a first hinged connecting rod 2-5 is connected with the liquid pumping sleeve 2-1 in a hinged way, the other end of the liquid pumping sleeve 2-1 is connected with a third hinged connecting rod 2-7 in a hinged way, one end of a second hinged connecting rod 2-6 is connected with the first hinged connecting rod 2-5 in a hinged way, the other end of the second hinged connecting rod 2-6 is connected with the first piston rod 2-4 in a hinged way, an inner end spring I2-8 is arranged at the inner end of the first piston rod 2-4, the inner end of the first piston rod 2-4 is hollowed, a spherical slider I2-10 at the inner end is connected with the first piston rod 2-4 in a sliding way, a communication cavity I2-11 is arranged on the first piston rod 2-4, and, the inner end communicating hole I2-9 is arranged on the piston rod I2-4, the inner end communicating hole I2-9 is communicated with the inner end of the piston rod I2-4, the inner end communicating hole II 2-15 is arranged on the connecting pipe II 2-3, the inner end communicating hole II 2-15 is communicated with the connecting pipe II 2-3 and the liquid pumping sleeve 2-1, the inner end spring II 2-12 is arranged at the inner end of the connecting pipe II 2-3, the inner end spherical slider II 2-13 is connected with the connecting pipe II 2-3 in a sliding mode, the communicating cavity II 2-14 is arranged on the connecting pipe II 2-3, the communicating cavity II 2-14 is communicated with the communicating cavity II 2-14, and the hinge connecting rod III 2-7 is connected with the hinge connecting rod III 2-7 in a hinged mode.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 13, and the present embodiment further describes the first embodiment, the aperture of the first communicating chamber 2 to 11 is smaller than the spherical diameter of the first inner end spherical slider 2 to 10, and the aperture of the second communicating chamber 2 to 14 is smaller than the spherical diameter of the second inner end spherical slider 2 to 13.

The sixth specific implementation mode:

the first embodiment is further described with reference to fig. 1-13, and the first embodiment is further described, wherein the nozzle assembly 3 comprises a nozzle sleeve 3-1, a first outer end conical tooth 3-2, a second outer end conical tooth 3-3, a first outer end conical tooth shaft 3-4, a third outer end conical tooth 3-5, a nozzle 3-6, a nozzle 3-7, a rotating rod 3-8, a first communication hole 3-9, a conical plug rod 3-10, a conical plug rod push spring 3-11, a second communication hole 3-12, a conical plug rod hinge rod 3-13, and an inner end driving disk 3-14, the conical plug rod is fixedly connected with the nozzle sleeve 3-1, the first outer end conical tooth 3-2 is in meshing transmission with the second outer end conical tooth 3-3, the second outer end conical tooth 3-3 is fixedly connected with the first outer end conical tooth shaft 3-4, an outer end conical tooth shaft I3-4 is fixedly connected with an outer end conical tooth III 3-5, a spray pipe 3-6 is fixedly connected with a spray pipe sleeve 3-1, a nozzle 3-7 is arranged on the spray pipe 3-6, a rotating rod 3-8 is rotatably connected with the spray pipe sleeve 3-1, a communication hole I3-9 is arranged on the rotating rod 3-8, the communication hole I3-9 is communicated with the inner end of the spray pipe sleeve 3-1, a communication hole II 3-12 is communicated with the spray pipe 3-6 and the spray pipe sleeve 3-1, a conical plug rod 3-10 is slidably connected with the spray pipe 3-6, a conical plug rod push spring 3-11 is connected with the conical plug rod 3-10 in a sleeved mode, a conical plug rod push spring 3-11 is arranged between the conical plug rod 3-10 and the spray pipe 3-6, one end of the conical plug rod hinge rod 3-13 is connected with the conical plug rod hinge rod 3-13 in a hinged mode, the other end of the conical plug rod hinge rod 3-13 is hinged to an inner end driving disk 3-14, the inner end driving disk 3-14 is connected with a spray pipe sleeve 3-1 in a sliding mode, the inner end driving disk 3-14 is connected with the rotating rod 3-8 in a threaded mode, a communication hole I3-9 is connected with a connecting pipe I2-2 through a communication pipe A, the communication pipe A is connected with the communication hole I3-9 in a matched mode, and an outer end conical tooth III 3-5 is in meshing transmission with an outer end conical gear ring I1-12.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-13, and the embodiment further describes the first embodiment, the frame assembly 4 includes a frame main body 4-1, rollers 4-2, a first bracket 4-3, a second bracket 4-4, an input motor 4-5, and a third bracket 4-6, the rollers 4-2 are rotatably connected with the frame main body 4-1, the first bracket 4-3, the second bracket 4-4, the input motor 4-5, and the third bracket 4-6 are all fixedly connected with the frame main body 4-1, the frame main body 4-1 carries a cooling liquid containing device a, the cooling liquid containing device a is connected with the second communication cavity 2-14 through a hose a, the driving bracket 1-1 is fixedly connected with the frame main body 4-1, and the liquid pumping sleeve 2-1 is fixedly connected with the third bracket 4-6, the spray pipe sleeve 3-1 is rotatably connected with the first support 4-3, the outer end bevel gear shaft 3-4 is rotatably connected with the second support 4-4, and an output shaft of the input motor 4-5 is fixedly connected with the adjacent first connecting rotating rod 1-2.

The invention discloses a cooling processing device of a cloud data server, which has the working principle that:

when in use, the input motor 4-5 is started, the connecting rotating rod 1-2 is driven to rotate by the input motor 4-5, the eccentric driving rod 1-3 is driven to rotate by the connecting rotating rod 1-2, the waist groove outer frame 1-4 is driven to move by the eccentric driving rod 1-3, the inner end rotating rod 1-5 is driven to move by the waist groove outer frame 1-4, the inner end slider 1-6 is driven to move by the inner end rotating rod 1-5, the driving terminal 1-7 is driven to move by the inner end slider 1-6, the oscillating rod 1-8 is driven to move by the driving terminal 1-7, the oscillating rod 1-8 is driven to swing back and forth, and meanwhile, the eccentric driving rod two 1-15 is driven to move by the waist groove outer frame 1-4, the eccentric driving rod II 1-15 drives the inner end straight tooth I1-10 to move, the driven straight gear ring I1-14 is driven to move through the meshing transmission of the inner end straight tooth I1-10 and the driven straight gear ring I1-14, and the driven straight gear ring I1-14 drives the outer end bevel gear ring I1-12 to move, so that the power output is facilitated; meanwhile, manually rotating the bevel teeth six 1-24, further driving the bevel teeth five 1-23 to move through the bevel teeth six 1-24, further driving the bevel gear shafts two 1-22 to move through the bevel teeth five 1-23, further driving the bevel teeth four 1-21 to move through the bevel gear shafts two 1-22, further driving the bevel teeth three 1-20 to move through the bevel teeth four 1-21, further driving the bevel teeth three 1-20 to move the bevel gear shafts one 1-19, further driving the bevel teeth two 1-18 to move through the bevel gear shafts one 1-19, further driving the inner end rotating rod one 1-5 to rotate through the bevel teeth two 1-18, further driving the inner end slider one 1-6 to move along the waist groove 1-4 through the threaded connection between the inner end rotating rod one 1-5 and the inner end rotating rod one 1-5, further, the distance between the inner end sliders I1-6 and the rotating axis of the eccentric driving rod I1-3 is changed, so that the motion tracks of the driving terminals I1-7 are changed, and the motion amplitudes of the swing rods I1-8 are driven to change through the driving terminals I1-7; meanwhile, the first swing rod 1-8 moves through the third hinged connecting rod 2-7, then drives the first hinged connecting rod 2-5 to move through the third hinged connecting rod 2-7, further drives the second hinged connecting rod 2-6 to move through the first hinged connecting rod 2-5, further drives the first piston rod 2-4 to move through the second hinged connecting rod 2-6, further enables the first piston rod 2-4 to reciprocate along the inner end of the driving and pumping sleeve 2-1, the first piston rod 2-4 divides the interior of the driving and pumping sleeve 2-1 into a left chamber and a right chamber, when the first piston rod 2-4 is far away from the second connecting pipe 2-3, the volume of the right chamber is increased, further enables the cooling liquid to flow into the second communicating chamber 2-14 through the cooling liquid under the effect of the air pressure in the cooling liquid accommodating device A, and simultaneously the second spherical slider 2-13 at the inner end slides upwards, the cooling liquid enters the right chamber through the inner end communication hole II 2-15, when the piston rod I2-4 is close to the connecting pipe II 2-3, under the push of the internal pressure of the cooling liquid, the inner end spherical slider I2-10 slides relative to the left side, thereby causing the coolant to flow into the left chamber through the communication chamber one 2-11 and the inner end communication hole one 2-9, and along with the next circular motion of the piston rod I2-4, the cooling liquid is discharged through the connecting pipe I2-2, meanwhile, when the piston rod I2-4 is far away from the connecting pipe II 2-3, the spherical slider I2-10 at the inner end blocks the communicating cavity I2-11, when the piston rod I2-4 is close to the connecting pipe II 2-3, the inner end spherical slider II 2-13 blocks the inner end communicating hole II 2-15; meanwhile, the movement amplitude of the first swing rod 1-8 changes so that the stroke of the first piston rod 2-4 in reciprocating motion changes, the amount of conveyed cooling liquid in unit time changes, and the amount of sprayed cooling liquid is adjusted; meanwhile, the driven straight gear ring I1-14 moves to drive the outer end bevel gear ring I1-12 to move, further the outer end bevel gear III 3-5 is driven to move through the outer end bevel gear ring I1-12, further the outer end bevel gear shaft I3-4 is driven to move through the outer end bevel gear III 3-5, further the outer end bevel gear II 3-3 is driven to move through the outer end bevel gear shaft I3-4, further the spray pipe 3-6 is driven to move through the outer end bevel gear II 3-3, further the rotary spraying of the cooling liquid is realized, and further the uniform cooling of the cloud data server is conveniently realized; meanwhile, the rotating rod 3-8 is manually rotated, the rotating rod 3-8 drives the inner end driving disk 3-14 to move, the inner end driving disk 3-14 drives the conical plug rod hinge rod 3-13 to move, the conical plug rod 3-10 is driven to move through the conical plug rod hinge rod 3-13, the distance between the conical plug rod 3-10 and the nozzle 3-7 is changed, the contact surface between the conical plug rod 3-10 and the nozzle 3-7 is conical-like, the distance between the conical plug rod 3-10 and the nozzle 3-7 is changed, the amount of cooling liquid passing through the nozzle 3-7 in unit time is changed, and the cooling effect is conveniently adjusted according to actual conditions.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (7)

1. The utility model provides a cloud data server's cooling processing apparatus, includes drive assembly (1), movable assembly (2), spray tube subassembly (3), frame subassembly (4), transfer line (5), its characterized in that: the driving assembly (1) is connected with the movable assembly (2), the driving assembly (1) is connected with the spray pipe assembly (3), the frame assembly (4) is connected with the driving assembly (1), the movable assembly (2) and the spray pipe assembly (3), and the transmission rod (5) is connected between the two driving assemblies (1).

2. The cooling processing device of the cloud data server according to claim 1, wherein: the driving assembly (1) comprises a driving support (1-1), a connecting rotating rod I (1-2), an eccentric driving rod I (1-3), a kidney slot outer frame (1-4), an inner end rotating rod I (1-5), an inner end slider I (1-6), a driving terminal I (1-7), a swing rod I (1-8), a swing rod hinge rod I (1-9), an inner end straight tooth I (1-10), a cross support (1-11), an outer end bevel gear ring I (1-12), an inner end annular limiting rod (1-13), a driven straight gear ring I (1-14), an eccentric driving rod II (1-15), an inner end clamping groove I (1-16), a bevel gear I (1-17), a bevel gear II (1-18), a bevel gear shaft I (1-19), a bevel gear III (1-20), A fourth bevel gear (1-21), a second bevel gear shaft (1-22), a fifth bevel gear (1-23), a sixth bevel gear (1-24), a first inner spherical clamping rod (1-25) and a first inner spherical clamping rod push spring (1-26), wherein the first connecting rotating rod (1-2) is rotatably connected with the driving bracket (1-1), the first eccentric driving rod (1-3) is fixedly connected with the first connecting rotating rod (1-2), the first kidney-shaped groove outer frame (1-4) is fixedly connected with the first eccentric driving rod (1-3), the first inner rotating rod (1-5) is rotatably connected with the outer kidney-shaped groove frame (1-4), the first inner end slider (1-6) is in threaded connection with the first inner rotating rod (1-5), and the first inner end slider (1-6) is in sliding connection with the outer frame (1-4), a first driving terminal (1-7) is rotatably connected with a first inner end slider (1-6), a first swing rod (1-8) is connected with the first driving terminal (1-7) in a matching way, a first swing rod hinge rod (1-9) is hinged with a first driving bracket (1-1), a first swing rod hinge rod (1-9) is hinged with a first swing rod (1-8), a cross bracket (1-11) is rotatably connected with the first driving bracket (1-1), a first driven straight gear ring (1-14) is fixedly connected with a cross bracket (1-11), a first outer end conical gear ring (1-12) is fixedly connected with a first driven straight gear ring (1-14), an annular limiting rod (1-13) at the inner end is fixedly connected with the cross bracket (1-11), and a first inner end straight gear (1-10) is meshed with a first driven straight gear ring (1-14) for transmission, an eccentric driving rod II (1-15) is fixedly connected with a waist groove outer frame (1-4), an inner end clamping groove I (1-16) is arranged on the eccentric driving rod II (1-15), a plurality of eccentric driving rods II (1-15) are arranged, the eccentric driving rod II (1-15) is rotatably connected with an inner end straight tooth I (1-10), the eccentric driving rod II (1-15) is connected with an inner end annular limiting rod (1-13) in a matching way, an inner end slider I (1-6) is connected with the eccentric driving rod II (1-15) in a sliding way, an inner end spherical clamping rod I (1-25) is connected with the inner end slider I (1-6) in a sliding way, an inner end spherical clamping rod I (1-25) is connected with the inner end clamping groove I (1-16) in a matching way, and two inner end spherical clamping rods I (1-25) are arranged, the inner end spherical clamping rod push spring I (1-26) is arranged between the two inner end spherical clamping rods I (1-25), the bevel gear I (1-17) is fixedly connected with the inner end rotating rod I (1-5), the bevel gear II (1-18) is in meshing transmission with the bevel gear I (1-17), the bevel gear II (1-18) and the bevel gear III (1-20) are both fixedly connected with the bevel gear shaft I (1-19), the bevel gear shaft I (1-19) is in rotating connection with the eccentric driving rod I (1-3), the bevel gear III (1-20) is in rotating connection with the bevel gear IV (1-21), the bevel gear IV (1-21) is fixedly connected with the bevel gear shaft II (1-22), the bevel gear shaft II (1-22) is in fixed connection with the bevel gear V (1-23), and the bevel gear shaft II (1-22) is in rotating connection with the eccentric shaft I (1-3), the fifth bevel gear (1-23) is in meshing transmission with the sixth bevel gear (1-24).

3. The cooling processing device of the cloud data server according to claim 2, wherein: the transmission rod (5) is fixedly connected between one adjacent connecting rotating rod I (1-2) and the other cross-shaped bracket (1-11).

4. The cooling processing device of the cloud data server according to claim 1, wherein: the movable component (2) comprises a liquid pumping sleeve (2-1), a connecting pipe I (2-2), a connecting pipe II (2-3), a piston rod I (2-4), a hinge connecting rod I (2-5), a hinge connecting rod II (2-6), a hinge connecting rod III (2-7), an inner end spring I (2-8), an inner end communicating hole I (2-9), an inner end spherical slider I (2-10), a communicating cavity I (2-11), an inner end spring II (2-12), an inner end spherical slider II (2-13), a communicating cavity II (2-14) and an inner end communicating hole II (2-15), the connecting pipe I (2-2) is fixedly connected and communicated with the connecting pipe I (2-2), the connecting pipe II (2-3) is fixedly connected with the liquid pumping sleeve (2-1), a first piston rod (2-4) is connected with the liquid pumping sleeve (2-1) in a sliding manner, one end of a first hinged connecting rod (2-5) is hinged with the liquid pumping sleeve (2-1), the other end of the liquid pumping sleeve (2-1) is hinged with a third hinged connecting rod (2-7), one end of a second hinged connecting rod (2-6) is hinged with the first hinged connecting rod (2-5), the other end of the second hinged connecting rod (2-6) is hinged with the first piston rod (2-4), a first inner end spring (2-8) is arranged at the inner end of the first piston rod (2-4), the inner end of the first piston rod (2-4) is hollowed out, a first inner end spherical slider (2-10) is connected with the first piston rod (2-4) in a sliding manner, a first communicating cavity (2-11) is arranged on the first piston rod (2-4), and the piston rod I (2-4) is communicated with the inner end of the piston rod I (2-4) and the inner end of the liquid pumping sleeve (2-1), the inner end communicating hole I (2-9) is arranged on the piston rod I (2-4), the inner end communicating hole I (2-9) is communicated with the inner end of the piston rod I (2-4), the inner end communicating hole II (2-15) is arranged on the connecting pipe II (2-3), the inner end communicating hole II (2-15) is communicated with the connecting pipe II (2-3) and the liquid pumping sleeve (2-1), the inner end spring II (2-12) is arranged at the inner end of the connecting pipe II (2-3), the inner end spherical slider II (2-13) is connected with the connecting pipe II (2-3) in a sliding way, the communicating cavity II (2-14) is arranged on the connecting pipe II (2-3), the second communicating cavity (2-14) is communicated with the second communicating cavity (2-14), and the third hinged connecting rod (2-7) is hinged with the third hinged connecting rod (2-7).

5. The cooling processing device of the cloud data server according to claim 4, wherein: the aperture of the first communicating cavity (2-11) is smaller than the spherical diameter of the first spherical slider (2-10) at the inner end, and the aperture of the second communicating cavity (2-14) is smaller than the spherical diameter of the second spherical slider (2-13) at the inner end.

6. The cooling processing device of the cloud data server according to claim 1, wherein: the spray pipe component (3) comprises a spray pipe sleeve (3-1), an outer end conical tooth I (3-2), an outer end conical tooth II (3-3), an outer end conical tooth shaft I (3-4), an outer end conical tooth III (3-5), a spray pipe (3-6), a spray nozzle (3-7), a rotating rod (3-8), a communication hole I (3-9), a conical plug rod (3-10), a conical plug rod push spring (3-11), a communication hole II (3-12), a conical plug rod hinge rod (3-13) and an inner end driving disk (3-14), wherein the conical plug rod is fixedly connected with the spray pipe sleeve (3-1), the outer end conical tooth I (3-2) is in meshing transmission with the outer end conical tooth II (3-3), the outer end conical tooth II (3-3) is fixedly connected with the outer end conical tooth shaft I (3-4), an outer end conical tooth shaft I (3-4) is fixedly connected with an outer end conical tooth III (3-5), a spray pipe (3-6) is fixedly connected with a spray pipe sleeve (3-1), a nozzle (3-7) is arranged on the spray pipe (3-6), a rotating rod (3-8) is rotatably connected with the spray pipe sleeve (3-1), a communication hole I (3-9) is arranged on the rotating rod (3-8), the communication hole I (3-9) is communicated with the inner end of the spray pipe sleeve (3-1), a communication hole II (3-12) is communicated with the spray pipe (3-6) and the spray pipe sleeve (3-1), a conical plug rod (3-10) is slidably connected with the spray pipe (3-6), a conical plug rod push spring (3-11) is connected with the conical plug rod (3-10) in a sleeved mode, and the conical plug rod push spring (3-11) is arranged on the conical plug rod (3-10) and the spray pipe (3-5) 6) One end of a conical plug rod hinge rod (3-13) is hinged to the conical plug rod hinge rod (3-13), the other end of the conical plug rod hinge rod (3-13) is hinged to an inner end driving disc (3-14), the inner end driving disc (3-14) is in sliding connection with a spray pipe sleeve (3-1), the inner end driving disc (3-14) is in threaded connection with a rotating rod (3-8), a communicating hole I (3-9) is connected with a connecting pipe I (2-2) through a communicating pipe A, the communicating pipe A is in matched connection with the communicating hole I (3-9), and an outer end bevel gear III (3-5) is in meshing transmission with an outer end bevel gear I (1-12).

7. The cooling processing device of the cloud data server according to claim 1, wherein: the frame assembly (4) comprises a frame main body (4-1), rollers (4-2), a first support (4-3), a second support (4-4), an input motor (4-5) and a third support (4-6), wherein the rollers (4-2) are rotatably connected with the frame main body (4-1), the first support (4-3), the second support (4-4), the input motor (4-5) and the third support (4-6) are fixedly connected with the frame main body (4-1), the frame main body (4-1) is carried with a cooling liquid containing device A, the cooling liquid containing device A is connected with the second communicating cavity (2-14) through a hose A, the driving support (1-1) is fixedly connected with the frame main body (4-1), and a liquid pumping sleeve (2-1) is fixedly connected with the third support (4-6), the spray pipe sleeve (3-1) is rotatably connected with the first support (4-3), the outer end bevel gear shaft I (3-4) is rotatably connected with the second support (4-4), and an output shaft of the input motor (4-5) is fixedly connected with the adjacent first connecting rotating rod (1-2).

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