CN114745940B - Multi-network-in-one intelligent Internet of things terminal equipment - Google Patents

Abstract

The invention discloses multi-network-in-one intelligent Internet of things terminal equipment, which comprises a body, wherein a heat dissipation mechanism is arranged on the body, the heat dissipation mechanism comprises an outer hoop isolation cover and an inner ring curved surface drainage cover, a movable first fan blade is arranged in the curved surface drainage cover, a cooling liquid flows on the curved surface drainage cover, and the first fan blade rotates to drive air flow to pass along the curved surface drainage cover. According to the multi-network-in-one intelligent Internet of things terminal equipment provided by the invention, the curved surface drainage cover is utilized, the cooling liquid can flow along the curved surface drainage cover by using the coanda effect, the temperature of the curved surface drainage cover can be quickly reduced, the blown-out air flow can flow along the inner wall of the curved surface drainage cover to reduce the temperature of the air, the whole volume of the heat dissipation mechanism is not increased, the cooling capacity is improved by cooling the air, and then the cooling air flows into the body through the air flow with lower temperature to cool so as to ensure the normal operation of the body.

Description

Multi-network-in-one intelligent Internet of things terminal equipment

Technical Field

The invention relates to the technical field of terminal equipment, in particular to multi-network integrated intelligent Internet of things terminal equipment.

Background

The internet of things terminal equipment is used for communication equipment, input equipment and computer interconnection equipment, and the internet of things terminal equipment is often required to dissipate heat due to signal transmission.

According to patent number CN202110230301.3, publication (bulletin) day: 2021-06-01, the utility model discloses a many net unification wisdom thing allies oneself with terminal equipment, including two storage tank that the symmetry set up, fixed bottom plate that sets up in two storage tank up end and the activity set up in the base of bottom plate top, two rectangular channels have been seted up to the symmetry in the bottom plate, and one side symmetry fixed mounting of bottom plate has two first motors, two first motors all are connected with the activity through the motor shaft and set up in the lead screw of rectangular channel, two equal symmetrical screw thread fit installs two regulating blocks on the outer fringe face of lead screw, the up end of two regulating blocks all symmetrical construction has two first otic placodes, the equal symmetrical construction in lower terminal surface both sides of base has two second otic placodes, two the activity is provided with the pivot between one side that the second otic placode is in opposite directions, this many net unification wisdom thing allies oneself with terminal equipment, rational in infrastructure, can effectively reduce the entering of dust when promoting the radiating effect, and conveniently adjust the installation height, the practicality is strong.

In the prior art including above-mentioned patent, cooperate through fan and foil to make the air current flow take away heat and cool off, when singly relying on the air current to flow and cool off, its cooling capacity is limited all the time, and the volume size of radiating effect and foil links closely, and less foil radiating effect is lower.

Disclosure of Invention

The invention aims to provide a multi-network-in-one intelligent Internet of things terminal device, which uses a curved surface drainage cover for water cooling, so that the heat dissipation effect of air flow is improved, and the intelligent Internet of things terminal device is small in volume and does not occupy space.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a many net unification wisdom thing allies oneself with terminal equipment, includes the body, be provided with cooling mechanism on the body, cooling mechanism includes the surperficial drainage cover of the staple bolt isolation cover and the inner circle of outer lane, be provided with movable first flabellum in the curved surface drainage cover, flow has the coolant liquid on the curved surface drainage cover, first flabellum rotation drives the air current and follows the curved surface drainage cover passes through.

Preferably, the insulation cover is provided with an auxiliary heat dissipation component, the auxiliary heat dissipation component comprises a cylindrical groove formed in the insulation cover, the cylindrical groove is fixedly connected with an arc cover, and a second fan blade is movably arranged between the cylindrical groove and the arc cover.

Preferably, the number of the second fan blades is a plurality of and the second fan blades are arranged in a circumferential array with respect to the isolation cover, the curved surface drainage cover is rotationally connected with a main rotating shaft, a large gear disc is arranged on the main rotating shaft, a first fan blade is arranged on the main rotating shaft, a small gear disc is arranged at one end of the first fan blade, and the main rotating shaft is driven to rotate so as to drive the large gear disc to engage with the small gear disc to rotate so as to drive the first fan blade and the second fan blade to rotate simultaneously.

Preferably, the large gear plate is driven to slide along the main rotation shaft to be close to or far from the small gear plate.

Preferably, a main flow enhancing mechanism is arranged in the curved surface drainage cover, the main flow enhancing mechanism comprises a main rotating shaft which rotates, the main rotating shaft is movably provided with first fan blades, and the first fan blades are driven to extend out of the curved surface drainage cover for a preset distance.

Preferably, a spline nut is fixedly connected in the main rotating shaft, one end of the curved surface drainage cover is rotationally connected with a roller screw nut, the spline nut and the roller screw nut are connected with a threaded screw through threads, the first fan blade is fixedly connected to one end of the threaded screw, and the roller screw nut is locked or rotated by driving the spline nut to rotate so as to drive the threaded screw to rotate or drive the threaded screw to rotate and simultaneously move along the center line of the spline nut.

Preferably, one end of the threaded screw rod is provided with a hooking disc, the main rotating shaft is slidably connected with a large gear disc, the large gear disc is provided with a hooking handle, and the hooking disc moves along with the threaded screw rod so as to drive the large gear disc to slide along the main rotating shaft.

Preferably, the main rotating shaft is provided with a liquid stirring assembly, the liquid stirring assembly comprises elastic coating materials which are arranged on the curved surface drainage cover in a circumferential array, and the elastic coating materials are protruded according to a preset rule so as to drive the cooling liquid to be sputtered onto the cylindrical groove.

Preferably, the liquid stirring assembly further comprises a sliding sleeve slidingly connected to the main rotating shaft and an elastic stirring plate arranged on the sliding sleeve in a circumferential array, wherein the elastic stirring plate is close to the elastic coating material and rotates along with the main rotating shaft so as to drive the elastic coating material to bulge according to a preset rule.

Preferably, the sliding sleeve is driven to slide along the main rotating shaft so as to drive the height of the elastic covering material protrusion to change.

In the technical scheme, the multi-network-in-one intelligent Internet of things terminal equipment provided by the invention has the following beneficial effects: utilize curved surface drainage cover, can flow the coolant liquid along curved surface drainage cover with utilizing the coanda effect, can be quick reduce the temperature of curved surface drainage cover to make the air current that blows out flow along curved surface drainage cover inner wall and reduce gas temperature, and not increase the whole volume of cooling mechanism and through cooling down in order to promote the cooling ability to gas, then flow into this internal cooling down in order to guarantee the normal operating of body through the lower air current of temperature.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a schematic diagram of a mounting position of a heat dissipation mechanism and a body according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a portion of a heat dissipation mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a liquid-pulling assembly and an auxiliary heat-dissipating assembly according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating the internal structures of a liquid-pulling assembly and an auxiliary heat-dissipating assembly according to an embodiment of the present invention;

Fig. 5 is a schematic structural view of a pressing component and a threaded screw rod according to an embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of a main flow enhancement mechanism according to an embodiment of the present invention;

Fig. 7 is a schematic structural diagram of a portion of an auxiliary heat dissipation assembly according to an embodiment of the present invention;

fig. 8 is a schematic cross-sectional view of a heat dissipation mechanism according to an embodiment of the present invention.

Reference numerals illustrate:

1. A heat dissipation mechanism; 12. a fixing plate; 21. a curved surface drainage cover; 211. an elastic coating material; 22. the anchor ear isolates the cover; 221. a cylindrical groove; 222. a bottom cover plate; 23. a cooling liquid inlet; 231. a cooling liquid outlet; 3. a main flow rate enhancing mechanism; 31. a threaded screw rod; 313. a hook pull disc; 311. roller screw nuts; 312. a spline nut; 32. a first fan blade; 33. a fixing ring; 4. a liquid poking component; 41. a sliding sleeve; 411. an elastic shifting plate; 412. round corners; 42. limiting pressing rings; 421. a connecting rod; 5. an auxiliary heat dissipation assembly; 51. a circular arc cover; 52. a rotating shaft; 521. a second fan blade; 61. a pinion disc; 62. a large gear plate; 621. a hook pull handle; 7. a pressing component; 71. a slide bar; 72. pressing the sliding part; 8. a main rotating shaft; 801. a motor; 802. a slide guiding hole; 9. a body.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

As shown in fig. 1-8, a multi-network integrated intelligent internet of things terminal device comprises a body 9, wherein a heat dissipation mechanism 1 is arranged on the body 9, the heat dissipation mechanism 1 comprises an outer hoop isolation cover 22 and an inner ring curved surface drainage cover 21, a movable first fan blade 32 is arranged in the curved surface drainage cover 21, cooling liquid flows on the curved surface drainage cover 21, and the first fan blade 32 rotates to drive air flow to pass along the curved surface drainage cover 21.

Specifically, be provided with cooling mechanism 1 on body 9, cooling mechanism 1 includes the staple bolt of outer lane and keeps apart cover 22, curved surface drainage cover 21 and the bottom apron 222 of inner circle, its three staple bolt is an independent space, be provided with movable first flabellum 32 in the curved surface drainage cover 21, be circumference array on the staple bolt keeps apart cover 22 and seted up coolant liquid input port 23, set up coolant liquid delivery outlet 231 on the bottom apron 222, coolant liquid input port 23 intercommunication cooling unit (cooling unit can be provided with the cooling pump for the liquid incasement), during the use, coolant liquid dashes to curved surface drainage cover 21 along coolant liquid input port 23, because coanda effect's influence, rivers can be laminated curved surface drainage cover 21 flow, thereby cool down curved surface drainage cover 21, then first flabellum 32 is driven and is rotated, so that the air current gets into along curved surface drainage cover 21 inner wall flow from the external world, get into body 9 after the cooling.

Further, the curved flow guiding cover 21 may be shaped as a spoon, which includes a concave surface and a convex surface, the cooling liquid is driven to flow along the convex surface on the convex surface, and the first fan blade 32 blows the air flow toward the concave surface. And enters the body 9 along the concave surface for cooling; or the cooling liquid is a thin-walled curved surface sheet, the insulating cover 22 also can be a thin-walled curved surface sheet, the cooling liquid is driven to flow along the interlayer of the two curved surface screens for cooling, and the air flow enters the body 9 along the curved surface sheet; or curved drainage structures known to those skilled in the art.

Among the above-mentioned technical scheme, utilized curved surface drainage cover 21, can flow the coolant liquid along curved surface drainage cover 21 with utilizing the coanda effect, can be quick with the temperature reduction of curved surface drainage cover 21 to make the air current that blows out flow along curved surface drainage cover 21 inner wall reduce gas temperature, and not increase the whole volume of cooling mechanism 1 and through cooling down in order to promote the cooling ability to the gas, then flow into body 9 through the lower air current of temperature and cool down in order to guarantee the normal operating of body 9.

As a further provided embodiment of the present invention, the auxiliary heat dissipation assembly 5 is disposed on the isolation cover 22 in a circumferential array, the auxiliary heat dissipation assembly 5 includes a cylindrical groove 221 formed on the isolation cover 22, the cylindrical groove 221 is fixedly connected with the arc cover 51, and a second fan blade 521 is movably disposed between the two. Specifically, be provided with auxiliary heat dissipation subassembly 5 on the insulating cover 22 and assist heat dissipation subassembly 5 including seting up the cylinder groove 221 on the insulating cover 22, fixedly connected with circular arc cover 51 on the cylinder groove 221, its both staple bolts are auxiliary heat dissipation passageway, auxiliary heat dissipation passageway internal rotation is connected with pivot 52, fixedly connected with second flabellum 521 in the pivot 52, when using, the second flabellum 521 is rotatory in order to drive external air current to get into body 9 along auxiliary heat dissipation passageway and carry out auxiliary heat dissipation, in order to increase the airflow that gets into body 9, then the coolant liquid dashes to curved surface drainage cover 21 along coolant liquid input port 23, because the influence of coanda effect, the rivers can be laminated curved surface drainage cover 21 and flow, thereby cool down curved surface drainage cover 21, thereby the temperature in the independent space also can reduce so that staple bolt insulating cover 22's temperature reduces, in order to influence auxiliary heat dissipation access's temperature synchronization reduces.

In the above embodiments, the plurality of auxiliary heat dissipation assemblies 5 use the plurality of second fan blades 521 to perform auxiliary cooling on the main body 9, and the structure for driving the plurality of second fan blades 521 to rotate may be that four motors are fixed on the rotating shaft 52, and the motors are started to drive the second fan blades 521 to rotate so as to drive the air flow to blow into the main body 9; alternatively, a motor and a gear are used to engage with a plurality of second blades 521 to rotate simultaneously so as to drive the air flow to blow into the body 9; or alternatively, drive arrangements known to those skilled in the art.

As still another embodiment of the present invention, the number of the second fan blades 521 is plural and arranged in a circumferential array with respect to the isolation cover 22, the curved surface drainage cover 21 is rotatably connected with the main rotating shaft 8, the main rotating shaft 8 is provided with the large gear disc 62, the main rotating shaft 8 is provided with the first fan blade 32, one end of the first fan blade 32 is provided with the small gear disc 61, and the main rotating shaft 8 is driven to rotate to drive the large gear disc 62 to engage with the small gear disc 61 to rotate so as to drive the first fan blade 32 and the second fan blade 521 to rotate simultaneously. Specifically, the number of the second fan blades 521 is multiple and is arranged in a circumferential array with respect to the isolation cover 22, one end of the curved surface drainage cover 21 is provided with the fixing plate 12, the fixing plate 12 is rotationally connected with the main rotating shaft 8, the main rotating shaft 8 is provided with the large gear plate 62, one end of the first fan blade 32 is provided with the small gear plate 61, the main rotating shaft 8 is provided with the first fan blade 32, the main rotating shaft 8 is driven to rotate so as to drive the large gear plate 62 to engage with the small gear plate 61 to rotate so as to drive the first fan blade 32 and the second fan blade 521 to rotate simultaneously, meanwhile, the cooling liquid is flushed towards the curved surface drainage cover 21 along the cooling liquid inlet 23, because of the influence of the coanda effect, the water flows along the curved surface drainage cover 21 of the curved surface, so that the curved surface drainage cover 21 is cooled, and meanwhile, the temperature in the independent space is also reduced so that the temperature of the hoop isolation cover 22 is reduced, the first fan blade 32 is enabled to flow into the body 9 along the inside the curved surface drainage cover 21 to dissipate heat, and then the second fan blade 521 is enabled to flow into the body 9 along the auxiliary heat dissipation channel to be further cooled.

As a further embodiment of the present invention, the large gear plate 62 is slidingly connected to the main shaft 8, and in use, the large gear plate 62 is driven to slide along the main shaft 8 to approach the small gear plate 61 and engage with the small gear plate so that the first fan blade 32 and the second fan blade 521 rotate simultaneously, and at the same time, the cooling liquid is flushed towards the curved surface flow guiding cover 21 along the cooling liquid inlet 23, because of the effect of coanda, the water flow will flow against the curved surface flow guiding cover 21, thereby cooling the curved surface flow guiding cover 21, and the temperature in the independent space will also decrease so that the temperature of the hoop isolation cover 22 will decrease, so that the first fan blade 32 will flow into the body 9 along the inside of the curved surface flow guiding cover 21 to dissipate heat, and then the second fan blade 521 will flow into the body 9 along the auxiliary heat dissipation channel to increase the flow of the entering air flow to dissipate heat further.

In the above embodiment, the manner of driving the large gear plate 62 to slide along the main rotating shaft 8 may be a rotating shift lever, one end of the shift lever is abutted against the large gear plate 62, and then the shift lever is held by hand to turn over and shift, so that the large gear plate 62 slides along the main rotating shaft 8 to be close to the small gear plate 61 for meshing rotation; alternatively, the mini cylinder may push the large gear plate 62 to slide along the main rotation shaft 8 to approach the small gear plate 61 for meshing rotation, or a driving structure known to those skilled in the art may be used.

As a further provided embodiment of the present invention, the curved surface drainage cover 21 is provided with the main flow enhancing mechanism 3, the main flow enhancing mechanism 3 includes a rotating main rotating shaft 8, the main rotating shaft 8 is movably provided with a first fan blade 32, and the first fan blade 32 is driven to extend out of the curved surface drainage cover 21 by a predetermined distance. Specifically, be provided with the main flow enhancement mechanism 3 in the curved surface drainage cover 21, main flow enhancement mechanism 3 includes pivoted main pivot 8, the activity is provided with first flabellum 32 on the main pivot 8, when using, first flabellum 32 receives the drive and extends curved surface drainage cover 21 port preset distance (predetermined distance is 20mm ~55 mm), at this moment, according to Bernoulli's law's influence, the air around first flabellum 32 also can get into the low pressure area that produces when first flabellum 32 rotates, thereby make the flow gather the inside air current flow that has strengthened through curved surface drainage cover 21, then the bull gear dish 62 is driven along main pivot 8 slides in order to be close to pinion dish 61, and mesh with it so that first flabellum 32 and second flabellum 521 rotate simultaneously, simultaneously the coolant liquid is towards curved surface drainage cover 21 along coolant inlet 23, because coanda effect's influence, the rivers can be laminated curved surface drainage cover 21 flow, thereby cool down curved surface drainage cover 21, simultaneously, the temperature in the independent space also can reduce so that staple bolt cover 22's temperature reduces, so that first flabellum 32 increases its inside air current and has carried out the inside heat dissipation channel 9 along the inside the main body that the fan blade 21, then the inside heat dissipation channel is further carried out along the inside the heat dissipation along the inside the main body 9, and the inside the heat dissipation channel is further carried out along the inside the auxiliary heat dissipation channel along the inside the air flow 9.

In the above embodiment, the structure for driving the first fan blade 32 to extend out of the curved surface drainage cover 21 may be a telescopic cylinder fixed at one end of the main rotating shaft 8, where the first fan blade 32 is fixed at the end of the telescopic cylinder, and the telescopic cylinder drives the first fan blade 32 to stretch and retract, or may be a chute formed on the curved surface drainage cover 21, and the main rotating shaft 8 slides along the chute to make the first fan blade 32 stretch and retract; or a telescopic structure known to those skilled in the art.

As still another embodiment of the present invention, a spline nut 312 is fixedly connected in the main rotating shaft 8, one end of the curved surface drainage cover 21 is rotatably connected with a roller screw nut 311, the spline nut 312 and the roller screw nut 311 are screwed with a threaded screw 31, the first fan blade 32 is fixedly connected to one end of the threaded screw 31, and the roller screw nut 311 is locked or rotated by driving the spline nut 312 to rotate so as to drive the threaded screw 31 to rotate or drive the threaded screw 31 to rotate and simultaneously move along the center line of the spline nut 312. Specifically, spline nut 312 is fixedly connected in main rotating shaft 8, fixed ring 33 is provided at one end of curved surface drainage cover 21, roller screw nut 311 is rotationally connected to fixed ring 33, spline nut 312 and roller screw nut 311 are screwed with threaded screw 31, first fan blade 32 is fixedly connected to one end of threaded screw 31, motor 801 is fixedly connected to fixed plate 12, output end of motor 801 is fixedly connected with main rotating shaft 8, when in use, motor 801 drives main rotating shaft 8 to rotate, at this moment roller screw nut 311 is in locking state, then spline nut 312 rotates along main rotating shaft 8 to drive threaded screw 31 to rotate together with first fan blade 32, then when roller screw nut 311 is unlocked, threaded screw 31 moves along vertical direction while rotating, so that first fan blade 32 extends out of curved surface drainage cover 21 for a predetermined distance, at this time, under the influence of bernoulli's law, the air around the first fan blade 32 will also enter the low pressure area generated when the first fan blade 32 rotates, so that the flow concentration increases the airflow through the curved surface drainage cover 21, then the large gear disc 62 is driven to slide along the main rotating shaft 8 to approach the small gear disc 61 and engage with the small gear disc so that the first fan blade 32 and the second fan blade 521 rotate simultaneously, and meanwhile, the cooling liquid is flushed towards the curved surface drainage cover 21 along the cooling liquid inlet 23, because of the influence of coanda effect, the water flow will flow against the curved surface drainage cover 21, thereby cooling the curved surface drainage cover 21, and the temperature in the independent space will also decrease, so that the temperature of the hoop insulation cover 22 decreases, so that the first fan blade 32 will flow into the body 9 along the inside of the curved surface drainage cover 21 for heat dissipation, and then the second fan blade 521 makes the air flow enter the body 9 along the auxiliary heat dissipation channel, so that the amount of the air flow entering is increased for further heat dissipation.

In the above embodiment, since the assembly of the locking roller screw nut 311 may be a locking block with an arc at one end of the telescopic cylinder, the telescopic cylinder pushes the locking block to fit the locking roller screw nut 311 for locking; and can be a screw, the curved surface drainage cover 21 is connected with the screw through threads, and then the screw is rotated to be attached to the roller screw rod nut 311 for locking; or a telescopic structure known to those skilled in the art.

As a preferred embodiment provided by the invention, one end of the threaded screw rod 31 is provided with a hooking disc 313, the main rotating shaft 8 is slidably connected with a large gear plate 62, the large gear plate 62 is provided with a hooking handle 621, and the hooking disc 313 moves along with the threaded screw rod 31 so as to drive the large gear plate 62 to slide along the main rotating shaft 8. Specifically, one end of the threaded screw rod 31 is provided with a hook pull disc 313, a boss is arranged on the hook pull disc 313, the two hoops are in a limiting space, a hook pull handle 621 is arranged on the large gear plate 62, an 802 guide sliding hole is formed in the main rotating shaft 8, the hook pull disc 313 is positioned in the guide sliding hole 802, a guide groove penetrating through the outside is formed in the guide sliding hole 802, the hook pull handle 621 is positioned in the guide groove, one end of the hook pull handle 621 is positioned in the limiting space, when the roller screw nut 311 is unlocked, the first fan blade 32 extends out of a port of the curved surface drainage cover 21 by a preset distance, at this time, according to the influence of Bernoulli's law, air around the first fan blade 32 also enters a low pressure area generated when the first fan blade 32 rotates, so that flow gathering increases the flow of air passing through the inside the curved surface drainage cover 21, at this time, the screw thread screw 31 rotates while moving along the roller screw nut 311 in the vertical direction, so that the first fan blade 32 extends out of the port of the curved surface drainage cover 21 by a predetermined distance, and the hooking disc 313 moves in the vertical direction to drive the hooking handle 621 to move so that the large gear disc 62 slides along the main rotation shaft 8 to engage the small gear disc 61 and engage with the small gear disc to enable the first fan blade 32 and the second fan blade 521 to simultaneously rotate, and simultaneously the cooling liquid is flushed toward the curved surface drainage cover 21 along the cooling liquid inlet 23, because of the influence of the coanda effect, the water flow can flow against the curved surface drainage cover 21 of the curved surface, thereby cooling the curved surface drainage cover 21, and simultaneously the temperature in the independent space can also be reduced so that the temperature of the hoop insulation cover 22 is reduced, so that the first fan blade 32 can flow into the body 9 along the inside of the curved surface drainage cover 21 for heat dissipation, and then the second fan blade 521 makes the air flow enter the body 9 along the auxiliary heat dissipation channel, so that the amount of the air flow entering is increased for further heat dissipation.

As a further provided embodiment of the present invention, the main shaft 8 is provided with the liquid stirring assembly 4, and the liquid stirring assembly 4 includes an elastic coating material 211 disposed on the curved surface drainage cover 21 in a circumferential array, where the elastic coating material 211 protrudes according to a predetermined rule, so as to drive the cooling liquid to be sputtered onto the cylindrical groove 221. Specifically, a liquid stirring component 4 is arranged on the main rotating shaft 8, the liquid stirring component 4 comprises an elastic covering material 211 which is arranged on the curved surface drainage cover 21 in a circumferential array, when the liquid stirring component is used, the motor 801 drives the main rotating shaft 8 to rotate, at the moment, the roller screw nut 311 is in a locking state, then the spline nut 312 rotates along with the main rotating shaft 8 to drive the threaded screw 31 to rotate so as to drive the first fan blade 32 to rotate together, when the roller screw nut 311 is unlocked, the first fan blade 32 extends out of the port of the curved surface drainage cover 21 by a preset distance, at the moment, according to the influence of Bernoulli's law, air around the first fan blade 32 also enters a low-pressure area generated when the first fan blade 32 rotates, so that the flow concentration increases the airflow flow passing through the inside the curved surface drainage cover 21, at the moment, the threaded screw 31 rotates and simultaneously moves along the vertical direction, so that the first fan blade 32 extends out of the port of the curved surface drainage cover 21 by a preset distance, and simultaneously the hook pull disc 313 moves along the vertical square so as to drive the hook pull handle so as to enable the large gear disc 62 to slide along the main rotating shaft 8, so as to engage the small gear disc 61 and engage with the first fan blade 32, the second fan blade 32 is enabled to rotate, simultaneously, the cooling liquid is enabled to reach the cooling effect of the cooling channel 21, and the cooling channel is enabled to be cooled down along the cooling channel is reduced by the preset, and the cooling channel is enabled by the cooling effect of the cooling channel is reduced, and the cooling channel is simultaneously, and the cooling effect is enabled to be the cooling channel is cooled down (the cooling channel is also is cooled down by the cooling channel is enabled by the cooling channel 21, and the cooling air flow is cooled by the cooling channel is set 23, and the cooling is cooled down by the cooling channel is provided by the cooling channel 21 and has the cooling is provided by the cooling is 21 and has, so that the first fan blade 32 flows the air flow into the body 9 along the curved surface drainage cover 21 for heat dissipation, and the second fan blade 521 flows the air flow into the body 9 along the auxiliary heat dissipation channel for further heat dissipation.

In the above embodiment, the structure for driving the elastic covering material 211 to bulge may be a plurality of telescopic motors, and the output ends of the telescopic motors push against the elastic covering material 211 to bulge; alternatively, the air pump is used to inflate the air bag at one end of the elastic covering material 211 to expand the elastic covering material 211, or the driving structure known to those skilled in the art may be used.

As still another embodiment of the present invention, the liquid stirring assembly 4 further includes a sliding sleeve 41 slidably connected to the main shaft 8, and an elastic stirring plate 411 disposed on the sliding sleeve 41 in a circumferential array, where the elastic stirring plate 411 is close to the elastic covering material 211 and rotates along with the main shaft 8 to drive the elastic covering material 211 to bulge according to a predetermined rule. Specifically, the liquid stirring assembly 4 further comprises a sliding sleeve 41 slidingly connected to the main rotating shaft 8 and an elastic stirring plate 411 arranged on the sliding sleeve 41 in a circumferential array, the elastic stirring plate 411 is provided with a round angle 412, when in use, the motor 801 drives the main rotating shaft 8 to rotate, at the moment, the roller screw nut 311 is in a locking state, then the spline nut 312 rotates along with the main rotating shaft 8 to drive the threaded screw 31 to rotate so as to drive the first fan blade 32 to rotate together, when the roller screw nut 311 is unlocked, so that the first fan blade 32 extends out of a port of the curved surface drainage cover 21 by a preset distance, at the moment, according to the influence of Bernoulli's law, air around the first fan blade 32 also enters a low pressure area generated when the first fan blade 32 rotates, so that flow concentration enhancement increases airflow flow passing through the inside the curved surface drainage cover 21, at the moment, the threaded screw nut 31 rotates and simultaneously moves along the vertical direction, so that the first fan blade 32 extends out of the port of the curved surface drainage cover 21, simultaneously, the hook pull disc 313 moves along the vertical direction so as to drive the hook pull handle 621 to move, so that the large gear disc 62 slides along the main rotating shaft 8, so as to engage with the first fan blade 21, and the elastic stirring plate 211 rotates along the curved surface cover 21, simultaneously, and the elastic stirring plate is meshed with the elastic stirring plate 211, simultaneously, so that the elastic stirring plate is meshed with the elastic stirring plate 21 along the inner wall 21, and the inner wall of the curved surface 21, and the elastic stirring plate is cooled down plate is simultaneously, and the elastic stirring plate is contacted with the elastic stirring plate 21, and the elastic stirring plate 21, simultaneously, and the elastic stirring plate is simultaneously, and the elastic stirring plate 21, and the elastic stirring plate. The curved surface can be destroyed when protruding, so that the cold air liquid is sputtered onto the cylindrical groove 221 to cool the auxiliary heat dissipation channel, then the cold air liquid is rotated to slide out of the elastic coating material 211 through the round angle 412, meanwhile, the temperature in the independent space can be reduced, so that the temperature of the hoop insulation cover 22 is reduced, the first fan blade 32 can enable the air flow of the first fan blade to flow into the body 9 along the inner part of the curved surface drainage cover 21 for heat dissipation, and then the second fan blade 521 can enable the air flow to enter the body 9 along the auxiliary heat dissipation channel for further heat dissipation, and the flow of the entering air flow is increased.

As a preferred embodiment provided by the invention, the sliding sleeve 41 is driven to slide along the main rotating shaft 8 to drive the elastic coating 211 to change in height, specifically, the sliding sleeve 41 is sleeved on the main rotating shaft 8, the main rotating shaft 8 is sleeved with a limiting pressing ring 42, two ends of the limiting pressing ring 42 are provided with connecting rods 421, the connecting rods 421 are connected to the curved surface drainage cover 21, the elastic rods of the connecting rods 421 can drive the limiting pressing ring 42 to always fit the sliding sleeve 41, when in use, the motor 801 drives the main rotating shaft 8 to rotate, at the moment, the roller screw nut 311 is in a locking state, then the spline nut 312 rotates along with the main rotating shaft 8 to drive the threaded screw 31 to rotate so as to drive the first fan blade 32 to rotate together, when the roller screw nut 311 is unlocked, so that the first fan blade 32 extends out of the port of the curved surface drainage cover 21 for a preset distance, at the moment according to the influence of berley law, air around the first fan blade 32 also enters a low pressure area generated when the first fan blade 32 rotates, so that flow concentration is enhanced, airflow flow passing through the inside of the curved surface drainage cover 21 is increased, at the moment, the threaded screw rod 31 rotates and moves along the roller screw nut 311 in the vertical direction, so that the first fan blade 32 extends out of a port extending out of the curved surface drainage cover 21 by a preset distance, meanwhile, the hooking disc 313 moves along the vertical direction to drive the hooking handle 621 to move, so that the large gear disc 62 slides along the main rotating shaft 8 to engage the small gear disc 61 and engage with the small gear disc to enable the first fan blade 32 and the second fan blade 521 to rotate at the same time, one end of the hooking handle 621 is attached to one end of the sliding sleeve 41, the hooking handle 621 pushes the sliding sleeve 41 to slide along the main rotating shaft 8 when moving along the vertical direction, a limit ring is arranged in the curved surface drainage cover 21, the spacing collar can make sliding sleeve 41 limit the position of elastic pulling plate 411 along main pivot 8 slip limit, simultaneously the coolant liquid dashes to curved surface drainage cover 21 along coolant liquid input port 23, because the influence of coanda effect, rivers can laminate the curved surface drainage cover 21 flow, thereby cool down curved surface drainage cover 21, and follow main pivot 8's rotation, elastic pulling plate 411 makes self bending angle increase because sliding sleeve 41 slides along main pivot 8, can follow curved surface drainage cover 21 inner wall rotation embedding elastic coating material 211 during the back rotation, because the angle embedding is too big, fillet 412 can lose the ability of deviating from, so that elastic coating material 211 continuously protruding destroys the curved surface, so that cold air liquid sprays to cylindrical groove 221 in order to make supplementary heat dissipation passageway continuously cool down, thereby the temperature in the independent space also can reduce to make staple bolt isolation cover 22's temperature reduce, so that first 32 drive its air current along inside inflow body 9 of curved surface drainage cover 21, then second flabellum 521 gets into body 9 along supplementary passageway and gets into the hoop and carries out further cover along the auxiliary passageway and gets into, heat dissipation cover 21 inner wall rotation embedding elastic coating material 211, fillet 412 can lose the ability of deviating from, so that elastic coating material 211 lasts the arch, it is provided with the roller 71 to press down and lock nut 71 to press down to seal the sliding rod 71, and the end is close to the sliding rod 71, and the end is pressed down to the sliding rod 71, the end is pressed down to the nut is pressed down to the slide bar 71, the end is pressed down, and the end is required to be pressed down to the nut is pressed down, and is pressed down, the end is pressed down, and is pressed down.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (8)

1. The utility model provides a many net unification wisdom thing allies oneself with terminal equipment, includes body (9), its characterized in that, be provided with heat dissipation mechanism (1) on body (9), heat dissipation mechanism (1) are including staple bolt isolation cover (22) of outer lane and curved surface drainage cover (21) of inner circle, be provided with movable first flabellum (32) in curved surface drainage cover (21), flow on curved surface drainage cover (21) has the coolant liquid, first flabellum (32) are rotatory to drive the air current along curved surface drainage cover (21) pass through;

An auxiliary heat dissipation assembly (5) is arranged on the isolation cover (22), the auxiliary heat dissipation assembly (5) comprises a cylindrical groove (221) formed in the isolation cover (22), an arc cover (51) is fixedly connected to the cylindrical groove (221), and a second fan blade (521) is movably arranged between the cylindrical groove and the arc cover;

The number of the second fan blades (521) is a plurality, the second fan blades are arranged in a circumferential array relative to the isolation cover (22), the curved surface drainage cover (21) is rotationally connected with a main rotating shaft (8), a large gear disc (62) is arranged on the main rotating shaft (8), a first fan blade (32) is arranged on the main rotating shaft (8), a small gear disc (61) is arranged at one end of the first fan blade (32), and the main rotating shaft (8) is driven to rotate so as to drive the large gear disc (62) to engage with the small gear disc (61) to rotate so as to drive the first fan blade (32) and the second fan blade (521) to rotate simultaneously;

The cooling device comprises a body (9) and is characterized in that the body (9) is provided with a cooling mechanism (1), the cooling mechanism (1) comprises an outer hoop isolation cover (22), an inner ring curved surface drainage cover (21) and a bottom cover plate (222), the three hoops are independent spaces, a movable first fan blade (32) is arranged in the curved surface drainage cover (21), a cooling liquid input port (23) is formed in the hoop isolation cover (22) in a circumferential array, a cooling liquid output port (231) is formed in the bottom cover plate (222), the cooling liquid input port (23) is communicated with a cooling unit, during use, cooling liquid is flushed to the curved surface drainage cover (21) along the cooling liquid input port (23), water flows along the curved surface drainage cover (21) due to the influence of a coanda effect, so that the curved surface drainage cover (21) is cooled, and then the first fan blade (32) is driven to rotate, so that air flows along the inner wall of the curved surface drainage cover (21) and enters the body (9) for cooling after cooling;

Air around the first fan blade (32) also enters a low-pressure area generated when the first fan blade (32) rotates, so that flow concentration is increased, airflow passing through the inside of the curved surface drainage cover (21) is increased, at the moment, the threaded screw (31) rotates and moves along the roller screw nut (311) along the vertical direction, so that the first fan blade (32) extends out of a port of the curved surface drainage cover (21) for a preset distance, meanwhile, the hooking disc (313) moves along the vertical square to drive the hooking handle (621) to move, so that the large gear disc (62) slides along the main rotating shaft (8) to engage the small gear disc (61) and engage the small gear disc with the large gear disc, so that the first fan blade (32) and the second fan blade (521) simultaneously rotate, meanwhile, cooling liquid is flushed towards the curved surface drainage cover (21) along the cooling liquid inlet (23), because of the influence of the coanda effect, the water flow can be attached to the curved surface drainage cover (21) to cool the curved surface, at the moment, the elastic coating (211) is preset to bulge, the curved surface is destroyed, so that the cold air can be blown onto the curved surface, the cooling liquid is enabled to flow into the independent cooling channel (21) along the cooling channel, the cooling body (9) is enabled to cool down, and the inner part of the cooling body (9) is enabled to cool down, and then the second fan blade (521) enables the air flow to enter the main body (9) along the auxiliary heat dissipation channel, so that the entering air flow is increased for further heat dissipation.

2. A multi-network in-one intelligent internet of things terminal according to claim 1, characterized in that the large gear disc (62) is driven to slide along the main rotation shaft (8) to get closer to or farther from the pinion disc (61).

3. The multi-network-in-one intelligent Internet of things terminal device according to claim 1, wherein a main flow enhancing mechanism (3) is arranged in the curved surface drainage cover (21), the main flow enhancing mechanism (3) comprises a main rotating shaft (8) which rotates, the main rotating shaft (8) is movably provided with the first fan blade (32), and the first fan blade (32) is driven to extend out of the curved surface drainage cover (21) for a preset distance.

4. A multi-network-in-one intelligent internet of things terminal device according to claim 3, wherein a spline nut (312) is fixedly connected in the main rotating shaft (8), one end of the curved surface drainage cover (21) is rotationally connected with a roller screw nut (311), the spline nut (312) and the roller screw nut (311) are in threaded connection with a threaded screw (31), the first fan blade (32) is fixedly connected with one end of the threaded screw (31), and the roller screw nut (311) is locked or rotated by driving the spline nut (312) to rotate so as to drive the threaded screw (31) to rotate or drive the threaded screw (31) to rotate and simultaneously move along the center line of the spline nut (312).

5. The multi-network-in-one intelligent internet of things terminal device according to claim 4, wherein a hooking disc (313) is arranged at one end of the threaded screw rod (31), a large gear disc (62) is slidably connected to the main rotating shaft (8), a hooking handle (621) is arranged on the large gear disc (62), and the hooking disc (313) moves along with the threaded screw rod (31) so as to drive the large gear disc (62) to slide along the main rotating shaft (8).

6. The multi-network-in-one intelligent internet of things terminal device according to claim 1, wherein a liquid stirring component (4) is arranged on the main rotating shaft (8), the liquid stirring component (4) comprises elastic coating materials (211) which are arranged on the curved surface drainage cover (21) in a circumferential array, and the elastic coating materials (211) are protruded according to a preset rule so as to drive the cooling liquid to be sputtered onto the cylindrical groove (221).

7. The multi-network-in-one intelligent internet of things terminal equipment according to claim 6, wherein the liquid stirring assembly (4) further comprises a sliding sleeve (41) which is connected to the main rotating shaft (8) in a sliding manner and an elastic stirring plate (411) which is arranged on the sliding sleeve (41) in a circumferential array, and the elastic stirring plate (411) is close to the elastic coating material (211) and rotates along with the main rotating shaft (8) so as to drive the elastic coating material (211) to bulge according to a preset rule.

8. A multiple-in-one intelligent internet of things terminal according to claim 7, wherein the sliding sleeve (41) is driven to slide along the main shaft (8) to drive the elastic coating (211) to change in height.