Controller cooling device and method for Internet of things
Technical Field
The invention relates to the technical field of controller auxiliary devices, in particular to a controller cooling device and method for the Internet of things.
Background
The internet of things is characterized in that any object or process needing monitoring, connection and interaction is collected in real time through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors, laser scanners and the like, various needed information such as sound, light, heat, electricity, mechanics, chemistry, biology, positions and the like is collected, and the object-to-object and object-to-person ubiquitous connection is realized through various possible network accesses, so that the intelligent sensing, identification and management of the object and the process are realized. The internet of things is an information bearer based on the internet, a traditional telecommunication network and the like, and all common physical objects which can be independently addressed form an interconnected network. The internet of things, namely the internet with all things connected, is an extended and expanded network on the basis of the internet, combines various information sensing devices with the internet to form a huge network, and realizes the interconnection and intercommunication of people, machines and things at any time and any place.
The existing controller for the Internet of things is operated for a long time, so that the temperature of the controller for the Internet of things rises sharply, the controller cannot be normally used due to the rise of the temperature, the controller for the Internet of things is usually cooled and dissipated by itself or a fan is used for dissipating heat, the heat dissipation effect is poor, the waiting time is long, the use is influenced, the service life of the controller for the Internet of things is shortened, and therefore the device and the method for cooling the controller for the Internet of things are provided.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a controller cooling device and method for the Internet of things, and solves the problems that the temperature of the existing controller for the Internet of things is sharply increased after long-time operation, so that the existing controller for the Internet of things cannot be normally used, and is cooled by self or is cooled by a fan, so that the cooling effect is poor.
(II) technical scheme
In order to achieve the purpose, the invention is realized by the following technical scheme: a controller cooling device for the Internet of things comprises a bottom plate, wherein the top of the bottom plate is fixedly connected with a base, the top of the base is movably connected with a cooling box, a water containing groove is formed in the edge of the cooling box, a heat conducting sheet is fixedly connected to the inner surface of the cooling box, one side of the heat conducting sheet penetrates through the cooling box and extends to the inside of the water containing groove, a graphene plate is fixedly connected to the other side of the heat conducting sheet, mounting seats are fixedly connected to opposite corners of the outer surface of the cooling box, connecting pipes are communicated with the bottoms of the two mounting seats, the top end of each connecting pipe penetrates through the cooling box and extends to the inside of the cooling box, fans are fixedly connected to opposite corners of the inner side of the cooling box, air outlets of the two fans are communicated with air outlet pipes, one end of each air outlet pipe penetrates through the cooling box and extends to the inside of the water containing groove, and a sliding plug is slidably connected to the inner, and the top fixedly connected with of sliding plug removes the seat, the top of removing the seat runs through the mount pad and extends to the outside of mount pad, circular recess has all been seted up to the top of base and the bottom of cooling box.
Preferably, the number of the graphene plates is multiple, and the graphene plates are uniformly distributed on the inner surface of the cooling box.
Preferably, the top of mount pad fixedly connected with handle, and the quantity of handle is provided with a plurality ofly.
Preferably, the top of the inner cavity of the base is fixedly connected with a cooling fin, and the top of the cooling fin penetrates through the base and extends into the circular groove.
Preferably, the bottom fixedly connected with heat dissipation post of fin, and the heat dissipation post is provided with many, the bottom of heat dissipation post and the bottom fixed connection of base inner chamber.
Preferably, the base is all fixedly connected with first screw thread seat all around, the equal fixedly connected with second screw thread seat in below all around of cooling box.
Preferably, the first threaded seat and the second threaded seat are in threaded connection through bolts, and the number of the bolts is provided with a plurality of bolts.
The invention also discloses a cooling method of the controller for the Internet of things, which specifically comprises the following steps:
s1, firstly, the bottom of the cooling box is erected on the top of the base, so that the first threaded seat is aligned with the second threaded seat, then the bolt is rotated, so that the first threaded seat and the second threaded seat are fixed by the bolt, and further the cooling box and the base are fixed, so that the cooling fins enter the circular groove in the bottom of the cooling box;
s2, placing the controller for the Internet of things in operation into the cooling box, enabling the four graphene plates to be in contact with the four surfaces of the controller, enabling the bottom of the controller to be in contact with the radiating fins, conducting heat on the surface of the controller through the strong heat conductivity of the graphene plates, and conducting the heat on the surface of the controller to the inside of the water containing tank through the heat conducting fins;
s3, at the moment, cold water is poured into the water containing groove, so that heat on the heat conducting strip is quickly led into the cold water, then the handle is pulled upwards, the moving seat is further driven to move upwards, the sliding plug is driven to slide upwards, the cold water in the water containing groove enters the mounting seat through the connecting pipe, the liquid level is caused to descend, the heat conducting strip is exposed, the fan is started at the same time, and then the heat conducting strip with the cold water on the surface is blown through the air outlet pipe, so that the water on the surface of the heat conducting strip is quickly evaporated, and the heat on the surface of the heat conducting strip is;
and S4, at the same time, the heat radiating fin rapidly conducts the heat at the bottom of the controller to the heat radiating column to increase the surface area of the heat radiating column and the air, and at the moment, the heat conducted on the heat radiating column is in contact with the air and is rapidly taken away by the air to absorb the heat on the surface of the heat radiating column.
(III) advantageous effects
The invention provides a controller cooling device and method for the Internet of things. Compared with the prior art, the method has the following beneficial effects:
(1) the controller cooling device and the method for the Internet of things are characterized in that a water containing groove is formed in the edge of a cooling box, a heat conducting strip is fixedly connected to the inner surface of the cooling box, one side of the heat conducting strip penetrates through the cooling box and extends to the inside of the water containing groove, a graphene plate is fixedly connected to the other side of the heat conducting strip, installation seats are fixedly connected to opposite corners of the outer surface of the cooling box, connecting pipes are communicated with the bottoms of the two installation seats, the top end of each connecting pipe penetrates through the cooling box and extends to the inside of the cooling box, fans are fixedly connected to opposite corners of the inside of the edge of the cooling box, air outlets of the two fans are communicated with air outlet pipes, one end of each air outlet pipe penetrates through the cooling box and extends to the inside of the water containing groove, a sliding plug is connected to the inner surface of the installation seats in a sliding mode, a moving seat is fixedly connected to the top of the sliding, circular grooves are formed in the top of the base and the bottom of the cooling box, S2, the controller for the Internet of things in operation is placed inside the cooling box, the four graphene plates are in contact with the four surfaces of the controller, the bottom of the controller is in contact with the radiating fins, heat on the surface of the controller conducts the heat through the strong heat conductivity of the graphene plates, and the heat on the surface of the controller is conducted to the inside of the water containing groove through the heat conducting fins; s3, at the moment, cold water is poured into the water containing groove, so that heat on the heat conducting strip is quickly led into the cold water, then the handle is pulled upwards to drive the movable seat to move upwards, the sliding plug is driven to slide upwards, the cold water in the water containing groove enters the mounting seat through the connecting pipe, the liquid level is caused to descend, the heat conducting strip is exposed, the fan is started simultaneously, the heat conducting strip with the cold water on the surface is blown through the air outlet pipe, so that the water on the surface of the heat conducting strip is quickly evaporated, the heat on the surface of the heat conducting strip is absorbed, the four graphene plates are in contact with the four surfaces of the controller, the strong heat conduction characteristic of the graphene is utilized, the heat on the four surfaces is quickly conducted to the inside of the water containing groove through the heat conducting strip, and the heat which needs to be absorbed is conducted to the cold water and evaporated in the cold water adding process by matching with the sliding, the controller for the Internet of things can quickly dissipate heat after long-time operation, the waiting time is short, the controller can be used for a short time, the work progress is accelerated, and the service life of the controller for the Internet of things is effectively prolonged.
(2) The controller cooling device and the method for the Internet of things are characterized in that first threaded seats are fixedly connected to the periphery of a base, second threaded seats are fixedly connected to the periphery of a cooling box, the first threaded seats and the second threaded seats are connected through bolt threads, and the number of bolts is multiple, S1, the bottom of the cooling box is firstly erected at the top of the base, so that the first threaded seats are aligned with the second threaded seats, then the bolts are rotated, so that the first threaded seats and the second threaded seats are fixed through the bolts, the cooling box and the base are further fixed, cooling fins enter into circular grooves in the bottom of the cooling box, the first threaded seats and the second threaded seats are aligned through the arrangement, then the first threaded seats and the second threaded seats are fastened through the bolts, the base and the cooling box are conveniently disassembled, and the cooling box is convenient to move and carry.
(3) This controller heat sink and method for thing networking, top fixedly connected with fin through at the base inner chamber, the top of fin runs through the base and extends to the inside of circular recess, the bottom fixedly connected with heat dissipation post of fin, and the heat dissipation post is provided with many, the bottom of heat dissipation post and the bottom fixed connection of base inner chamber, S4, meanwhile, the fin conducts the heat of controller bottom to the heat dissipation post rapidly, the increase is with the surface area of air, the heat of conduction is contacted with the air on the heat dissipation post this moment, be taken away by the air fast, absorb the heat on heat dissipation post surface, through setting up fin and controller bottom contact, make the heat of controller bottom conduct to the fin rapidly, cooperate many heat dissipation posts, the increase is with the surface area of air contact, reach rapid cooling' S effect.
Drawings
FIG. 1 is a front view of the outer structure of the present invention;
FIG. 2 is a perspective view of the external structure of the sliding plug of the present invention;
FIG. 3 is a main sectional view of a partial structure of the present invention;
FIG. 4 is a partial structural interior view of the present invention;
fig. 5 is a top view of the external structure of the base of the present invention.
In the figure, 1-bottom plate, 2-base, 3-cooling box, 4-water tank, 5-heat conducting fin, 6-graphene plate, 7-mounting seat, 8-connecting pipe, 9-fan, 10-air outlet pipe, 11-sliding plug, 12-moving seat, 13-circular groove, 14-handle, 15-radiating fin, 16-radiating column, 17-first screw seat, 18-second screw seat and 19-bolt.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-5, an embodiment of the present invention provides a technical solution: a controller cooling device for the Internet of things comprises a bottom plate 1, wherein the top of the bottom plate 1 is fixedly connected with a base 2, the periphery of the base 2 is fixedly connected with a first threaded seat 17, the periphery of a cooling box 3 is fixedly connected with a second threaded seat 18, the first threaded seat 17 and the second threaded seat 18 are in threaded connection through bolts 19, the first threaded seat 17 and the second threaded seat 18 are arranged to be aligned, then the first threaded seat 17 and the second threaded seat 18 are fastened through the bolts 19, the base 2 and the cooling box 3 are convenient to disassemble and convenient to move and carry, the bolts 19 are arranged in a plurality, the top of an inner cavity of the base 2 is fixedly connected with a cooling fin 15, the cooling fin 15 is made of a high-heat-conduction metal material, the bottom of the cooling fin 15 is fixedly connected with a cooling column 16, the cooling column 16 is made of a high-heat-conduction metal material, and the cooling column 16 is provided with a plurality of, the bottom end of a heat radiation column 16 is fixedly connected with the bottom of the inner cavity of the base 2, the top of a heat radiation fin 15 penetrates through the base 2 and extends to the inside of the circular groove 13, the top of the base 2 is movably connected with a cooling box 3, the edge of the cooling box 3 is provided with a water containing groove 4, the inner surface of the cooling box 3 is fixedly connected with a heat conducting fin 5, the heat conducting fin 5 is made of a strong heat conducting metal material, one side of the heat conducting fin 5 penetrates through the cooling box 3 and extends to the inside of the water containing groove 4, the other side of the heat conducting fin 5 is fixedly connected with a graphene plate 6, the number of the graphene plates 6 is multiple, the graphene plates 6 are uniformly distributed on the inner surface of the cooling box 3, opposite corners of the outer surface of the cooling box 3 are fixedly connected with mounting seats 7, the top of the mounting seats 7 is fixedly connected with handles 14, the number of the handles 14 is multiple, the bottoms of the two mounting seats 7 are communicated with connecting pipes 8, the top ends of the connecting pipes, fans 9 are fixedly connected at opposite corners inside the edge of the cooling box 3, the fans 9 are electrically connected with an external power supply, air outlets of the two fans 9 are communicated with air outlet pipes 10, one end of each air outlet pipe 10 penetrates through the cooling box 3 and extends into the water containing tank 4, a sliding plug 11 is connected to the inner surface of the mounting seat 7 in a sliding manner, a moving seat 12 is fixedly connected to the top of the sliding plug 11, the top of the moving seat 12 penetrates through the mounting seat 7 and extends to the outside of the mounting seat 7, circular grooves 13 are formed in the top of the base 2 and the bottom of the cooling box 3, the four graphene plates 6 are in contact with four surfaces of the controller, the heat on the four surfaces is rapidly conducted to the inside of the water containing tank 4 through the heat conducting fins 5 by utilizing the characteristic of strong heat conduction of graphene, and the heat on the surfaces of the controller can be conducted to cold water and heat needing to be absorbed by evaporation in the process of adding cold water by matching with the sliding plugs 11, the moving seats, the controller for the internet of things can quickly dissipate heat after long-time operation, the waiting time is short, the controller can be used for a short time, the working schedule is accelerated, the service life of the controller for the internet of things is effectively prolonged, and meanwhile, the content which is not described in detail in the specification belongs to the prior art which is known by technical personnel in the field.
The invention also discloses a cooling method of the controller for the Internet of things, which specifically comprises the following steps:
s1, first, the bottom of the cooling box 3 is placed on the top of the base 2, so that the first threaded seat 17 is aligned with the second threaded seat 18, then the bolt 19 is rotated, so that the bolt 19 fixes the first threaded seat 17 and the second threaded seat 18, and further the cooling box 3 and the base 2 are fixed, so that the heat sink 15 enters the circular groove 13 at the bottom of the cooling box 3;
s2, placing the controller for the Internet of things in operation into the cooling box 3, enabling the four graphene plates 6 to be in contact with the four surfaces of the controller, enabling the bottom of the controller to be in contact with the radiating fins 15, conducting heat on the surface of the controller through the strong heat conductivity of the graphene plates 6, and conducting the heat on the surface of the controller to the inside of the water containing tank 4 through the heat conducting fins 5;
s3, at this time, pouring cold water into the water containing tank 4 to rapidly introduce heat on the heat conducting strip 5 into the cold water, then pulling the handle 14 upward to further drive the moving seat 12 to move upward to drive the sliding plug 11 to slide upward, the cold water in the water containing tank 4 enters the mounting seat 7 through the connecting pipe 8 to cause the liquid level to drop, the heat conducting strip 5 is exposed, and the fan 9 is started at the same time to blow the heat conducting strip 5 with cold water on the surface through the air outlet pipe 10, so that the water on the surface of the heat conducting strip 5 is rapidly evaporated to absorb the heat on the surface of the heat conducting strip 5;
and S4, at the same time, the heat sink 15 rapidly transfers the heat at the bottom of the controller to the heat dissipation column 16 to increase the surface area of the heat dissipation column 16 and the heat transferred on the heat dissipation column 16 is in contact with the air and is rapidly taken away by the air to absorb the heat on the surface of the heat dissipation column 16.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.