CN209749032U - Frequency conversion all-in-one air cooling device - Google Patents

Abstract

The utility model discloses a frequency conversion all-in-one air cooling device, including the converter, box body and installation cavity, the box body sets up the right-hand member at the installation cavity, the internally mounted of installation cavity has motor body, install micro motor in the middle of the inside right side wall of box body, the last pivot of installing of micro motor, the flabellum is installed to the left end of pivot, micro motor's below has the increaser, electric connection between the output of increaser and micro motor's the input, the inside upper end of installation cavity has from left to right set gradually temperature sensor, supersonic generator, ultrasonic transducer and gas flow mass sensor. The utility model discloses a set up micro motor, increaser, PLC controller, microprocessor, second fin, temperature sensor, supersonic generator, ultrasonic transducer and gas flow mass sensor structure, solved current air cooling device's the not good problem that can't adjust according to actual conditions of radiating effect and current air cooling device existence radiating rate.

Description

Frequency conversion all-in-one air cooling device

Technical Field

The utility model relates to an air cooling device technical field specifically is a frequency conversion all-in-one air cooling device.

Background

Air cooling is one type of cooling method, i.e. using air as a medium to cool an object to be cooled. Typically, either the surface area of the object to be cooled is increased, or the rate of air flow through the object per unit time is increased, or both. The former can be achieved by adding heat sinks to the surface of the object, and the heat sinks are usually hung outside the object or fixed on the object to make the heat dissipation more efficient. The latter can use fan (blower) to strengthen ventilation and cooling effect. In most cases, the cooling efficiency can be greatly improved by adding the cooling fins. However, the conventional air cooling device has the following disadvantages:

1. The existing air cooling device has the problem of poor heat dissipation effect.

2. The existing air cooling device has the problem that the heat dissipation speed can not be adjusted according to the actual condition.

SUMMERY OF THE UTILITY MODEL

technical problem to be solved

Not enough to prior art, the utility model provides a frequency conversion all-in-one air cooling device has solved the not good problem that can't adjust according to actual conditions of radiating effect of existence of current air cooling device and current air cooling device existence radiating rate.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a frequency conversion all-in-one fan cooler, includes converter, box body and installation cavity, the converter sets up the upper end at the installation cavity, the box body sets up the right-hand member at the installation cavity, the internally mounted of installation cavity has motor body, install micro motor in the middle of the inside right side wall of box body, the last pivot of installing of micro motor, the flabellum is installed to the left end of pivot, micro motor's below has the speed increaser, electric connection between the output of speed increaser and micro motor's input, the inside upper end of installation cavity has from left to right set gradually temperature sensor, supersonic generator, ultrasonic transducer and gas flow mass sensor, the ventiduct has been seted up in the middle of the inside of installation cavity, the mounting panel is installed to the inside right lower extreme of installation cavity, be provided with microbattery, PLC controller, gas flow mass, Display screen and microprocessor, electric connection between temperature sensor's the output and the input of microprocessor, electric connection between gas flow mass sensor's the output and the input of microprocessor, electric connection between microprocessor's the output and the input of PLC controller, series connection between PLC controller and the increaser, series connection between PLC controller and the micro motor, series connection between PLC controller and supersonic generator, series connection between PLC controller and the ultrasonic transducer.

Preferably, the upper right end of the box body is provided with an air inlet, and the top end inside the box body is provided with a first cooling fin.

Preferably, the second radiating fin is installed at the upper end of the air duct, and the air outlet is formed in the lower right end of the installation cavity.

preferably, the wiring board is installed to the left downside of installation cavity, the fixing base is installed to the bottom of installation cavity.

Preferably, the front of box body installs the lid, the lid is installed in the front of installation cavity, the lid is installed in the front of converter.

Preferably, threaded holes are formed in four corners of the cover body, and bolts are sleeved on the inner threads of the threaded holes.

(III) advantageous effects

The utility model provides a frequency conversion all-in-one air cooling device possesses following beneficial effect:

(1) The utility model, through the structure of the micro motor, the speed increaser, the PLC controller, the microprocessor, the second radiating fin, the temperature sensor, the ultrasonic generator, the ultrasonic transducer and the gas flow mass sensor, the micro motor is in the working state, then the rotating shaft is rotated, then the fan blade is rotated to generate wind, the air flow rate in the box body is accelerated, then the air flow rate in the ventilation channel in the installation cavity is accelerated, then the heat dissipation of the second radiating fin is accelerated, then the heat absorbed on the second radiating fin is discharged from the air outlet along with the air, simultaneously the temperature in the utility model is sensed by the temperature sensor and is sent to the microprocessor, then the temperature is processed by the microprocessor, when the temperature is higher, the microprocessor sends an instruction to the PLC controller, then the speed increaser is opened, then make micro motor accelerate, then make the rotational speed of pivot improve, then make the rotational speed of flabellum improve, then make the inside air current velocity of flow of air duct of installation cavity improve, then make the heat dissipation of second fin improve, get into through the induction of gas flow mass sensor simultaneously the utility model discloses inside gaseous flow and with signal transfer to microprocessor on, then handle through microprocessor, when gaseous velocity of flow reaches the highest value of settlement and the temperature is still very high, microprocessor give-out order to the PLC controller on, then make supersonic generator open, make ultrasonic transducer open simultaneously, then make the vibration frequency of second fin accelerate, then make second fin radiating rate improve once more and solved the not good problem of existence radiating effect of current forced air cooling device.

(2) The utility model discloses, micro motor through the setting, the increaser, the PLC controller, microprocessor, the second fin, supersonic generator and ultrasonic transducer structure, when the temperature descends to higher time, microprocessor give-out order is to the PLC controller on, then make supersonic generator close, make ultrasonic transducer close simultaneously, then make the vibration frequency of second fin descend, when the temperature descends to when high partially, microprocessor give-out order is to the PLC controller on, then make the increaser close, then make the micro motor deceleration, then make the rotational speed of pivot reduce, then make the rotational speed of flabellum reduce, then pass through micro motor, a rotating shaft, flabellum and second fin carry out the normal speed heat dissipation, the problem that current air cooling device exists the radiating rate and can't adjust according to actual conditions is solved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

Fig. 2 is a front view schematically illustrating the present invention;

Fig. 3 is a schematic view of the flow block of the present invention.

The reference numbers in the figures are: 1. a frequency converter; 2. a first heat sink; 3. an air inlet; 4. a micro motor; 5. a rotating shaft; 6. a speed increaser; 7. a fan blade; 8. an air outlet; 9. a micro-battery; 10. a PLC controller; 11. a display screen; 12. a microprocessor; 13. mounting a plate; 14. a wiring board; 15. an air duct; 16. a second heat sink; 17. a temperature sensor; 18. an ultrasonic generator; 19. an ultrasonic transducer; 20. a box body; 21. a gas flow mass sensor; 22. a fixed seat; 23. a cover body; 24. a threaded hole; 25. a bolt; 26. a mounting cavity; 27. the motor body.

Detailed Description

the technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides an embodiment: a variable frequency integrated machine air cooling device comprises a frequency converter 1, a box body 20 and a mounting cavity 26, wherein a cover body 23 is installed on the front face of the box body 20, the cover body 23 is installed on the front face of the mounting cavity 26, the cover body 23 is installed on the front face of the frequency converter 1, threaded holes 24 are formed in four corners of the cover body 23, bolts 25 are sleeved with internal threads of the threaded holes 24, an air inlet 3 is formed in the upper right end of the box body 20, a first radiating fin 2 is installed at the top end of the interior of the box body 20, the frequency converter 1 is arranged at the upper end of the mounting cavity 26, the box body 20 is arranged at the right end of the mounting cavity 26, a motor body 27 is installed inside the mounting cavity 26, a micro motor 4 is installed in the middle of the right side wall of the interior of the box body 20, a rotating shaft 5 is installed on the micro motor 4, fan blades 7 are installed at the left end, the upper end in the installation cavity 26 is sequentially provided with a temperature sensor 17, an ultrasonic generator 18, an ultrasonic transducer 19 and a gas flow mass sensor 21 from left to right, the middle in the installation cavity 26 is provided with an air duct 15, the upper end of the air duct 15 is provided with a second cooling fin 16, the right lower end of the installation cavity 26 is provided with an air outlet 8, the left lower side of the installation cavity 26 is provided with a wiring board 14, the bottom end of the installation cavity 26 is provided with a fixed seat 22, the right lower end in the installation cavity 26 is provided with an installation board 13, the installation board 13 is provided with a micro storage battery 9, a PLC (programmable logic controller) 10, a display screen 11 and a microprocessor 12, the output end of the temperature sensor 17 is electrically connected with the input end of the microprocessor 12, the output end of the gas flow mass sensor 21 is electrically connected with the input end of the microprocessor, the PLC controller 10 and the speed increaser 6 are connected in series, the PLC controller 10 and the micro motor 4 are connected in series, the PLC controller 10 and the ultrasonic generator 18 are connected in series, the PLC controller 10 and the ultrasonic transducer 19 are connected in series, the type of the frequency converter 1 is DHS400M11A, the type of the micro motor 4 is 130, the type of the speed increaser 6 is SYZ15113, the type of the micro storage battery 9 is 4D1400, the type of the PLC controller 10 is ED3500, the type of the microprocessor 12 is Intel Xeon E5-2695v3, the type of the temperature sensor 17 is CWDZ11, the type of the ultrasonic generator 18 is MD67-KMD-K1, the type of the ultrasonic transducer 19 is YP-5020-2BL, the type of the gas flow mass sensor 21 is NK-FS4001, the type of the motor body 27 is YBVF-355M2-4, which is a known and open condition, during the use, make the outside air get into through air intake 3 the utility model discloses an inside dispels the heat through the heat that first fin 2 produced micro motor 4, makes miniature battery 9 install in the inside of installation cavity 26 through mounting panel 13, makes PLC controller 10 install in the inside of installation cavity 26 through mounting panel 13, makes display screen 11 install in the inside of installation cavity 26 through mounting panel 13, makes miniature microprocessor 12 install in the inside of installation cavity 26 through mounting panel 13.

The working principle is as follows: when in use, the fixing base 22 is fixedly arranged on a designated position by a user, then the utility model is fixed on the designated position, then the user connects the wiring board 14 with an external power supply through a power cord to charge, then the utility model works, and simultaneously the motor body 27 works, the utility model can generate heat to cause the internal temperature of the utility model to rise when in work, simultaneously the micro-motor 4 is in a working state, then the rotating shaft 5 is rotated, then the fan blade 7 is rotated to generate wind, the air flow rate inside the box body 20 is accelerated, then the air flow rate inside the ventilation duct 15 inside the installation cavity 26 is accelerated, then the heat dissipation of the second cooling fin 16 is accelerated, then the heat absorbed on the second cooling fin 16 is discharged from the air outlet 8 along with the air, simultaneously the temperature sensor 17 senses the internal temperature of the utility model and sends a signal to the microprocessor 12, then the processing is carried out through the microprocessor 12, when the temperature is higher, the microprocessor 12 sends an instruction to the PLC controller 10, then the speed increaser 6 is opened, then the micro motor 4 is accelerated, then the rotating speed of the rotating shaft 5 is increased, then the rotating speed of the fan blade 7 is increased, then the airflow speed in the air duct 15 in the installation cavity 26 is increased, then the heat dissipation of the second radiating fin 16 is increased, meanwhile, the flow of the gas entering the utility model is induced by the gas flow quality sensor 21 and the signal is transmitted to the microprocessor 12, then the processing is carried out through the microprocessor 12, when the flow rate of the gas reaches the set maximum value and the temperature is still high, the microprocessor 12 sends an instruction to the PLC controller 10, then the ultrasonic generator 18 is opened, the ultrasonic transducer 19 is opened at the same time, then the vibration frequency of the second radiating fin 16 is accelerated, then the heat dissipation speed of the second heat sink 16 is increased again, and when the temperature drops to a higher level, the microprocessor 12 sends a command to the PLC controller 10, then, the ultrasonic generator 18 is turned off, while the ultrasonic transducer 19 is turned off, and then the vibration frequency of the second heat sink 16 is lowered, when the temperature drops to a higher level, the microprocessor 12 sends an instruction to the PLC controller 10, then the speed increaser 6 is turned off, then the micro motor 4 is decelerated, then the rotating speed of the rotating shaft 5 is reduced, then the rotating speed of the fan blade 7 is reduced, and then the heat is dissipated at normal speed through the micro motor 4, the rotating shaft 5, the fan blade 7 and the second heat dissipating fin 16, when the internal structure of the utility model needs to be overhauled, the user uses a tool to separate the bolt 25 from the threaded hole 24, then the user takes off lid 23, then the user is right the utility model discloses an inside overhauls the work.

To sum up can, the utility model discloses a set up micro motor 4, increaser 6, PLC controller 10, microprocessor 12, second fin 16, temperature sensor 17, supersonic generator 18, ultrasonic transducer 19 and gas flow mass sensor 21 structure, solved current air cooling device's the not good problem that can't adjust according to actual conditions of radiating effect and current air cooling device existence radiating rate.

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.

Claims (6)

1. the utility model provides a frequency conversion all-in-one air cooling device, includes converter (1), box body (20) and installation cavity (26), its characterized in that: the utility model discloses a miniature motor, including converter (1), box body (20), pivot (5), flabellum (7) are installed to the left end of pivot (5), the internally mounted of installation cavity (26) has motor body (27), install micro motor (4) in the middle of the inside right side wall of box body (20), install on micro motor (4) pivot (5), speed increaser (6) have in the below of micro motor (4), electric connection between the output of speed increaser (6) and the input of micro motor (4), the inside upper end of installation cavity (26) has set gradually temperature sensor (17), supersonic generator (18), ultrasonic transducer (19) and gas flow mass sensor (21) from left to right, ventiduct (15) have been seted up in the middle of the inside of installation cavity (26), a mounting plate (13) is arranged at the right lower end inside the mounting cavity (26), a miniature storage battery (9), a PLC (programmable logic controller) (10), a display screen (11) and a microprocessor (12) are arranged on the mounting plate (13), the output end of the temperature sensor (17) is electrically connected with the input end of the microprocessor (12), the output end of the gas flow mass sensor (21) is electrically connected with the input end of the microprocessor (12), the output end of the microprocessor (12) is electrically connected with the input end of the PLC controller (10), the PLC controller (10) and the speed increaser (6) are connected in series, the PLC controller (10) and the micro motor (4) are connected in series, the PLC controller (10) and the ultrasonic generator (18) are connected in series, the PLC controller (10) and the ultrasonic transducer (19) are connected in series.

2. The air cooling device of the frequency conversion all-in-one machine of claim 1, characterized in that: an air inlet (3) is formed in the upper right end of the box body (20), and a first cooling fin (2) is mounted at the top end inside the box body (20).

3. The air cooling device of the frequency conversion all-in-one machine of claim 1, characterized in that: second fin (16) are installed to the upper end of ventiduct (15), air outlet (8) have been seted up to the right lower extreme of installation cavity (26).

4. The air cooling device of the frequency conversion all-in-one machine of claim 3, characterized in that: wiring board (14) are installed to the left downside of installation cavity (26), fixing base (22) are installed to the bottom of installation cavity (26).

5. The air cooling device of the frequency conversion all-in-one machine of claim 1, characterized in that: the front of box body (20) is installed lid (23), lid (23) are installed in the front of installation cavity (26), lid (23) are installed in the front of converter (1).

6. The air cooling device of the frequency conversion all-in-one machine of claim 5, characterized in that: threaded holes (24) are formed in four corners of the cover body (23), and bolts (25) are sleeved on the inner threads of the threaded holes (24).