Wind power reversing diffusion device for air conditioner of Internet of things
Technical Field
The invention relates to the field of air conditioners, in particular to a wind power reversing diffusion device for an air conditioner of the Internet of things.
Background
The air conditioners are divided into a plurality of types, namely a wall-mounted air conditioner, a vertical cabinet air conditioner, a window type air conditioner and a ceiling type air conditioner, the wall-mounted air conditioner is generally used in a household bedroom, and the air conditioner is usually installed close to the wall outside the household when installed, but the air conditioner is not blown to the bed. Although the air conditioner has the left and right air swinging and the up and down air swinging, the air conditioner can directly blow cold air to a person lying on a bed, the air conditioner can also pump away indoor moisture while sending the cold air, the dried air can possibly suck away moisture in eyes like a sponge, and meanwhile, a door and a window are tightly closed when the air conditioner is opened, so that the indoor air becomes dirty, the air is easy to accelerate the evaporation of moisture on the surface of an eyeball, the eyes are dry and uncomfortable, and the xerophthalmia is easily caused for a long time.
Disclosure of Invention
Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a wind power reversing diffusion device for an Internet of things air conditioner structurally comprises the Internet of things air conditioner, a hanging mounting bar, a drainage water pipe and a temperature display, wherein the drainage water pipe is mounted at the bottom end of the Internet of things air conditioner, the hanging mounting bar is arranged on the back surface of the Internet of things air conditioner, the Internet of things air conditioner is movably connected with the hanging mounting bar, the temperature display is arranged on the surface of the front end of the Internet of things air conditioner, and the Internet of things air conditioner and the temperature display are in clearance fit;
the internet of things air conditioner comprises a shell, an electrostatic dust collector, a cross flow fan, a wind power reversing diffusion device, a liquid level controller, a water outlet pipe and a heat exchanger, wherein the electrostatic dust collector is installed at the top end inside the shell, the cross flow fan is arranged below the electrostatic dust collector, the shell and the cross flow fan are in clearance fit, the heat exchanger is arranged on the surface of the cross flow fan, the cross flow fan is connected with the heat exchanger, the wind power reversing diffusion device is arranged at the bottom end inside the shell, the shell and the wind power reversing diffusion device are in sliding fit, the water outlet pipe is installed on the inner wall of the shell, the liquid level controller is arranged at one end of the water outlet pipe, and the water outlet pipe is matched with the liquid.
As a further optimization of the technical scheme, the wind power reversing diffusion device consists of a power guide plate, an accelerating guide rail wheel, a power mechanism, a direct current wind baffle plate, a wind power device, an evaporating basin, a guide rail frame and a drainage hole, wherein the accelerating guide rail wheel is installed at each of the left end and the right end of the power guide plate, the front end of the power guide plate is provided with the direct current wind baffle plate, the power guide plate is fixedly connected with the direct current wind baffle plate, the surface of the power guide plate is provided with the evaporating basin, the bottom end of the power guide plate is provided with the power mechanism, the surface of the power guide plate is provided with the drainage hole, one end of the accelerating guide rail wheel is arranged in the guide rail frame, the accelerating guide rail wheel is in sliding fit with the guide rail frame, and the wind power device is.
As a further optimization of the technical scheme, the power mechanism consists of a gear strip, a power gear shaft and a double-shaft motor, the power gear shaft is installed at the left end and the right end of the double-shaft motor, the gear strip is arranged at one end of the power gear shaft, the power gear shaft is meshed with the gear strip, and the top end of the gear strip is installed on the bottom surface of the power guide plate.
As the further optimization of this technical scheme, wind power installation constitute by wind shaft, aerofoil, wind direction set-square, rotatory sliding tray, ball, drainage wind mechanism, wind shaft top surface on equidistance distribute and be equipped with four aerofoil, wind shaft and aerofoil fixed connection, aerofoil and aerofoil between install the wind direction set-square, wind shaft bottom be equipped with drainage wind mechanism, wind shaft and drainage wind mechanism swing joint, wind shaft intermediate position on be equipped with rotatory sliding tray, wind shaft and rotatory sliding tray glue joint, rotatory sliding tray bottom surface install the ball more than two.
As the further optimization of this technical scheme, drainage wind mechanism by race ring, rotation get rid of the axle, the drainage aerofoil constitutes, the rotation get rid of and be equipped with the race ring on the axle intermediate position, the rotation get rid of the axle and adopt clearance fit with the race ring, the rotation get rid of the axle about both ends all install three drainage aerofoil, and three drainage aerofoil equidistance distributes and gets rid of epaxially in the rotation.
As a further optimization of the technical scheme, the rotary sliding disc is of a circular structure, and the height of the rotary sliding disc is 10 cm.
As the further optimization of the technical scheme, the wind power device is made of plastic materials, so that the weight of the whole structure is reduced.
As further optimization of the technical scheme, the length between the power guide plate and the direct current wind baffle plate is the same.
Advantageous effects
The invention relates to a wind power reversing diffusion device for an Internet of things air conditioner, wherein electric energy is supplied to electric wires, the Internet of things air conditioner is opened through a mobile phone or a remote control, a double-shaft motor converts the electric energy into kinetic energy through a power gear shaft, the power gear shaft drives a gear rack below a power guide plate to move through rotation, the power guide plate rapidly moves in a guide rail frame by utilizing accelerating guide rail wheels at the left end and the right end, the friction resistance on the power guide plate during moving is reduced, the power guide plate stops after moving to a certain distance, when a cross-flow fan blows cold air into a horizontal type, the cold air blows to a wind plate, so that the wind plate is blown by the cold air to drive a wind shaft to rotate, the cold air is pushed upwards through a wind direction triangle plate, the cold air is prevented from directly blowing to people, the wind shaft reduces the friction resistance through balls below a rotating sliding disc, the rotating speed is improved, and the wind, rotatory epaxial drainage aerofoil that gets rid of then can receive air resistance's influence and drive the rotation of getting rid of the axle, let the drainage aerofoil guide a part air conditioning downwards through the drainage hole, horizontal air conditioning's diffusion has been accelerated, the power baffle passes through the moisture in the evaporation basin, the networking air conditioner has been avoided managing to find time of moisture in with horizontal, and then evaporate human moisture on one's body, and when the moisture in the evaporation basin reduces to a certain degree, through the liquid level controller with water by the leading-in evaporation basin of the leading-in outlet pipe of drainage water pipe again, avoid the untimely problem of moisture replenishment.
Compared with the prior art, the invention has the beneficial effects that: utilize the interior wind-force that blows out of thing networking air conditioner to drive wind power device's rotation, let wind power device up with down guide with the air conditioning in, accelerated the speed of air conditioning diffusion, also avoided air conditioning directly to blow to the human body, and cause the evaporation of eyeball surface moisture, make eyes dry and uncomfortable, long-term so, cause the problem of xerophthalmia easily, and still utilize the water in the evaporation basin, for horizontal moisture that provides, reduce the loss of moisture in the bedroom, and cause the human moisture of evaporation.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural diagram of a wind power reversing and diffusing device for an air conditioner of the internet of things.
Fig. 2 is a schematic side cross-sectional static state structure diagram of the wind power reversing and diffusing device for the air conditioner of the internet of things.
Fig. 3 is a schematic side sectional view of a working state structure of the wind power reversing and diffusing device for the air conditioner of the internet of things.
Fig. 4 is a schematic front sectional view of the wind power reversing and diffusing device for the air conditioner of the internet of things.
Fig. 5 is a schematic top view structure diagram of a power guide plate of a wind power reversing diffusion device for an internet-of-things air conditioner.
FIG. 6 is an enlarged view of A in FIG. 3 according to the present invention.
Fig. 7 is a schematic structural diagram of a wind power device of a wind power reversing and diffusing device for an air conditioner of the internet of things.
In the figure: an internet-of-things air conditioner-1, a hanging mounting bar-2, a drainage water pipe-3, a temperature display-4, a shell-101, an electrostatic dust collector-102, a cross-flow fan-103, a wind power reversing diffusion device-104, a liquid level controller-105, a water outlet pipe-106, a heat exchanger-107, a power guide plate-1041, an accelerating guide rail wheel-1042, a power mechanism-1043, a direct current wind baffle-1044, a wind power device-1045, an evaporating water basin-1046, a guide rail frame-1047, a drainage hole-1048, a gear bar-10431, a power gear shaft-10432, a double-shaft motor-10433, a wind power shaft-1045 a, a wind plate-1045 b, a wind direction triangle plate-1045 c, a rotating sliding disc-1045 d, a ball-1045 e, a drainage wind mechanism-1045 f, a wind power shaft, A bearing ring-1045 f1, a rotary swing shaft-1045 f2 and a drainage wind plate-1045 f 3.
Detailed Description
In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.
Examples
Referring to fig. 1-7, the invention provides a wind power reversing diffusion device for an internet of things air conditioner, which structurally comprises an internet of things air conditioner 1, a hanging mounting bar 2, a water drainage pipe 3 and a temperature display 4, wherein the water drainage pipe 3 is installed at the bottom end of the internet of things air conditioner 1, the hanging mounting bar 2 is arranged on the back surface of the internet of things air conditioner 1, the internet of things air conditioner 1 is movably connected with the hanging mounting bar 2, the temperature display 4 is arranged on the surface of the front end of the internet of things air conditioner 1, the internet of things air conditioner 1 and the temperature display 4 are in clearance fit, the internet of things air conditioner 1 comprises a shell 101, an electrostatic dust collector 102, a cross flow fan 103, a wind power reversing diffusion device 104, a liquid level controller 105, a water outlet pipe 106 and a heat exchanger 107, the electrostatic dust collector 102 is installed at the top end inside the shell 101, and the cross flow, the casing 101 and the cross-flow fan 103 are in clearance fit, a heat exchanger 107 is arranged on the surface of the cross-flow fan 103, the cross-flow fan 103 is connected with the heat exchanger 107, a wind power reversing diffusion device 104 is arranged at the bottom end inside the casing 101, the casing 101 and the wind power reversing diffusion device 104 are in sliding fit, a water outlet pipe 106 is installed on the inner wall of the casing 101, a liquid level controller 105 is arranged at one end of the water outlet pipe 106, and the water outlet pipe 106 is matched with the liquid level controller 105.
The wind power reversing diffusion device 104 comprises a power guide plate 1041, an accelerating guide rail wheel 1042, a power mechanism 1043, a direct current wind baffle 1044, a wind power device 1045, an evaporating basin 1046, a guide rail frame 1047 and a drainage hole 1048, the accelerating guide rail wheels 1042 are installed at the left end and the right end of the power guide plate 1041, the direct current wind baffle 1044 is arranged at the front end of the power guide plate 1041, the power guide plate 1041 is fixedly connected with the direct current wind baffle 1044, the evaporating basin 1046 is arranged on the surface of the power guide plate 1041, the power mechanism 1043 is installed at the bottom end of the power guide plate 1041, the drainage hole 1048 is arranged on the surface of the power guide plate 1041, one end of the accelerating guide rail wheel 1042 is arranged in the guide rail frame 1047, the accelerating guide rail wheel 1042 is in sliding fit with the guide rail frame 1047, the wind power device 1045 is vertically installed on the surface of the power guide plate,
the direct-current air baffle 1044 is used for blocking direct current air of the internet-of-things air conditioner 1 to prevent cold air from directly blowing to a human body; the evaporation basin 1046 is used for providing evaporated moisture for the room, so as to prevent the moisture in the room from being too low to evaporate moisture of the human body.
The power mechanism 1043 comprises a gear strip 10431, a power gear shaft 10432 and a double-shaft motor 10433, the power gear shaft 10432 is installed at the left end and the right end of the double-shaft motor 10433, the gear strip 10431 is arranged at one end of the power gear shaft 10432, the power gear shaft 10432 is meshed with the gear strip 10431, and the top end of the gear strip 10431 is installed on the bottom surface of the power guide plate 1041.
The wind power device 1045 comprises a wind power shaft 1045a, wind boards 1045b, wind direction triangle boards 1045c, a rotary sliding disk 1045d, balls 1045e and a drainage fan mechanism 1045f, four wind boards 1045b are distributed on the top end surface of the wind power shaft 1045a at equal intervals, the wind power shaft 1045a and the wind boards 1045b are fixedly connected, the wind direction triangle boards 1045c are installed between the wind boards 1045b and the wind boards 1045b, the drainage fan mechanism 1045f is arranged at the bottom end of the wind power shaft 1045a, the wind power shaft 1045a and the drainage fan mechanism 1045f are movably connected, the rotary sliding disk 1045d is arranged in the middle of the wind power shaft 1045a, the wind power shaft 1045a is connected with the rotary sliding disk 1045d through glue, more than two balls 1045e are installed on the bottom surface of the rotary sliding disk 1045d,
the wind direction triangle 1045c is to change the direction of the cool air transportation, so that the cool air can be diffused from top to bottom, thereby avoiding the uneven indoor cool air caused by too slow diffusion speed of the cool air; the balls 1045e are used to reduce the resistance of the wind shaft 1045a during rotation, thereby increasing the rotation speed.
The wind guide mechanism 1045f comprises a bearing ring 1045f1, a rotary swinging shaft 1045f2 and a wind guide plate 1045f3, the middle position of the rotary swinging shaft 1045f2 is provided with the bearing ring 1045f1, the rotary swinging shaft 1045f2 and the bearing ring 1045f1 adopt clearance fit, the left end and the right end of the rotary swinging shaft 1045f2 are respectively provided with three wind guide plates 1045f3, and the three wind guide plates 1045f3 are equidistantly distributed on the rotary swinging shaft 1045f2,
the rotating flail shaft 1045f2 is rotated by the resistance of air on the wind guide plate 1045f3 when the wind shaft 1045a is rotated, so as to drive the rotating flail shaft 1045f2 to rotate, and further drive the direction of cold air flow through the wind guide plate 1045f 3.
The rotating sliding disk 1045d is of a circular structure, the height of the rotating sliding disk 1045d is 10cm, the wind power device 1045 is made of plastic materials, the weight of the whole structure is reduced, the length between the power guide plate 1041 and the direct current air baffle 1044 is the same, and obstruction to direct current cold air is improved.
The principle of the invention is as follows: the electric wires are powered on, the internet of things air conditioner 1 is opened through a mobile phone or a remote control, the double-shaft motor 10433 converts the electric energy into kinetic energy through the power gear shaft 10432, the power gear shaft 10432 rotates to drive the gear rack 10431 under the power guide plate 1041 to move, the power guide plate 1041 rapidly moves in the guide rail frame 1047 by using the accelerating guide rail wheels 1042 at the left end and the right end, the friction resistance of the power guide plate 1041 during moving is reduced, the power guide plate 1041 stops after moving to a certain distance, when the cross flow fan 103 blows cold air into the horizontal type, the cold air blows to the wind plate 1045b, the wind plate 1045b is blown by the cold air to drive the wind shaft 1045a to rotate, then the cold air is pushed upwards by the wind direction triangle plate 1045c to prevent the cold air from directly blowing to people, the friction resistance of the wind shaft 1045a is reduced by the balls 1045e under the rotating slide plate 1045d, the rotating speed is improved, the wind-throwing shaft 1045a drives the rotating triangle shaft 1045, the rotatory drainage aerofoil 1045f3 that gets rid of on the axle 1045f2 then can receive the influence of air resistance and drive the rotatory axle 1045f2 that gets rid of and rotate, let drainage aerofoil 1045f3 guide a part of air conditioning downwards through drainage hole 1048, the diffusion of horizontal air conditioning has been accelerated, power baffle 1041 is through the moisture in the evaporation basin 1046, the evacuation of moisture in the thing networking air conditioner 1 will be horizontal in having avoided, and then evaporate moisture on the human body, and when the moisture in the evaporation basin 1046 reduces to a certain extent, in the leading-in outlet pipe 106 of drainage water pipe 3 reintroduced evaporation basin 1046 with water through liquid level controller 105, avoid the untimely problem of moisture replenishment.
The problem to be solved by the invention is that the wind power blown out from the internet of things air conditioner 1 is used for driving the wind power device 1045 to rotate, so that the wind power device 1045 guides cold air in the air upwards and downwards, the diffusion speed of the cold air is accelerated, the problem that the moisture on the surface of an eyeball is evaporated due to the fact that the cold air is directly blown to a human body, eyes are dry and uncomfortable, and the problem of xerophthalmia is easily caused due to the fact that the cold air is blown to the human body for a long time is solved, and the water in the evaporation basin 1046 is used for providing moisture for a horizontal type, so that the loss of the moisture in a bedroom is.
While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.