CN210070212U - Air heating and ventilating integrated machine - Google Patents

Abstract

The utility model provides a wind heating and air exchanging integrated machine, which comprises a machine body and a machine cover, wherein, a control mainboard, a fan, a wind pipeline, a hot wind outlet device and a heating plate are arranged inside the machine body, and an air outlet window is arranged on the machine cover; the fan, connect electric installation such as heating plate to connect in the control mainboard, the control mainboard links to each other with external power source and gets the electricity in locating the power of organism in through, the heating plate is installed in hot air outlet device and is connected with the power, the fan is connected to the one end of wind pipeline, hot air outlet device is connected to the other end, this cover lid is established and is installed on the organism, air-out window position on the cover corresponds hot air outlet device, make hot air outlet device's wind blow off from the air-out window, it is unusual, inside this fan wholly locates the organism, the cover air intake has been seted up in the cover is hidden, this cover air intake can be the same with the.

Description

Air heating and ventilating integrated machine

Technical Field

The utility model relates to a bathroom heating field especially relates to a warm all-in-one of taking a breath of wind.

Background

Two main types of bathroom heating are provided, one type is air heating equipment, and the other type is high-power illumination heating. For the air heating equipment, the air source of the air heating equipment is from a centrifugal fan, and the heating equipment is ceramic ptc. The centrifugal fan is arranged in the machine, and physical contact damage to a human body can not be generated. And cold air generated by the centrifugal fan passes through the honeycomb ptc heating sheet, is heated and then is changed into hot air to be blown out, so that the bathroom heating is realized. The centrifugal fan is beneficial to the flattening design, and the rotating speed is reduced through increasing the fan blades, so that the noise is reduced while the air quantity is increased. Part of the machines only have one centrifugal fan, and the air outlet direction is switched or the forward and reverse rotation directions of the centrifugal fan are changed, so that two air outlet modes of hot air outlet or air outlet of a scavenging port are realized by using a single centrifugal fan. Some air outlets of the machine type are provided with swing blades, and the blowing direction can be closed or changed. The hot-air heating device on the market is also the majority to be so, but the current furred ceiling bathroom heating installation in market, inside because the fan is centrifugal fan, the amount of wind that this mode produced is little, and the fan occupies quick-witted case bulky, and the heating block receives the wind area inhomogeneous, and heat exchange efficiency is low, and the energy is extravagant serious, and air outlet wind-force dispersion, wind-force increase along with propagation distance loses seriously etc..

Therefore, the utility model discloses it comes to the birth.

SUMMERY OF THE UTILITY MODEL

In view of the above circumstances, the utility model firstly aims at providing a space percentage is littleer, but the more reasonable bathroom air heating device of the air output that just goes out of inner structure, for this reason, the utility model provides a warm all-in-one of taking a breath of wind, locate including organism and lid cover on the organism, its characterized in that: a fan, an air pipeline, a hot air outlet device and a ventilation pipe are arranged in the machine body; one end of the air pipeline is connected with the fan, and the other end of the air pipeline is connected with the hot air outlet device and the air exchange pipe through a three-way device; the air outlet window is arranged on the machine cover, the position of the air outlet window corresponds to the hot air outlet device, a machine cover air inlet is formed in the edge of the machine cover, and the machine cover air inlet is communicated with the inner cavity of the machine body and used for air inlet of the fan.

Adopt above technical scheme, make the utility model discloses following technological effect has:

the utility model discloses a hide the cover air intake of fan and set up in the installation face edge of organism and cover for overall structure is compacter, has reduced partly airborne and has taken up than, and preferred fan uses turbofan, makes to occupy quick-witted case small, has also optimized the air inlet mode.

Furthermore, the fan control system also comprises a control main board, wherein the control main board is at least in signal communication with the fan to control the work of the fan. The signal connection here should include electrical connection, i.e. wire connection, and PLC program control, which is a controller capable of performing program editing commonly used in the existing stepping motor.

Further, the cover still includes panel and joint board at least, the air-out window is located on the panel, the air-out window includes an air-out window, the shape match in hot air outlet device, be equipped with on the air-out window and open and shut the tripe, link axle construction and first step motor, first step motor with control mainboard communication contact, first step motor passes through link axle construction control opening and shutting of the tripe that opens and shuts. The communication link here should include electrical connection, i.e. wire connection, and PLC program control, which is a controller capable of performing program editing commonly used in the existing stepping motors.

Further, the joint board vertical connect in the panel, the cover air intake is seted up in the joint board with between the panel.

Further, still be equipped with the light on the machine cover, the light with control mainboard communication links to each other, with the power electricity is even.

Further, the three-way device comprises a three-way interface and a control component for controlling the ventilation of the three-way interface; the air pipeline, the hot air outlet device and the air exchanging pipe are respectively connected with the three-way connector.

Furthermore, the three-way connector comprises a first connector, a second connector and a third connector which are communicated, the first connector is connected to the air pipeline, the second connector is connected to the hot air outlet device, and the third connector is connected to the ventilation pipe.

Furthermore, the hot air outlet device comprises a flow guide air outlet and a ptc heating assembly, and the ptc heating assembly is connected between the flow guide air outlet and the tee joint.

Further, the ptc heating assembly comprises at least a housing, a ptc mounting bracket, a ptc heating element; the shell is a closed shell, a first end butt joint port and a second end butt joint port are respectively arranged at two ends of the shell, the ptc installing support is arranged in the shell, the ptc heating element is arranged on the ptc installing support, the first end butt joint port of the shell is communicated with the tee joint port, air inlet of the first end butt joint port is controlled through the control component, and air outlet of the second end butt joint port is in butt joint with the flow guide air outlet.

Further, the ptc heating element is a honeycomb ptc heating element.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 3 is a bottom view of the first embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of a first embodiment of the present invention.

Fig. 5 is a schematic connection diagram of the fan, the hot air outlet device and the ventilation pipe according to the first embodiment of the present invention.

Fig. 6 is a first cross-sectional view of the fan of the present invention.

Fig. 7 is a second cross-sectional view of the fan of the present invention.

Fig. 8 is a schematic view of the installation of the motor of the present invention.

Fig. 9 is a structure display view of the impeller of the present invention.

Fig. 10 is a back schematic view of the fan of the present invention.

Fig. 11 is a schematic view of a first operating state of the three-way device of the present invention.

Fig. 12 is a schematic view of the second operating state of the three-way device of the present invention.

Fig. 13 is a schematic structural view of the hot air outlet device of the present invention.

Fig. 14 is an internal display view of the hot air outlet device of the present invention.

Fig. 15 is a transverse sectional view of the hot air outlet device of the present invention.

Fig. 16 is a schematic view of the position structure of the first spoiler and the second spoiler of the hot air outlet device according to the present invention.

Fig. 17 is a schematic structural view of a diversion air outlet of the present invention.

Fig. 18 is a schematic structural view of another diversion outlet of the present invention.

Fig. 19 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 20 is a diagram showing a second embodiment of the present invention.

Fig. 21 is a diagram showing the inside of the body according to the second embodiment of the present invention.

Wherein:

machine body 1

Fan 2

Gas exchange tube 3

Three-way connector 4

Hot air outlet device 5

Cover 6

Control main board 7

Mounting hole 11

Ventilation opening 12

Air inlet gap 13

Power supply socket 14

Motor 21

Rotating shaft end 211

Casings 221, 222

Mounting collar 223

Air outlet 224

Air inlet 225

Impeller 23

Impeller mounting taper plate 231

Fairing 24

Sound-deadening chamber 25

Silencing plate 251

Spherical end 252

Flat end 253

Sound inlet hole 26

Second stepping motor 41

Rocker arm 421

First linkage rod 422

Second linkage rod 423

First interface 43

Second interface 44

Third interface 45

Second pipe body air door blocking piece 441

Second rotating shaft 442

Second turntable 443

Third pipe air door baffle 451

Third rotating shaft 452

Third turntable 453

Diversion air outlet 51

ptc heating assembly 52

Air guide outlet shell 511

Partition 512

Flow guide plate 513

Air guide outlet shell A511 a

Separator A512 a

Guide plate A513 a

ptc heating assembly housing 521

First spoiler 522

Second spoiler 523

ptc heating element 524

First spoiler mounting bracket 525

Air outlet window 61

Lighting lamp 62

Fastening plate 63

Cover air inlet 64

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention.

Because the furred ceiling bathroom heating installation that has on the market, inside fan are centrifugal fan, and the use of cooperation air intake makes the fan occupy quick-witted case bulky, and business turn over wind is unreasonable, makes the utility model discloses it is unreasonable, centrifugal fan occupy quick-witted case bulky drawback to aim at optimizing business wind warm-up's business turn over wind that exists, has provided a warm all-in-one of taking a breath. Referring to fig. 1, 2 and 3, the all-in-one machine includes a machine body 1 and a machine cover, wherein the machine body 1 is internally provided with a control main board 7, a fan 2, an air duct, a hot air outlet device 5 and a heating sheet, and the machine cover is provided with an air outlet window 61; fan 2, connect electric installation such as heating plate to connect in control mainboard 7, control mainboard 7 links to each other with external power source at power and power interface 14 of locating organism 1 in through and gets the electricity, the heating plate is installed in hot air outlet device 5 and is connected with the power, fan 2 is connected to the one end of wind pipeline, hot air outlet device 5 is connected to the other end, this bonnet is established and is installed on organism 1, air-out window 61 position on the bonnet corresponds hot air outlet device 5, make hot air outlet device 5's wind blow off from air-out window 61, it is very special, inside this 2 global design organisms 1 of fan, the bonnet has been hidden and has been seted up cover air intake 64, this bonnet air intake 64 can be the same with the peripheral shape of bonnet. Preferably, the mounting surfaces of the cover and the machine body 1 are rectangular, and the cover and the machine body are connected by the snap-fit connection of the edges of the mounting surfaces, so that the cover air inlet 64 may be rectangular or divided into one or more strip-shaped cover air inlets 64 on the edges of the rectangle, which is not limited herein, and the specific implementation choice is taken as the standard. The utility model discloses a cover air intake 64 with fan 2 hides and sets up in the installation face edge of organism 1 with the cover for overall structure is compacter, has reduced partly space and has accounted for than, and preferred fan 2 uses turbofan, makes to occupy quick-witted case small, has also optimized the air inlet mode.

Referring to fig. 1 and 18, in the present invention, there are two air outlet modes, one is air outlet in the cross axis direction of the cover (see fig. 1), and the other is air outlet in the vertical axis direction of the cover (see fig. 18), the two are two different air outlet modes, but the specific components and functions of the two are the same, and the difference is two combination modes of the components such as the hot air outlet device 5 and the air duct. The following specifically describes the manner of lateral wind outlet in the first embodiment.

As a preferred embodiment of this embodiment, the machine body 1 is a square groove, the groove edge of the square groove extends outward to form a blade edge, four corners of the blade edge are uniformly provided with a plurality of mounting holes 11, and the machine body is mounted on the bathroom ceiling by using mounting tools such as screws. Referring to fig. 2 and 4, the installation sequence is that the machine body 1 is installed on the ceiling, and then the bayonet of the machine cover is installed on the machine body 1 after the machine body is stabilized.

As a preferred embodiment of this embodiment, the cover includes a panel 6 and a clamping plate 63, the air outlet window 61 is disposed on the panel 6, the air outlet window 61 includes an air outlet window, the shape of the air outlet window is matched with the hot air outlet device 5, the air outlet window is provided with an opening and closing shutter and a first stepping motor 21, and the first stepping motor 21 controls the opening and closing of the opening and closing shutter through a common connecting shaft structure. The first stepping motor 21 is connected to the control main board 7 through a Programmable Logic Controller (PLC) and is controlled by the control main board 7 to operate.

Further, the clamping plate 63 is vertically connected to the panel 6, the cover air inlet 64 is disposed between the clamping plate 63 and the panel 6, the clamping plate 63 and the panel 6 can be connected by points to form the cover air inlet 64, and a common snap connection technology is used between the clamping plate 63 and the square groove.

As a preferred embodiment of this embodiment, the cover is further provided with an illuminating lamp 62, and the illuminating lamp 62 is connected to the control main board 7 and is powered and controlled by the control main board 7. Preferably, the lighting panel is used in the present embodiment.

As a preferred embodiment of this embodiment, a ventilation pipe 3 is further disposed in the square groove, a ventilation opening 12 is disposed on a side groove surface of the square groove, one end of the ventilation pipe 3 is installed in the ventilation opening 12, and the other end is connected to the air duct.

Referring to fig. 5, 11 and 12, the three-way device includes a three-way connection 4 and a control component for controlling ventilation of the three-way connection 4. Specifically, the three-way connector 4 includes a first connector 43, a second connector 44 and a third connector 45 which are communicated with each other, and the three connectors are respectively communicated with the fan 2, the ventilation pipe 3 and the hot air outlet device 5 through pipelines. Preferably, the first port 43 is connected to the fan 2 through a first pipe, the second port 44 is connected to the hot air outlet device 5 through a second pipe, and the third port 45 is connected to the ventilation pipe 3 through a third pipe. In the embodiment, the second joint is directly connected to the hot air outlet device 5, so that a second pipe is omitted to improve the space utilization, specifically referring to fig. 5.

The control assembly includes a second stepping motor 41, a linkage mechanism, a second tube damper stop 441 and a third tube damper stop 451. The linkage mechanism includes a second rotating shaft 442, a second rotating disc 443, a third rotating shaft 452, a third rotating disc 453, a first linkage rod 422 and a second linkage rod 423, and a swing arm 421 is disposed at a rotor end of the second stepping motor 41.

Referring to fig. 11 and 12, the operation principle of the control assembly is as follows:

the second tube body damper blocking piece 441 is vertically arranged in the second interface 44 through the second rotating shaft 442, the second rotating shaft 442 penetrates through the top of the second interface 44 to form an extending section, the center of the second rotating disc 443 is installed on the extending section to form the rotation of the second rotating disc 443, so that the second rotating shaft 442 is driven to rotate, the second tube body damper blocking piece 441 is driven to rotate, the opening and closing of the ventilation state of the second interface 44 are realized, and the air outlet of the hot air outlet device 5 is controlled;

in principle, the third tube body damper blocking piece 451 is vertically arranged in the third port 45 through the third rotating shaft 452, the third rotating shaft 452 penetrates through the top of the third port 45 to form an extending section, the center of the third rotating disc 453 is arranged on the extending section to form the third rotating disc 453 to rotate, so that the third rotating shaft 452 is driven to rotate, the third tube body damper blocking piece 451 is driven to rotate, the opening and closing of the ventilation state of the third port 45 are realized, and the ventilation of the ventilation tube 3 is controlled;

the eccentric position of the second rotating disc 443 is provided with a second pivot point, the eccentric position of the third rotating disc 453 is provided with a third pivot point, and two ends of the second linkage rod 423 are respectively pivoted to the second pivot point and the third pivot point, so that the effect of synchronous rotation of the second rotating disc 443 and the third rotating disc 453 is achieved. One end of the first linkage rod 422 is pivoted to the swing arm 421, and the other end is pivoted to the eccentric position of the second turntable 443 or the third turntable 453, so as to realize the synchronous rotation of the swing arm 421 and the second turntable 443 or the third turntable 453, in this embodiment, the first linkage rod 422 is pivoted to the third turntable 453. As can be seen from the figure, the second port 44 and the third port 45 are perpendicular to each other, that is, in order to achieve the effect that the second pipe body damper stop piece 441 and the third pipe body damper stop piece 451 are not opened at the same time, the second pipe body damper stop piece 441 and the third pipe body damper stop piece 451 are installed in the same direction.

Preferably, the second rotating disc 443 and the third rotating disc 453 are circular discs, square discs, etc., which are not limited to the above embodiments, and the present invention is within the protection scope as long as the effect of the circular discs occurring here can be achieved; the second interface 44 and the third interface 45 are circular interfaces, the joint of the ventilation pipe 3 and the hot air outlet device 5 with the tee joint is also circular in matching manner, the second pipe body damper blocking piece 441 and the third pipe body damper blocking piece 451 are also circular pieces, the second interface 44 and the third interface 45 are square interfaces, the joint of the ventilation pipe 3 and the hot air outlet device 5 with the tee joint is also square in matching manner, and the second pipe body damper blocking piece 441 and the third pipe body damper blocking piece 451 are also square pieces. In the present embodiment, a disc, a wafer, and a circular tube are described as examples.

As a preferred embodiment of the present embodiment, please refer to fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, and fig. 10 to describe the fan 2 in detail. Referring to fig. 6, fig. 6 is a longitudinal sectional view of the blower 2. The fan 2 comprises a motor 21, a sound-deadening chamber 25, an impeller 23 and a protective casing. This motor 21 locates in amortization cavity 25, the mode that this motor 21's pivot end 211 passes through amortization cavity 25 trompil extends outside amortization cavity 25, impeller 23 installs on pivot end 211, protecting sheathing wraps up in amortization cavity 25, motor 21 and impeller 23, and protecting sheathing has a shell chamber, the fan air intake has been seted up corresponding to impeller 23's one end to protecting sheathing's position, protecting sheathing's position deviates from the one end in impeller 23 and has seted up air outlet 224, shell chamber and fan air intake, air outlet 224 is linked together. A ventilation space is provided between the protective casing and the sound-deadening chamber 25.

Further, the impeller 23 is an arc-shaped impeller, the formed wind is a wind, in order to correct the wind position, a rectifying plate 24 is arranged in the ventilation space, the rectifying plate 24 is an arc-shaped plate, and the radian of the arc-shaped plate is opposite to the direction of the arc-shaped impeller.

Still further, the protective casing is a butt-joint type casing, that is, the protective casing includes two butt- joint shells 221, 222, one of which is fixedly installed with the silencing chamber 25, and the other of which is installed at the butt-joint position with the other of which by adopting a hoop type installation or a bolt perforation manner. This embodiment uses a simpler, well-known bolted butt joint.

Specifically, the silencer comprises a mounting ring sleeve 223 which is annularly arranged on the silencing chamber 25, and the fairing 24 is arranged between the ring sleeve 223 and the silencing chamber 25, on one hand, the fairing plays a role of connecting the ring sleeve 223 and the silencing chamber 25, and on the other hand, a mounting carrier is provided for the fairing 24. The position of the loop 223 is between the two shells 221, 222, and is provided with a bolt through hole; the two shells 221 and 222 are provided with mounting portions corresponding to the bolt through holes, and the mounting portions of the two shells 221 and 222 are connected with the bolt through holes through bolt through holes.

Further, a plurality of sound inlet holes 26 are formed in the end, away from the impeller 23, of the sound attenuation chamber 25, a plurality of sound attenuation plates 251 are arranged in the sound attenuation chamber 25, and sound entering the sound inlet holes 26 is rebounded and weakened among the plurality of sound attenuation plates 251 arranged in a laminated mode until disappears. Preferably, a plurality of sound absorbing plates 251 are stacked with the plates aligned with the sound inlet port 26. Preferably, the rectifying plate 24 is located between the sound inlet hole 26 and the impeller 23, and noise generated by the airflow passing through the rectifying plate 24 is weakened in the sound deadening chamber 25 after entering the sound inlet hole 26. The end of the sound-deadening chamber 25 where the sound-entering holes 26 are provided is hemispherical, and the sound-entering holes 26 are distributed at the spherical end 252. The opposite end of the sound-deadening chamber 25, which is provided with the sound-inlet hole 26, is a flat end 253, which facilitates the installation and fixation of the motor 21. The shape of the protective housing is matched to allow the wind to pass over the spherical end 252 and better enter the sound inlet 26.

Further, in conjunction with fig. 1, 4 and 5, there is an air inlet gap 13 between the protective casing and the square groove, and the air inlet gap 13 and the cover air inlet 64 are in air flow communication without obstruction in space.

As a preferred embodiment of this embodiment, please refer to fig. 13, fig. 14, fig. 15, fig. 16 and fig. 17 to describe the hot air outlet device 5 in detail. The hot air outlet device 5 comprises a diversion air outlet 224 and a ptc heating assembly 52.

Specifically, the ptc heating assembly 52 comprises a ptc heating assembly housing 521, a ptc mounting bracket, a ptc heating element 524, a first spoiler 522 and a second spoiler 523. The shell is a closed shell with interfaces at two ends, and a turbulent flow space for mounting a ptc mounting bracket, a ptc heating element 524, a first turbulent flow plate 522 and a second turbulent flow plate 523 is arranged in the shell. The housing has a first end interface communicated with the air duct and a second end interface butted with the diversion air outlet 224, and the cross section of the first end interface is far smaller than that of the second end interface. The first end of the shell is communicated with the tee joint 4, the air inlet of the first end is controlled through the control assembly, and the second end is in butt joint with the diversion air outlet 224 to be exhausted. The ptc heating element 524 is mounted to the second end interface via a ptc mounting bracket, such that air entering the ptc heating assembly 52 is heated by the ptc heating element 524 and then delivered to the air outlet 224, and then delivered out of the air window of the canopy.

Referring to fig. 15 and 16, the number of the first spoilers 522 is plural, and the first spoiler mounting brackets 525 are vertically disposed at the first end-to-end interface near the first end-to-end interface in the housing, specifically, the first plate sides of the first spoilers 522 point to the first end-to-end interface, and the second plate sides of the first spoilers 522 point to the second end-to-end interface uniformly. Preferably, in the present embodiment, the number of the first spoilers 522 is 10, and the first spoilers are respectively arranged in an arrangement of left three, four, and right three.

The first spoiler 522 is intended to uniformly distribute the air into the air guiding outlet 224 in the transverse direction, and the second spoiler 523 is intended to uniformly distribute the air into the air guiding outlet 224 in the longitudinal direction. Referring to fig. 16, the number of the second spoilers 523 is plural, and in the present embodiment, the second spoilers are divided into three groups, and two groups, and are stacked at intervals inside the housing, and are respectively located at the wind inlets on two sides of the first spoilers 522. The air coming out from the air outlets on both sides of the first spoiler 522 is combed by the second spoiler 523 and then guided to the air outlet 224.

As a preferred embodiment of the present invention, the air guiding outlet 224 includes an air guiding outlet housing 511, a partition 512 and a guiding plate 513. Specifically, the top of the air guide outlet housing 511 has an air guide outlet for abutting against the air outlet window 61 on the cover, and the side of the air guide outlet 224 has a side abutting port for abutting against the hot air heated and disturbed by the ptc heating element 52. The partition 512 is disposed in the middle of the air outlet housing 511 along the air outlet direction, the number of the guide plates 513 is plural, and the plurality of guide plates 513 are mounted on the partition 512 at intervals. The plurality of flow guiding plates 513 are arc-shaped plates which are symmetrically arranged, and the arc-shaped inner concave surfaces of the plurality of flow guiding plates 513 are arranged oppositely. In addition, the flow guide plate 513 further includes a straight plate disposed at an interval between the plurality of arc plates. As shown in fig. 17, the diversion air outlet is divided into a plurality of areas by the partition plates 512 and the diversion plates 513, so that the air can be uniformly discharged. Wherein the guide plates 513 are equidistantly arranged along the length direction of the guide air outlet.

Referring to fig. 18, another structure of the air outlet includes an air outlet housing a 511a, a partition plate a 512a, and a flow guide plate a 513 a. The structure mode of the air-guiding air outlet is different from that of the air-guiding air outlet:

the guide plates a 513a are arranged perpendicular to the length direction of the guide air outlet at equal intervals, the guide plates a 513a are arc-shaped plates, and the number of the guide plates a 513a is two in this embodiment. The partition board a 512a is a frame board, and is disposed on one of the arc boards to partition the air outlet into a plurality of air outlet areas to form uniform air outlet.

In another embodiment of the present invention, the air outlet is performed in the vertical axis direction of the cover (see fig. 19, 20 and 21), which is different from the first air outlet method, and the functions of the two specific components and each component are the same, and the difference is two combination forms of the components such as the hot air outlet device 5 and the air duct.

By adopting the technical scheme, the method has the following beneficial effects:

firstly, near a noise source, namely in a ventilation space, sound is introduced into a resonant cavity between the sound-absorbing plates by designing a plurality of conductive small holes, and the sound is continuously reflected and consumed in the resonant cavity, so that the aim of reducing the noise is fulfilled.

And secondly, the concentrated air flow in the air pipe is diffused into uniform rectangular air outlet through the spoiler, so that the uniform contact with the heating block is ensured, the heat conversion efficiency is improved, the energy is saved, and the service life of the heating block is prolonged.

And thirdly, the final air outlet flow guide design of the vertically arranged air outlet can ensure that the wind direction is concentrated and does not deviate when the final air outlet is finished, and the wind power generation device has the effects of strong wind power and slow attenuation.

And fourthly, only one fan is needed to realize warm air outlet and exhaust ventilation.

And fifthly, the turbine fan and the vertical arc-shaped impeller are adopted, so that the volume is smaller, and the wind power is larger.

And sixthly, the loss of the circular tube air channel to wind power is greatly reduced, and the fluid reversing is realized under the condition of ensuring almost no loss of the wind power by matching with a three-way device.

It should be noted that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the efficacy and the achievable purpose of the present invention. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

Many modifications may be made by one of ordinary skill in the art in light of the above teachings. Therefore, the invention should not be limited by the details of the embodiments set forth herein without departing from the spirit of the claims, which are intended to be limited only by the scope of the following claims.

Claims (10)

1. The utility model provides a warm all-in-one of taking a breath of wind, includes that organism and lid are located cover on the organism, its characterized in that: a fan, an air pipeline, a hot air outlet device and a ventilation pipe are arranged in the machine body; one end of the air pipeline is connected with the fan, and the other end of the air pipeline is connected with the hot air outlet device and the air exchange pipe through a three-way device; the air outlet window is arranged on the machine cover, the position of the air outlet window corresponds to the hot air outlet device, a machine cover air inlet is formed in the edge of the machine cover, and the machine cover air inlet is communicated with the inner cavity of the machine body and used for air inlet of the fan.

2. A wind heating and ventilation all-in-one machine according to claim 1, wherein: the fan control system is characterized by further comprising a control main board, wherein the control main board is at least in signal communication with the fan and controls the fan to work.

3. A wind heating and ventilation all-in-one machine according to claim 2, wherein: the cover still includes panel and joint board at least, the air-out window is located on the panel, the air-out window includes an air-out window, the shape match in hot air outlet device, be equipped with on the air window and open and shut the tripe, link axle structure and first step motor, first step motor with control mainboard communication contact, first step motor passes through link axle structural control opening and shutting of tripe opens and shuts.

4. A wind heating and ventilation all-in-one machine according to claim 3, wherein: the joint board is vertically connected with the panel, and the cover air inlet is arranged on the joint board and between the panels.

5. A wind heating and ventilation all-in-one machine according to claim 1, wherein: still be equipped with the light on the machine cover, the light with the control mainboard carries out the communication and links to each other, and is even with the power electricity.

6. A wind heating and ventilation all-in-one machine according to claim 1, wherein: the three-way device comprises a three-way interface and a control component for controlling the ventilation of the three-way interface; the air pipeline, the hot air outlet device and the air exchanging pipe are respectively connected with the three-way connector.

7. A wind heating and ventilation all-in-one machine according to claim 6, characterized in that: the three-way connector comprises a first connector, a second connector and a third connector which are communicated, the first connector is connected to the air pipeline, the second connector is connected to the hot air outlet device, and the third connector is connected to the ventilation pipe.

8. A wind heating and ventilation all-in-one machine according to claim 6, characterized in that: the hot air outlet device comprises a flow guide air outlet and a ptc heating assembly, and the ptc heating assembly is connected between the flow guide air outlet and the tee joint.

9. A wind heating and ventilation all-in-one machine according to claim 8, wherein: the ptc heating assembly comprises at least a housing, a ptc mounting bracket, a ptc heating element; the shell is a closed shell, a first end butt joint port and a second end butt joint port are respectively arranged at two ends of the shell, the ptc installing support is arranged in the shell, the ptc heating element is arranged on the ptc installing support, the first end butt joint port of the shell is communicated with the tee joint port, air inlet of the first end butt joint port is controlled through the control component, and air outlet of the second end butt joint port is in butt joint with the flow guide air outlet.

10. A wind heating and ventilation all-in-one machine according to claim 9, wherein: the ptc heating element is a honeycomb ptc heating sheet.

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