CN108826425B

CN108826425B - Environment-friendly humidifying warmer

Info

Publication number: CN108826425B
Application number: CN201810762632.XA
Authority: CN
Inventors: 吕思东
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-12
Filing date: 2018-07-12
Publication date: 2023-08-18
Anticipated expiration: 2038-07-12
Also published as: CN108826425A

Abstract

The utility model provides an environmental protection humidification room heater, including air supply arrangement, air heating humidification device and air supply arrangement fixed connection, and be located the air supply arrangement top, air supply arrangement sends into air heating humidification device inside, air heating humidification device utilizes inside heated water and air to carry out the heat transfer, with air heating, air after the air supply arrangement blows the heating flows upwards along air heating humidification device bottom, the air after the heating drives the moisture that has a certain temperature that gives off in the air heating humidification device and flows out, and discharge after mixing with the air after the heating. The invention is provided with the air heating and humidifying device, so that cold air is heated into hot air, and the hot air is scattered indoors to achieve the heating effect; the heated water in the air heating and humidifying device can emit part of water vapor, and the condition of drying indoor air during heating in winter can be relieved by dispersing part of the emitted water vapor indoors.

Description

Environment-friendly humidifying warmer

Technical Field

The invention relates to the technical field of heating equipment, in particular to an environment-friendly humidifying warmer.

Background

In cold winter, the indoor space is usually heated due to extremely cold weather. At present, the civil heating mainly adopts boiler heating, and when heating indoor, often can make indoor air drier, in addition, need the burning coal in the heating process, but this kind of mode not only consumes the resource, and the air that breathes with we has caused serious pollution to the atmosphere environment after the coal burns moreover.

Disclosure of Invention

In view of this, it is necessary to provide an energy-saving and environment-friendly humidifying warmer capable of increasing indoor humidity.

The environment-friendly humidifying warmer comprises an air supply device and an air heating and humidifying device, wherein the air heating and humidifying device is fixedly connected with the air supply device and is positioned above the air supply device, the air supply device supplies air into the air heating and humidifying device, the air heating and humidifying device exchanges heat with air by utilizing internally heated water, the air is heated, the air supply device supplies heated air to flow upwards along the bottom of the air heating and humidifying device, and the heated air drives moisture with temperature emitted in the air heating and humidifying device to flow out and be mixed with the heated air to be discharged;

the air heating and humidifying device comprises a shell, an upper sealing plate, a lower sealing plate, a heater and at least two air guide pipes, wherein the upper part of the shell is provided with a water inlet, the lower part of the shell is provided with a water outlet, the upper sealing plate is fixedly arranged on the inner wall of the shell and positioned above the inside of the shell along the radial section of the shell, the lower sealing plate is fixedly arranged on the inner wall of the shell and positioned below the inside of the shell along the radial section of the shell, the upper sealing plate and the lower sealing plate are mutually parallel, the area surrounded by the upper sealing plate, the lower sealing plate and the shell forms a water storage cavity, the lower sealing plate is provided with a heater mounting hole, the heater penetrates through the heater mounting hole on the lower sealing plate, the supporting part of the heater is fixedly and hermetically connected with the lower sealing plate, the heating part of the heater is positioned inside the water storage cavity, the heating part of the heater is used for heating water in the water storage cavity, the lower sealing plate is provided with at least two first air guide pipe penetrating holes, the upper sealing plate is provided with at least two second air guide pipe penetrating holes corresponding to the at least two first air guide pipe penetrating holes arranged on the lower sealing plate, the at least two air guide pipes correspondingly penetrate through the at least two first air guide pipe penetrating holes, the at least two second air guide pipe penetrating holes are fixedly and hermetically connected with the upper sealing plate and the lower sealing plate, the air inlet ends of the at least two air guide pipes are communicated with the air supply device so as to guide air conveyed by the air supply device to enter the at least two air guide pipes, cold air in the at least two air guide pipes is heated by utilizing the water heated in the water storage cavity, the upper sealing plate is also provided with a moisture discharging hole, the air outlet ends of the at least two air guide pipes discharge the heated air, and the hot air drives the moisture to diffuse from the moisture discharge holes to the periphery so as to heat and humidify the room.

Preferably, the air heating and humidifying device further comprises a wind direction adjusting device, the wind direction adjusting device comprises a mixed drainage cover and a wind direction up-down adjusting mechanism, the mixed drainage cover is fixedly arranged at the top of the shell, the mixed drainage cover, the shell and the upper sealing plate form a mixed space, the air outlet ends of at least two air guiding pipes are located in the mixed space so as to discharge hot air and moisture outwards after being mixed through the mixed space, and the wind direction up-down adjusting mechanism is fixedly arranged at the outlet of the mixed drainage cover so as to control the up-down direction of the hot air and moisture discharge by adjusting the wind up-down adjusting mechanism.

Preferably, the wind direction up-down adjusting mechanism comprises a wind direction drainage plate, a pull rope, a first roller and a second roller, wherein the wind direction drainage plate is arranged at an outlet of the mixed drainage cover and is in pin connection with the shell, the first roller and the second roller are fixedly arranged on the mixed drainage cover, the first roller is positioned above the second roller, one end of the pull rope is fixedly connected with the wind direction drainage plate, the other end of the pull rope penetrates through the first roller and is connected with the second roller, and the second roller is rotated to drive the pull rope to pull the wind direction drainage plate to move up and down.

Preferably, the mixed drainage cover is embedded into a clamping groove which is arranged at the top of the shell and corresponds to the mixed drainage cover in size, and can rotate 360 degrees along the axial direction of the shell, so that the hot air and the moisture with a certain temperature can be discharged in a direction by rotating the mixed drainage cover.

Preferably, the air supply device comprises a variable frequency motor, a fan and a supporting seat, wherein the fan is fixedly arranged on the supporting seat, and the variable frequency motor is connected with the fan to provide power for the fan.

Preferably, the ventilation hole has been seted up at the supporting seat top, and the other adjusting knob that sets up of ventilation hole, adjusting knob and inverter motor electric connection have been seted up the bleeder vent on the supporting seat side all around, and the supporting seat bottom sets up the universal wheel.

Preferably, the moisture discharge hole includes at least two first moisture discharge holes, at least two first moisture discharge holes being located at a position of the upper sealing plate near the edge of the inner wall of the housing, and a second moisture discharge hole being located at a central position of the upper sealing plate.

Preferably, a temperature sensor is arranged on the shell, and a liquid level meter is arranged at the water inlet of the shell.

Preferably, a temperature control panel is arranged on one side surface of the supporting seat, and the temperature control panel is electrically connected with the heater.

The invention adopts the technical proposal and has the beneficial effects that: in the environment-friendly humidifying warmer, an air heating and humidifying device is fixedly connected with an air supply device and is positioned above the air supply device, the air supply device sends air into the air heating and humidifying device, the air heating and humidifying device exchanges heat with air by utilizing internally heated water, the air is heated, the air supplied and heated by the air supply device flows upwards along the bottom of the air heating and humidifying device, and the heated air drives moisture with temperature emitted in the air heating and humidifying device to flow out and be mixed with the heated air to be dispersed in a room, so that the indoor temperature is increased, and a heating effect is achieved; the air heating and humidifying device comprises a shell, an upper sealing plate, a lower sealing plate, a heater and at least two air guide pipes, wherein the upper sealing plate is fixedly arranged on the inner wall above the inside of the shell along the radial section of the shell, the lower sealing plate is fixedly arranged on the inner wall below the inside of the shell along the radial section of the shell, the upper sealing plate and the lower sealing plate are mutually parallel, the area surrounded by the upper sealing plate, the lower sealing plate and the shell forms a water storage cavity, the water storage cavity is reasonable in design, the water consumption is small, the heating speed is high, the energy consumption is reduced, the heater passes through a heater mounting hole on the lower sealing plate, the supporting part of the heater is fixedly and hermetically connected with the lower sealing plate, the heating part of the heater is positioned inside the water storage cavity so as to heat water in the water storage cavity through the heating part of the heater, at least two air guiding pipes correspondingly penetrate through at least two first air guiding pipe penetrating holes arranged on the lower sealing plate, at least two second air guiding pipes penetrating holes arranged on the upper sealing plate are fixedly and hermetically connected with the upper sealing plate and the lower sealing plate, air inlet ends of the at least two air guiding pipes are communicated with the air supply device so as to guide air conveyed by the air supply device to enter the at least two air guiding pipes and heat cold air in the at least two air guiding pipes by utilizing water heated in the water storage cavity, moisture exhaust holes are further formed in the upper sealing plate, the heated air is exhausted by the air outlet ends of the at least two air guiding pipes, the moisture is driven to diffuse to the periphery from the moisture exhaust holes by utilizing the hot air to heat and humidify the room, and the humidity of the indoor air is improved by dispersing part of the moisture dispersed in the room, the condition of drying indoor air during heating in winter can be relieved; the invention does not need to burn coal and produce polluted smoke in the use process, has good environmental protection and energy saving effects, obvious effects when heating and humidifying the room, simple structure, low manufacturing cost and convenient movement.

Drawings

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

Fig. 2 is a schematic view of another angle of fig. 1.

Fig. 3 is a cross-sectional view showing the connection of the air heating and humidifying device and the air supply device according to the present invention.

Fig. 4 is a schematic structural view of the wind direction adjusting apparatus of the present invention.

Fig. 5 is a schematic structural view of the support base of the present invention.

In the figure: the air blowing device 20, the inverter motor 201, the blower 202, the support base 203, the ventilation hole 2031, the ventilation hole 2032, the adjusting knob 2033, the temperature control panel 2034, the air heating and humidifying device 30, the housing 301, the water inlet 3011, the water outlet 3012, the temperature sensor 3013, the liquid level meter 3014, the upper sealing plate 302, the moisture discharge hole 3021, at least two first moisture discharge holes 30211, the second moisture discharge hole 30212, the lower sealing plate 303, the heater 304, at least two air guide pipes 305, the wind direction adjusting device 306, the mixed guide cover 3061, the wind direction up-down adjusting mechanism 3062, the wind direction guide plate 3067, the pull rope 30622, the first roller 3062023, and the second roller 30624.

Detailed Description

Referring to fig. 1 to 5, an embodiment of the present invention provides an environment-friendly humidifying warmer, which includes an air supply device 20 and an air heating and humidifying device 30, wherein the air heating and humidifying device 30 is fixedly connected with the air supply device 20 and is located above the air supply device 20, the air supply device 20 sends air into the air heating and humidifying device 30, the air heating and humidifying device 30 exchanges heat with air by using internally heated water to heat the air, the air supplied and heated by the air supply device 20 flows upwards along the bottom of the air heating and humidifying device 30, and the heated air drives moisture with temperature dispersed in the air heating and humidifying device 30 to flow out and be mixed with the heated air to be discharged;

the air heating and humidifying device 30 comprises a shell 301, an upper sealing plate 302, a lower sealing plate 303, a heater 304 and at least two air guide pipes 305, wherein a water inlet is arranged at the upper part of the shell 301, a water outlet is arranged at the lower part of the shell 301, the upper sealing plate 302 is fixedly arranged on the inner wall of the shell 301 along the radial section of the shell 301 and is positioned above the inside of the shell 301, the lower sealing plate 303 is fixedly arranged on the inner wall of the shell 301 along the radial section of the shell 301 and is positioned below the inside of the shell 301, the upper sealing plate 302 and the lower sealing plate 303 are mutually arranged in parallel, a water storage cavity is formed in the area surrounded by the upper sealing plate 302, the lower sealing plate 303 and the shell 301, a heater mounting hole is arranged on the lower sealing plate 303, the heater 304 penetrates through the heater mounting hole on the lower sealing plate 303, and the supporting part of the heater 304 is fixedly and hermetically connected with the lower sealing plate 303, the heating part of the heater 304 is positioned in the water storage cavity to heat water in the water storage cavity through the heating part of the heater 304, at least two first air guiding pipe penetrating holes are arranged on the lower sealing plate 303, at least two second air guiding pipe penetrating holes corresponding to the at least two first air guiding pipe penetrating holes arranged on the lower sealing plate 303 are arranged on the upper sealing plate 302, at least two air guiding pipes 305 correspondingly penetrate through the at least two first air guiding pipe penetrating holes, the at least two second air guiding pipe penetrating holes are fixedly and hermetically connected with the upper sealing plate 302 and the lower sealing plate 303, the air inlet ends of the at least two air guiding pipes 305 are communicated with the air supply device to guide air conveyed by the air supply device 20 into the at least two air guiding pipes 305, and the cold air in the at least two air guiding pipes 305 is heated by the water heated in the water storage cavity, the upper sealing plate 302 is also provided with a moisture discharging hole 3021, the heated air is discharged from the air outlet ends of the at least two air guiding pipes 305, and the hot air drives the moisture to diffuse from the moisture discharging hole 3021 to the periphery, so that the indoor heating and humidification are performed.

Further, the air heating and humidifying device 30 further includes a wind direction adjusting device 306, the wind direction adjusting device 306 includes a mixing drainage cover 3061 and a wind direction up-down adjusting mechanism 3062, the mixing drainage cover 3061 is fixedly disposed at the top of the housing 301, the mixing drainage cover 3061, the housing 301 and the upper sealing plate 302 form a mixing space, and the air outlet ends of the at least two air guiding pipes 305 are located in the mixing space to mix hot air and moisture and then discharge the hot air and moisture outwards through the mixing space, and the wind direction up-down adjusting mechanism 3062 is fixedly disposed at the outlet of the mixing drainage cover 3061 to control the up-down direction of the hot air and moisture discharge through adjusting the wind direction up-down adjusting mechanism 3062.

The wind direction up-down adjusting mechanism 3062 comprises a wind direction drainage plate 3067, a pull rope 30610, a first roller 30263 and a second roller 30218, the wind direction drainage plate 3067 is arranged at the outlet of the mixed drainage cover 3061 and is in pin shaft connection with the shell 301, the first roller 30263 and the second roller 30218 are fixedly arranged on the mixed drainage cover 3061, the first roller 3067 is located above the second roller 30218, one end of the pull rope 30122 is fixedly connected with the wind direction drainage plate 3067, the other end of the pull rope passes through the first roller 30610 and is connected with the second roller 30218, the second roller 30218 is rotated, and the pull rope 30522 is driven to pull the wind direction drainage plate 3067 to move up and down.

The mixing drainage cover 3061 is embedded into a clamping groove which is arranged at the top of the shell 301 and corresponds to the mixing drainage cover 3061 in size, and can rotate 360 degrees along the axial direction of the shell 301, so that the discharge direction of hot air and moisture with a certain temperature can be changed by rotating the mixing drainage cover 3061.

When the hot air and the moisture with a certain temperature are mixed with each other in the mixed drainage cover 3061, the temperature of the hot air is higher than that of the moisture with a certain temperature, so that the moisture with a certain temperature can be prevented from condensing in the mixed drainage cover 3061, the second roller 30624 is rotated anticlockwise, the pull rope 30622 is driven to pull the wind direction drainage plate 3067 to move upwards, the wind direction drainage plate 3067 is slowly pulled up, and the hot air and the moisture from the shell 301 are guided by the wind direction drainage plate 3067 to be discharged upwards along the wind direction drainage plate 3067; the second roller 30624 is rotated clockwise to drive the pull rope 30622 to guide the wind direction guide plate 30321 to move downwards, the wind direction guide plate 30321 is slowly put down, and hot air and moisture from the shell 301 are guided by the wind direction guide plate 30321 to be discharged downwards along the wind direction guide plate 30321.

Further, the air supply device 20 includes a variable frequency motor 201, a fan 202, and a supporting seat 203, the fan 202 is fixedly arranged on the supporting seat 203, the variable frequency motor 201 is connected with the fan 202 to provide power for the fan 202, cold air conveyed by the fan 202 can provide an air source, and also can cool the lower sealing plate 303, so that the temperature of the lower sealing plate 303 is too high after being heated locally due to long-time heating of the heater 304 is avoided.

Referring to fig. 5, further, a vent hole 2031 is formed at the top of the support base 203, an adjusting button 2033 is disposed beside the vent hole 2031, the adjusting button 2033 is electrically connected with the variable frequency motor 201, the adjusting button 2033 is rotated to adjust the rotation speed of the variable frequency motor 201, thereby adjusting the air supply amount of the fan 202, vent holes 2032 are formed on the side surfaces around the support base 203, and universal wheels are disposed at the bottom of the support base 203.

Further, the moisture discharging hole 3021 includes at least two first moisture discharging holes 30211 and second moisture discharging holes 30212, wherein the at least two first moisture discharging holes 30211 are located at the edge of the upper sealing plate 302 near the inner wall of the housing 301, and the second moisture discharging hole 30212 is located at the center of the upper sealing plate 302, so that more moisture is discharged from the housing 301 through the at least two first moisture discharging holes 30211 and second moisture discharging holes 30212.

Further, a temperature sensor 3013 is arranged on the shell 301, and a liquid level gauge 3014 is arranged at a water inlet of the shell 301.

The water inlet of the shell 301 is provided with a glass tube type liquid level gauge 3014, so that water can be filled into the shell 301 from the opening, and the liquid level in the shell 301 can be displayed from scales on the glass tube.

Further, a temperature control panel 2034 is disposed on a surface of one side of the support base 203, and the temperature control panel 2034 is electrically connected to the heater 304.

When the temperature in the water storage cavity is higher than the set temperature, the temperature sensor 3013 transmits a temperature signal to the temperature control panel 2034, the temperature control panel 2034 transmits a disconnection signal to the heater 304, and the heater 304 stops continuously heating the water in the water storage cavity; when the temperature in the water storage cavity is lower than the set temperature, the temperature sensor 3013 transmits a temperature signal to the temperature control panel 2034, the temperature control panel 2034 transmits an opening signal to the heater 304, and the heater 304 starts to continuously heat the water in the water storage cavity.

The working mode of the invention is as follows: when the air conditioner works, firstly, required water is injected into a water storage cavity of the shell 301, the temperature is set, the heater 304 and the variable frequency motor 201 are started, the fan 202 blows cold air into at least two air guide pipes 305 in the shell 301, the cold air in the at least two air guide pipes 305 exchanges heat with hot water in the water storage cavity, the cold air is heated into hot air, the heated hot air flows upwards along the at least two air guide pipes 305 due to continuous air supply of the air supply device 20, and the hot air drives moisture in the water storage cavity to flow out from the moisture discharge hole 3021, and is mixed with the hot air discharged by the at least two air guide pipes 305 and then discharged from an outlet of the mixed drainage cover 3061, so that indoor humidification and temperature rise are carried out; when the blowing angle of hot air and moisture needs to be adjusted, the rotating and mixing drainage cover 3061 changes the blowing angle of the hot air and the moisture, when the blowing angle of the hot air and the moisture needs to be adjusted, the second roller 30624 is rotated anticlockwise, the pull rope 30622 is driven to pull the wind direction drainage plate 3067 to move upwards, the wind direction drainage plate 3067 is slowly pulled up, and the hot air and the moisture from the shell 301 are guided by the wind direction drainage plate 3067 and are discharged upwards along the wind direction drainage plate 3067; the second roller 30624 is rotated clockwise to drive the pull rope 30622 to guide the wind direction guide plate 30321 to move downwards, the wind direction guide plate 30321 is slowly put down, and hot air and moisture from the shell 301 are guided by the wind direction guide plate 30321 to be discharged downwards along the wind direction guide plate 30321.

The foregoing disclosure is illustrative of the preferred embodiments of the present invention, and is not to be construed as limiting the scope of the invention, as it is understood by those skilled in the art that all or part of the above-described embodiments may be practiced with equivalents thereof, which fall within the scope of the invention as defined by the appended claims.

Claims

1. An environmental protection humidification room heater, its characterized in that: the air heating and humidifying device is fixedly connected with the air supply device and is positioned above the air supply device, the air supply device sends air into the air heating and humidifying device, the air heating and humidifying device exchanges heat with the air by utilizing internally heated water, the air is heated, the air supplied and heated by the air supply device flows upwards along the bottom of the air heating and humidifying device, and the heated air drives moisture with temperature emitted in the air heating and humidifying device to flow out and is mixed with the heated air to be discharged;

the air heating and humidifying device comprises a shell, an upper sealing plate, a lower sealing plate, a heater and at least two air guide pipes, wherein a water inlet is formed in the upper portion of the shell, a water outlet is formed in the lower portion of the shell, the upper sealing plate is fixedly arranged on the inner wall of the shell along the radial section of the shell and located above the inner portion of the shell, the lower sealing plate is fixedly arranged on the inner wall of the shell along the radial section of the shell and located below the inner portion of the shell, the upper sealing plate and the lower sealing plate are arranged in parallel, a water storage cavity is formed in the area surrounded by the upper sealing plate, the lower sealing plate and the shell, a heater mounting hole is formed in the lower sealing plate, the heater penetrates through the heater mounting hole in the lower sealing plate, the supporting portion of the heater is fixedly and hermetically connected with the lower sealing plate, the heating portion of the heater is located inside the water storage cavity, at least two first air guide pipe penetrating holes are formed in the lower sealing plate, at least two second air guide pipe penetrating holes corresponding to the at least two first air guide pipe penetrating holes arranged on the lower sealing plate are formed in the upper sealing plate, at least two second air guide pipe penetrating holes corresponding to the lower sealing plate are formed in the upper sealing plate, at least two air guide pipes penetrating through the at least two first air guide holes penetrating holes are corresponding to the lower sealing plate, the at least two air guide pipes penetrating through the humidity at least two air guide pipes penetrating holes penetrating through the upper sealing plate, the humidity at least two air guide pipes penetrating holes penetrating through the humidity holes are at least two air guide holes penetrating holes, and the humidity air hole sealing plate penetrating at the upper sealing plate hole, and the humidity hole sealing plate at the upper sealing plate and the humidity hole, and the humidity air guide device is connected to be further communicated with the humidity air, and the humidity is discharged and the humidity and the air and the air is sealed.

2. The environmentally friendly humidifying warmer according to claim 1, wherein: the air heating and humidifying device further comprises an air direction adjusting device, the air direction adjusting device comprises a mixed drainage cover and an air direction up-down adjusting mechanism, the mixed drainage cover is fixedly arranged at the top of the shell, the mixed drainage cover, the shell and the upper sealing plate form a mixed space, the air outlet ends of at least two air guiding pipes are located in the mixed space, and the air direction up-down adjusting mechanism is fixedly arranged at the outlet of the mixed drainage cover.

3. The environmentally friendly humidifying warmer of claim 2, wherein: the wind direction up-down adjusting mechanism comprises a wind direction drainage plate, a pull rope, a first roller and a second roller, wherein the wind direction drainage plate is arranged at the outlet of the mixed drainage cover and is in pin connection with the shell, the first roller and the second roller are fixedly arranged on the mixed drainage cover, the first roller is positioned above the second roller, one end of the pull rope is fixedly connected with the wind direction drainage plate, the other end of the pull rope penetrates through the first roller and is connected with the second roller, the second roller is rotated, and the pull rope is driven to pull the wind direction drainage plate to move up and down.

4. The environmentally friendly humidifying warmer of claim 2, wherein: the mixed drainage cover is embedded into a clamping groove which is arranged at the top of the shell and corresponds to the mixed drainage cover in size, and can rotate 360 degrees along the axial direction of the shell.

5. The environmentally friendly humidifying warmer according to claim 1, wherein: the air supply device comprises a variable frequency motor, a fan and a supporting seat, wherein the fan is fixedly arranged on the supporting seat, and the variable frequency motor is connected with the fan to provide power for the fan.

6. The environmentally friendly humidifying warmer according to claim 5, wherein: the supporting seat is characterized in that vent holes are formed in the top of the supporting seat, adjusting buttons are arranged beside the vent holes and are electrically connected with the variable frequency motor, vent holes are formed in the side faces around the supporting seat, and universal wheels are arranged at the bottom of the supporting seat.

7. The environmentally friendly humidifying warmer according to claim 1, wherein: the moisture discharge hole comprises at least two first moisture discharge holes and a second moisture discharge hole, wherein the at least two first moisture discharge holes are positioned at the edge position of the upper sealing plate close to the inner wall of the shell, and the second moisture discharge hole is positioned at the center position of the upper sealing plate.

8. The environmentally friendly humidifying warmer according to claim 1, wherein: the shell is provided with a temperature sensor, and the water inlet of the shell is provided with a liquid level meter.

9. The environmentally friendly humidifying warmer of claim 6, wherein: the surface of one side of the supporting seat is provided with a temperature control panel, and the temperature control panel is electrically connected with the heater.