CN212431036U - Single fan partition room heater - Google Patents

Abstract

The utility model discloses a single fan subregion room heater belongs to room heater technical field, and aim at has the room heater installation cost height now, the structure is complicated, and production manufacturing cost is high, the poor defect of heating effect. The room heater includes a box and fan, and the lower part of box sets up the panel, sets up air intake and first air outlet on the panel, sets up gas vent and second air outlet on the lateral wall of box, first air door and second air door in the box, the gas outlet of fan with set up the heat-generating body between first air outlet and the second air outlet. The utility model provides a single fan subregion room heater sets up the panel on the box, sets up air intake and first air outlet on the panel, just can control the heating in a plurality of spaces through a fan, has reduced the manufacturing cost and the installation cost of room heater, has shortened the air current route that the fan corresponds the space to first air outlet, improves the heating effect.

Description

Single fan partition room heater

Technical Field

The utility model belongs to the technical field of the room heater, a single fan subregion room heater is related to.

Background

The existing single-fan partition heater comprises a box body and a fan, wherein a return air inlet, an air outlet and two air outlets are formed in the side wall of the box body, the fan is assembled in the box body, two air doors are arranged on an air channel in the box body and are independently controlled through two motors, and the two air doors are rotated to different positions to realize the simultaneous heating of two areas or the heating or ventilation function of a single area. However, the heater needs to be provided with two groups of panel components to correspond to the two air outlets, and the two groups of panels are connected with the box body through the pipeline, so that the installation, production and manufacturing costs of the heater are increased.

Disclosure of Invention

The utility model discloses the problem to prior art existence provides a single fan subregion room heater, the current single fan subregion room heater installation cost of aim at is high, the poor defect of heating effect.

The utility model discloses a realize like this:

the utility model provides a single fan subregion room heater, includes a box and installs a fan in the box, a serial communication port, the lower part of box sets up the panel, set up air intake and first air outlet on the panel, set up gas vent and second air outlet on the lateral wall of box, set up control in the box first air door that first air outlet and second air outlet opened or closed, set up control in the box the gas vent with the second air door that first air outlet or second air outlet opened or closed, the gas outlet of fan with set up the heat-generating body between first air outlet and the second air outlet.

Preferably, the air inlet of the fan faces the air inlet.

Preferably, the air outlet and the second air outlet are located on the same side wall of the box body.

Preferably, the air outlet of the fan faces the air outlet and/or the second air outlet.

Preferably, the heating body is arranged at the air outlet.

Preferably, the first air door is rotatably connected to the box body, the first air door swings up and down to control the first air outlet and the second air outlet to be opened or closed, and the first air door is driven by the first power part.

Preferably, the second air door is a sliding air door, and the sliding air door is installed on the side wall where the air outlet and the second air outlet are located.

Preferably, the box body is provided with a slide rail, the second air door is embedded on the slide rail and can move on the slide rail to control the opening or closing of the air outlet and the second air outlet, and the second air door is driven by a second power part.

Preferably, the second power piece with set up the driving medium between the second air door, the second air door is fixed on the driving medium, the second power piece is step motor, set up driving gear on step motor's the motor shaft, set up the bar tooth on the driving medium, driving gear with the meshing of bar tooth.

Preferably, the first air outlet is provided with an air guide member which is rotatably connected to the box body.

The utility model provides a single fan subregion room heater sets up the panel on the box, with air intake and first air outlet setting on the panel, need not to connect the panel components of box and air intake and corresponding first air outlet through extra panel components who corresponds first air outlet, also need not extra pipeline and connect the panel components of box and air intake and corresponding first air outlet, just can control the heating in a plurality of spaces through a fan, the manufacturing cost and the installation cost of room heater have been reduced, the air current route that the fan corresponds the space to first air outlet has been shortened, the heating effect is improved.

Drawings

FIG. 1 is a schematic structural view of a warmer;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic structural view of the warmer in a first state;

FIG. 4 is a schematic view of a first angular configuration of the warmer in a second state;

FIG. 5 is a second angular configuration of the warmer in a second state;

FIG. 6 is a schematic structural diagram of the warmer in a third state;

FIG. 7 is a schematic view of a first angular configuration of the warmer in a fourth state;

fig. 8 is a second angle structure diagram of the warmer in the fourth state.

Reference is made to the accompanying drawings in which: 100. a box body; 110. a panel; 120. an air inlet; 130. a first air outlet; 140. a second air outlet; 141. a panel assembly; 150. an exhaust port; 200. a fan; 300. a first damper; 310. an air guide member; 400. a second damper; 410. a transmission member; 420. a second power member; 430. a transmission gear; 440. a slide rail; 500. a pipeline; 600. a heating element.

Detailed Description

The following detailed description is made of specific embodiments of the present invention with reference to the accompanying drawings, so as to make the technical solution of the present invention easier to understand and master. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The embodiment provides a single-fan partition heater, as shown in fig. 1-8, including a box 100 and a fan 200 installed in the box 100, a panel 110 is disposed at the lower portion of the box 100, an air inlet 120 and a first air outlet 130 are disposed on the panel 110, an air outlet 150 and a second air outlet 140 are disposed on the side wall of the box 100, a first damper 300 for controlling the opening or closing of the first air outlet 130 and the second air outlet 140 is disposed in the box 100, a second damper 400 for controlling the opening or closing of the air outlet 150 and the second air outlet 140 is disposed in the box 100, and a heating element 600 is disposed between the air outlet of the fan 200 and the first air outlet 130 and the second air outlet 140. The first outlet 130 is disposed corresponding to a first space, the second outlet 140 is disposed corresponding to a second space, the first space may be a wet area of a bathroom, the second space may be a dry area of the bathroom or a space other than the bathroom, and the exhaust outlet 150 is disposed corresponding to an area other than the first space and may correspond to the second space or an area other than the second space. The second outlet port 140 is connected to the panel assembly 141 through the duct 500 to communicate with the second space.

The warmer comprises the following working states, wherein arrows in the figure are airflow directions.

In the first state, as shown in fig. 3, the first air door 300 separates the air outlets of the second air outlet 140 and the fan 200, the air outlet of the fan 200 is communicated with the first air outlet 130, when the heating element 600 generates heat, the fan 200 blows hot air to the first space, so as to realize the heating function of the first space, and when the heating element 600 stops generating heat, the fan 200 blows cold air to the first space, so as to realize the blowing function of the first space.

In the embodiment, the exhaust port 150 and the second outlet port 140 are located on the same side wall of the box 100, and the first damper 300 can close the exhaust port 150 and the second outlet port 140, so the position of the second damper 400 is irrelevant. In other alternative embodiments, if the second damper 400 controls the closing or opening of the exhaust port 150 and the first outlet vent 130, it may be desirable to control the second damper 400 to close the exhaust port 150.

In the second state, as shown in fig. 4-5, the first air door 300 is controlled to separate the air outlets of the first air outlet 130 and the fan 200, the air outlet of the fan 200 is communicated with the second air outlet 140, that is, the first air outlet 130 is closed, the second air outlet 140 is opened, the second air door 400 is controlled to close the air outlet, when the heating element 600 generates heat, the fan 200 blows hot air to the second space, so as to achieve the heating function of the second space, and when the heating element 600 stops generating heat, the fan 200 blows cold air to the second space, so as to achieve the blowing function of the second space.

In the third state, as shown in fig. 6, the first damper 300 is controlled to enable the air outlet of the blower 200 to be simultaneously communicated with the first air outlet 130 and the second air outlet 140, and the second damper 400 is controlled to close the air outlet 150, so that the heating or blowing functions of the first space and the second space can be simultaneously realized.

In the fourth state, as shown in fig. 7-8, the first damper 300 is controlled to close the first air outlet 130, the second damper 400 is controlled to close the second air outlet 140 and open the air outlet 150, and the blower 200 works to realize the ventilation function.

The air inlet of the blower 200 faces the air inlet 120, so that the blower 200 can generate a larger suction force to the first space, thereby reducing energy loss, and particularly, the ventilation efficiency is higher during ventilation.

The air outlet 150 and the second air outlet 140 are located on the same side wall of the box 100, so that the second air door 400 is conveniently arranged to be a sliding air door, the occupied space of the air door is reduced, the possibility of interference of the first air door 300 and the second air door 400 is reduced, the space utilization of the box 100 is facilitated, and the miniaturization design of the warmer is facilitated. The air outlet of the fan 200 faces the air outlet 150 and the second air outlet 140, the air outlet 150 and the second air outlet 140 both need the pipe 500 to be connected to the area outside the first space, the air flow path is long, and the fan 200 blows air directly towards the air outlet 150 and the second air outlet 140, which is beneficial to keeping wind power. In other alternative implementations, the air outlet may only face the air outlet 150 or the second air outlet 140 according to the position of the air outlet 150 and the second air outlet 140.

The heating body 600 is arranged at the air outlet, and the heating body 600 is only required to be arranged at one position without arranging a plurality of heating bodies 600.

The first damper 300 is rotatably connected to the box 100, the first damper 300 swings up and down to control the first air outlet 130 and the second air outlet 140 to be opened or closed, the first damper 300 is driven by a first power component, the first driving component is a stepping motor, so that the first damper 300 can be located in at least three positions, the three positions are respectively that the first air outlet 130 is opened and the second air outlet 140 is closed, the first air outlet 130 is closed and the second air outlet 140 is opened, and the first air outlet 130 and the second air outlet 140 are opened simultaneously.

The second damper 400 is a sliding damper installed on the side wall where the exhaust port 150 and the second outlet port 140 are located. The cabinet 100 is provided with a slide rail 440, the second damper 400 is fitted on the slide rail 440 and can move on the slide rail 440 to control the opening and closing of the exhaust port 150 and the second outlet port 140, and the second damper 400 is driven by the second power unit 420. A transmission piece 410 is arranged between the second power piece 420 and the second air door 400, the second air door 400 is fixed on the transmission piece 410, the second power piece 420 is a stepping motor, a transmission tooth 430 is arranged on a motor shaft of the stepping motor, a strip-shaped tooth is arranged on the transmission piece 410, and the transmission tooth 430 is meshed with the strip-shaped tooth.

The first air outlet 130 is provided with an air guide 310 rotatably connected to the box 100, the rotation of the air guide 310 is controlled by a motor, the air guide 310 rotates to different angles to change the air outlet direction of the first air outlet 130, and the first air outlet 130 can be closed by the air guide 310.

Claims (10)

1. A single-fan partition warmer comprises a box body (100) and a fan (200) arranged in the box body (100), it is characterized in that the lower part of the box body (100) is provided with a panel, the panel is provided with an air inlet (120) and a first air outlet (130), an exhaust port (150) and a second air outlet (140) are arranged on the side wall of the box body (100), a first air door (300) for controlling the opening or closing of the first air outlet (130) and the second air outlet (140) is arranged in the box body (100), a second air door (400) for controlling the opening or closing of the air outlet (150) and the first air outlet (130) or the second air outlet (140) is arranged in the box body (100), and a heating body (600) is arranged between the air outlet of the fan (200) and the first air outlet (130) and the second air outlet (140).

2. The single fan zone warmer of claim 1, wherein the air inlet of the fan (200) is oriented toward the air inlet (120).

3. The single-fan zoned heater of claim 1, wherein the exhaust outlet (150) and the second outlet (140) are located on the same side wall of the box (100).

4. The single-fan zone warmer of claim 1, wherein the fan (200) has an outlet facing the air outlet (150) and/or the second air outlet (140).

5. The single-fan partition heater as claimed in claim 1, wherein said heater (600) is disposed at an air outlet of said fan.

6. The single-fan partition heater according to claim 1, wherein the first damper (300) is rotatably connected to the box body (100), the first damper (300) swings up and down to control the first outlet (130) and the second outlet (140) to open or close, and the first damper (300) is driven by a first power component.

7. The single fan zoned warmer of claim 1, wherein the second damper (400) is a sliding damper mounted to a side wall of the outlet (150) and the second outlet (140).

8. The single-fan partition heater according to claim 7, wherein a slide rail (440) is disposed on the box body (100), the second damper (400) is embedded on the slide rail (440) and can move on the slide rail (440) to control the opening or closing of the air outlet (150) and the second air outlet (140), and the second damper (400) is driven by a second power member (420).

9. The single-fan partition heater according to claim 8, wherein a transmission member (410) is arranged between the second power member (420) and the second air door (400), the second air door (400) is fixed on the transmission member (410), the second power member (420) is a stepping motor, a transmission gear (430) is arranged on a motor shaft of the stepping motor, a strip-shaped gear is arranged on the transmission member (410), and the transmission gear (430) is meshed with the strip-shaped gear.

10. The single-fan partition heater as claimed in claim 1, wherein the first air outlet (130) is provided with an air guide (310) rotatably connected to the box body (100).

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