This application claims priority to Chinese Application No. 201811001616.5 having a filing date of Aug. 30, 2018, the entire contents of which are hereby incorporated by reference.
The following relates to the technical field of blowers, and in particular to a heating blower and a heating device.
A blower is a machine that sucks outside air to the interior of the machine through an air inlet and then blows it out from an air outlet. The blower usually has a volute-type body, with the air outlet close to the ground, and can be placed on the ground to dry a wet place. The conventional blower generally comprises a handle, an air duct, a motor and a wind wheel, wherein the air duct is in the shape of a volute; the motor and the wind wheel are disposed inside the air duct; and the air inlet and the air outlet are provided on a lateral side and a front end of the air duct respectively. To blow out warm air, the blower may also be provided with an electric heater therein. The electric heater is usually located inside the air duct, and the motor drives the wind wheel to rotate, so that an outgoing airflow passes through the electric heater and is heated thereby, and then blown out from the air outlet. However, in both a hot air blowing situation and a cold air blowing situation of the conventional blower, the path through which the airflow passes is the same, so that when it needs to blow cold air, the airflow also passes through the electric heater which is not power on, and as the electric heater is usually a metal net, the airflow will be blocked after passing through the metal net, resulting in a small amount of air coming out from the air outlet, and affecting the efficiency; in addition, since the electric heater is disposed in the air duct, the wall of the air duct is also heated during heating, so heat resistance is required for the entire air duct wall.
Based on this, an objective of the present invention is to provide a heating blower, which has the advantage of switchable airflow path.
A heating blower, comprising an air duct, a motor and a wind wheel arranged in the air duct, and a heating device arranged at a first air outlet of the air duct; the wind wheel is fixed to a rotating shaft of the motor; the heating device comprises a housing, an electric heater, a rotary assembly and an air deflector; the housing is sleeved on the first air outlet, forming an inner chamber, which comprises a first area facing directly to the first air outlet and a second area not facing directly to the first air outlet; the electric heater is arranged in one of the first area and the second area; one end of the air deflector is fixedly arranged on the rotary assembly, and the other end of the air deflector rotates with the rotary assembly between the first area and the second area, separating the first area and the second area, so that the first air outlet is communicated with one of the first area and the second area.
Compared with the known art, in the present invention, the heating device is connected to the outside of the air outlet of the air duct of the blower, and by designing the positional relation between the electric heater and the air outlet of the air duct, an airflow blown from the air outlet of the air duct can switch between a state of passing the electric heater and a state of not passing the electric heater to achieve free switching between blowing hot air and blowing cold air; as compared with the case in which the heating device is arranged inside the air duct, the blower of the present invention can increase the air volume coming out from the air outlet of the air duct when blowing cold air, and can reduce the requirement of high temperature resistance for the overall material of the blower.
Further, the housing comprises a side wall and an end cover, the end cover being parallel to an end face of the first air outlet, one part of the end cover located in the first area being a second air outlet, and another part of the end cover located in the second area being a third air outlet.
Further, the rotary assembly is a rotating shaft, the air deflector is arranged on the rotating shaft and rotates with the rotating shaft.
Further, the heating device further comprises a rotary button, which is arranged on the side wall and is connected to one end of the rotating shaft to drive the rotating shaft to rotate.
Further, a limiting part is provided on an inner wall of the side wall, and the limiting part abuts against the air deflector to fix position of the air deflector; the limiting part comprises a first limiting part and a second limiting part; when the air deflector rotates to the first limiting part, the first air outlet is communicated with the second area; and when the air deflector rotates to the second limiting part, the first air outlet is communicated with the first area.
Further, the heating device further comprises a micro switch connected in series with the electric heater, and the micro switch is arranged in the inner chamber; when the air deflector rotates to the first limiting part, the air deflector abuts against the micro switch, so that the micro switch is powered on; and when the air deflector rotates to the second limiting part, the air deflector does not abut against the micro switch, so that the micro switch is powered off. The micro switch is used for automatic switch between the operation state and the non-operation state of the electric heater. When the micro switch is powered on, a separate power switch of the electric heater is turned on, and the electric heater starts operation; and when the micro switch is powered off, even if the separate power switch of the electric heater is still on, the electric heater does not operate.
The present invention also provides a heating device, comprising a housing, an electric heater, a rotary assembly and an air deflector; the housing is sleeved on a first air outlet of an air duct of a blower, forming an inner chamber, which comprises a first area facing directly to the first air outlet and a second area not facing directly to the first air outlet; the electric heater is arranged in one of the first area and the second area; one end of the air deflector is fixedly arranged on the rotary assembly, and the other end of the air deflector rotates with the rotary assembly between the first area and the second area, separating the first area and the second area, so that the first air outlet is communicated with one of the first area and the second area.
Further, the housing comprises a side wall and an end cover, the end cover being parallel to an end face of the first air outlet, one part of the end cover located in the first area being a second air outlet, and another part of the end cover located in the second area being a third air outlet.
Further, the rotary assembly is a rotating shaft, the air deflector is arranged on the rotating shaft and rotates with the rotating shaft.
Further, the heating device further comprises a rotary button, which is arranged on the side wall and is connected to one end of the rotating shaft to drive the rotating shaft to rotate.
Further, a limiting part is provided on an inner wall of the side wall, and the limiting part abuts against the air deflector to fix position of the air deflector; the limiting part comprises a first limiting part and a second limiting part; when the air deflector rotates to the first limiting part, the first air outlet is communicated with the second area; and when the air deflector rotates to the second limiting part, the first air outlet is communicated with the first area.
Further, the heating device further comprises a micro switch connected in series with the electric heater, and the micro switch is arranged in the inner chamber; when the air deflector rotates to the first limiting part, the air deflector abuts against the micro switch, so that the micro switch is powered on; and when the air deflector rotates to the second limiting part, the air deflector does not abut against the micro switch, so that the micro switch is powered off.
Some of the embodiments will be described in detail, with references to the following figures, wherein like designations denote like members, wherein:
In the description of embodiments of the present invention, it is to be understood that the orientations or positional relationships, indicated by the terms “center”, “longitudinal”, “lateral”, “upper”, “lower”, “front”, “rear”, “left”, “right”, “vertical”, “horizontal”, “top”, “bottom”, “inside”, “outside” and the like, are based on the orientations or positional relationships shown in the drawings and are only for the purpose of facilitating and simplifying the description of embodiments of the present invention, rather than indicating or implying that the described device or element must have a particular orientation or must be constructed and operated in a particular orientation, and therefore they cannot to be construed as limiting embodiments of the present invention. In the description of embodiments of the present invention, the meaning of “a plurality of” is two or more, unless otherwise specified.
Refer to
The heating blower of the embodiment comprises a blower main body device 100 and a heating device 200. The heating device 200 is disposed outside the blower main body device 100.
The blower main body device 100 can adopt any blower main body structure disclosed in the known art. In this embodiment, it comprises a first side wall 111, a second side wall 112, an air duct 120, a motor, a wind wheel, a control assembly 130, a handle 140 and a bottom base 150. The first side wall 111 and the second side wall 112 are disposed oppositely in parallel to each other, and the air duct 120 is disposed between the first side wall 111 and the second side wall 112. Further preferably, the air duct 120 is rotatably disposed between the first sidewall 111 and the second sidewall 112, with the direction of the rotation axis being perpendicular to the first sidewall 111 and the second sidewall 112. The air duct 120 has a hollow volute shape, and comprises a body portion and a front end portion, wherein the motor is installed in the body portion, and the wind wheel is fixed on a rotating shaft of the motor (the motor and the wind wheel are not shown in the figures). The handle 140 is connected to the body portion. The bottom base 150 is arranged below air duct 120 with a distance from the air duct 120, and two sides of the bottom base 150 are connected to the bottoms of the first side wall 111 and the second side wall 112 respectively. The control assembly 130 is installed to a side face of the body portion, and is electrically connected to the motor. The control assembly 130 comprises a control panel and a rotary switch, an auxiliary power socket and a circuit protection device installed on the control panel. An air inlet 121 is provided at another side face of the body portion, and a first air outlet 122 is provided at the front end portion.
The heating device 200 is arranged at the first air outlet 122, and comprises a housing 210, a rotary button 220, a rotary assembly 230, an electric heater 240 and an air deflector 250. The housing 210 is sleeved on the first air outlet 122 and forms an inner chamber, which comprises a first area 2101 facing directly to the first air outlet 122 and a second area 2102 not facing directly to the first air outlet 122. The electric heater 240 is fixedly arranged in one of the first area 2101 and the second area 2102; one end of the air deflector 250 is fixedly arranged on the rotary assembly 230, and the other end of the air deflector 250 rotates in the inner chamber with the rotary assembly 230, and the first area 2101 and the second area 2102 are separated thereby, so that the first air outlet 122 is communicated with one of the first area 2101 and the second area 2102.
The housing 210 comprises a side wall 211 and an end cover 212, the end cover 212 being parallel to an end face of the first air outlet 122, one part of the end cover 212 located in the first area 2101 being a second air outlet 2121, and another part of the end cover 212 located in the second area 2102 being a third air outlet 2122. The rotary button 220 is arranged on the side wall 211, and the rotary assembly 230 is a rotating shaft and is connected to the rotary button 220 at one end. Further preferably, the third air outlet 2122 is located below the second air outlet 2121, and the electric heater 240 is fixedly arranged in the second area 2102.
A limiting part 260 is provided on an inner wall of the side wall 211, and the limiting part 260 abuts against the air deflector 250 to fix the position thereof. In the embodiment, the limiting part 260 comprises a first limit stop 261 and a second limit stop 262. The first limit stop 261 is close to a top end of the first air outlet 122, and fixes one end of the air deflector 250 near the top end of the first air outlet 122, so that the first air outlet 122 and the second area 2102 are communicated to guide an airflow to be blown out from the third air outlet 2122. The second limit stop 262 is close to a bottom end of the first air outlet 122, and fixes one end of the air deflector 250 near the bottom end of the first air outlet 122, so that the first air outlet 122 and the first area 2101 are communicated to guide the airflow to be blown out from the second air outlet 2121.
The heating device 200 further comprises a micro switch 270 connected in series with the electric heater 240, and the micro switch 270 is arranged in the inner chamber. In the embodiment, the micro switch 270 is provided with an elastic sheet. When the air deflector 250 rotates to the first limit stop 261, the air deflector 250 comes into contact with and presses the elastic sheet of the micro switch 270, so that the micro switch 270 is powered on, and when the air deflector 250 rotates to the second limit stop 262, the elastic sheet bounces up, so that the micro switch 270 is powered off.
The heating device 200 further comprises a protective net 280 disposed in the inner chamber and mounted on the electric heater 240.
Refer to both
Compared with the known art, in the present invention, the heating device is connected to the outside of the air outlet of the air duct of the blower, and by designing the positional relation between the electric heater and the air outlet of the air duct, an airflow blown from the air outlet of the air duct can switch between a state of passing the electric heater and a state of not passing the electric heater to achieve free switching between blowing hot air and blowing cold air; as compared with the case in which the heating device is arranged inside the air duct, the blower of the present invention can increase the air volume coming out from the air outlet of the air duct when blowing cold air, and can reduce the requirement of high temperature resistance for the overall material of the blower.
Although the invention has been illustrated and described in greater detail with reference to the preferred exemplary embodiment, the invention is not limited to the examples disclosed, and further variations can be inferred by a person skilled in the art, without departing from the scope of protection of the invention.
For the sake of clarity, it is to be understood that the use of “a” or “an” throughout this application does not exclude a plurality, and “comprising” does not exclude other steps or elements.
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