KR200497387Y1 - Perfusion blower with blade heating - Google Patents

Abstract

The present invention relates to the field of electric heaters, and more specifically, to a through-flow blower in which blades generate heat. The through-flow blower includes a plurality of blades capable of generating heat, a fixed ring, and a blower. It includes an axis and an electrically conductive structure, and the blades are arranged along the annular direction around the blower axis and fixed through a fixing ring. The blades are electrically connected to the electrically conductive structure and generate heat through electricity. The present invention is originally designed to blow air. The once-through blower device used for this is composed of a heat source that can generate heat, and electricity passes through the blade to generate heat, and the air can be heated at the same time as the wind passes through the through-flow blower, and then the heated air is sent to a farther point. In this way, not only can the heating effect of conventional heating-type electric appliances be achieved, but the potential risk of fire can be avoided.

Description

Perfusion blower with blades generating heat {PERFUSION BLOWER WITH BLADE HEATING}

The present invention relates to the field of electric heaters, and more specifically, to a through-flow blower in which blades generate heat.

In current society, people are placing higher demands on the utilization rate of living environments as the population continues to increase. For example, use fans only in the summer, use electric heaters only in the winter, take care of them during the season when they are not in use, find a place to store them, and take them out and use them again in the next season of use. In this case, these two types are used. Products are left unattended at least half of the time. An electric appliance that provides both cooling and heating can solve this problem. When summer approaches, the switch is controlled to close the heating device or heating function and the product is used as a general air circulation product. When winter approaches, the heating device or heating function is turned on again and the product is used as an electric heater to provide both cooling and heating. Realize the purpose

Conventional heaters or electric appliances that combine heating and cooling use a blower to blow wind into the heating member, and the heated wind is blown out from within the body. However, this method of operation has a very big disadvantage. When the wind passes through the heating member, the heating member inevitably generates resistance to the flow of wind, which reduces the blowing distance of the heater and causes the heat to be transferred to the body very quickly. It cannot be dissipated from within, and the temperature rise inside the body easily exceeds the standard, lowering the coefficient of user experience and use safety of the heater, and adversely affecting the model selection of parts and materials during the heater development process. After the usage time is prolonged, dust, etc. attaches to the upper surface of the blower and heating device and becomes dirty (especially heating devices with heating threads exposed to the outside), and then there is a potential risk of a fire occurring when the heating device is operated. do.

This invention was created to solve the shortcomings and shortcomings of the prior art, and its purpose is to provide a through-flow blower whose blades generate heat.

In order to achieve the above object, the once-through blower whose blades of the present invention generate heat includes a plurality of blades (1) capable of generating heat, a fixing ring (2), a blower shaft (3), and an electrical conductive structure (4). The blades (1) are arranged along the ring direction around the blower axis (3) and fixed through a fixing ring (2), and the blades (1) are electrically connected to the electrically conductive structure (4). Heat is generated through electricity,
The electrically conductive structure (4) is,
An electrically conductive ring sliding stator (41) to which external electricity is supplied;
an electrically conductive ring sliding rotor (42) rotatably inserted and installed inside the electrically conductive ring sliding stator (41);
It includes a circuit board (43) installed on the fixing ring (2), coupled to the blade (1), and electrically connected to the electrically conductive ring sliding rotor (42),
The electricity flowing into the electrically conductive ring sliding stator 41 is conducted to the blade 1 through the electrically conductive ring sliding rotor 42 and the circuit board 43, causing the blade 1 to generate heat,
One end of the blower shaft (3) is fixedly coupled to the fixing ring (2), and the other end is inserted and fixedly coupled to the electrically conductive ring sliding rotor (42),
The blade (1) rotates together with the electrically conductive ring sliding rotor (42), blower shaft (3), fixed ring (2), and circuit board (43),
The fixing ring 2 disposed at both ends of the blade 1 is formed with a central portion concavely recessed toward the center of the blade 1,
One end of the blower shaft (3) is fixedly coupled to the center of the recessed fixing ring (2).
The fixing ring includes at least two and is used to fix both ends of the blade, and the fixing ring has a plurality of through holes matching the blade along its circumferential direction, and the blade is located inside the through hole. It can be installed by inserting it into the .

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The circuit board includes two, each installed on a fixing ring at both ends of the blade, the circuit board has a ring-shaped structure, and the circuit board is provided with fittings that match the blade along its circumferential direction, The blade is connected to the fitting hole.

It further includes a motor used to drive and rotate the perfusion blower, and the motor is connected to one of the fixing rings.

The beneficial effects of the present invention are as follows. The through-flow blower that generates heat through the blade provided by the present invention consists of a through-flow blower device originally used for blowing as a heat source capable of generating heat, and The electricity passes through and generates heat, and the air can be heated at the same time as the wind passes through the once-through blower, and then the heated air can be transported to a further point, thus achieving the heating effect of the conventional heating-heating electric appliance. Not only that, but it also avoids the potential risk of fire.

1 is a cross-sectional view of a combination of a through-flow blower with a blade generating heat according to the present invention;
Figure 2 is an exploded view of a once-through blower whose blades generate heat according to the present invention.

Hereinafter, the present invention will be described in further detail in combination with the drawings. These drawings are all simplified explanatory drawings and only illustrate the basic structure of the present invention by way of example, and the specific direction of implementation herein is the direction of Figure 1. It is made up of standards.

As shown in Figures 1 and 2, in a through-flow blower in which blades generate heat, the through-flow blower includes a plurality of blades (1) capable of generating heat, a fixed ring (2), It includes a blower shaft (3) and an electrically conductive structure (4), and the blade (1) is arranged along the annular direction around the blower shaft (3) and fixed through a fixing ring (2). It is electrically connected to the electrical conduction structure (4) and generates heat through electricity. This design consists of a once-through blower device, which was originally used for blowing air, as a heat source capable of generating heat. Electricity is passed through the blade (1) to generate heat, and the air can be heated while the wind passes through the through-flow blower. Then, the heated air is transported to a farther point, so not only can the heating effect of conventional heating-type electric appliances be achieved, but also avoid the potential risk of fire.

The electrically conductive structure (4) includes an electrically conductive ring sliding stator (41), an electrically conductive ring sliding rotor (42), and a circuit board (43), and the blower shaft (3) includes an electrically conductive ring sliding rotor (42). The electrically conductive ring sliding rotor (42) is rotatably inserted and installed into the electrically conductive ring sliding stator (41), and the circuit board (43) is connected to the blade (1), and the electrically conductive ring sliding rotor (42) is rotatably inserted into and installed into the electrically conductive ring sliding stator (41). The sliding rotor 42 is electrically connected to the circuit board 43 through a lead wire, and the electrically conductive ring sliding stator 41 is connected to the electrically conductive ring sliding rotor 42 and the circuit board through electricity. Electricity is conducted to the blade (1) through (43) so that it generates heat.

The electrically conductive ring sliding stator (41) is fixed to the wind chime, the electrically conductive ring sliding stator (41) is connected to the circuit of the entire device through a lead wire, and the electrically conductive ring sliding rotor (42) is connected to the blower shaft (3). and are fixed to each other, and the electrically conductive ring sliding rotor 42 is electrically connected to the circuit board 43 through a lead wire.

The blade 1 is made of a metal material capable of generating heat. The circuit board 43 is first fixed to the upper surface of the fixing ring 2, and then each blade 1 is welded on the circuit board 43, and the electrically conductive ring sliding rotor 42 is attached to one circuit board. Connect electrically to (43).

The fixing ring 2 includes at least two and is used to fix both ends of the blade 1, and the fixing ring 2 has a plurality of through holes (2) that match each other with the blade 1 along its circumferential direction. 21) is installed, and the blade can be installed by inserting it inside the through hole 21. A plurality of fixing rings (2) can be installed, one is installed at each end of the blade (1), and a fixing ring (2) is also installed in the middle of the blade (1) to ensure that the blade (1) is mounted stably. can do.

The circuit board 43, including two, is installed on the fixing ring 2 at both ends of the blade 1. The circuit board 43 has a ring-shaped structure, and the circuit board 43 has a blade shape along its circumferential direction. A fitting hole (44) matching each other with (1) is installed, and the blade (1) is connected to the fitting hole (44).

It further includes a motor (5) used to drive and rotate the perfusion blower, and the motor (5) is connected to one of the fixing rings (2). When the motor 5 moves and rotates the perfusion blower, the electrically conductive ring sliding rotor 42 may also rotate relative to the electrically conductive ring sliding stator 41.

The blade (1) is divided into an anode blade and a cathode blade, and electricity is transmitted through an electrically conductive ring sliding stator (41), an electrically conductive ring sliding rotor (42), an upper circuit board (43), and a circuit board below from the anode blade. It is transmitted to (43), and then from the lower circuit board (43) to the cathode blade, the electrically conductive ring sliding rotor (42), and the electrically conductive ring sliding stator (41) to form a circuit. Only one cathode blade is required, and both the anode blade and the cathode blade can generate heat.

Products that achieve both cooling and heating through the self-heating of a column-shaped once-through blower-type blower include home appliance products such as tower fans, air conditioner indoor units, and air curtains. The quantity of internal blades, distribution method, etc. Regardless of shape and number of floors, all are included in the scope of this type of protection.

The above-mentioned contents are only preferred embodiments of the present invention and are not used to limit the present invention, and all modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention are all within the scope protected by the present invention. It should be included.

Claims (5)

delete In a once-through blower where the blade generates heat,
The once-through blower includes a plurality of blades (1) capable of generating heat, a fixing ring (2), a blower shaft (3), and an electrically conductive structure (4), and the blades (1) are ringed around the blower shaft (3). Arranged along the direction and fixed through a fixing ring (2), the blade (1) is electrically connected to the electrically conductive structure (4) and generates heat through electricity,
The electrically conductive structure (4) is,
An electrically conductive ring sliding stator (41) to which external electricity is supplied;
an electrically conductive ring sliding rotor (42) rotatably inserted and installed inside the electrically conductive ring sliding stator (41);
It includes a circuit board (43) installed on the fixing ring (2), coupled to the blade (1), and electrically connected to the electrically conductive ring sliding rotor (42),
The electricity flowing into the electrically conductive ring sliding stator 41 is conducted to the blade 1 through the electrically conductive ring sliding rotor 42 and the circuit board 43, causing the blade 1 to generate heat,
One end of the blower shaft (3) is fixedly coupled to the fixing ring (2), and the other end is inserted and fixedly coupled to the electrically conductive ring sliding rotor (42),
The blade (1) rotates together with the electrically conductive ring sliding rotor (42), blower shaft (3), fixed ring (2), and circuit board (43),
The fixing ring 2 disposed at both ends of the blade 1 is formed with a central portion concavely recessed toward the center of the blade 1,
A once-through blower with blades generating heat, characterized in that one end of the blower shaft (3) is fixedly coupled to the center of the recessed fixing ring (2). According to paragraph 2,
The fixing ring (2) includes at least two and is used to fix both ends of the blade (1), and the fixing ring (2) has a plurality of throughs that match each other with the blade (1) along its circumferential direction. A perfusion blower in which a blade generates heat, characterized in that a hole (21) is installed, and the blade (1) can be installed by inserting it into the through hole (21). According to paragraph 3,
The circuit board 43 includes two and is installed on the fixing ring 2 at both ends of the blade 1, respectively. The circuit board 43 has a ring-shaped structure, and the circuit board 43 has a circumference of the circuit board 43. A flow-through blower in which a blade generates heat, characterized in that a fitting (44) matching the blade (1) is installed along a direction, and the blade (1) is fitted and connected to the fitting (44). According to clause 4,
A once-through blower whose blades generate heat, further comprising a motor (5) used to drive and rotate the once-through blower, wherein the motor (5) is connected to one of the fixing rings (2).