JP2008075931A - Air supply type ventilating fan and simultaneous supply and exhaust type ventilating fan - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a small and simple structure by integrating an air supply fan and an exhaust fan in a simultaneous supply and exhaust ventilating fan. <P>SOLUTION: The ventilating fan comprises a cylindrical casing 1 and a motor 2 used as a driving device inside the cylindrical casing 1. A fan 6 having a perpendicular main plate 4 and filter members 5 disposed at the main plate 4 and having a dust collecting function and a blowing function is formed at a rotating shaft 3 of the motor 2, and when the fan 6 is rotated, the fan 6 blows off air to the outer peripheral side while boosting the air by centrifugal force. Outdoor air is thereby sucked from the outdoor side 7 and supplied to the indoor side 8 through the cylindrical casing 1. Since the blades of the fan 6 are formed of the filter members 5 made of material such as glass fiber with a dust collecting function, blowing action and dust collecting action can be performed, and a conventional structure formed of one fan and dust collecting filters for supplying air can be formed of one fan. Components are thereby reduced and miniaturized. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a simultaneous supply / exhaust type exhaust fan that is mainly installed on a wall and used as an exhaust or air supply device.

  Conventionally, this type of ventilation fan is known as a ventilation fan having a configuration in which two fans are rotated by one motor and two scrolls are arranged (for example, see Patent Document 1).

  Hereinafter, the ventilation fan will be described with reference to FIG.

  As shown in the figure, each of the supply sirocco fan 101 and the exhaust sirocco fan 102 is rotated by a single motor 103 and simultaneously supplies and exhausts the same amount of air. It is a device that prevents mixing of air supply and exhaust because it is sucked from the center.

In the above configuration, when the supply sirocco fan 101 rotates, the intake air A passes through the suction hole A105 of the orifice A104, passes through the scroll A106, and is discharged from the discharge port A107. When the exhaust sirocco fan 102 rotates, the intake air B passes through the suction hole B109 of the orifice B108, passes through the scroll B110, and is discharged from the discharge port B111. The scroll A106 and the scroll B110 have different air paths, and air is not mixed.
JP-A-9-112898

  In such a conventional ventilation fan that supplies air, the fan and the dust collecting filter are separately installed and become large, and the ventilation fan that supplies and exhausts air simultaneously requires two fans and two scrolls, so the structure is complicated. In addition, there is a problem that the size is increased, and there is a demand for a small and simple structure and energy saving.

  The present invention solves such a conventional problem, and is an air supply fan in which a fan for blowing air and a filter for collecting dust are the same, and the air supply fan and the exhaust fan are integrated. It is an object of the present invention to provide a simultaneous supply / exhaust fan that can be made simple and small, and to provide a supply / exhaust fan and a simultaneous supply / exhaust fan that are small and energy-saving without using an electric motor.

  In order to achieve the above object, the multiblade fan of the present invention is an air supply type ventilation fan that is formed of a filter material having a dust collecting function as a blade having an air supply function.

  By this means, the blade is made of filter material that has the function of collecting dust without installing a fan and a filter separately, so that the number of components is one and the structure is simple and small. A decent fan can be obtained.

  Further, the other means is characterized in that it is formed of a filter material having a dust collecting function as a blade having an air supply function, and is configured to prevent backflow of air in a gap between the blade and the main body. It is a supply type ventilation fan.

  By this means, this means that the blade is made of a filter material having a function of collecting dust without separately installing a fan and a filter, so that the number of components is one, and the structure is simple and compact. In addition, a high-performance ventilation fan with backflow prevention can be obtained.

  The other means is characterized in that it is formed of a filter material having a dust collecting function as a blade having an air supply function, and a flocking is installed in a gap between the blade and the main body so as to prevent backflow of air. It is a supply type ventilation fan.

  By this means, the blade is made of filter material that has the function of collecting dust without installing a fan and a filter separately, so there is only one component, the structure is simple and small, and backflow prevention A high-performance ventilation fan can be obtained.

  Another means is a simultaneous supply that is formed of a filter material having a dust collecting function as a blade having an air supply function, has an exhaust function and an air supply function in one fan, and the exhaust function is an axial flow type. The exhaust fan.

  Conventionally, two fans are required by this means. However, since an exhaust fan is equipped with an axial flow fan at the center of the fan, only one fan is required, and the structure is simple and compact at the same time. A supply / exhaust ventilation fan is obtained.

  Another means is that an exhaust function and an air supply function are provided in one fan, the blade having the air supply function is a centrifugal type, and an air supply filter for collecting dust on the discharge side of the air supply fan. And the exhaust function is a simultaneous supply / exhaust type ventilation fan formed in an axial flow type.

  Conventionally, two fans are required by this means. However, since an exhaust fan is equipped with an axial fan at the center of the fan, only one fan is required, and the structure is simple and compact. A functioning simultaneous supply / discharge type exhaust fan is obtained.

  Further, another means has an exhaust function and an air supply function in one fan, the air supply part is a centrifugal blade having an air supply function and a dust collecting function, and air gaps between the main body This is a simultaneous supply / exhaust ventilation fan configured to prevent backflow.

  This means that two fans were required in the past. However, as an exhaust fan, an axial flow type fan is provided in the center of the fan, so only one fan is required, the structure is simple and compact, and A simultaneous supply / exhaust ventilation fan that can collect high-performance dust by preventing backflow is obtained.

  In addition, another means has an exhaust function and an air supply function in one fan, and a flock for preventing the backflow of air is attached to the gap between the blade having the air supply function and the dust collection function and the main body. This is a simultaneous supply / exhaust ventilation fan.

  This means that two fans were required in the past. However, as an exhaust fan, an axial flow type fan is provided in the center of the fan, so only one fan is required, the structure is simple and compact, and A simultaneous supply / exhaust type exhaust fan with a high-performance cleaning function by preventing backflow can be obtained.

  Another means is that a single fan has an exhaust function and an air supply function, and the air supply function and the exhaust function are both a simultaneous supply / exhaust type ventilation fan formed in an axial flow type.

  By this means, one fan is used instead of two, and both the central part and the outer peripheral part of the fan are constituted by axial flow type fans, so that the structure is simpler and the supply and discharge can be made more compact simultaneously. A ventilator of the type is obtained.

  Another means has an exhaust function and an air supply function in one fan, and the air supply function and the exhaust function are both axial flow types, and are for collecting dust on the discharge side of the air supply fan. It is a simultaneous supply / exhaust type exhaust fan having an air supply filter.

  By this means, the number of fans is not one but one, and both the central part and the outer peripheral part of the fan are constituted by an axial flow type fan, and further, since a filter is attached, the structure is simple, and A simultaneous supply / exhaust type exhaust fan capable of collecting dust with smaller size is obtained.

  Another means has an exhaust function and an air supply function in one fan, and the air supply function and the exhaust function are both axial flow types and are used to collect dust on the suction side of the air supply fan. It is a simultaneous supply / exhaust type exhaust fan having an air supply filter.

  By this means, the number of fans is not one but one, and both the central part and the outer peripheral part of the fan are constituted by an axial flow type fan, and further, since a filter is attached, the structure is simple, and A simultaneous supply / exhaust type exhaust fan capable of collecting dust with smaller size is obtained.

  Another means is that a single fan has an exhaust function and an air supply function, and the gap between the exhaust side flow path and the air supply side flow path is configured to prevent backflow of air. The exhaust fan.

  By this means, by using one fan instead of two and preventing a backflow from the exhaust side to the supply side, a simple structure, a smaller size, and a high performance simultaneous supply / exhaust ventilation fan can be obtained. .

  Further, another means has a structure in which a single fan has an exhaust function and an air supply function, and a flocking is installed in a gap between the exhaust side flow path and the air supply side flow path so as to prevent backflow of air. It is a simultaneous supply / exhaust ventilation fan.

  By this means, by using one fan instead of two and preventing a backflow from the exhaust side to the supply side, a simple structure, a smaller size, and a high performance simultaneous supply / exhaust ventilation fan can be obtained. .

  Another means is an air supply type ventilation fan provided with a wind turbine mounted coaxially with the centrifugal fan as the driving means of the centrifugal fan.

  By this means, since the outdoor wind power is used and the electric power of the motor is not used, an energy-saving air supply ventilation fan can be obtained.

  The other means is an air supply type ventilation fan characterized in that a windmill mounted coaxially with the axial flow fan is provided as a drive means for the axial flow fan.

  By this means, since the outdoor wind power is used and the electric power of the motor is not used, an energy-saving air supply ventilation fan can be obtained.

  Another means is a simultaneous supply / exhaust type ventilation fan characterized in that a windmill mounted coaxially with the fan is installed as a fan driving means.

  By this means, an outdoor wind power is used and the electric power of the motor is not used, so that an energy-saving simultaneous supply / exhaust ventilation fan is obtained.

  According to the present invention, such a conventional problem is solved, and an air supply fan in which a fan for blowing air and a filter for collecting dust are made the same, and the air supply fan and the exhaust fan are integrated. Thus, it is possible to provide a simultaneous supply / exhaust fan that has a simple structure and can be reduced in size, and that can be provided with an air supply type ventilation fan and a simultaneous supply / exhaust type ventilation fan that are small and energy-saving without using an electric motor.

  The invention according to claim 1 of the present invention is a cylindrical casing, a main plate perpendicular to the rotating shaft of a driving device such as an electric motor inside the casing, and a filter material having a dust collecting function disposed on the main plate. The air supply type ventilation fan is characterized by having a plurality of blades formed, and the filter having a dust collecting function is formed of a fibrous material and collects dust as well as air by centrifugal action. Is pressurized and blown in the outer peripheral direction of the fan.

  As a result, the fiber of the filter material moves the air in the centrifugal direction by centrifugal force, boosts and blows air, and at the same time collects dust by adhering the dust to the fiber. Can be formed with a single fan without the need for a fixed filter, reducing the number of components and making it smaller than before. Have.

  In addition, the air supply type ventilation fan is characterized in that it is formed of a filter material having a dust collecting function as a blade having an air supply function, and is configured to prevent backflow of air in the gap between the blade and the main body. It is.

  As a result, air is moved in the centrifugal direction by centrifugal force by the fiber of the filter material, and the pressure is increased and blown.At the same time, dust is collected by adhering dust to the fiber. What is a structure formed with a dust filter can be exhausted and supplied with a single fan without installing a fixed filter, with fewer components than the conventional supply type, and Not only can it be made compact, but also improves the performance of the air supply fan by preventing backflow by increasing the air resistance of the backflow by flocking the gap between the fan with the blade with air supply function and dust collection function and the main body. It has the action.

  Further, the air supply is formed by a filter material having a dust collecting function as a blade having an air supply function, and flocking for preventing a back flow of air is attached to a gap between the blade and the main body. It is a pneumatic ventilation fan.

  As a result, air is moved in the centrifugal direction by centrifugal force by the fiber of the filter material, and the pressure is increased and blown.At the same time, dust is collected by adhering dust to the fiber. What is a structure formed with a dust filter can be exhausted and supplied with a single fan without installing a fixed filter, with fewer components than the conventional supply type, and Not only can it be made compact, but also improves the performance of the air supply fan by preventing backflow by increasing the air resistance of the backflow by flocking the gap between the fan with the blade with air supply function and dust collection function and the main body. It has the action.

  Further, a cylindrical casing, an axial flow fan having an exhaust function is connected to a rotating shaft of a driving device such as an electric motor inside the casing, a bell mouth-shaped cylinder on the outer periphery thereof, and a bell mouth portion of the cylinder A filter material having a dust collecting function as a blade having an exhaust function and an air supply function in a single fan. The exhaust function is formed in an axial flow type, and the exhaust fan and the air supply function are provided in a single fan.

  As a result, the fiber of the filter material moves the air in the centrifugal direction by centrifugal force, boosts and blows air, and at the same time collects dust by adhering the dust to the fiber. It is possible to exhaust and supply air with a single fan without installing a fixed filter, which is a structure formed with a dust collection filter for air supply. It has the effect of reducing the number of components and making it compact.

  Also, the exhaust function and the air supply function are provided in one fan, the blade having the air supply function is a centrifugal type, and has an air supply filter for collecting dust on the discharge side of the air supply fan, The exhaust function is a simultaneous supply / exhaust ventilation fan formed in an axial flow type.

  As a result, two pieces were required in the past, but one fan, an exhaust type axial fan at the center, and an air supply type centrifugal fan at the outer peripheral part. By making it possible to reduce the number of component parts, the size and size of the conventional simultaneous supply / discharge type can be reduced.

  In addition, it has an exhaust function and an air supply function in one fan, and the air supply part is a centrifugal blade that has an air supply function and a dust collection function. Thus, a simultaneous supply / exhaust type ventilation fan configured to prevent the backflow of air is provided.

  As a result, air is moved in the centrifugal direction by centrifugal force by the fiber of the filter material, and the pressure is increased and blown. At the same time, dust is collected by attaching dust to the fiber. The fan is an exhaust type axial fan at the center and an air supply type centrifugal fan at the outer periphery, which can exhaust and supply air with a single fan. A simultaneous supply / exhaust type exhaust fan that can be reduced in size and collect high-performance dust by preventing backflow is obtained.

  Simultaneously, a single fan has an exhaust function and an air supply function, a blade having an air supply function and a dust collection function, and a flocking that prevents backflow of air in the gap between the main body and the blade. It is a supply / exhaust ventilation fan.

  As a result, two fans were required in the past, but a single fan, an exhaust-type axial fan at the center, and an air supply-type centrifugal fan at the outer periphery. Compared with the conventional simultaneous supply / discharge type, there is a simultaneous supply / discharge type ventilation fan that can reduce the number of components and reduce the size, and increase the air resistance of the backflow by flocking and collecting high-performance dust by preventing backflow. It is done.

  Further, the exhaust function and the air supply function are provided in one fan, and the air supply function and the exhaust function are both a simultaneous supply / exhaust type ventilation fan formed in an axial flow type.

  As a result, what was conventionally composed of two fans is a single fan, an exhaust fan at the center and an air supply fan at the outer periphery, and an exhaust and air supply with a single fan. Thus, it is possible to obtain a simultaneous supply / exhaust type exhaust fan that can be made smaller and smaller than the conventional simultaneous supply / exhaust type.

  Also, it has an exhaust function and an air supply function in one fan. Both the air supply function and the exhaust function are axial flow type, and an air supply filter for collecting dust is provided on the discharge side of the air supply fan. It has a simultaneous supply / exhaust ventilation fan.

  As a result, what was conventionally composed of two fans is a single fan, an exhaust fan at the center and an air supply fan at the outer periphery, and an exhaust and air supply with a single fan. Thus, a simultaneous supply / exhaust type exhaust fan having a cleaning function and a smaller size than the conventional simultaneous supply / exhaust type can be obtained.

  Also, it has an exhaust function and an air supply function in a single fan. Both the air supply function and the exhaust function are axial flow types, and an air supply filter for collecting dust on the suction side of the air supply fan is provided. It has a simultaneous supply / exhaust ventilation fan.

  As a result, what was conventionally composed of two fans is a single fan, an exhaust fan at the center and an air supply fan at the outer periphery, and an exhaust and air supply with a single fan. Thus, a simultaneous supply / exhaust type exhaust fan having a cleaning function and a smaller size than the conventional simultaneous supply / exhaust type can be obtained.

  In addition, a single fan has an exhaust function and an air supply function, and a clearance between the exhaust side flow path and the air supply side flow path is a simultaneous supply / exhaust ventilation fan configured to prevent backflow of air. is there.

  As a result, two fans were required in the past, but a single fan, an exhaust-type axial fan at the center, and an air supply-type centrifugal fan at the outer periphery. Therefore, a high-performance simultaneous supply / exhaust type exhaust fan that can reduce the number of components and reduce the size of the conventional simultaneous supply / exhaust type and increase the backflow air resistance and prevent the backflow can be obtained.

  In addition, a single fan has an exhaust function and an air supply function, and a flocking for preventing backflow of air is installed in the gap between the exhaust side flow path and the air supply side flow path. It is a type ventilation fan.

  As a result, two fans were required in the past, but a single fan, an exhaust-type axial fan at the center, and an air supply-type centrifugal fan at the outer periphery. A simultaneous supply / exhaust ventilation fan that can reduce the number of components and make it smaller than the conventional simultaneous supply / exhaust type, and has high performance that prevents backflow by increasing the air resistance of the backflow by flocking and collecting dust. Is obtained.

  In addition, as a means for driving the centrifugal fan without using an electric motor, a drag type windmill that is coaxial with the centrifugal fan and attached outdoors is installed, and a ventilation fan that drives the centrifugal fan attached indoors by wind power is used. Is.

  As a result, the centrifugal fan can be driven by the torque obtained by wind power without using the electric power of the electric motor, and an energy-saving air supply ventilation fan can be obtained.

  In addition, as a driving means for the axial fan without using an electric motor, a drag type windmill installed coaxially with the axial fan and installed outdoors is installed, and the axial fan mounted in the duct is driven by wind force. Exhaust type exhaust fan.

  As a result, an energy-saving exhaust type exhaust fan is obtained without using the electric power of the electric motor.

  In addition, as a driving means for the axial fan without using an electric motor, a drag type windmill installed coaxially with the axial fan and installed outdoors is installed, and the axial fan mounted in the duct is driven by wind force. It is a supply type ventilation fan.

  As a result, an energy-saving air supply type ventilation fan can be obtained without using the electric power of the electric motor.

  Further, a simultaneous supply / exhaust type ventilation fan is provided, in which a drag type wind turbine attached coaxially with the fan is installed as a driving means of the fan.

  As a result, an outdoor wind power is used and the electric power of the electric motor is not used, so that an energy-saving simultaneous supply / exhaust ventilation fan is obtained.

(Embodiment 1)
Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  As shown in FIG. 1, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and a main plate 4 perpendicular to a rotating shaft 3 of the electric motor 2 and the main plate 4 are arranged. A fan 6 in which the filter material 5 having the collected dust function and the air blowing function is formed as a blade is attached, and is rotated by the electric motor 2.

  In the above-described configuration, when the fan 6 rotates, the fan 6 sends air to the outer peripheral side while increasing the pressure by centrifugal force. Therefore, the inside of the cylindrical casing 1 becomes negative pressure, sucks outdoor air from the outdoor side 7, and It passes through the cylindrical casing 1 and is fed into the indoor side 8. At this time, since the blade of the fan 6 is formed of the filter material 5 made of a material such as glass fiber having a dust collecting function, not only the blowing action but also the dust collecting action can be performed.

  As a result, the conventional structure formed by one fan and the dust collecting filter for air supply fixedly installed on the outer periphery of the fan can be formed by one fan without installing a fixed filter. The number of components can be reduced and the size can be reduced.

(Embodiment 2)
The same parts as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 2, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and are arranged on a main plate 4 perpendicular to a rotating shaft 3 of the electric motor 2 and the main plate 4. A fan 6 in which the filter material 5 having the collected dust function and the air blowing function is formed as a blade is attached, and is rotated by the electric motor 2. Further, in the gap 10 between the fan 6 and the main body 9, a flocking 11 for preventing the backflow of air is attached. Here, the flocking is a hair having a wire diameter of 1 mm or less made of nylon or the like and having a length of about 1 to 5 mm determined so as to leave a gap of 1 to 3 mm.

  In the above-described configuration, when the fan 6 rotates, the fan 6 sends air to the outer peripheral side while increasing the pressure by centrifugal force. Therefore, the inside of the cylindrical casing 1 becomes negative pressure, sucks outdoor air from the outdoor side 7, and It passes through the cylindrical casing 1 and is fed into the indoor side 8. At this time, since the blade of the fan 6 is formed of the filter material 5 made of a material such as glass fiber having a dust collecting function, not only the blowing action but also the dust collecting action can be performed. Moreover, since the flock 11 is attached to the gap 10 between the fan 6 and the main body 9, it is possible to prevent the discharge air from the fan 6 from flowing backward to the suction side. Since the flocks 11 are made of a fibrous plastic material, even if they come into contact with the main plate 4 of the fan 6, the driving force is not impaired. For this reason, the rotation speed and power at the same air volume are smaller than in the case where there is no flocking 11, power and noise are small, and the basic performance is improved.

  As a result, the conventional structure formed by one fan and the dust collecting filter for air supply fixedly installed on the outer periphery of the fan can be formed by one fan without installing a fixed filter. In addition, the number of components can be reduced and the size can be reduced compared to the conventional one, and the rotation speed and power at the same air volume can be reduced, and the power and noise can be reduced.

(Embodiment 3)
The same parts as those in the first and second embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 3, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and an axial flow fan 12 having an exhaust function is connected to a rotating shaft 3 of the electric motor 2. Then, a bell mouth cylinder 13 is attached to the outer periphery of the axial flow fan 12, and a centrifugal blade 14 having a blade formed of a filter material 5 having a dust collecting function and a blowing function is attached to the outer periphery of the bell mouth cylinder 13. A fan 15 is installed. An inner cylindrical casing 16 having a diameter smaller than that of the cylindrical casing 1 is installed inside the cylindrical casing 1. Here, the axial flow fan is a fan in which the direction of the airflow flows in the axial direction and flows out in the axial direction.

  In the above configuration, when the fan 15 rotates, the axial fan 12 inside the fan 15 sucks indoor air from the indoor side 8, passes through the inside of the internal cylindrical casing 16, and is sent to the outdoor side 7. Further, while the pressure is increased by the centrifugal force of the fan 15 to which the centrifugal blade 14 formed with the filter material 5 having the dust collecting function and the air blowing function provided on the outer peripheral side of the bell mouth-shaped cylinder 13 is attached, the pressure is increased on the outer peripheral side. However, since the inner cylindrical casing 16 is installed inside the cylindrical casing 1, the space between the cylindrical casing 1 and the inner cylindrical casing 16 becomes negative pressure, and the outdoor air is discharged from the outdoor side 7. And is fed into the indoor side 8 through the space between the cylindrical casing 1 and the inner cylindrical casing 16.

  As a result, the conventional structure formed by one fan and the dust collecting filter for air supply fixedly installed on the outer periphery of the fan can be used for exhaust and supply with one fan without installing a fixed filter. Compared to the conventional simultaneous supply / discharge type, the number of components can be reduced and the size can be reduced.

(Embodiment 4)
The same parts as those in the first to third embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 4, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and the electric motor 2 as a driving device is provided inside the cylindrical casing 1 and the cylindrical casing 1. An axial flow fan 12 having an exhaust function is connected to the rotary shaft 3 of the electric motor 2, and a bell mouth-shaped cylinder 13 and an outer periphery of the bell mouth-shaped cylinder 13 are disposed on the outer periphery of the axial flow fan 12. On the side, a fan 18 having a centrifugal blade 17 having an air supply function is installed. Further, a fixed dust collection filter 19 having a dust collection function is installed on the outer peripheral side of the centrifugal blade 17 having an air supply function. An inner cylindrical casing 16 having a diameter smaller than that of the cylindrical casing 1 is installed inside the cylindrical casing 1. Here, the fan attached with the centrifugal blade is a fan in which the direction of the airflow flows in the axial direction and flows out in the centrifugal direction, that is, the outer peripheral direction.

  In the above configuration, when the fan 18 rotates, the axial fan 12 inside the fan 18 sucks indoor air from the indoor side 8 and passes through the inside of the internal cylindrical casing 16 and is sent to the outdoor side 7. Further, air is sent out to the outer peripheral side while being pressurized by the centrifugal force of the centrifugal blade 17 having an air supply function on the outer peripheral side of the bell mouth-shaped cylinder 13, but the inner cylindrical casing 16 is provided inside the cylindrical casing 1. Since it is installed, the space between the cylindrical casing 1 and the inner cylindrical casing 16 becomes negative pressure, the outdoor air is sucked from the outdoor side 7, and the space between the cylindrical casing 1 and the inner cylindrical casing 16 is reduced. Street is sent to the indoor side 8. At this time, since the fixed dust collecting filter 19 having a dust collecting function is installed on the outer peripheral side of the fan 18, a dust collecting action can also be performed.

  As a result, it is possible to exhaust and supply air with a fixed filter and a single fan, which was previously formed with two fans and a dust collecting filter for air supply fixedly installed on the outer periphery of the fan. The number of components can be reduced and the size can be reduced compared with the conventional simultaneous supply / discharge type.

(Embodiment 5)
The same parts as those in the first to fourth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 5, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and an axial flow type fan 12 having an exhaust function is connected to a rotating shaft 3 of the electric motor 2. Then, a bell mouth cylinder 13 is attached to the outer periphery of the axial flow fan 12, and a centrifugal blade 14 having a blade formed of a filter material 5 having a dust collecting function and a blowing function is attached to the outer periphery of the bell mouth cylinder 13. A fan 15 is installed. An inner cylindrical casing 16 having a diameter smaller than that of the cylindrical casing 1 is installed inside the cylindrical casing 1. Further, in the gap 10 between the fan 15 and the main body 9, a flock 11 that prevents backflow of air is attached to the main body 9 side.

  In the above configuration, when the fan 15 rotates, the axial fan 12 inside the fan 15 sucks indoor air from the indoor side 8, passes through the inside of the internal cylindrical casing 16, and is sent to the outdoor side 7. In addition, air is sent out to the outer peripheral side while being pressurized by the centrifugal force of the centrifugal blade 14 formed with the filter material 5 having the dust collecting function and the air blowing function provided on the outer peripheral side of the bell mouth-shaped cylinder 13. Since the inner cylindrical casing 16 is installed inside the cylindrical casing 1, the space between the cylindrical casing 1 and the inner cylindrical casing 16 becomes negative pressure, sucks outdoor air from the outdoor side 7, and It passes through the space between the cylindrical casing 1 and the inner cylindrical casing 16 and is fed into the indoor side 8. At this time, there is a gap 20 between the fan 15 and the cylindrical casing 1 and the inner cylindrical casing 16, and the space between the cylindrical casing 1 and the inner cylindrical casing 16, that is, the supply side with low pressure. Since there is a difference in pressure between the air passage and the space inside the inner cylindrical casing 16, that is, the exhaust side air passage having a high pressure, air is mixed through the gap 20, and the ventilation air flow rate and the air supply air flow rate are usually normal. Decrease. However, since the flock 11 that prevents air from flowing backward from the exhaust side to the air supply side is attached to the inner cylindrical casing 16 in the gap between the exhaust side air passage and the air supply side air passage, the air flows backward. However, the exhaust air volume and the intake air volume increase.

  As a result, in the simultaneous supply / exhaust ventilation fan, the exhaust air flow rate and the air supply air flow rate can be secured even at a low rotation without reducing the exhaust air flow rate and the supply air flow rate, and high performance of electric power and noise can be achieved.

(Embodiment 6)
The same parts as those in the first to fifth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 6, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and an axial flow type fan 12 having an exhaust function is connected to a rotating shaft 3 of the electric motor 2. In addition, a cylinder 21 is provided on the outer periphery of the axial flow fan 12, and a fan 23 is provided with a plurality of axial flow and supply air type blades 22 on the outside of the cylinder 21. An inner cylindrical casing 16 having a smaller diameter than the cylindrical casing 1 is installed inside the cylindrical casing 1.

  In the above configuration, when the fan 23 rotates, the axial fan 12 inside the fan 23 sucks room air from the indoor side 8, passes through the inside of the internal cylindrical casing 16, and is sent to the outdoor side 7. In addition, the cylinder 21 on the outer periphery of the axial flow fan 12 and a plurality of axial flow and supply air type blades 22 installed outside the cylinder 21 also rotate, so that outdoor air is sucked from the outdoor side 7. Then, the air passes through the outside of the cylindrical casing 1 and is sent to the indoor side 8 to supply air.

  As a result, the conventional structure with two fans can be exhausted and supplied with a single fan, resulting in fewer components and smaller size than the conventional simultaneous supply / discharge type. it can.

(Embodiment 7)
The same parts as those in the first to sixth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 7, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and an axial flow type fan 12 having an exhaust function is connected to a rotating shaft 3 of the electric motor 2. In addition, a cylinder 21 is provided on the outer periphery of the axial flow fan 12, and a fan 23 is provided with a plurality of axial flow and supply air type blades 22 on the outside of the cylinder 21. An inner cylindrical casing 16 having a smaller diameter than the cylindrical casing 1 is installed inside the cylindrical casing 1. A fixed dust collection filter 24 is installed on the indoor side 8 of the plurality of air supply type blades 22.

  In the above configuration, when the fan 23 rotates, the axial fan 12 inside the fan 23 sucks room air from the indoor side 8, passes through the inside of the internal cylindrical casing 16, and is sent to the outdoor side 7. In addition, the cylinder 21 on the outer periphery of the axial flow fan 12 and a plurality of axial flow and supply air type blades 22 installed outside the cylinder 21 also rotate, so that outdoor air is sucked from the outdoor side 7. Then, the air passes through the outside of the cylindrical casing 1 and is sent to the indoor side 8 to supply air. At this time, since the fixed dust collection filter 24 is installed on the indoor side 8 or the outdoor side 7 of the plurality of air supply type blades 22, the supply air can be collected.

  As a result, what was previously formed with two fans and a filter can be used for exhaust, air supply, and cleaning functions with a single fan and filter. Can be made small and small.

(Embodiment 8)
The same parts as those in the first to seventh embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 8, a cylindrical casing 1 and an electric motor 2 as a driving device are provided inside the cylindrical casing 1, and an axial flow fan 12 having an exhaust function is connected to a rotating shaft 3 of the electric motor 2. In addition, a cylinder 21 is provided on the outer periphery of the axial flow fan 12, and a fan 23 is provided with a plurality of axial flow and supply air type blades 22 on the outside of the cylinder 21. An inner cylindrical casing 16 having a smaller diameter than the cylindrical casing 1 is installed inside the cylindrical casing 1. A fixed dust collection filter 24 is installed on the indoor side 8 or the outdoor side 7 of the plurality of air supply type blades 22.

  In the above configuration, when the fan 23 rotates, the axial fan 12 inside the fan 23 sucks room air from the indoor side 8, passes through the inside of the internal cylindrical casing 16, and is sent to the outdoor side 7. In addition, the cylinder 21 on the outer periphery of the axial flow fan 12 and a plurality of axial flow and supply air type blades 22 installed outside the cylinder 21 also rotate, so that outdoor air is sucked from the outdoor side 7. Then, the air passes through the outside of the cylindrical casing 1 and is sent to the indoor side 8 to supply air. At this time, since the fixed dust collection filter 24 is installed on the indoor side 8 of the plurality of air supply type blades 22, the supply air can be collected. At this time, there is a gap 25 between the fan 23 and the cylindrical casing 1 and the inner cylindrical casing 16, and the space between the cylindrical casing 1 and the inner cylindrical casing 16, that is, the supply side with low pressure. Since there is a difference in pressure between the flow path and the space inside the upper internal cylindrical casing 16, that is, the exhaust side air passage having a high pressure, the air normally flows back to the supply side passage having a low pressure through the gap 25. Although the exhaust air volume and the supply air volume are reduced, the flocking 11 is attached to the end face on the fan 23 side of the internal cylindrical casing 16 so as to fill the gap 25 between the exhaust air path and the supply air path, so there is no backflow and the exhaust air volume. And the supply air volume will not decrease.

  As a result, what was previously formed with two fans and a filter can be used for exhaust, air supply, and cleaning functions with a single fan and filter. In addition to being able to reduce the size and size, it is possible to maintain high performance without reducing the exhaust air volume and the supply air volume.

(Embodiment 9)
The same parts as those in the first to eighth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 9, a cylindrical casing 1 and a drag type wind turbine 26 as a driving device are provided outside the cylindrical casing 1, and an air supply function is provided on a rotary shaft 3 that is coaxial with the drag type wind turbine 26. The centrifugal fan 27 having the above is connected and installed.

  In the above configuration, when the drag type wind turbine 26 is rotated by the outdoor wind, torque is transmitted to the rotary shaft 3 and the centrifugal fan 27 is rotated, so that air is sucked from the outdoor side 7 and moved to the indoor side 8. It is aired.

  As a result, the centrifugal fan can be driven by the torque obtained by wind power without using the electric power of the electric motor, and an energy-saving air supply ventilation fan can be obtained.

(Embodiment 10)
The same parts as those in the first to ninth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 10, a cylindrical casing 1 and a drag-type windmill 26 as a driving device are provided outside the cylindrical casing 1, and the cylindrical shaft is mounted on a rotary shaft 3 that is coaxial with the drag-type windmill 26. An axial flow type fan 28 installed in the casing 1 is connected and installed.

  In the above configuration, when the drag type wind turbine 26 is rotated by the outdoor wind, torque is transmitted to the rotary shaft 3 and the axial flow fan 28 rotates, so that air is sucked from the outdoor side 7 and the indoor side 8 To be supplied with air. In this case, since the blade mounting angle of the axial fan 28 is an air supply type, an air supply type air flow is obtained. When it is at an exhaust type mounting angle, it becomes an exhaust type ventilation fan.

  As a result, an energy-saving air supply type ventilation fan can be obtained without using the electric power of the electric motor.

(Embodiment 11)
The same parts as those in Embodiments 1 to 10 are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 11, a drag type wind turbine 26 as a driving device is provided on the outdoor side 7 of the cylindrical casing 1, and an axial flow type fan 12 having an exhaust function is provided on the rotary shaft 3 that is coaxial with the drag type wind turbine 26. Are connected to each other, and a cylinder 21 is provided on the outer periphery of the axial flow fan 12, and a fan 23 having a plurality of axial flow and supply air type blades 22 is provided outside the cylinder 21. An inner cylindrical casing 16 having a smaller diameter than the cylindrical casing 1 is installed inside the cylindrical casing 1.

  In the above configuration, when the drag type windmill 26 installed on the outdoor side is rotated by an external wind, the fan 23 is rotated by the rotary shaft 3, and the axial flow type fan 12 inside the fan 23 is connected to the indoor side 8. The room air is sucked in more, passes through the inside of the inner cylindrical casing 16 and is sent to the outdoor side 7. In addition, the cylinder 21 on the outer periphery of the axial flow fan 12 and a plurality of axial flow and supply air type blades 22 installed outside the cylinder 21 also rotate, so that outdoor air is sucked from the outdoor side 7. Then, the air passes through the outside of the cylindrical casing 1 and is sent to the indoor side 8 to supply air.

  As a result, a simultaneous supply / exhaust type exhaust fan that is energy-saving without using the electric power of the motor and that is small in size can be obtained.

  It is an object of the present invention to provide a ventilation fan that is mainly installed on a wall and is used as an exhaust, supply, or simultaneous supply / exhaust type, having a simple structure, a small size, and energy saving. It is said.

Side sectional view which shows the ventilation fan of Embodiment 1 of this invention Side sectional view which shows the ventilation fan of Embodiment 2 of this invention Side sectional view which shows the ventilation fan of Embodiment 3 of this invention Side sectional view which shows the ventilation fan of Embodiment 4 of this invention Side sectional view which shows the ventilation fan of Embodiment 5 of this invention Side sectional view which shows the ventilation fan of Embodiment 6 of this invention Side sectional view which shows the ventilation fan of Embodiment 7 of this invention Sectional side view which shows the ventilation fan of Embodiment 8 of this invention Sectional side view which shows the ventilation fan of Embodiment 9 of this invention Sectional side view which shows the ventilation fan of Embodiment 10 of this invention. Sectional side view which shows the ventilation fan of Embodiment 11 of this invention Side sectional view showing a conventional simultaneous supply and exhaust ventilation fan

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cylindrical casing 2 Electric motor 3 Rotating shaft 4 Main plate 5 Filter material 6 Fan 7 Outdoor side 8 Indoor side 9 Main body 10 Crevice 11 Flocking 12 Axial flow type fan 13 Bell mouth-shaped cylinder 14 Centrifugal blade 15 Fan 16 Internal cylindrical casing 17 Centrifugal blade 18 Fan 19 Fixed dust collection filter 20 Clearance 21 Cylinder 22 Blade 23 Fan 24 Fixed dust collection filter 25 Clearance 26 Drag type windmill 27 Centrifugal fan 28 Axial flow fan 101 Supply sirocco fan 102 Exhaust sirocco fan 103 Motor 104 Orifice A
105 Suction hole A
106 Scroll A
107 Discharge port A
108 Orifice B
109 Suction hole B
110 Scroll B
111 Discharge port B
Three

Claims (15)

An air supply type ventilation fan characterized by being formed of a filter material having a dust collecting function as a blade having an air supply function. 2. The air supply according to claim 1, wherein the blade is formed of a filter material having a dust collecting function as a blade having an air supply function, and is configured to prevent backflow of air in a gap between the blade and the main body. Pneumatic ventilation fan. 3. A flock formed by a filter material having a dust collecting function as a blade having an air supply function and attached to a gap between the blade and the main body so as to prevent backflow of air is attached. The supplied air ventilation fan. A simultaneous supply / exhaust type ventilation fan formed of a filter material having a dust collecting function as a blade having an air supply function, having an exhaust function and an air supply function in one fan, and having an exhaust function of an axial flow type. One fan has an exhaust function and an air supply function, and the blade with the air supply function is a centrifugal type, has an air supply filter for collecting dust on the discharge side of the air supply fan, and exhausts The function is a simultaneous supply / exhaust type ventilation fan formed by the axial flow type. An exhaust function and an air supply function are provided in one fan, the air supply part is a centrifugal blade having an air supply function and a dust collecting function, and the backflow of air is prevented in the gap with the main body. The simultaneous supply / exhaust type ventilation fan according to claim 4 or 5, wherein the structure is configured. Features a single fan that has an exhaust function and an air supply function, and a flocking that prevents backflow of air is attached to the gap between the main body and the blade having the air supply function and the dust collection function. The simultaneous supply / exhaust type ventilation fan according to any one of claims 4 to 6. A simultaneous supply / exhaust type exhaust fan that has an exhaust function and an air supply function in one fan, and both the air supply function and the exhaust function are formed in an axial flow type. An exhaust function and an air supply function are provided in one fan, and both the air supply function and the exhaust function are axial flow types and have an air supply filter for collecting dust on the discharge side of the air supply fan. Simultaneous supply / exhaust ventilation fan. An exhaust function and an air supply function are provided in one fan, and both the air supply function and the exhaust function are axial flow types and have an air supply filter for collecting dust on the suction side of the air supply fan. Simultaneous supply / exhaust ventilation fan. 5. A structure in which an exhaust function and an air supply function are provided in one fan, and backflow of air is prevented in a gap between the exhaust side flow path and the air supply side flow path. The simultaneous supply / exhaust type ventilation fan according to any one of 10 to 10. A flock having an exhaust function and an air supply function in one fan, and flocking that prevents backflow of air is attached to a gap between the exhaust side flow path and the air supply side flow path. The simultaneous supply / exhaust type ventilation fan according to any one of 4 to 10. A ventilation fan with a wind turbine installed coaxially with the centrifugal fan as the driving means for the centrifugal fan. An air supply type exhaust fan comprising a wind turbine mounted coaxially with an axial fan as a driving means of the axial fan. The simultaneous supply / exhaust ventilation fan according to any one of claims 4 to 12, wherein a wind turbine mounted coaxially with the fan is installed as a driving means of the fan.

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