RU2003102242A - DUST FIGHTING DEVICE FOR CYCLONE TYPE FOR VACUUM CLEANER - Google Patents

Claims (10)

1. A cyclone-type dust collector for a vacuum cleaner comprising a cyclone collector body having an air inlet port and an air outlet port and an inner cyclone collector body for generating a vortex air stream containing dust and dirt and entering through the air inlet port, a collection tank dirt connected to the cyclone trap body with the possibility of removal to collect dust and dirt separated by centrifugal force created by the vortex flow inside the cyclone trap body, the lattice element located at the entrance to the air exhaust port in the cyclone trap body to prevent dust and dirt separated from the air from flowing in the opposite direction through the air outlet port in the cyclone trap body, while the lattice element has channels passing through it for communication with a port for discharging air, and means for cleaning the grating element to automatically remove fine dust covering the grating element, and the means for cleaning the grating element when the vacuum cleaner is turned on. 2. The device according to claim 1, in which the means for cleaning the lattice element contains means for rotating the lattice element when the vacuum cleaner is turned on, and a dust-removing element located on one side of the inner housing of the cyclone collector for contact with the outer peripheral periphery of the rotating lattice element. 3. The device according to claim 2, in which the means for rotating the lattice element comprises a rotational element located next to the upper part of the cyclone trap body and designed to create a rotational support for the lattice element with respect to the cyclone trap body and for rotation together with the lattice element, wherein the rotational element is connected to the lattice element by means of connecting elements, and the upper surface of the cyclone trap body, with the exception of the air exhaust port, is located and between the rotational element and the lattice element, wherein the rotational element has a gear portion formed around its outer circumferential periphery, a motive force source for generating a motive force for rotating the rotational element, and a power transmission means for transmitting the power of the motive power source to the rotational element. 4. The device according to claim 3, in which the air inlet pipe is connected to the air inlet channel formed in the vacuum cleaner body, and connected to the air inlet port in the cyclone collector body, an air outlet assembly connected to the air outlet channel the vacuum cleaner case is connected to the cyclone collector case, and the air discharge unit has a round fixing guide part formed at the lower part of the exhaust pipe, made in one piece with the exhaust pipe and fixed on the upper surface of the c Clones catcher, the round locking guide part closes the rotary member. 5. The device according to claim 4, in which the source of driving force comprises a turbine fan located in the exhaust pipe of the air exhaust unit, the fan being driven into rotation by air discharged through the exhaust pipe. 6. The device according to claim 5, in which the power transmission means comprises a worm connected to the axis of the turbine fan and protruding outward from the exhaust pipe, a worm wheel located on top of the fixing guide part for interacting with the worm, an intermediate gear located coaxially with the worm wheel, at the bottom of the locking guide part for interaction with the gear part of the rotational element. 7. The device according to claim 4, in which the source of the driving force comprises an electric motor located on top of the fixing guide part of the air exhaust unit and rotating when the vacuum cleaner is turned on. 8. The device according to claim 7, in which the power transmission means comprises a worm connected to the axis of the electric motor, a worm wheel located in the upper part of the fixing guide part for interacting with the worm, and an intermediate gear located coaxially with the worm wheel at the lower part of the fixing guide part for interacting with the gear part of the rotational element. 9. The device according to claim 2, in which the dust-removing element comprises a support bar and a wiping element having a thin rubber rib located in a vertical direction so that it extends along one side of the support bar. 10. The device according to claim 2, in which the dust-removing element comprises a support bar and a brush located in a vertical direction so that it extends along one side of the support bar.