TH34037B - Turbine vacuum pump - Google Patents

Abstract

The DC60 turbine vacuum pump 1 is positioned near the air inlet 11 to suck air into the pump chamber 2 and connects gap A on the front and gap B on the rear. The direction of rotation of the turbine at the time of counter rotation of the turbine 6 and will consist of grooves. Oil escape groove 21 to allow the lubricant to escape into gap B on the back from gap A on the front. The oil escape groove 21 is positioned in the side plate 4 and the wall surface 21A of the oil escape groove. which becomes the rear part of the rotational direction of the turbine at the time of Turning the opposite direction of the turbine 6 has become a tilted surface. where its open side opens more than the breech 21B of the 21C ventricle 21, the other skin 21C of this 21C ventricle, in good form as well, becomes a slanted surface. where its open side is also wider than the buttocks. Compared to the case where the cross-sectional profile of the oil evacuation groove 21 is square, Foreign substances and powders that cause abrasive and friction 22 are allowed to escape. better go out and can be easily separated from the inside of the oil emission groove 21 The turbine vacuum pump 1 is positioned near the air inlet 11 to suck air into the pump chamber 2 and connects gap A on the front and gap B on the rear. The direction of rotation of the turbine at the time of counter rotation of the turbine 6 and will consist of grooves. Oil escape groove 21 to allow the lubricant to escape into gap B on the back from gap A on the front. The oil escape groove 21 is positioned in the side plate 4 and the wall surface 21A of the oil escape groove. which becomes the rear part of the rotational direction of the turbine at the time of Turning the opposite direction of the turbine 6 has become a tilted surface. where its open side opens more than the breech 21B of the 21C ventricle 21, the other skin 21C of this 21C ventricle, in good form as well, becomes a slanted surface. where its open side is also wider than the buttocks. Compared to the case where the cross-sectional profile of the oil evacuation groove 21 is square, Foreign substances and powders that cause abrasive and friction 22 are allowed to escape. better go out and can be easily separated from the inside of the oil emission groove 21

Claims (4)

Disclaimers (all) that will not appear on the advertisement page: 1.Turbine vacuum pump Where The frame is equipped with a shaped pump room. Almost spherical, seal side plate, opposite end of body, rotor rotating at position Opposite to the center of the pump room, the turbine is drawn back by the groove in the Rotor diameter And will spin at the same time as the It serves to divide the pump room into a number of channels and oil escape grooves. It is located near the air intake, through which air is drawn into the pump chamber. And will be connected to the front gap and the gap on the rear of the turbine's revolving direction at the moment of counter-rotation of the turbine in order to allow the lubricant to escape into the space on the back from the front gap. have Where the fuel trench to escape Are available on the side plate And moreover, the surface of the wall of the said escape groove Which is on the reverse side of the rotational direction of the turbine at the time of Rotating in the opposite direction of the turbine Will be skewed Where its open side will be expanded Over the bottom of the oil escape groove 2. Turbine-operated vacuum pump as described in claim 1, where the surface of the wall of the aforementioned oil escape grooves, on the front of the turbine rotation direction. At the moment of rotation In the direction of the turbine Will be skewed Where its open side will be opened more than The bottom of the oil escape groove 3. Turbine-operated vacuum pump as described in Clause 1 or Article 2, where the end On top of the escape groove that is overlapped with the turbine body, when the turbine counterparts, it will It was created before the position where it could begin to connect with space A on the front and space B on the back of the revolving direction. When the volume of the gaps on the front of the rotation direction The turbine counterpart is the most valuable for the lubricant. To flow into the pump room at the time of stop Vacuum pump operation 4. Turbine-operated vacuum pump as described in Clause 1 to Clause 3, any where at the rear end of the oil escape groove. Separated from the overlap with the turbine in the Finally, when the turbine is turned, a counterpoint will be built. In order to block connections to each other with gaps. On the front and the space on the back Of the counter-rotation direction between where the turbine (6) travels through the air inlet at the moment of counter-rotation of the turbine (6) and where The compression in the gaps on the front of the rotational direction has taken place completely.