TH19983B - Front removable bearing housing for vertical turbine pumps. - Google Patents

Abstract

DC60 bearing housing in the gearbox of a vertical turbine pump for the bottom bearing of a rotating pump shaft. The propellers are attached to it, including a separate hollow cylindrical body. Key with top and bottom ends This has a radial flange at the bottom end, which is adapted for the articulation to the bottom surface of the gearbox in such a way that it can be obtained. Installation inside and get It can be removed from the bottom surface of the gearbox. Additionally, the body is larger than the inner diameter. The outer diameter of the shaft to provide a gap Between the body and the said shaft The bearing will be installed inside the lower end of the The body is for connecting the shaft. And will provide a sealing between the top ends of Such body structure and the inner core holes in the gearbox. A sealing will be prepared between the ends. The bottom of the fuselage and A shaft for separating the pumped fluid from that gap.The pressure of the pumped fluid resists the seal. Same as the size of The solid particles that are conveyed by the pumped fluid are limited by the gap between the fan hub and the control wear cover in the bearing housing. Washing with a fluid that That cleanliness may have been prepared Which the fluid will be Gets the flow out of the gaps between the frame and the shaft through the bearing housing seal in the gearbox of the vertical turbine pump for the bottom bearing of the rotating pump shaft. The propellers are attached to it, including a separate hollow cylindrical body. Key with top and bottom ends This has a radial flange at the bottom end, which is adapted for the articulation to the bottom surface of the gearbox in such a way that it can be obtained. Installation inside and get It can be removed from the bottom surface of the gearbox. Additionally, the body is larger than the inner diameter. The outer diameter of the shaft to provide a gap Between the body and the said shaft The bearing will be installed inside the lower end of the The body is for connecting the shaft. And will provide a sealing between the top ends of Such body structure and the inner core holes in the gearbox. A sealing will be prepared between the ends. The bottom of the fuselage and A shaft for separating the pumped fluid from that gap.The pressure of the pumped fluid resists the seal. Same as the size of The solid particles that are conveyed by the pumped fluid are limited by the gaps between the fan hub and control wear in the bearing housing. Washing with a fluid that That cleanliness may have been prepared Which the fluid will be Gets the flow out of the gaps between the frame and the shaft through the sealing part.

Claims (8)

1. The bearing housing for the bottom bearing that is flush with the fluid in the gearbox of a vertical turbine pump with a rotating shaft on the impeller hub is attached. Which includes: essentially a hollow cylinder-shaped body That is surrounded by such a shaft with ends. Top and bottom Which will be separated from the aforementioned jars And which has a radial flange at the bottom end, which is used for the assembly, attaches to the bottom surface of such a gearbox in such a way that such a frame body may be mounted sideways. in Or has been removed from the surface The bottom of the gearbox Which the fuselage also has a larger internal diameter than the size Outside diameter of such shaft In order to provide a channel between the shaft and the body; Path for sealing between the upper ends of the body. And the core hole inside In such a jar; Bearing that has been installed inside the lower end of the body. For connecting the shaft As mentioned therein; Method for delivering the flushing fluid to the gap In order to enter Between the said shaft and the bearing; Paths for sealing between the lower ends of such frame bodies. And such shaft For separating pumped liquid from the said gaps; And a pathway for limiting the pressure of the pumped fluid And particle size of solids That has been carried by the pumped fluid following the above path For sealing between The lower end of the fuselage, the said structure and the shaft 2. The bearing frame of the 1st claim, which is a means for sealing between the upper ends of Such body And the inner core holes in the gearbox are assembled with grooves on the surface. The outside of the body. For blocking the O-shaped ring And an O-shaped ring that has been placed within the said groove For supporting the axial holes of the gearbox. 3. Bearing frame of claim No. 1, which way for delivering the flushing fluid Clean through the gap To the joint surface between the said shaft and the bearing It consists of a pipe that is connected to the flushing fluid that surrounds the shaft. In order to form an axial path along the shaft The pipes will allow the flushing fluid to pass through the said path. And enter the groove that has been placed 4. The bearing structure of claim No. 1, where the way for sealing between the lower ends is located along the axial surface of the bearing. Of the body, the said frame and the axle For separating the pumped fluid from the said gap Will be assembled together with a sealing cap assembly piece That has been assembled inside the fuselage structure and will support the shaft. The seal assembly acts as a non-return valve for the flow of flushing fluid into the purge chamber located between the said seal assembly and the hub on the back of the hood. Such impeller But will prevent the flow of The fluid in the opposite direction 5. bearing structure of claim 1, which is the path for limiting the pressure of the received fluid Pumping towards the said path For the sealing between the lower end of the body, the said frame and the shaft are equipped with an overhang on the lower end of the fuselage. With a similar radial distance around the impeller hub to determine the pressure of the pumped fluid flowing through that gap. And for limiting the size Solid particles are carried by the pumped fluid. 6. Bearing frame of claim 5, which will also include: a fitted control wear sleeve. Into at least one such hole At the bottom end Of the aforementioned fuselage And the outer surface of the hub In order to prepare the gap according to The radial direction is adjacent between the body, the structure and the impeller hub. 7. The bearing frame of claim 1, where the path for limiting the pressure of the received fluid Pumping towards the said path For sealing between the lower end of the body, the frame and the shaft are equipped with a control wear sleeve that is installed inside a hole at the lower end of the frame. Such body structure It will provide an adjacent radial clearance around the impeller hub. 8. Bearings frame of claim 1, which is a path for sealing between the lower ends of the impeller. Such structure and shaft For separating pumped liquid from the said gaps Will be assembled together with a sealed assembly piece That has been assembled inside the body and the frame. Will support the said shaft 9. A gearbox assembly for a vertical turbine pump with impeller is mounted on a rotating shaft. Which will include; The gearbox frame with a supported outer bulb-shaped shell is spaced on the frame. Inner bulb In order to route the diffuser along the pipe axis The inside frame will have Path along the central axis; Significantly hollowed-out hollow cylinder body with upper and lower ends, where the bearing body is installed inside and removed from the end. lower Of the path along the axis of the inner bulb frame And which has a radial flange at the bottom end, which is optimized for the sealing cladding to the bottom surface of the Inner bulb frame The bearing body also has a larger internal diameter than the size. Outside diameter of such a shaft In order to provide a gap for the flushing fluid path; Method for sealing between the upper ends of the bearing body. And follow the path The central axis in the inner bulb frame; Bearing that has been installed inside the lower end of the body. For supporting shaft As such, turn it in there; Paths for sealing between the lower ends of such frame bodies. And such shaft For separating the pumped fluid from the said gap; And a pathway for limiting the pressure of the pumped fluid And particle size of the resulting solid Get carried by the pumped fluid following that path. For sealing between ends The bottom of the body, the bearing frame and the axle thereof 1 0. Gearbox assembly of the 9th claim, at least one distance on the frame. Such inner bulb It is assembled with the 1st stationary diffuser plate. 1. The gearbox assembly of claim 9, which means for sealing between the ends. The top of the said frame And the path along the center axis in the inner bulb frame It is composed of a groove on the outer surface of the body. For blocking O-shaped ring And an O-shaped ring that has been placed in the said groove For supporting per axis hole Of the said jar In the path along the axis of the inner bulb frame 1 2. Gearbox assembly of claim No. 9, which means for sealing between ends. The bottom of the body, the said frame and the axle For separating the pumped fluid from the said gaps, it is assembled with a sealed assembly that has been assembled, mounted inside the body, and supported by the shaft 1. 3. The gearbox assembly of claim No. 9, which means the method for limiting the fluid pressure. That has been pumped And the particle size of the solids being carried by the pumped fluid per the That way For sealing between the lower ends of the structural body and the aforementioned shaft Will consist of an overhang on the lower end of the body The overhang has a axial hole with The adjacent radial gap around the hub of the impeller 1. 4. The gearbox assembly of claim No. 9, which means the method for limiting the fluid pressure. That has been pumped And the particle size of the solids being carried by the pumped fluid per the That way For sealing between the lower end of the body, the structure and the shaft are equipped with a control wear sleeve that is installed inside a hole at the bottom end of the Such body structure And this will provide an adjacent radial clearance around the impeller hub 1 5.Vertical turbine pump of type pump with gearbox assembly It has a tubular axial diffuser path which is in contact with the ejection end of the impeller mounted on a rotatable drive shaft. The axial path in the gearbox assembly It surrounds the rotatable drive shaft, a bell-shaped suction end that is assembled onto the source end of the assembly. Such a jar And the discharge pipe of the gearbox assembly As for the improvements made with The aforementioned gearbox assembly It includes: a modular bearing frame. That are positioned within the said axial path and support the bottom bearing for the attachment of the rotating drive shaft. The body, the frame, the bearing Will consist of; The substantially hollow cylindrical bearing body with the upper and lower ends are positioned in a path along the core. And which will have a radial flange at the end The bottom, which has been applied for sealing to the bottom surface of the gearbox around the path. Along the said central axis The fuselage can be installed inside and removed. From the bottom surface of the said jar And which will also have a large inner diameter Than the outer diameter of the said shaft To provide fluid gaps for The path of the flushing fluid between them; Path for sealing between the upper end of the bearing body and the axial path in the gearbox assembly; Bearing that has been installed inside the lower end of the body. For connecting the shaft As mentioned therein; Paths for sealing between the lower ends of such frame bodies. And such shaft For separating the pumped fluid from the said fluid gap and the path for limiting the pressure of the pumped fluid. And particle size of solids That has been carried by the pumped fluid following the above path For sealing between The lower end of the fuselage, the said frame and the axle 1 6. Modifications to claim No. 15, which will also include: at least one diffuse diffuser plate. Which has been arranged according to the axes as Key is within the axial diffuser path, such pipe 1 7. Revision to Clause 15, which will also include: Method for clearing the bearing. By passing the fluid through the gap of the fluid To the contact between the bearing and the shaft In order to remove residue from the surface During the aforementioned exposure 1 8. Revision of claim 17, which means for clearing the bearing By passing the fluid through the fluid gap to the contact between the bearing and the shaft, at least one groove is arranged axially. Important on the inner contact surface of the bearing.