RU152747U1 - DEVICE FOR FLUSHING BOTTOM SEDIMENTS IN A RESERVOIR WITH OIL OR OIL PRODUCTS - Google Patents

Abstract

1. A device for erosion of bottom sediments in a tank with oil or oil products, comprising a housing with a shaft located in it, the end of which is equipped with a propeller and passes symmetrically through the flange to connect the shaft housing to the manhole port on the wall of the tank with the possibility of arranging the shaft parallel to the bottom reservoir, while the flange is connected to the shaft housing by a hinge that allows angular rotation of the shaft housing about an axis perpendicular to the longitudinal axis of the shaft, an electric drive shaft containing an electric a hammer and a mechanical transmission of shaft rotation using a flexible element, support elements and shaft seals relative to the shaft housing, as well as a shaft housing sealing assembly from the reservoir cavity, characterized in that said electric motor is adapted to be mounted on a rotary frame, and this frame is made with the possibility of installation and swivel on the base located on the foundation, which is isolated from the foundation of the tank, as well as with the possibility of movable spline connection with the shaft housing and is driven by an electric drive for its angular rotation, while the axis of articulation of the frame to the specified base coincides with the axis of the said hinge between the shaft housing and the flange. 2. The device according to claim 1, characterized in that the electric drive for angular rotation of the frame contains a kinematically coupled additional electric motor and a screw-nut transmission mounted parallel to the shaft from the outer side of the shaft housing with a shift of the longitudinal axis of this transmission from the axis of rotation of the hinge between the shaft housing and flange, while

Description

The utility model relates to devices for erosion of bottom sediments formed at the bottom of vertical tanks with oil or oil products, and for mixing oil (oil products) in order to prevent the formation of deposits. These devices are installed through nozzles of manholes on the wall of the tank in its first zone and create a flooded stream of oil (oil products), moving with an angular rotation in a plane parallel to the bottom of the tank.

A device for erosion of bottom sediments in a tank with oil or oil products according to the patent of the Russian Federation No. 2220766 (IPC B01F 15/00, B01F 7/00, publ. 10.01.2004), adopted as the closest analogue (prototype). The device comprises a housing. A shaft passes inside the housing. At the end of the shaft there is a propeller for creating a flooded stream of oil during its rotation.

The device includes a flange for attaching the shaft housing to the manhole hole. The end of the shaft with the propeller passes through the flange symmetrically and, therefore, perpendicular to the plane of the flange. The shaft of the device connected in the working position to the manhole nozzle is parallel to the bottom of the tank.

The electric drive shaft contains an electric motor kinematically connected with a belt drive. The motor housing is mounted on the shaft housing.

For effective erosion and coverage of the entire bottom of the tank, the flooded jet created by the propeller must be moved, making its angular rotation. Therefore, the device provides a mechanism for angular rotation of the shaft housing, and the flange and shaft housing are interconnected by a hinge, the axis of which passes through the longitudinal axis of the shaft at right angles. The motor housing rotates angularly with the shaft housing on which it is mounted.

The device also has support elements and shaft seals relative to the shaft housing and a shaft housing sealing assembly from the reservoir cavity.

For tanks with highly viscous oil or oil products, devices for erosion of bottom sediments with increased power are required, characterized by a large weight of electric motors. Attaching a shaft housing with a heavier electric motor mounted on it to the manhole hole nozzle can lead to damage to the nozzle.

The objective of the utility model is to increase the reliability in ensuring erosion of bottom sediments in a tank with oil or oil products.

The technical result is to reduce the weight load exerted by the device for erosion of bottom sediments on the pipe hatch-manhole of the tank.

Like the closest analogue, the claimed device for erosion of bottom sediments in a tank with oil or oil products contains a housing with a shaft located in it, the end of which is equipped with a propeller and passes symmetrically through the flange to connect the shaft housing to the manhole hole on the tank wall with the possibility the location of the shaft parallel to the bottom of the tank, while the flange is connected to the shaft housing by a hinge that allows angular rotation of the shaft housing about an axis perpendicular to the longitudinal axis of the shaft, electric roprivod shaft comprising an electric motor and a mechanical transmission shaft by means of the flexible element, the support elements and the shaft seal with respect to the shaft housing, and the shaft sealing body assembly from the reservoir cavity.

Unlike the closest analogue, the mentioned electric motor is made with the possibility of mounting on a swing frame, and this frame is made with the possibility of mounting and swiveling on the base located on the foundation, which is isolated from the foundation of the tank, as well as with the possibility of movable splined connection with the shaft housing and equipped with an electric drive for its angular rotation, while the axis of articulation of the frame to the specified base coincides with the axis of the hinge between the shaft housing and the cem.

An electric drive for angular rotation of the frame may include a kinematically coupled additional electric motor and a screw-nut transmission mounted parallel to the shaft on the outside of the shaft housing with a shift of the longitudinal axis of this transmission from the rotation axis of the hinge between the shaft housing and the flange, while the output link of the specified transmission fixedly connected to a circular slider located in a straight guide, made with the possibility of fixed installation on said base and directed th izontalno and parallel to the flange plane, and said transmission input member is adapted to abut against the frame via the thrust bearings.

The electric motor of the additional electric drive can be made adjustable.

The device is presented in the figures:

FIG. 1 is a top view of a device mounted on a tank,

FIG. 2 is a front view of the device in section,

FIG. 3 is a top view of the device,

FIG. 4 is a plan view of a portion of an angular rotation drive

FIG. 5 is a front view in section of part of the drive angular rotation,

FIG. 6 is a view of the device on the left.

The device is shown in figures 1-6 with the following notation:

1 - reservoir (Fig. 1),

2 - shaft housing (Fig. 1-4),

3 - shaft (Fig. 1-3),

4 - propeller (Fig. 1-3, 6),

5 - flange (Fig. 1-4),

6 - pipe hatch-manhole (Fig. 1),

7 - hinge between the shaft housing and the flange (Fig. 1-3),

8 - electric motor (Fig. 1, 3, 6),

9 - mechanical transmission of rotation using a flexible element (Fig. 1-3, 6),

10 - elements of the shaft support (Fig. 2),

11 - elements of the shaft seal (Fig. 2),

12 - site sealing (figure 2),

13 - frame (Fig. 1-3, 5, 6),

14 - articulation (hinge) between the frame and the base (Fig. 2, 5),

15 - base (Fig. 2, 5, 6),

16 - the protrusion of the spline connection of the shaft housing and the frame (Fig. 2-4, 6),

17 - the deepening of the spline connection (Fig. 2, 6),

18 - wheel frame (Fig. 2, 5, 6),

19 is an additional electric motor for rotating the frame (Fig. 2-4, 6),

20 - input link (screw) transmission "screw-nut" (Fig. 2-5),

21 - output link (nut) of the transmission "screw-nut" (Fig. 2-5),

22 - slider (Fig. 2-5),

23 - sleeve (Fig. 2, 5),

24 is a straight guide (Fig. 3, 4),

25 - thrust bearings (Fig. 5),

26 - gear (Fig. 2-5)

The device for erosion of bottom sediments in the tank 1 with oil or oil products contains a housing 2 with a shaft 3 located in it, the end of which is provided with a propeller 4. This shaft 3 end passes symmetrically through a flange 5, designed to connect the housing 2 of the shaft 3 to the hatch a hole 6 on the wall of the tank 1. With this connection, the shaft 3 is parallel to the bottom of the tank 1. The flange 5 is connected to the housing 2 of the shaft 3 by a hinge 7, allowing angular rotation of the housing 2 of the shaft 3 around an axis perpendicular to the longitudinal axis ala 3.

The electric drive of the shaft 3 contains an electric motor 8 and a mechanical transmission 9 of rotation of the shaft using a flexible element (chain or belt). The chain or belt allows you to provide a kinematic connection between spaced apart from each other by the electric motor 8 and the shaft 3.

The device also has support elements 10 (bearings) and sealing elements 11 of the shaft 3 (mechanical seal) relative to the housing 2, as well as a sealing unit 12 of the housing 2 of the shaft 3 from the cavity of the tank 1 (spherical seal).

The electric motor 8 is made with the possibility of installation on the rotary frame 13, and this frame 13 is made with the possibility of installation and swivel 14 on the base 15, located on the foundation, which is isolated from the foundation of the tank. As you know, the foundation of the tank 1 can rise or fall when emptying or filling the tank 1 with oil (oil products). The untied foundation foundation 2 is isolated from the influence of the foundation of the tank 1 using conventional means for decoupling the foundations.

So that the pulleys of the belt or chain transmission 9 do not move along its longitudinal axis, the axis of the hinge 14 of the frame 13 to the base 15 coincides with the axis of the hinge 7 between the housing 2 of the shaft 3 and the flange 5.

The rotary frame 13 is made with the possibility of a movable splined connection 16, 17 with the housing 2 of the shaft 3. Due to the splined connection, the angular rotation of the frame 13 is transmitted to the housing 2 of the shaft 3. Housing 2 of the shaft 3, mounted in working position on the manhole port 6 of the tank 1 , moves when filling (emptying) of the tank 1 vertically with it. But the rotary frame 13, on which the motor 8 is mounted to rotate the shaft 3, does not change its vertical position when filling (emptying) the tank 1, because it is located on the base 15, located on the foundation untied from the tank 1. With the vertical movement of the housing 2, the protrusions 16 of the spline connection slide along its grooves (recesses) 17. The kinematic connection between the housing 2 and the frame 1, necessary for the angular rotation of the housing 2 and the shaft 3, is not violated. The device remains operational. In addition, maintaining operability is facilitated by the fact that the chain or belt of a mechanical transmission 9 installed between the electric motor 8 and the shaft 3 compensates for the changes in the position of the housing 2 of the shaft 3 relative to the electric motor 8 that occur when the vertical position of the tank 1 changes when it is filled (empty).

For mobility of the swinging frame 13, it is equipped with wheels 18. Instead of wheels 18, there can be runners, rails and other mobility means.

The rotary frame 13 is equipped with an electric drive for its angular rotation. In a specific embodiment of the device, the electric drive for angular rotation of the frame contains kinematically coupled additional electric motor 19 and a screw-nut transmission 20, 21. The screw-nut transmission 20, 21 is installed parallel to shaft 3 and from the outside of the housing 2 of shaft 3 with longitudinal displacement the axis of this transmission from the axis of rotation of the hinge 7 between the housing 2 of the shaft 3 and the flange 5. In this case, the output link 21 (in a particular embodiment, the nut) of the screw-nut transmission is fixedly connected to the circular slider 22. In a specific embodiment, a hollow sleeve 23 is attached to the nut 21, at the end of which the slider 22 is located. The slider 22 is arranged in a straight guide 24, which can be fixedly mounted on the base 15 and directed horizontally and parallel to the plane of the flange 5. Gear input link 20 “nut” is made with the possibility of its abutment in the rotary frame 13 through the thrust bearings 25, providing a load in the direction of the longitudinal axis of the transmission “screw-nut”. The kinematic connection between the additional electric motor 19 and the screw-nut transmission 20, 21 is carried out by a gearbox 26 with a gear ratio sufficient for the normal operation of the screw-nut transmission 20, 21. In a particular embodiment, the worm gear 26 converts the rotational motion of the additional electric motor 19 into the rotational movement of the lead screw 20 at an angle of 90 degrees for the purpose of arranging the device. In this case, the screw 20 abuts against the bearings 25, and they - against the housing of the gearbox 26, which is fixedly mounted on the rotary frame 13. The electric drive for angular rotation of the frame 13 can be performed in another way. For example, on the axis of the hinge connecting the rotary frame 13 and the base 15, you can install the gear connected with another gear (or with a system of gear wheels forming a gearbox), driven by a reversible electric motor that changes direction of rotation when the frame reaches the desired rotation angle. Or, on a rotary frame 13, a reversible electric motor with a gear on the output shaft can be installed, interacting with a gear sector made on the basis of 15. Any electric drive options for angular rotation of the frame, including using lever, cam mechanisms, are possible.

In a specific embodiment of the device, the additional electric motor 19 of the electric drive for angular rotation of the frame 13 is made adjustable, that is, it is equipped with an electronic control unit that allows you to adjust the rotational speed of the rotor of the electric motor 19. When using an adjustable electric drive, you can refuse the gearbox with a large gear ratio and adjust the shaft residence time 3 different positions when turning, for example, slow down the rotation of the shaft 3 or stop it when the difficult part of the bottom is eroded. Thus, the rotary frame 13, the electric drive for its angular rotation and the spline connection 16, 17 of the rotary frame 13 with the housing 2 of the shaft 3 form an angular rotation drive of the shaft 3.

Working installation is as follows. First, the rotary frame 13 is mounted on the base 15 and attached to it by a hinge 14. To the nozzle of the manhole 6 located on the wall of the tank 1, using the flange 5, connect the housing 2 together with the shaft 3 installed in it, the propeller 4, support elements 10 and the seal 11, the sealing unit 12. For the spline connection of the housing 2 and the swing frame 13, the protrusions 16 are articulated with the grooves (recesses) 17. The alignment of the axes of the hinge 7 and the hinge 14 is adjusted using the adjusting sleeves. The electric motor 8 is mounted on a rotary frame 13. A gear belt is put on the belt pulleys 9 for communication between the electric motor 8 and the shaft 3. A gear 26 is fixedly mounted on the rotary frame 13, the screw-nut transmission screw 20 abuts through the thrust bearings 25 On the connecting flange (position not shown) of the gearbox 26, an adjustable electric drive is installed comprising an additional electric motor 19 and its electronic control unit (position not shown). After briefly turning on the electric motor 8 to check the operation of the belt drive 9, it is closed with a protective casing. From the belt drive 9, the rotation is transmitted to the shaft 3 and the propeller 4.

When the additional electric motor 19 is turned on, the rotation is transmitted through the gearbox 26 to the screw 20, nut 21, sleeve 23, slider 22. The screw-nut transmission length (positions 20, 21) increases. The slider 22 moves to the extreme position on the guide 24 and rotates due to the round shape around its center. The screw-nut transmission (positions 20, 21) is displaced after the slider 22 in the angular direction. The screw-nut transmission (keys 20, 21) continues to increase in length. When the displacement becomes impossible due to the stop of the slider 22 to the extreme point on the guide 24, the screw 20 pushes the gear housing 26 through the thrust bearings 25 and, therefore, the rotary frame 13 on the wheels 18 in the angular direction relative to the hinge 14. Shaft 3, housing 2 which is connected to the rotary frame 13 by a spline connection 16, 17, also moves in the angular direction. When changing the direction of rotation of the additional motor 19, a reverse angular rotation of the shaft 3 occurs.

Thus, due to the fact that the electric motor 8 is removed from the housing 2 of the shaft 3, in the inventive device, the weight load falling on the manhole 6 of the tank 1 is reduced, therefore, the likelihood of damage to the manhole 6 of the tank 1 is reduced. Therefore, when using The claimed device improves reliability in providing erosion of bottom sediments in a tank with oil or oil products.

Claims (3)

1. A device for erosion of bottom sediments in a tank with oil or oil products, comprising a housing with a shaft located in it, the end of which is equipped with a propeller and passes symmetrically through the flange to connect the shaft housing to the manhole port on the wall of the tank with the possibility of arranging the shaft parallel to the bottom reservoir, while the flange is connected to the shaft housing by a hinge that allows angular rotation of the shaft housing about an axis perpendicular to the longitudinal axis of the shaft, an electric drive shaft containing an electric a hammer and a mechanical transmission of shaft rotation using a flexible element, support elements and shaft seals relative to the shaft housing, as well as a shaft housing sealing assembly from the reservoir cavity, characterized in that said electric motor is adapted to be mounted on a rotary frame, and this frame is made with the possibility of installation and swivel on the base located on the foundation, which is isolated from the foundation of the tank, as well as with the possibility of movable spline connection with the shaft housing and is driven by an electric drive for its angular rotation, while the axis of articulation of the frame to the specified base coincides with the axis of the said hinge between the shaft housing and the flange. 2. The device according to claim 1, characterized in that the electric drive for angular rotation of the frame contains a kinematically connected additional electric motor and a screw-nut transmission mounted parallel to the shaft from the outer side of the shaft housing with a displacement of the longitudinal axis of this transmission from the axis of rotation of the hinge between the shaft housing and the flange, while the output link of the specified transmission is fixedly connected to a circular slider located in a straight guide, made with the possibility of fixed installation on the mentioned -mentioned ground and directed horizontally and parallel to the flange plane, and said transmission input member is adapted to abut against the frame via the thrust bearings. 3. The device according to claim 2, characterized in that the electric motor of the additional electric drive is adjustable.

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