SU1118621A1 - Aerator - Google Patents

Abstract

An aerator containing a pontoon air supply pipe, inside which is installed a shaft with a drive and a propeller, nozzles attached to the pipe, and a reverse movement mechanism, characterized in that, in order to increase the efficiency of the aerator using, by reducing economic costs and expanding its technological capabilities , the aerator movement reverse mechanism is made of a movable rod, a vertical axis with a fork, kinematically connected to the rod and interacting with the nozzle through a pin rigidly connected to the nozzle ohm, wherein the plane of the outlet section of the nozzle is inclined relative to the plane of rotation of the screw through an angle of 45 °, and the nozzles are rotatably set to 180.

Description

The invention relates to devices for mixing and aerating liquids and can be used for treating liquid livestock waste in channels and storages.

An aerating sewage treatment unit is known that contains a mechanical aerator, a pontoon, a fixed support and a flexible connection, with stops on the pontoon and a hinge but closed semicircular, contour, freely interacting with each other l J.

However, this device cannot function in canals and storages of elongated shape, for example, in manure-collecting canals of livestock buildings where the channel width is less than the length of the pontoon (the pontoon cannot turn in the canal). In addition, the aerating device has a complex structure. The aerator itself cannot work; it is necessary to establish a fixed support and flexible connection. In working condition, the aerating device has large dimensions (length). The aim of the invention is to increase the efficiency of use of the aerator by reducing economic costs and expanding its technological capabilities.

This goal is achieved by the fact that in an aerator containing a ponta, a pipe for supplying air inside which a shaft is installed, equipped with a drive and a propeller, nozzles attached to the pipe, and an aerator movement reverse mechanism, the latter is made of a movable rod, a vertical axis with a fork kinematically

connected with the rod and interacting with the nozzle through a pin rigidly connected with the nozzle, the nozzle exit plane being inclined relative to the plane of rotation of the screw through an angle of 45, and the nozzles being installed with the possibility of rotation through 180.

FIG. 1 shows the aerator, a side view with partial tearing; FIG. 2 is the same plan view; in fig. 3 - mechanism for reversing the movement of the aerator; in fig. 4 shows section A-A in FIG. one; in fig. 5 is a section BB in FIG. 2

. The aerator consists of a frame 1, to which the bottom of the pontoon 2 consists of two sections, and the top center - the drive 3 (flange electric motor) for rotating the shaft 4 with the propeller 5. The shaft is mounted on bearings 6 in the pipe 7 for supplying the air, to which with the help of brackets 8 on the sub-unit 9 is attached an expanding nozzle 10, made with flow guides. The cavity 1 1 of the output slit | 1 on & adka is inclined relative to the plane of rotation of the screw at an angle of 45. The aerator is equipped with a reverse mechanism 12, which includes a movable rod 13, kinematically connected by means of a vertical axis 14 with a fork 15, interacting with the nozzle 10. Movable the rod 13 is mounted in two guides 16 which are attached to the frame 1. The rod is positioned parallel to the longitudinal axis of the aerator. In the middle part of the rod has a finger 17, which is inserted into the groove of the connecting rod 18. At one end of the connecting rod with a hinge 19 is movably connected to the pusher 20, which is spring-loaded spring 21. The free end of the pusher is installed with the possibility of sliding. bushing 22. The bottom is attached to pontoon 2 and can be rotated in a horizontal plane. At the other end, the connecting rod is rigidly connected to a vertical axis 14, which is mounted between the sections of the pontoon and supported by bearings 23 and brackets 24. At the bottom, the vertical axis is rigidly connected to the fork 15. A pin 25 located in the plane of the fork's fork is rigidly attached to the bearing unit 9. The wick relative to the nozzle is installed so that its ends, as stops, can periodically interact with the pin 25. Since the nozzles can rotate only in one direction, the ends of the fork are made of different shapes: curved (hook) and rectangular (stop). In the four corners of the pontoon, support rollers 26 are fixed on the brackets. The aerator is installed in channels 27 so that their longitudinal axes coincide.

The device works as follows.

The motor 3 rotates the shaft with the propeller .5, while the aerated fluid enters through the annular gap between the air supply tube 7 and the nozzle 10. A vacuum is created behind the screw and air 3 is drawn into the fluid 7. Inside the nozzle 10, the liquid mixes with the air and is drawn into rotational motion. The liquid from the expanding nozzle is expelled in a stream directed at an angle of 30-60 to the bottom of the channel 27. Due to the reactive force of the flow, the aerator floats along the channel and mixes the liquid. The support rollers 26 are in contact with the vertical walls of the channel and provide a straight, free movement of the aerator. At the end of the channel, the movable rod 13 abuts against the support wall and switches the whole mechanism of the reverse 12. This rotates the rod 18 around the finger 17 and the vertical axis 14 together with the fork . At the same time, one end of the plug departs, and the other approaches the outer surface of the bearing unit 9. Pin 25 is released from the first stop. Due to the energy of the rotating flow inside the nozzle 10, it turns 180 in the direction and in the plane of rotation of the propeller, i.e. until the pin touches the second end of the plug. At the same time, the second end of the connecting rod 18 translates through a neutral extreme counter // /// ////////////////////////////////// ///////

//////////////////// W W / 7 / // // // // FIG. 2 6214, the position of the pusher 20 and fixing it there with the help of the spring 21. As the nozzles are turned in the opposite direction, the aerator will also change direction. In the future, the aerator cycle is repeated. Equipping the aerator with a reverse mechanism, made in the form of a movable rod, kinematically connected with the nozzle, is an extension of the latter so that its plane of the output section is inclined relative to the plane of rotation of the screw at an angle of 45 and the attachment of the nozzle is movably rotatable by 180 to allow its use in narrow channels (channel width is not less than the width of the aerator). Small dimensions of the aerator simplifies its design and operation. Expanding the technological capabilities of the aerator (the possibility of using it in channels and storages for accumulating liquid effluents located directly in the livestock building under slit floors) allows to obtain an economic effect by reducing the reduced costs of waste treatment.

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Claims (1)

AERATOR containing a pontoon, an air supply pipe, inside which a shaft with a drive and a propeller, nozzles, With attached- ///////// 7 / Г // 7Ж7ЯП7 /// /// ////// ///////// MM /> ^ 7 Fig. 1 to the pipe, and a movement reversal mechanism, characterized in that, in order to increase the efficiency of using the aerator by reducing economic costs and expanding its technological capabilities, the mechanism of reversing the movement of the aerator is made of a movable rod, a vertical axis with a fork kinematically connected with rod and interacting with the nozzle through a pin, rigidly connected to the nozzle, while the plane of the output section of the nozzle is inclined relative to the plane of rotation of the screw by an angle of 45 °, and the nozzles are installed with possibility of rotation 1118621 2