SU734114A1 - Surface stream hydraulic intensifier - Google Patents

Description

(54) SURFACE HYDROCONTROLLER The invention relates to devices used in timber rafting, and can be used to create a surface fluid flow, with the help of which it moves wood products to timber, woodworking and other enterprises. A surface stream hydroaccelerator is known, containing a vertically mounted shaft, on which a disk made with a disk mounted with a uniformly attached circumferentially and facing downward is mounted on it | , by shaped vanes, an impeller, enclosed by a spiral chamber, which has a water intake opening, located at the bottom coaxially with the shaft and ending with a rectilinear portion 1 The invention of the invention is an increase in efficiency. The goal is achieved by the fact that the hydroaccelerator is equipped with an additional impeller located in the same plane as the main one and equipped with an additional spiral chamber with a straight section, directed towards the promo flow of the linear section of the main spiral chamber, while the straight sections of the chambers are parallel and covered by a common line. the nozzle, the inner surface of the side walls of which is adjacent to the respective surfaces of the side walls of the rectilinear sections of the spiral chambers. FIG. 1 shows a general view of the proposed hydroaccelerator; in fig. 2 - the same plan. The accelerator contains impellers 1 installed in one plane with vertically arranged shafts 2 parallel to each other, which are kinematically connected with drive 3 by a closed casing 4. Impellers 1 are covered with spiral chambers and 5 landing sections ending with straight sections 6. Bottom spiral chambers have water inlets 7 , coaxially to the shafts 2. Spiral chambers-nozzles 5 are turned by the straight line sections 6 towards each other, while the straight lines are parallel, between them a certain The calculated (from the point of view of the optimum 37 economic value of the power consumed) the gap and omi are covered together with this gap by the additional straight line 8. The inner surface of the side walls of this nozzle attaches to the corresponding surfaces of the lateral walls of the straight sections 6 spiral chambers of the nozzles 5. In the part of the nozzle 8 opposite to the exit section, between the walls and the uncovered walls of the straight sections 6 of the spiral chamber nozzles 5, an additional Water intake chamber 9. To ensure buoyancy, the hydroaccelerator has pontoons 10 and I. For operation, the hydroaccelerator is buried under the free surface of the reservoir so that the axis of the nozzle 8 is located at a depth of at least two of its calibers. Accordingly, the impeller wheels are also immersed under the free surface of the reservoir. The drive 3 is turned on and the impellers 1 are rotated through the shafts 2. Through the water intakes 7, the liquid flows to the impellers 1. Due to the dynamic effect of the shaped vane blades on the liquid, it is thrown through the spiral chambers-nozzles 5 with straight sections 6 into a common The straight nozzle 8, filled) W fluid1) Yu. The presence of an additional zero chamber 9 allows a fluid with the same physical properties as that entering the impellers 1 to be permanently attached to the attachment 8. It is known that when a fluid flows into a space filled with a liquid of the same physical properties, the jet attaches, t. e. ejects fluid from its surrounding space. Consequently, the jets emanating from the spiral nozzle chambers 5 with straight lines 6 in a common straight line nozzle 8 attach (eject) a part of the fluid that is in the space between the straight sections 6 spiral nozzle chambers 5 which communicates with the reservoir. Thanks to this through educated

In the part of the nozzle 8 opposite to the output section, an additional camera is observed by the steady-state motion of the ejected liquid. As a result, what is happening in the nozzle 8, outside the linear sections 6 of the spiral nozzle chambers 5

walls of straight lines of spiral chambers.

Sources of information received during the examination

Claims (1)

1. USSR author's certificate for the application number 2147002/4, cl. B 65 G 69/20, 1977. 4 1urctions of fluid flowing out of the nozzle chambers 5 and inserted through an additional water intake chamber 9, the velocity of the fluid at the outlet of the nozzle 8 is lower than the velocity at the outlet of the spiral nozzle chambers 5. Extention Consumption Poison is achieved by ejecting a liquid through an additional water intake chamber 9 in proportion to the increase in consumption and Lp increases, but under the condition that the most favorable Vg value is obtained (2.5-5 m / s). The speed as a result of displacement is somewhat reduced. Therefore, in order to maintain VQ at the required level, it is necessary to slightly increase the power consumption, which is quite possible (for the prototype, the same power consumption is not fully used due to the limited mass of the hydroaccelerator). In addition, the increase in power leads to a non-small increase in power consumption. Its value is below the optimum for hydroaccelerators with standard nozzles. The invention The surface flow accelerator, containing a vertically mounted shaft, on which is mounted a disk with an impeller fixed to it evenly around the circumference and folded down along the futrice-blade blades, surrounded by a spiral chamber with a water inlet, spreading from below coaxially to the shaft and an off-line straight section, characterized in that, in order to increase efficiency, it is provided with an additional impeller located in the same plane as the main and udovashym additional volute with rectilinear portion directed opposite rectilinear main portion of the spiral chamber, the straight portions covered by the cameras are parallel and rectilinear 1TR common nozzle, the inner surface of the side walls which is adjacent to the respective side surfaces