RU2025576C1 - Flow operated pump - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: pump has two water suction cylindrical tanks rigidly secured to the ends of a shaft having two toothed sectors which engage with teeth of gear wheels of the driving shaft of the increase gearing. The teeth of the gear wheels of the driving wheels of the increase gearing engage with vertical toothed stands of a bearing. In rotation of the toothed sections the increase gearing and water suction tanks reciprocate with respect to the toothed stands. EFFECT: enhanced efficiency. 5 dwg

Description

 The invention relates to mechanical engineering, in particular to pumps for pumping liquids.

 Known pump containing a water intake tank, coaxially located pipelines, valve, housing.

 Its disadvantage is that the rise of the liquid to a particular height is due to the consumption of compressed air.

 Closest to the invention is a pump containing a water intake pipe, hinge, stand, stop.

 The disadvantage of this device is that the rise of the supplied fluid is limited by the length of the pipe filled with water.

 The goal is to increase the lifting height of the fluid pumped by the pump.

 This is achieved due to two cylindrical inlet containers that are rigidly fixed to the ends of the shaft having two gear sectors meshed with the gears of the drive shaft of the booster gear, and the gear teeth of the driven shafts of the booster gear are meshed with vertically and parallelly mounted gear racks, moreover, in the process of rotation of the gear sectors, the raising gear and the intake tanks make reciprocating motion relative to the gear racks.

 Figure 1 shows the arrangement of two water intake tanks at the time of filling them with water; figure 2 - diagram of the discharge of water from the first cylindrical tank after lifting to a nominal height; figure 3 - diagram of the discharge of water from the second cylindrical tank; figure 4 - diagram of the transmission of torque from the shaft to the up-gear; figure 5 is a diagram of the fixing on the shaft of cylindrical tanks and sectors that are engaged with the gears of the gearbox.

 The device comprises a first tank 1 of a cylindrical shape for water intake, designed for lifting in a vertical plane, a second tank 2 of a cylindrical shape to create torque, a shaft 3 for transmitting torque to the gear sectors 4, gear 5, a drive shaft 6, a gearbox 7, the details of which are coated with anti-corrosion protection, and kapron bushings are used as bearings to provide reciprocating motion in the vertical plane of the first and second containers, driven gears 8 and driven Ala 9, rotating on kapron supports, gear racks 10 for moving the booster gear, drain valve 11 for draining water from the first tank of the stop 12 to open the drain valve, limiters 13 to open the drain valve, drain valve 14 for draining water from the second tank, stop 15 to open the drain valve, counterweights 16 for moving containers 1 and 2 in a horizontal position.

 The device operates as follows.

 There is no water in the first 1 and second 2 intake tanks. Under the action of the balances 16 containers 1 and 2 will occupy a horizontal position (see figure 1) and will be below levels 19. The process of filling containers 1 and 2 with water 18 will begin. Due to the fact that the volume of container 1 is much smaller (for example, three times ) than the volume of the tank, it will fill up faster. After filling the tank 2, the balance of forces acting on the shaft 3 through the distance (shoulder) 20 and 21 will be disturbed. The tanks 1 and 2 will begin to rotate together with the shaft 3. The resulting torque due to the mass of water in the tank 2 at a distance of 21 through sector 4 will begin rotate the driven gears 8, which will ensure that the raising gear 7 and the tanks 1 and 2 rise to a height of 17, which is several times higher than the level 19 due to the raising gear 7 and the mass of water 18 in the second tank 2.

 Touching the stops 12 and 15, the drain valves 11 and 14 will open. After draining the water 18 from the tank 1, the device will remain at a height of 17 until the water flows out of the tank 2. From this moment, due to the counterweights 16 and the total mass of the gearbox 7 tanks 1 and 2 and sectors 4, the device will begin to fall, and tanks 1 and 2 will simultaneously begin to occupy a horizontal position. Valves 11, 14 will close. If tanks 1 and 2 are below level 19, the process of filling the latter with water will be repeated.

Claims (1)

 A PUMP WITH A DRIVE FROM A LIQUID FLOW, containing a support and a rotary cylindrical tank pivotally mounted by means of a shaft with the formation of a larger and smaller shoulders and the tank communicates with the fluid flow, while a restrictive stop is fixed on the lower part of the support, a counterweight on the smaller shoulder of the tank, and in a drain device is made in the end region of its larger shoulder, characterized in that, in order to increase the lift height of the liquid pumped by the pump, the pump is equipped with an additional cylindrical tank with a water intake a drain device, rigidly attached to the hinge shaft opposite the smaller shoulder of the main tank, and a gear raising gear, while the support is equipped with vertical gear racks, tanks are mounted on the gearbox housing, the hinge shaft is connected to the input gears of the latter by two gear sectors rigidly attached to the shaft, and the output gears of the gearbox are installed with the possibility of contact and movement along the gear racks of the support, and the drain devices of the tanks are equipped with valves.

Images