RU39837U1 - PUMP AND CLEANER - Google Patents

Abstract

The proposed device relates to the field of liquid purification from mechanical impurities and can be used in local liquid purification systems in conjunction with vibration submersible pumps. The device comprises a housing with nozzles for supplying the initial liquid and drainage of sediment, a vibration pump with a suction nozzle and a nozzle for draining the clarified liquid, from which the discharge pipe exits, a filter element made of a metal perforated frame, covered with a mesh "rigidly fixed to the suction nozzle, and an elastic suspension, by means of which a vibration pump is suspended. The hydraulic suspension is an elastic hose (tube), the cavity of which communicates with the discharge pipe of the pump. The upper end of the hose is attached to a fixed support, and the lower end to the upper part of the pump housing. The proposed device allows to increase the amplitude of the vibration of the filter element and ensure its reliable continuous regeneration at high concentrations of mechanical impurities in the pumped liquid.

Description

The utility model relates to the field of purification of liquids from mechanical impurities when water is supplied to a consumer from a reservoir or tank using vibrating submersible pumps, for example, commercially available, such as "Trickle", "Kid", and other brands, and, in particular, can be used in local liquid purification systems.

There are many known pumping and treatment devices used for water clarification, in which the regeneration of the working surfaces is carried out using vibrational pathogens.

In the design of the vibration filter [G. Slabozhanin, E. Lashkivsky, E. Ya. Makarov, D. G. Slabozhanin, M. Nikonov Overview of vibrating strainer designs. Tomsk, state architect -building, un-t - Tomsk, 2001. - Bibliography. 16 titles - Rus.-Dep. at VINITI. 1-12 C.] the filter element is made in the form of a perforated frame of a cylindrical shape with muffled ends and fitted with a filter mesh. The filter element is connected by a rod to an electromagnetic vibration exciter. The disadvantages of this design is that the presence of the rod, its seal and external vibration exciter reduces the reliability of the vibration filter and increases its cost.

Known pumping device protected by the certificate of the Russian Federation for utility model No. 18147, IPC 7 B 01 D 21/28. It contains a housing with nozzles for supplying the source fluid, drain clarified fluid and sediment. Inside the housing, a vibration pump with a filter element made of a perforated metal frame fitted with a mesh, rigidly fixed to its suction pipe, was adopted. Filter element reciprocating

movement due to vibration transmitted from the vibration pump. To ensure normal operation, the vibration pump in this known filter is suspended on a special rubber suspension, which does not limit its fluctuations. Vibration of the pump is a necessary condition for its normal operation in modes close to resonant. But, in some cases, for reliable regeneration of the surfaces of pumping-and-treating devices, a higher amplitude of oscillations is required, especially at high concentrations of pollution. The rubber suspension does not allow high-amplitude oscillations to occur over the entire range of operating parameters (flow and pressure) of the pump. Therefore, at high concentrations of mechanical impurities in the liquid, the regeneration efficiency is not high enough.

The objective of the proposed utility model is to increase the vibration amplitude of the pump to ensure reliable continuous regeneration of its working surfaces at high concentrations of mechanical impurities in the pumped liquid.

The problem is solved in that in the known pumping-and-treating device, comprising a housing with nozzles for supplying the initial liquid and drainage sediment, a vibration pump with a suction nozzle and a nozzle for drainage of clarified liquid, connected to the discharge pipe, a filter element of a perforated metal frame covered with a mesh rigidly mounted on the suction pipe, and an elastic suspension with which the vibration pump is suspended, according to a utility model, the suspension is made in the form of elastic tube, the cavity of which is in communication with the discharge pipe.

In this case, the suspension functions as a hydraulic suspension. In accordance with the law of conservation of momentum, when displacing

with a piston of a vibrating pump, a portion of the liquid in the discharge pipe, its body rushes down, thereby sharply increasing the pressure in the liquid and, accordingly, in the hydraulic suspension. The increase in pressure leads to an increase in the length of the suspension and an additional movement of the pump casing down, which explains the increase in the amplitude of its oscillations. Increasing the amplitude allows for reliable regeneration of the mesh of the filter element.

Figure 1 presents a General view of the pumping-treatment device. Figure 2 - dependence of fluid flow on amplitude for the inventive device and for the prototype.

The device contains an elastic tube 1, the cavity of which communicates with the discharge pipe 2 of the vibration pump 3. The upper end of the tube 1 is attached to a fixed support 4, and the lower end to the upper part of the pump housing 5. The vibration pump 3 contains an electromagnetic vibration exciter in the form of a U-shaped electromagnet 6 with two coils and an armature 7 connected by a rod 8 with an elastic piston 9 located under the armature 7. The elastic piston with the housing 5 of the pump 3 forms a suction chamber 10 in which the check valve 11 is located. In the lower part STI pump is rigidly fixed filter element 12. The pump 3 with filter element 12 located in the pump housing 13, a cleaning device with nozzles for supplying raw liquid outlet 14 and sludge 15.

The proposed system works as follows. Water through the check valve 11 enters the housing 5. Due to the action of the electromagnet 6, the piston 9 is driven into oscillatory motion. During its downward movement, the check valve 11 closes, and water through the gap between the piston and the housing (suction chamber) is pushed into the annular

space 16 (discharge chamber) and through the discharge pipe 2 is supplied to the consumer.

Figure 2 shows the dependence of fluid flow on the amplitude, where number 1 shows the dependence for the prototype, and number 2 for the claimed utility model. As can be seen from the above dependencies, the hydraulic suspension allows you to increase the amplitude of the oscillations of the pump housing and filter element, in contrast to the suspension design of the prototype. In this case, the pressure-flow characteristic when changing a conventional suspension to a hydraulic one remains practically unchanged. Increasing the amplitude provides reliable regeneration of the mesh of the filter element.

Therefore, it is recommended to use such a suspension to increase the amplitude of vibration of the filter and ensure its reliable continuous regeneration at high concentrations of mechanical impurities in the pumped liquid.

Claims (1)

A pumping-and-treating device comprising a housing with nozzles for supplying a source liquid and discharging sludge, a vibration pump with a suction nozzle and a nozzle for draining clarified liquid connected to a discharge pipe, a filter element of a perforated metal frame covered with a mesh, rigidly fixed to the suction pipe, and elastic suspension, by means of which a vibration pump is suspended, characterized in that the suspension is made in the form of an elastic tube, the cavity of which is communicated with a supercharger pipeline.