RU172784U1 - Auxiliary pump unit of the vacuum machine - Google Patents

Abstract

The utility model relates to the field of municipal engineering, and specifically to machines with vacuum equipment for the preventive and emergency cleaning of sewer and drainage networks. The device contains a discharge system consisting of two coaxially mounted vacuum pumps, one pump 1 with left rotation of the shaft 2 and an additional pump 7 with the right rotation of the shaft 6, assembled into the block by means of a rubber sleeve 4, a pulley 3 is installed under the belt 8 on the pump 1 side, transmitting rotation from the driveshaft 9 to the sleeve 4, with one ones pump 7 is mounted a pulley 5 for transmitting rotation of the clutch 4 through the pump shaft 6 7.Tehnichesky result from the use of the utility model is to increase the performance of the vacuum pump, increasing the efficiency of the design of the vacuum installation, ease of installation, and fastening device. 2 ill.

Description

The utility model relates to the field of municipal engineering, and specifically to machines with vacuum equipment for preventive and emergency cleaning of sewer and drainage networks.

The vacuum pump for sewage is designed to work in conjunction with other equipment installed on the sewer machine. With its help, the contents are pumped into a special tank in which it is transported to the place of disposal. The principle of operation of the vacuum pump is to create a vacuum in the working chamber for a short period of time. As soon as such a vacuum reaches the required value, the pumped substance (sewage, waste water, steam) is sent to the storage tank. This type of pump is considered the most efficient and safe for the environment. A high vacuum pump will be useful when working with low pressure readings. Typically, two pumps in series are used. Serial is called such a connection in which the liquid received energy from the pump is fed into the suction pipe of the next unit. In such cases, the increase in pressure occurs in steps, from pump to pump. Therefore, pumps connected by this principle are divided into units of the first, second, etc. steps.

A disadvantage of the known technical solutions is that if it is structurally possible, it is economically more expedient to use one stage of pressure transformation, since hydraulic losses are great when transporting fluid from one pump to another, and as a result of the influence of hydraulic forces on the working elements of the second unit, its efficiency is significantly reduced ( up to 70%).

The closest technical solution to the claimed device is a machine for cleaning drainage wells (patent RU 49042, IPC ⁷ E03F 7/10, publ. 10.11.2005), containing a discharge system with a main pump and an additionally installed pump.

In the known solution, two series-connected pumps are used.

A disadvantage of the known technical solution is low productivity

The objective of the utility model is to improve the design of the vacuum installation for cleaning drainage wells, which allows to increase the productivity of the vacuum machine.

The technical result from the application of the utility model is to double the productivity of the vacuum pump, increase the efficiency of the design of the vacuum installation, ease of installation, fixture and device.

This is achieved due to the fact that in the auxiliary pumping unit of a vacuum machine containing a discharge system with a pump and an additionally installed second pump, according to a utility model, a vacuum pump with left-hand rotation of the shaft and an additional vacuum pump with right-hand rotation of the shaft, assembled in block by means of a rubber coupling, a pulley under the belt is installed on the pump side with left-hand rotation of the shaft to transmit rotation from the cardan shaft to the coupling, on the pump side with right-hand shaft rotation is installed a pulley is mounted to transmit rotation through the coupling to the shaft of the additional second pump.

In FIG. 1 is a diagram of an auxiliary pump unit of a vacuum machine, general view.

In FIG. 2 - the same, a fragment of the pump assembly through the coupling.

In photo 1 - the same fragment of the pump assembly through the coupling.

In photo 2 - the same general view.

Positions indicate: pump 1 with left rotation; shaft 2 of pump 1; pulley 3 for pump 1; rubber coupling 4; pulley 5; shaft 6; pump 7 with the right rotation, belt 8 for transmitting rotation; propeller shaft 9; pulley 10.

The device comprises a delivery system consisting of two coaxially mounted vacuum pumps, one pump 1 with left-hand rotation of the shaft 2 and an additional pump 7 with right-hand rotation of the shaft 6, assembled in a block by means of a rubber coupling 4, from the side of pump 1 a pulley 3 is installed under belt 8, transmitting rotation from the driveshaft 9 to the coupling 4, from the side of the pump 7 a pulley 5 is installed for transmitting rotation through the coupling 4 to the shaft 6 of the pump 7.

The device operates as follows.

When the power take-off (COM) is turned on, the driveshaft 9 starts to rotate. Through the belt 8 from the shaft pulley 10, the rotation is transmitted to the pulley 3 for the pump 1. The rubber coupling 4 starts to rotate, the rotation is transmitted to the shaft 6 of the pump 7. The rotors of the pump 2 begin to rotate ( not shown in the figure). The rotors of both pumps have installed blades, with the help of centrifugal force, the blades are pushed out of the rotor by inertia of the rotor, and air is taken at the inlet of both pumps. Under the action of air compression, air is supplied to the outlet of the pumps. A vacuum is created, productivity is doubled.

The vacuum pump for the cesspool machine creates a vacuum or pressure in the vacuum-discharge system of the car. Thanks to him, the pumping of household waste from sewer systems, septic tanks, wells, etc. is implemented. Under its discharging action, the pumped liquid rises up into the tank along the suction sleeve.

It is applied to pumps of the Russian manufacturers: models: KO 505, KO 529 and their analogues.

Photo 1 and 2 shows an industrial design of the claimed device.

This utility model is several times lower than the cost of similar "single-pump" plants with similar performance, easy to install, fasteners and device. The operation of the pumps in pairs reduces the likelihood of overheating of the vacuum pump and its failure.

Claims (1)

Auxiliary pumping unit of a vacuum machine, comprising a pressure system with a pump and an additionally installed second pump, characterized in that the device is coaxially mounted with a vacuum pump with left-hand rotation of the shaft and an additional vacuum pump with right-hand rotation of the shaft, assembled into the unit by means of a rubber sleeve, on the pump side with a left rotation of the shaft, a pulley is installed under the belt for transmitting rotation from the cardan shaft to the coupling, on the pump side with a right rotation of the shaft, a pulley is installed for transmitting rotation through the ftu to the shaft of the additional second pump.

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