RU70078U1 - VACUUM PUMPING STATION - Google Patents

Abstract

The utility model relates to agriculture, namely, equipment for machine milking cows during the summer pasture period, as well as in stationary conditions. The essence of the utility model: a vacuum pump station includes a diesel engine (1) mounted on the frame (5), a water tank (4) and a bearing assembly (2). A water ring vacuum pump (3) is installed on the water tank (4). The shaft (8) of the bearing assembly (2) is aligned with the shaft (6) of the diesel engine (1) and connected to it through a coupling (7). The other end of the shaft (8) of the bearing assembly (2) is connected by a V-belt drive (10) with the shaft (12) of the liquid ring vacuum pump (3). V-belt drive (10) is closed by a casing (13). The utility model allows the creation of autonomous vacuum pumping stations with low energy consumption and satisfying environmental safety requirements. 1 ill.

Description

The utility model relates to agriculture, namely, equipment for machine milking cows during the summer pasture period, as well as in stationary conditions. The utility model can be used in other industries to create a vacuum.

A known vacuum system of a milking unit / SU 1500219, IPC A01J 7/00, 08/15/89, containing a pump, an electric motor, a vacuum control device, made in the form of kinematically connected variator and pneumatic chamber, which is in communication with the receiver, a central duct . This invention improves the efficiency of the milking process by stabilizing the vacuum. However, this installation cannot be used for milking cows with grazing due to the lack of centralized energy supply.

Also known is a vacuum installation for machine milking / RU 2226049 C1, IPC A01J 5/00, 2004.03.27 /, comprising a pump, discharge and suction nozzles, a circular collector, a suction pipe, a nozzle, a liquid tank, an electric motor. However, the use of this vacuum installation for milking cows in grazing conditions is difficult due to the need to connect to power lines.

The closest in technical essence to the claimed utility model is a mobile milking machine / RU 93038984 A1, IPC A01J 5/00, 1997.03.20 /, which is selected as a prototype. The installation comprises an electric motor and a vacuum pump. The shafts of the electric motor and the vacuum pump are located in parallel and are connected by a belt drive, closed by a casing. Milking bucket, belt drive

and a vacuum pump with an electric motor in the indicated sequence are installed at the same level on the flat frame of the trolley.

The disadvantage of this installation, as well as the above installations, is that to drive an electric motor, it is necessary to be powered by power lines, which is difficult to perform in the field.

The objective of the utility model is the creation of an autonomous vacuum pumping station with low energy consumption and satisfying environmental safety requirements.

The problem is solved due to the fact that in the vacuum pump station, which includes an engine and a vacuum pump mounted on the frame, the shafts of which are parallel, the belt drive closed by a casing, according to a utility model, the engine is diesel and the vacuum pump is a ring-type one, contains a coupling, a water tank mounted on the frame, connected to a vacuum ring-type pump, and a bearing assembly, the shaft of which is coaxial with the diesel engine shaft and connected to it through a coupling, and the other end of the bearing shaft The unit is connected by a belt drive to the shaft of a liquid-ring vacuum pump.

As a belt drive, a V-belt drive can be used.

The device of the vacuum pump station is illustrated in the drawing.

The vacuum pump station includes a diesel engine (DD) 1, a bearing assembly 2 and a liquid ring vacuum pump 3 connected to the water tank 4. DD 1, the bearing assembly 2 and the water tank 4 are mounted on the frame 5. The shaft 6 of the DD 1 is connected via a coupling 7 with one of the ends of the shaft 8 of the bearing assembly 2, on the other end of which the driving pulley 9 of the V-belt drive is located 10. The driven pulley 11 of the V-belt transmission is located on the shaft 12 of the water ring vacuum pump 3. The V-belt transmission 10 is closed by a casing 13.

The vacuum pump station is delivered by energy to the place of grazing cows and connected to the milking unit. The station is as follows.

The suction pipe 14 of the vacuum pump 3 is connected to the vacuum pipe of the milking unit (not shown in the drawing). Before milking starts, DD 1 is started (manual or starter start). The rotation from the crankshaft 6 DD 1 is transmitted through the clutch 7 to the shaft 8 of the bearing assembly 2. The drive pulley 9 of the V-belt drive 10 is rotated. water ring vacuum pump and the process of milking cows begins.

Using the bearing assembly 2 allows you to unload the crankshaft 6 DD 1 from radial loads arising from the tension of the V-belt drive 10, and the use of the coupling 7 ensures the alignment of the shafts 6 and 8 of the bearing assembly 2 within the tolerance and prevents the transmission of vibrations from the DD 1 to the shaft 8.

The use of a diesel engine in a vacuum pump station makes it autonomous, which allows it to be used to create a vacuum in milking installations with grazing cows. In addition, in contrast to the use of an energy tool, for example, a tractor, as a drive, the use of a diesel engine is more economical in terms of the amount of fuel consumed. The use of V-belt transmission from the point of view of environmental safety is preferable in comparison with other types of kinematic connections, for example, a gearbox.

Claims (2)

1. A vacuum pump station, including a motor mounted on the frame and a vacuum pump, the shafts of which are parallel, a belt drive closed by a casing, characterized in that the engine is diesel and the vacuum pump is ring-type, contains a coupling, a water tank mounted on the frame, connected to a vacuum ring-type pump, and a bearing assembly, the shaft of which is coaxial to the motor shaft and connected to it through a coupling, and the other end of the shaft of the bearing assembly is connected by a belt drive to the shaft of the ring-ring vacuum intelligent pump. 2. The station according to claim 1, characterized in that the belt drive is V-belt.