RU2353803C1 - Belt water elevator - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: invention is related to pump engineering, in particular, to belt water elevators for lifting of different liquids, for instance, water. Belt water elevator comprises drive, infinite belt pulled on upper drive and lower tension drums, and also ribbed press drum. The latter is installed outside leading branch of belt, in zone of upper drum, with ribs of rectangular shape, and its radial transverse size exceeds thickness of liquid layer on belt.

EFFECT: increased efficiency of water elevator.

3 dwg

Description

The invention relates to a pump engineering and can be used to lift various liquids, such as water.

Known tape water lift (RF patent No. 12018, F04B 19/14, 2001 (1)) containing an endless belt stretched on the upper drive, lower tension drums, and located under the upper clamping drum, made in the form of separate disks fixed rigidly on the axis and evenly spaced across the width of the tape.

The disadvantage of a water lift (1) is the displacement of liquid downward at the points of contact of individual disks with the working branch of the tape.

Known tape water lift (RF patent No. 1823915, F04B 19/14, 1993 (2)), adopted as a prototype, containing an endless tape stretched on the upper, lower and pinch drums, the latter being ribbed.

The disadvantage of the water lift (2) is the displacement of part of the liquid with the transverse ribs down and the runoff of water along the edges of the tape back to the water source.

It is also characteristic of both water lifts that when the tape slips relative to the pinch drum, the displaced layer of liquid enters the water source. Both disadvantages lead to a decrease in the productivity of the water lift.

The objective of the invention is to increase the performance of the tape hoist.

The technical solution consists in collecting the fluid displaced by the ribs on the surface of the pinch drum.

This is achieved by the fact that in the proposed water lift on a continuous cylindrical surface of the pinch drum, ribs of a straight shape are made, which are located symmetrically along the width of the drum.

The length of the ribs is equal to the length of the pinch drum and equal to the width of the tape. The number of ribs is determined by providing reliable support for the tape. With a decrease in the number of ribs, the probability of bending (sinking between the ribs) of the tape sharply increases, which leads to intermittent blows to the rib ribbon, vibrations of the ribbon occur and the discharge of raised water occurs. With an increase in the number of ribs, the picture of the possible deflection of the tape in the longitudinal direction changes sharply. This leads to an increase in strikes on the ribbed tape (continuous strikes), the tape more often touches the ribs, the amplitude of vibrations decreases and the amount of liquid discharged decreases, since the pinch drum becomes solid as it rotates. The radial transverse dimension of the rib is made greater than the thickness of the liquid layer on the tape to prevent overflow of water in the above space, especially at the initial moment of interaction of the drum with the tape. This occurs near the entrance of the tape to the drainage casing of the tape elevator, which means that the liquid can flow back. The proposed structural improvement and the selection of the size of the elements are aimed at preventing this phenomenon. To increase the volume of the drainage space of the drum and, if necessary, discharge the accumulated liquid in the upper and idle part of the tape branch, the width of the drum is made larger than the width of the tape.

Figure 1 shows the General diagram of the proposed tape water lift. Figure 2 shows the arrangement of straight ribs on the reamer pinch drum. Figure 3 shows the principle of contact of the tape with the pinch drum containing straight ribs.

The belt hoist contains an endless belt 3, stretched on continuous drums: top 1 and bottom 2 with a load of 14, located in the pumped liquid 4. Outside the ascending branch of the belt, a pinch drum 5 with straight ribs 6 is installed on the ground of the riser 6. The ribs 6 are mounted on the surface of the pinch drum 5, the transverse dimension of the ribs is made more than the thickness of the liquid layer on the tape 3. The upper 1 and pinch 5 drums are located inside the drainage box 9 with the outlet pipe 8. The drive is carried out by the engine 11 through the pulleys s 12 and 13 connected by a flexible coupling 10.

Tape water lift works as follows.

The upper drum 1, rotating clockwise from the engine 11, moves the tape 3. When the last particles of water move due to its viscosity, they form a thin layer on the surface of the tape, are carried away from the well upward by the inner and outer sides of the ascending branch of the tape. Under the action of centrifugal force, water is discharged into the catchment box 9 from the inner surface of the belt 3 in the zone of the pinch drum 5. Water on the outer surface of the ascending branch of the belt 7 is partially displaced by the edges of the drum and accumulates in the space bounded by the continuous surface of the drum 5 with adjacent ribs and the interacting surface tapes. The discharge of water accumulated in this way occurs when the tape of the upper drum 1 is bent into the drainage box 9. From the drainage box 9, water through the outlet pipe 8 enters the collection tank or for consumption.

INFORMATION SOURCES

1. RF patent No. 12018, F04B 19/14, 2001.

2. RF patent No. 1823915, F04B 19/14, 1993.

Claims (1)

A belt hoist comprising a drive, an endless belt stretched on the upper drive and lower idler, as well as a pinch drum, the latter is installed outside the leading branch of the tape in the upper drum area, a catchment box covering the pinch and upper drum with channels for the tape branches, characterized in that the ribs on the pinch drum with a continuous cylindrical surface are made of a straight shape, which are located symmetrically along the width of the drum, and the radial transverse dimension of the ribs is greater than the thickness of the liquid layer n tape.

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