SU1255740A1 - Peristaltic pump - Google Patents

Abstract

1. A peristaltic pump mainly for lifting water from wells, comprising a housing in which a supporting disk is installed with a tubular elastic working chamber arranged around its circumference on its end surface and interacting with rollers mounted on the axles and inlet to the pumped liquid source, and with an outlet nozzle, and a drive mechanism with a vertical drive shaft mounted in bearing assemblies mounted on a carrier and in a housing, characterized in that, in order to simplify and designs, the drive shaft is hollow and rigidly associated with the supporting plate, the outlet is connected to the drive shaft in its lower part, the working chamber inlet placed into the upper end surface of the support disc and the roller axles are fixedly mounted in the housing. (L N3 SP CL (rig.1

Description

2. Pump according to Claim 1, characterized in that in the upper part of the drive shaft there is a L-shaped drain nozzle, and the supporting element is provided with an annular receiving tank having a discharge nozzle installed below this nozzle and the drive shaft surrounding the drive shaft.

3. Pump on PP. 1 and 2, characterized in that the drive shaft with the supporting disk is installed in the bearing assembly with the possibility of free axial movement by an amount exceeding the height of the free working chamber from the surface of the supporting disk.

4. Pump on PP. 1-3, characterized in that, in order to enable it to work due to wind energy, the drive

one

The invention relates to pump engineering, peristaltic pumps, and may find application in various sectors of the national economy for pumping fluids from wells.

The purpose of the invention is to simplify the design, as well as to enable the pump to operate at the expense of wind energy and to provide the possibility of shutting down the pump to increase its durability.

FIG. I depicts the design of the pump; in fig. 2 - the ground part of the pump with the power plant in the form of a rotor wind turbine; in fig. 3 - pump scan on a cylindrical surface of diameter D; in fig. 4 — The design of the discharge and braking device.

The peristaltic pump comprises a housing 1 in which a supporting disk 2 with a tubular elastic working chamber 4 arranged around a diameter D on its face surface 3, which interacts with rollers 6 fixed on axles 5 and inlet 7 with a source of pumped liquid and output 8 - with outlet pipe 9. The pump has a drive mechanism with a vertical drive shaft 10 installed in the bearing assemblies I. The drive shaft 10 is hollow and rigidly connected to the supporting disk 2. The outlet pipe 9 is connected to the drive shaft one shaft 10 in its lower part. Inlet 7 of the working chamber 4 is brought to the upper end surface 12 of the supporting disc 2, and the axis 5 of the rollers 6 is fixedly mounted in the pump housing 1.

In the upper part of the drive shaft 10, an L-shaped drain pipe 13 is made, and below it is installed, the covering mechanism is made in the form of a rotor wind turbine.

5. Pump according to Claims 3 and 4, characterized in that, in order to enable the pump to be shut down to increase its durability, the drive shaft is provided with a brake disc, on the carrier element above this disc are installed with the ability to interact with it the friction elements a disc is a pivotally mounted lever that has at one end a fork with rollers that interact with the lower surface of the brake disc.

6. Pump according to Claim 5, characterized in that at the end of the lever opposite to the fork there is a hook for hanging a tared by weight counter-load.

water shaft 10, annular receiving tank 14, having a branch pipe 15 A drive shaft 10 with a supporting disk 2 is installed in bearing assemblies 11 with the possibility of free axial movement by an amount exceeding the height of the free working chamber 4 from the surface 3 of the supporting disk 2. The drive mechanism is made as a rotary wind turbine 16.

The drive shaft 10 is equipped with a toroidal disk 17. On the case 1, above the disk 17, friction elements 18 cooperate with it, and below the brake disk, a hinged lever 19, having a fork 20 with rollers 21 interacting with the bottom surface at one end 22 of the brake disc 17. At the opposite end of the fork 20 of the lever 18, a hook 2c is provided for hanging a tared by weight counter-load (not shown). The upper bearing assembly 11, the receiving tank 14 and the friction elements 18 are mounted on the bearing element 24.

The pump works as follows. The rotation of the rotary wind turbine 16 under the action of the wind is transmitted through the shaft 10 to the supporting disk 2, which rotates together with the working chamber 4. The rollers 6 mounted on fixed axles 5 in the housing 1 sequentially unclench the working chamber 4, ensuring movement of the pumped liquid from inlet 7 to outlet 8. Disk 2 with chamber 4 is submerged under the level of fluid in the well and therefore the last is constantly fed to the inlet 7 of working chamber 4. From outlet 8 of the working cavity 4, fluid flows through nozzle 9 into the hollow

the drive shaft 16 and rises it to the surface. Through the L-shaped discharge port 13, it is poured into the receiving tank 14 and through the outlet pipe 15 to the consumer.

The support disk 2 is pressed against the rollers 6 by the weight of the drive shaft 10 and the wind turbine 16. In order to avoid overpressing of the working chamber 4, the weight of the shaft 10 and the wind turbine 16 is counterbalanced by hooking 23 and through the lever 19, the fork 20 and the rollers 21 press down on the surface 22 of the disk 17.

If it is necessary to turn off the pump for a long time, an additional load is attached to the hook 23 or an applied load is applied in any other way. In this case, the lever 19, having overcome the weight of the shaft 10 and the wind turbine 16, lifts the brake disk 17 and presses it against the friction elements 18. The shaft 10 stops. At the same time, the supporting disk 2, lifting together with the shaft 10, frees the working chamber 4 from interacting with the rollers 6. Thereby, the working chamber 4 is unloaded.

FIG. 2

fig.Z

phage. four

Compiled by V. Gruzinok

Editor M. BlanarTechred I. Veres Proofreader V. Bt ha

Order 4796/34 Circulation 586 Subscription

VNIIPI USSR State Committee

for inventions and discoveries

113035, Moscow, Zh-35, Raushsk nab. 4/5

Branch PPP "Patent, Uzhgorod, st. Project, 4

Claims (6)

1. A peristaltic pump primarily for lifting water from wells, comprising a housing in which a support disk is installed with a tubular elastic working chamber placed around the circumference on its end surface, interacting with rollers fixed to the axes and communicated with the input to the pumped liquid source, and the output with an outlet pipe, and a drive mechanism with a vertical drive shaft mounted in the bearing assemblies mounted on the supporting element and in the housing, characterized in that, in order to simplify For instructions, drive shaft is hollow and rigidly associated with the supporting plate, the outlet is connected to the drive shaft in its lower part, the working chamber inlet placed into the upper end surface of the support disc and the roller axles are fixedly mounted in the housing. Ή Fig. 1 2. The pump according to π. 1, characterized in that in the upper part of the drive shaft a L-shaped drain pipe is made, and the supporting element is equipped with an annular receiving tank having a discharge pipe that is installed below the pipe and enclosing the drive shaft. 3. The pump according to paragraphs. 1 and 2, characterized in that the drive shaft with the support disk is installed in the bearing unit with the possibility of free axial movement by an amount exceeding the height of the free working chamber from the surface of the support disk. 4. The pump according to paragraphs. 1-3, characterized in that, in order to ensure the possibility of its operation due to wind energy, the drive mechanism is made in the form of a rotary wind turbine. 5. The pump according to p. 3 and 4, characterized in that, in order to ensure that the pump can be turned off to increase its durability, the drive shaft is equipped with a brake disk, friction elements are installed on the carrier above this disk, and below the brake a disk is a pivotally mounted lever having a fork at one end with rollers interacting with the lower surface of the brake disk. 6. The pump according to claim 5, characterized in that on the opposite end of the lever from the fork there is a hook for suspending the counter-weighted load.