RU2037650C1 - Pump with a resilient working member - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: drive roller connects the electric drive with the eccentric and with the mechanism of transformation of the rotary motion into the forward one with the pusher of the resilient working member. The roller is made as a washer with a slot in which the eccentric with a bearing is fixed with the aid of an adjusting screw. A horizontal slot is made in the pusher. Its width is equal to the output diameter of the eccentric bearing mounted in it. EFFECT: enhanced efficiency. 4 cl, 2 dwg

Description

 The invention relates to a pump engineering and, in particular, to bellows metering pumps with electric drive.

 The pump is designed for dosing and pumping liquids in chemical and biochemical laboratories and small-scale production at feed speeds exceeding the drip mode.

 Known pumps with elastic working bodies, for example bellows, containing an electric drive connected by a drive roller and a mechanism for converting rotational motion into translational motion with a pusher of the working body.

The conversion mechanism is made in the form of an eccentric mounted on the shaft in direct contact with the pusher of the working body [1]
In these pumps, their performance changes only due to a change in the frequency of rotation of the electric drive. At a constant speed, the pump performance remains unchanged.

 Closest to the invention in their technical essence are pumps with elastic working bodies, containing an electric drive connected by a drive roller and a mechanism for converting rotational motion into translational motion with a pusher of the working body.

In this case, the pump performance can be controlled not only by changing the frequency of rotation of the electric drive, but also by changing the magnitude of the stroke of the working body by making structural changes to the mechanism for converting rotational motion into translational, for example, by changing the magnitude of the eccentricity of the drive roller [2]
A disadvantage of the known pumps is the structural complexity of the mechanism for converting rotational motion into translational, large weight and dimensions, the significant complexity of its manufacture and low accuracy of eccentricity control.

 The invention allowed not only to simplify the design of the mechanism, but also to increase the operational properties of the pump as a whole.

 The essence of the invention lies in the fact that in the proposed pump with an elastic working body, for example a bellows, containing an electric drive connected by means of a drive roller with an eccentric and a mechanism for converting rotational motion into translational motion with a pusher of an elastic working body, and a hydraulic line with inlet and outlet valves, the drive roller is made in the form of a washer with a groove, in which an eccentric with a bearing is fixed using the adjusting screw, and a horizontal groove, width and is equal to the outer diameter of the input into it the eccentric bearing.

 In addition, the pump is equipped with a valve with an adjusting conical screw connecting the internal cavity of the working body with the line to the inlet valve, it has a pumping device made in the form of a spring-loaded lever in contact with the bellows assembly and a screw stop connecting the bellows assembly with the pusher, on the control the screw has a conical lock nut, and the screw itself and the washer are provided with a cone, and risk is applied to the eccentric.

 In FIG. 1 shows a general view of the pump; in FIG. 2 same side view.

 The pump consists of a frame 1, on which a drive motor 2 with a gearbox is fixed. The output shaft of the electric motor through a spline coupling is connected to the shaft of the washer 3, in which an eccentric 5 is fixed with a screw 4 with a bearing 6 mounted on the axis. A lock conical nut 7 is provided for locking the screw. The axis with the bearing 6 enters the horizontal groove 8 of the pusher 9, which has the ability move vertically in the guide sleeve 10 mounted on the frame 1. On the same frame, four struts 11 fasten the bellows assembly 12 and the housing 13 with a hydraulic line 14, in which the inlet 15 and outlet 16 valves are installed. The pump is equipped with a valve with an adjusting conical screw 17. The rod 18 of the bellows assembly enters the hole of the pusher 9 and is fixed in the groove with a screw stop 19. For convenience, filling the pump cavities with working fluid and quickly removing air plugs from the system, a booster device is made in the form of a spring-loaded lever 20, in contact with the bellows assembly 12.

 The pump performance is controlled by the displacement of the axis of the eccentric 5 relative to the axis of the shaft of the washer 3, which makes it possible to move the plunger 9 and the associated bellows 12 by the amount of double displacement of the axis of the eccentric during rotation of the motor shaft. For convenience, the eccentricity value is counted on the eccentric at risk 21, and on the washer the scale is 22. The accuracy of the eccentric installation is provided by the Vernier 23 applied to the head of the adjusting screw 4.

 The pump operates as follows.

 When the electric motor is connected to the network, the washer shaft with the eccentric 5 begins to rotate. If the axes of the drive shaft and the eccentric coincide, the rod 18 will be stationary. When the screw is turned, the eccentric with the axis will shift relative to the axis of the drive shaft. In this case, for each revolution of the drive shaft, the rod 18 will move up and down by the amount of the adjusted eccentricity. Moving down, the rod 18 stretches the bellows, the vacuum formed in the bellows cavity opens the inlet valve 15, through which the working cavity of the bellows is filled. The output valve 16 at this time by the action of a differential pressure in the output line and in the bellows cavity is closed. When the rod 18 is moved upward, a pressure is created in the bellows cavity, which opens the outlet valve 16 and closes the inlet valve 15. The volume of liquid from the bellows cavity enters the outlet line.

 To ensure minimum pump performance, a valve, adjustable with a conical screw 17, connecting the bellows cavity to the line in front of the inlet valve 15 is provided.

Claims (5)

 1. A PUMP WITH AN ELASTIC WORKING BODY, comprising an electric drive connected by a drive roller with an eccentric and a mechanism for converting rotational motion into translational motion with a pusher of an elastic working body, and a hydraulic line with inlet and outlet valves, characterized in that the drive roller is made in the form of a washer with a groove in which an eccentric with a bearing is fixed using the adjusting screw, and a horizontal groove is made in the push rod, the width of which is equal to the outer diameter of the bearing Ipnik with an eccentric.  2. The pump according to claim 1, characterized in that it is equipped with a valve with an adjusting conical screw for connecting the internal cavity of the working body with the line to the inlet valve.  3. The pump according to claim 1, characterized in that it is equipped with a booster device made in the form of a spring-loaded lever for contact with the bellows assembly and a screw stop connecting the bellows assembly with the pusher.  4. The pump according to claim 1, characterized in that a conical lock nut is installed on the adjusting screw.  5. The pump according to paragraphs. 1 and 4, characterized in that the adjusting screw with the washer is equipped with a vernier, and the risk is applied to the eccentric.

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