SU922312A1 - Diphragm metering pump - Google Patents

Description

(5t) DIFFRAGMENARY BATTERY PUMP

The invention relates to a pump engineering industry, relates to metering pumps for dispensing micro-quantities of liquids and can be used in various sectors of the national economy, for example, in liquid chromatography.

A diaphragm pump 53ator is known, comprising a housing in which a tubular elastic pumping chamber is placed, a spring-loaded valve pinching the pressure chamber, and a displacement mechanism formed by a pressure element fixed at one end in the housing by means of a spring suspension, and a rod cooperating with the pressure element on the area between the other of its free end and suspension 11.

The disadvantages of the known pump is the error in the dosing of small amounts of liquid, which is connected with the detachment of a drop of the liquid being metered, remaining after the injection stroke.

at the pump outlet, when dispensing without backpressure at the outlet, for example, into the atmosphere.

The purpose of the invention is to improve the accuracy when dispensing the microquality of a liquid without overpressure; .

This goal is achieved by the fact that the displacement mechanism is equipped with a connecting valve with a rod with a kinematic transmission with a guaranteed free stroke, the value of which is determined from the ratio

five

where a is the move of the displacer;

1 - distance from stem axis

up to the spring suspension of the pressure element;

Claims (2)

i is the gear ratio of the kinematic transmission; the distance from the spring by weight to the free end of the pressure element; 6 - the value of the guaranteed free running. The kinematic gear can be made in the form of a two-armed lever and connected to the valve rod, the lever being pivotally connected at one end to the rod and provided with a groove on the other end in which the end of the rod is placed with the possibility of axial displacement, I The drawing shows the proposed dosing pump. 8, the pump housing 1 houses a tubular elastic pump chamber 2. A spring-loaded valve 3 interacting with the camera 2. The housing 1 houses a displacement mechanism formed by a pushing member 4 fixed at one end in the housing 1 on the spring suspension 5 and the rod 6. 6 interacts with a pressure element in the section between its second end and suspension 5. The displacement mechanism is also equipped with a connecting valve 3 with a rod 6 with a kinematic transmission C guaranteed free running & which is made in the form of a two-arm lever 7 and a rod 8 connected to the valve 3. The lever 7 is pivotally connected at one end to the rod 6 and provided at the other end with a groove 9 in which the end of the rod 8 is axially displaced. This end has an axis 10, which enters the groove 9 of the lever 7. In the middle part, the lever 7 is fixed in the housing 1 pivotally on the axis 11. The free motion of the kinematic transmission is equal to the ratio of the product of the stroke of the pressure element to the distance j from the axis of the rod 6 to the spring suspension 5 to the product of the gear ratio i to Inematic Transfer to Distance | from the suspension 5 to the free end of the pressure element k. The stroke of the pressure element in the pump is equal to the size of the O-section of the pump chamber 2 in the direction of movement of the rod 6. In the case of a pumping chamber of circular section, the size a is equal to the internal diameter of the chamber. The gear ratio of the kinematic gear 2 is equal to the ratio of the arms E, and 8 3 levers 7, where p2 is the distance from the axis 11 of the swing of the lever 7 to ti 8; fj is the distance from the axis 11 of the swing of the lever 7 to the rod 6. Thus, in the proposed metering pump, the free running of the kinematic transmission is S.- | l.a. Pump chamber 2 at the entrance; equipped with a supply pipe 12, and at the outlet with a capacity of 13 for the dispensed liquid. The pump chamber 2 is placed on the base T mounted in the housing 1 with the ability to move perpendicular to the axis of the chamber 2. The base 14 is provided with a regulating mechanism 15. The pump operates as follows. When the reciprocating movement of the rod. 6, the pressure element first presses the pump chamber 2 with the free end, the compartment at the same time the dose of the pumped liquid, and then squeezes this dose out of chamber 2 through the nozzle 12 to the consumer. Before the free end of the pressure element completely cuts off the dose of fluid in chamber 2, a gap 5 is selected in the groove 9 and the valve 3 remains closed. After the dose has been cut off, the gap S in the groove 9 is completely selected and the lever 7 presses valve 3 through traction 8. At the same time, the fluid is expelled from chamber 2 by pressure member 4. After the pumping stroke is completed, rod 6 begins to move away from chamber 2, and valve 3 on the contrary, to the chamber 2. At the same time, the spring suspension 5 presses the end of the pressure element k from the side of the nozzle 12 and the volume of the pump chamber 2 increases. At the same time, the valve 3 has not yet completely blocked the cross section of the pump chamber 2 and the fluid in the nozzle-12 is partially sucked back into the chamber 2. This prevents the formation of a hanging drop of metered liquid at the end of the nozzle 12, which, if accidentally removed 5 to change the total amount of the dose by entering the consumer. After the valve 3 completely overlaps the pump chamber 2, the free end of the pressure element t is removed from chamber 2 and the pumped liquid rushes towards the latter from the tank 13 filling the chamber 2. In the process of returning the pressure element k to the initial position, valve 3 remains closed, and in groove 9 a gap S is selected. Then the cycle repeats. The magnitude of the fluid dose is strictly on-defined by the difference in the pump chamber 2 working volume, enclosed under the pressure element k, and the volume of liquid enclosed in the pipe 12 and part of the pump. chamber 2 to valve 3 This dose can be adjusted by moving the base} C using mechanism 15. Due to the fact that droplets are eliminated at the end of patron 12 which, if accidentally, can introduce significant errors into the dose amount when dosing micro quantities of liquid, dosing accuracy. Claim 1. Diaphragm dosing pump, comprising a housing in which a tubular elastic pump chamber is placed, a spring-loaded valve holding the chamber, and a displacement mechanism formed by a pressure element 26 mounted at one end in the housing by means of a spring suspension and a rod interacting with the pressure element in the area between its other free end and the suspension, characterized in that, in order to improve the accuracy in dosing of micro-quantities of a liquid without backpressure at the outlet, the displacement mechanism with abzhen.sv binding valve stem with a kinematic transmission with guaranteed free lift, kotdrogo value is determined from the relationship with -, and somewhere - the course propellant; i is the distance from the axis of the rod to the spring suspension of the pressure element; - The gear ratio of the kinematic transmission; f | - the distance from the spring suspension to the free end of the pressure element; 5 - the value of the guaranteed free running. 2. A metering pump according to Claim 1, characterized in that the kinematic transmission is made in the form of a two-armed lever and connected to the valve rod, the lever being pivotally connected at one end to the rod and provided at the other end with a groove in which end of gi. Sources of information taken into account in the examination 1. USSR author's certificate N 523191, cl. F Ok In “43/08, 1973.