SU1285322A1 - Peristaltic-action micrometering device - Google Patents

Abstract

The invention relates to devices for accurately metering large quantities of small volumes of liquids while automatically controlling the concentrations of various proteins, requiring; ; preliminary preparation of the analyzed environment. The micro-dosing unit contains pneumatic pinch elements 1, 2, 3 on an elastic rubber tube 4, electropneumatic valves 5, 6, 7 by the number of pinch elements and control unit 8, connected in such a way that exactly the specified doses are delivered to the micro-batcher output. 1 hp f-ly, 2 ill.

Description

1, 12

The invention relates to instruments for accurately metering large quantities of small volumes of liquids and can be used to automatically control the concentrations of various proteins, requiring prior preparation of the analyzed medium.

Figure 1 shows the block diagram of the peristaltic microbatcher; 2 is a control block diagram.

The microdosing unit contains three pinch elements 1-3, through which the elastic rubber tube 4 passes, electropneumatic valves (EPC) 5-7, the pneumatic outlets of which are respectively connected to elements 1-3. The control inputs of the electropneumatic valve 5-7, respectively, are connected to the control unit 8, one pneumatic inputs are connected to the supply line 9, and the other pneumatic inputs are connected to the atmosphere, and the control input of the pinch element 2 is connected to the atmosphere through the valve 10.

Each pinch element is made in the form of a hermetic reservoir 11 with an inlet 12 and an outlet 13 for the elastic rubber tube 4 placed in it and one opening 14 for the control inlet. The control unit 8 consists of a generator 15 pulses, a counter 16, a decoder 17 and output keys 18.

The pressure in line 9 for normal operation of the microbatcher may be equal to 1.4 atm., Since approximately the same air pressure is used in pneumolines to blow the plate for immunological reactions according to the immunoassay assay technology.

The device works as follows

In the initial state, before starting work, valve 7 is turned on, and valves 5 and 6 of you1 are switched off, while tube 4 is filled with metered liquid from a vessel (not shown) to which it is connected. Air through line 9 and open valve 7 enters element 3, in which tube 4 is clamped, which prevents entry

0

five

At the same time, it simultaneously issues signals to output 1 and output 3, respectively, to valves 5 and 7, through which the latter simultaneously switch - valve 5 opens and valve 7 closes. . In this case, the air from the line 9 through the open valve 5 enters the element

1, in which the tube 4 is clamped, preventing the flow of fluid to the inlet A, and the air cavity of the element

3 through the open valve 7 is connected to the atmosphere, which allows the tube

4 in the element 3 is straightened. Under the action of the elastic forces of the silicone rubber, allowing the fluid enclosed in the tube 4 between the elements 1 and 3 to be connected to the outlet of the dispenser B. Then the control unit 8 outputs a signal to the output 2, which switches from closed to open the position of the valve 6, and the air from the line 9 through the open valve 6 enters through the adjustable valve 10 into the element

2. At the same time, the tube 4 in the element 2 is compressed with a greater or lesser force depending on the 6 t position of the valve 10, by regulating which it is possible to smoothly connect the air cavity of the element 2 with the atmosphere and thereby release some of the excess air pressure. This leads to the fact that by adjusting the position of the valve 10, it is possible to ensure smooth control of the amount of dose withdrawn from pipe 5 to exit 4, because when the tube 4 in element 2 is squeezed, liquid is pushed out from tube 4 to exit of the dispenser B.,,

0 The dispenser is reset to the initial position in the same sequence. Under the action of the control signals of the control unit 8 from the outputs 1 and 3, respectively, 5 but simultaneously the valves 5 and 7 are switched. In this case, the air cavity of the element 1 is connected with the atmosphere and in it the tube 4 is straightened, and in the element 3 under the action of a compressed air

The Q spirit of the tube 4 is clamped, which blocks the further flow of the metered liquid to the output B. Then the control unit 8 issues a signal for switching the valve 6. At the same time,

The treatment of the metered liquid at the exit 5 of the cavity of the element 2 through the locking device. At the same time, the air cavities of the valve 6 are connected to the atmrsphere and the tube 4 in the element 2 is expanded under the action of the elastic forces of silicone rubber, which provide elements 1 and 2 to be connected to the atmosphere, respectively, through the valves 5 and 6. fluid to the input A. Then the cycles of operation of the dispenser are repeated.

Formula

and

mastering 5

Claims (2)

1. A peristaltic microdosing unit containing an elastic rubber tube with pinch elements and a device for controlling them, in particular, in order to increase reliability, the microdosing unit contains at least three clamping elements, each of which is made As a sealed container with inlet and outlet openings for an elastic rubber tube placed therein and one opening of the control inlet, the pinch control device comprises electropneumatic valves by the number of pinch elements and a control unit consisting of series-connected pulse generator, counter, decoder and output switches, the outputs of which are connected to the control inputs of the corresponding lean electro-pneumatic valves, some pneumatic inputs of which are respectively connected to the power line, and others the atmosphere and the outlets of the electropneumatic valves are connected to the corresponding control inputs of the pinch elements. 2. Microdosing device according to claim 1, about tl and - due to the fact that, for the purpose of smooth adjustment of the size of the microdose to be withdrawn, the output of the average electropneumatic valve is connected to the atmosphere through an adjustable valve. FIG. one