RU2030212C1 - Device for batching fluid - Google Patents

Abstract

FIELD: batching fluids. SUBSTANCE: device has clutch for connecting pipets, source of rarefication, housing wherein valves are received, pipet unit which controls the valves coupling the clutch with the atmosphere and intermediate tank. The clutch is connected to the rarefication source through a flexible hose and intermediate tank. Key- clamps, arresters of key-clamp stroke, and the second rarefication source are mounted inside the housing. Each rarefication source is made up as a flexible member secured from the both sides by connecting pipes provided with suction and delivery valves. The first rarefication source is connected with the clutch trough the suction valve and to the atmosphere through the delivery valve. The second vacuum source is connected to the clutch through the delivery valve and to the atmosphere through the suction valve. The key-clamps is in contact with the flexible members and arresters. The pipet unit is pivotally connected to the housing. EFFECT: heightened accuracy of batching. 3 dwg

Description

 The invention relates to laboratory equipment for dosing pipetting liquids, including solutions of harmful substances, suspensions of pathogenic microorganisms and aggressive liquids, measuring pipettes or pipettes without divisions, and can be used in various fields of modern chemistry (biochemistry, organic and biological chemistry, physical and colloid chemistry, etc.), and also in biological and medical experimental studies, in particular in clinical diagnostic, sanitary and bacteriological them, serological, immunological, nematologicheskih and toxicological laboratories, the pharmaceutical industry and pharmacy business.

 A device for dosing pipetting a liquid is known, containing a pipette, the upper end of which is connected to a flexible hose, connected to the other end of the flexible hose, suction and discharge devices in the form of pneumatic containers with suction and discharge valves [1].

 However, this device has a complex structure and is difficult to operate.

 The aim of the invention is to simplify the design and operation.

 This goal is achieved by the fact that the device is additionally equipped with a pipette attachment unit, pivotally connected to the housing and made in the form of a bracket with a clamp, while the upper end of the pipette is connected to the flexible hose through the sleeve and the intermediate container, pneumatic containers are made in the form of flexible hoses placed in the housing, the ends of which are fixed in the fittings, and the surfaces are in contact with the pressing keys equipped with travel stops and mounted on the housing.

 This embodiment of the device for dosed pipetting of liquid due to the presence of two sources of rarefaction, one of which acts as a suction unit, and the other as a displacement unit in contact with movable clamp keys, the stroke of which is limited by separately adjustable stroke limiters, allows you to quickly type and pipet a fixed dose of liquid a measuring pipette without visual control of the measured divisions of the dose. This makes it possible to increase operator productivity with multiple dosing. The installation of the pipette in the attachment point makes it possible to move the pipette along its axis and in a plane parallel to the axis of the pipette and the attachment point, and the hinge connecting the attachment point of the pipettes to the housing allows the pipette to be moved in the plane of the perpendicular axis of the pipette, which makes it convenient to use the device . The presence of an intermediate tank prevents the possibility of pipetting liquid into the device body. The connection of an intermediate tank filled with liquid with a rarefaction source that acts as a displacement unit allows dilution of the dosed liquid, effective flushing of the pipette, as well as pumping of liquid from one vessel to another, which extends the functionality of the device.

 In FIG. 1 shows a functional diagram of a device; figure 2 - General view of the device; figure 3 is a section aa in figure 2.

 The functional diagram of the device shown in figure 1, contains a housing 1, a sleeve 2 for connecting a pipette 3, a pipette mount 4 connected to the housing 1 by a hinge 5, and an intermediate container 6, which is mounted on the coupling 2 and connected to the housing 1 by a flexible hose 7. In the housing 7 are located the suction unit 8 and the displacement unit 9, a controlled valve 10, equipped with a control button 11 and connecting the pipette 3 with the atmosphere. Each of the nodes 8 and 9 consists of rarefaction sources made in the form of elastic elastic elements 12 and 13, for example, segments of a rubber tube, movable clamp keys 14, 15 mounted on the axes 16, 17, travel stops 18, 19 clamp keys . Each elastic elastic element 12, 13 is installed in the housing and connected to the fittings 20, 21 and 22, 23, respectively, in which the valves 24, 25 and 26, 27 are sealed, moreover, the suction valves 25, 26 and the discharge valves 24, 27.

 General view of the device shown in figure 3. Section AA shows the internal structure of the displacement unit 9, which is identical to the structure of the suction unit.

 The fittings 21 and 23, which fasten the elements 12, 13, are hermetically fixed in the cavity of the cap 28 mounted on the housing 1 and having an opening 29 for tightly connecting the cap 28 with a flexible hose 7. The fittings 20, 22 are closed by an easily removable cap 30. Elastic surfaces of elasticity elements 12, 13 are in contact with the clamp keys 14, 15 and the inner surface of the housing 1. Each key 14, 15 is installed in the housing 1 on the axes 16, 17 and has a cavity in which an axial stop spring 33 is mounted on the axles 31. Each of the stops 33. Each adjustable limiters x and 18, 19 is formed as a screw 34 with the reference line and the circular scale, moving in the nut 35 fixed to the body 1.

 The coupling 2 for connecting the pipette 3 includes a housing 36 and a rubber sleeve 37.

 The mount 4 is made in the form of a spring-loaded clip, mounted on the axis of rotation 38, mounted in the bracket 39, which is connected by a hinge 5 to the housing 1.

 The device operates as follows.

 The pipette 3 is connected to the sleeve 2 and installed in the mount 4. With the help of a spring-loaded clamp, the axis of rotation 38 and the bracket 39, a convenient position for the pipette 3 is selected.

 Set the adjustable stroke limiter 18 of the hold-down button 14 of the suction unit 8 to the required dose of liquid suction for one cycle of the stroke (turn) of the hold-down button 14 or set the travel limiter 18 to the highest suction dose. At the same time, the calibration of the scale of the stroke limiter 18 is carried out in accordance with the measured divisions of the pipette 3. When typing an unfixed dose, the control of the accumulated volume is carried out by the measured divisions of the pipette 3, while the magnitude of the dose collected will depend on the angle of rotation of the press button 14.

 To take a dose of liquid, the tip of the pipette 3 is lowered into the liquid. Press the clip key 14. The key 14 presses on the elastic elastic element 12 and deforms it, creating excessive pressure inside the element 12. Under the action of excess pressure, the discharge valve 24 opens. The pressure inside the element is aligned with atmospheric. Then the key-clip 14 is released. The elastic elastic element 12 restores its original volume, while a vacuum is created inside it, which is compensated by the suction of air when the valve 25 opens, while the liquid is sucked into the pipette.

 To pipet the liquid from the pipette 3, use the key 15 of the displacement unit 9. To displace the entire dose of liquid, unscrew the stroke limiter 19 as much as possible and press the clamp key 15. In this case, the elastic elastic element is deformed and excess air is squeezed out through the valve 27 through the hose 7, an intermediate container 6 and the sleeve 2 into the pipette 3, displacing the fluid from it. If it is necessary to displace a predetermined dose of liquid, the dose value is set using the dose limiter 19 and the key 15 is pressed. When the key 15 is returned to its initial state, the elastic element 13 assumes its initial state, and the lack of pressure inside the element 13 is compensated by air entering through the suction valve 26. Speed the outflow of liquid from the pipette 3 depends on the amount of excess pressure created in the cavity of the element 13. The liquid is drained from the pipette 3 dropwise either by smoothly pressing the clip key 15 since for a smooth outflow of liquid by pressing button 11, the controllable valve 10. In this case, the rate of fluid leakage depends on the size of the valve opening 10.

 To flush the pipette 3, the flushing fluid is drawn into the pipette 3 and the intermediate container 6 using the key 14 of the suction unit 8 and then it is intensively displaced through the pipette cavity by pressing the key 15.

 By pumping air through the cavity of the pipette 3, the pipette is dried. The intermediate container 6 serves as a protective container against liquid ingress into the cavity of the suction units 8 and displacement 9. Using the intermediate container 6, it is possible to dilute the liquid. To do this, the required amount of diluted liquid is collected in the pipette 3 and, pressing the key 14 of the suction unit, transferred to the container 6. Then, the required amount of diluent is collected in the pipette and also transferred to the container 6. Several times by pressing the button 14, air is pumped through the filled volume . When this happens, the mixing of liquids. When you press the key 15 of the displacement unit, the mixture of liquids is displaced from the container 6 through the pipette 3.

 Using a device for metered pipetting of fluid, it is possible to pump fluid from one vessel to another. To do this, remove the cap 30 and put on a flexible tube on the fitting 20 of the suction unit. The limiter 18 unscrew as much as possible. Pipette 3 is lowered into the pumped liquid, and the free end of the tube into an empty vessel. Intensively pressing key 14, pump liquid through a pipette 3, an intermediate container 6, a flexible hose 7, a fitting 21 with a valve 25, an elastic element 12, a fitting 20 with a valve 24, a flexible tube into a free vessel.

Claims (1)

 DEVICE FOR DOSED PIPETATION OF LIQUID, containing a pipette, the upper end of which is connected to a flexible hose, and suction and discharge devices in the form of pneumatic containers with suction and discharge valves, connected to the other end of the flexible hose, characterized in that they are additionally equipped with a pipette attachment unit the case is hinged and made in the form of a bracket with a clamp, while the upper end of the pipette is connected to a flexible hose through a sleeve and an intermediate container, pneum capacity are made as elastic hose placed in the casing, the ends of which are mounted in fittings and surfaces in contact with the keys, clamps, provided with travel stops and placed on the body.

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