DE2417323A1 - PUMP FOR PRODUCING DILUTED LIQUIDS WITH A DETERMINED DEGREE OF DILUTION - Google Patents

Description

PATENT LAWYERS

MUNICH 22 WIDENMAYERSTRASSE 49 1 B E RLI N-DAHLEM 33 PODBIELSKIALLEE 08

BERLIN: DIPL.-ING. R. MÜLLER-BÖRNER MUNICH: DIPL.-ING. HANS-H. WEY

26 265/6

Egg MOCHIDA Tokyo / Japan

Pump for the production of diluted liquids with a predetermined degree of dilution

The invention relates to a pump for the production of dilute Liquids with a predetermined degree of dilution, in particular a pump, in which certain sections of a flexible pipe, which regains its shape, can be periodically compressed and shut off

The object of the invention is to create a pump which Liquids in sest tubes arranged one behind the other

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BERLIN: TELEPHONE (0311) 7β 98 O7 MUNICH: TELEPHONE (0811) 23 88 88

CABLE: PROPINDUS TELEX OI 84-087 CABLE: PROPINDUS TELEX OS 24 244

with different, predetermined degrees of dilution.

This object is achieved according to the invention by a flexible, The tube, which resumes its shape and whose front inlet end is in a container, of the dilution liquid contains, and at the output end of which a fine feed pipe is provided, through a branch pipe, which branches off from a base section of the tube and has a pipette at its outlet end, through one upstream shut-off device arranged in front of the branch point, which can clamp off the pipe; through downstream behind, Shut-off devices and ejection devices arranged at the branching point, which clamp or compress the pipe can, and by drive devices, which the test tubes one after the other in positions immediately below transport the pipette or the feed tube,

Each of a development of the invention, two groups of ejection devices are arranged along the tube, each of which can compress part of the pipe. The ratio of the lengths of the parts of the pipe by the corresponding Ejector are compressed, can be changed to achieve the desired degree of dilution will. Further advantages and features of the invention emerge from the claims in connection with the description and the Drawing out

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The invention is illustrated below with the aid of an example and in connection with the drawing "described in more detail. Show it:

Pig. 1 is a plan view of a pump according to the invention, Fig. 2 is a front view of this pump,

Fig. 3 is a perspective view of the drive device the downstream shut-off device and

Pig. FIG. 4 shows the pattern of the successive working steps of the moving parts of FIG Pump.

1 shows a stationary, flat plastic plate and a tube T made of elastic, flexible plastic material, for example made of silicone resin, which forms an essential part of the pump. The pump further comprises a shut-off device PO arranged at the upstream end, a shut-off device P1 arranged in the upper flow area, discharge devices P2 and P2 ¹ and a shut-off device P3 arranged downstream, which are in contact with the lower area of the plastic plate 1. ^{A branch pipe T 1} branches off from the pipe T and leads upwards through a hole H which is located downstream of the shut-off device PO in the flat

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Chen plate 1 is formed. A container YL with dilution liquid stands on a stand D. The upstream end of the tube T is immersed in the dilution liquid of the container PL ·. The tube T leads in the direction of flow past the flat plate 1 and is bent behind the plate first upwards, then in the horizontal direction and finally down again, as is proper. Fig. 2 shows, and the rear end of the pipe is connected to a fine feed pipe N "which is arranged immediately above a test pipe ti, several of which are arranged along the circumference of a table Ta shown in Fig. 1. The branch pipe T ¹ runs, after it is passed up through the hole H, similar to the tube T, and its rear end is connected to a pipette G, which is arranged above a test tube tO The turntable Ta has several recesses into which .. test tubes or Test tubes can be placed in it, and it is connected to a ratchet Ra via a shaft Sh. The ratchet Ra is designed so that it can rotate the turntable Ta step by step and brings a test tube up with each ratchet step.

The height of the stand D is chosen so that the level of the thinning liquid in the container ¥ L is always approximately at a point in the middle between the upper end of the above passing section of the Abzwdgrohres T ¹ and between its lower end, even if the level

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changes with increasing consumption of the dilution liquid.

The shut-off device P located at the upstream or front end is next to the pipe T in front of the hole H of the flat plate 1 is arranged. The front shut-off device PO is located in the direction of flow between two IHihrungsplatten S, and it has a sharp edge at its upper end, which is oriented perpendicular to the tube T. the front shut-off device PO moves according to the movement an eccentric rotor E1, which is connected to a shaft M1, so up and down that the tube T is compressed during the upward movement into the working position and that it is released again when the shut-off device P is in its idle position, namely when it is down due to its weight can move. Both the front shut-off device P1 and the rear shut-off device P3 point to their Top has a sharp edge which is aligned at right angles to the tube T ia: and is arranged so that at their Moving upwards to the working position, a small section of the tube T is compressed and blocked, and that at the downward movement into the idle position of this tube ΐ is released again, see Pig. 2. The ejector P2 has a flat surface, the length of which is dimensioned according to the amount of liquid which is

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gang should be ejected. When the ejector P2 is raised, it compresses the tube T along a distance equal to the length of its surface, so that approximately as much liquid as was in the compressed portion of the tube T is ejected. To operate the front shut-off device P1, the ejector device P2 and the rear shut-off device PJ, an eccentric rotor is used in each case, which is designed similarly to that for operating the shut-off device arranged at the very front. However, two eccentric rotors connected to one another are used to move the ejector P2. ^{In addition, a second ejector P2 f is} arranged between the front abaper device P1 and the hole H. This ejector P2 'is constructed in the same way as the ejector P2.

Rods B1 and B2 are provided which move the fine feed tube Ή up and down in accordance with the movement of an eccentric rotor E8 so that the feed tube Ή is introduced into a test tube and pulled out again. One end of the rod B2 is connected to the tube T at a point G-3 above the feed pipe N, and the other end G-1 of the rod B2 is fixed and serves as a fixed pivot point, while a point G-2 at which the rod B1 is attached, is designed as a movable pivot point. The lower end of the rod B1 is on

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a ring R fixed to the eccentric rotor E8 so that it rests on the surface of the rotor E8 slides with its movement up and down and thereby also moves the rod B1 up and down.

Rods B3 and B4 are designed to operate similarly to rods B1 and B2, with a point G4 serving as a fixed pivot point for moving pipette C up and down. However, it is not always necessary to move the lower end of the pipette G to a point near the bottom of the test tube; there are 3 cases in which it is necessary to move the end of the pipette only to a central point in the test tube and to prevent further downward movement of the pipette. In these cases, a rod B5, which is attached to an eccentric rotor E10, is moved up and down so that it abuts the rod B4 when it moves upwards and prevents the pipette 0 from moving further downwards. A connection point X is provided which enables the rod B3 to be extended when the downward movement of the rod B4 is limited by the rod B5. The ratchet Ra is designed so that it can move the turntable step by step in accordance with the movement of an eccentric rotor E11 via a claw attached to the rod B6 so that the test tubes attached vertically to the turntable are individually brought up.

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In Pig »3 a drive device is shown which the front At) locking device P3 with the help of an eccentric Rotor E7 moved up and down. It comprises a chain 17 and gears H7, 17, J7, K7 inid L7 which are all the same Diameter and have the same number of teeth. the Gears H7 are connected to a reduced-speed motor via a shaft Q so that they can operate during the rotate at constant speed throughout the operation of the device. The gears 17, J7 and L7 are used as deflection sprockets formed and carry the chain which moves with the rotation of the gear H7. A shaft M7 extends from the gear K7 to the concentric rotor E7. The eccentric rotor E7 is attached to the shaft M7, however the sprockets K7 are not attached to the shaft M7, they run freely with the movement of the chain. On the shaft M7 is a Another gear IT7 attached, which touches the gears K7 and has the same diameter as this, but which only has two teeth which are formed diametrically opposite one another.

The chains 17 have projections at desired locations. These projections move with the chains and are arranged in such a way that when they come into contact with the gearwheel WJ , they rotate it by 180 °, whereby the eccentric rotor E7 is also rotated by 180 ° via the shaft M7. Palis the eccentric rotor is in its normal position

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"is in which the rear shut-off device P3 is in their rest position "is, and if the gear N7 so is mounted on the shaft M7 that its teeth are correctly aligned, then the rear shut-off device is through the rotation of the eccentric rotor E7 is raised to its working position and the particular protrusion of the chain 3 - 7 is removed different from the corresponding tooth of the gear N7, so that the rotation of the eccentric rotor E7 comes to a standstill comes and the rotor E7 is in a standby state, while the rear shut-off device P3 is in their Working position. In this way, both the gear N7 and the eccentric rotor E7 become on each pass of a projection of the chain caused by the position of the gear K7 to half a turn, whereby the rear Shut-off device P3 is alternately brought into its working position and its rest position. Palis on the chains a desired, even number of projections is attached at desired locations, it is therefore possible to use the rear Shut-off device P3 any number of times between its working position and its rest position with each revolution of the chain to move back and forth.

Similar drive devices are each the eccentric 'Rotors E1, E2, E3, ... E11 are assigned, which the devices PO, P2', P1, P2, P3, W, C and Ra assigned to them drive. All of these drive devices rotate synchronously with the gears H7 via the respective gears H1, H2, H3, ..

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H11, which are attached to the same shaft Q. Just as the gears H7 are connected to the gears 17, J7, K7, L7 via the same chain, the gears H1, H2, H3, ... H11, which are assigned to the eccentric rotors E1, E2, E3, ... E11 are assigned are, respectively, with the other gears 11, J1, K1, L'1; 12, J2, K2, L2j ... o. 111, J11, K11, L11 each connected with individual chains. It should be noted that the gears 11, 12, 13, different positions of the gears K1, .K2, K3 "... K11 relative to each other all these chains have the same length. Therefore it is then when not only on the chain 17 but also on the other chains protrusions at the desired locations v / earth, possible to drive the respective shut-off devices PO, P1, P3, the ejectors P2, P2 ¹ , the pipette O, the fine feed pipe ΪΓ and the ratchet Ra by rotating the shaft Q so that a desired sequence of work steps with The desired timing control is carried out per work cycle. This work cycle can of course be repeated as often as desired.

When operating the pump for the production of dilute liquids, part of the branch pipe T ¹ is first closed, e.g. by pinching it off with the fingers, and then the device is switched on so that the devices P1, P2 and P3 are actuated and as a pump in the manner described below work.

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First, the ones at the very front are arranged one after the other Shut-off device P1, the ejector device P2 and the rear shut-off device P3 in the one described above Art closed, and then the front shut-off device P1 and the ejector P2 are opened, so that from the Container FL Liquid flows in the direction of flow into the tube T and the tube section is filled in front of the ejection device P2 will. Then the front shut-off device P1 is closed, at the same time the rear shut-off device P3 is opened, and then the ejector P2 is operated so that the in the pipe section above the ejector P2 liquid contained is displaced downstream. In this way, a certain amount of liquid is moved in the direction of flow promoted from front to back.

When the part of the pipe T- that has been pinched together with the fingers is released after the liquid has been removed from the container FL the pipe T has filled, the liquid in the branch pipe T ', according to the principle of communicating tubes, up to increase the height at which the liquid surface is located is located in the container FL. The pump can then continue to work and fill both the tube T and the fine feed tube N at the end of the tube T with liquid again and again. To complete the operational preparations, a large number of! Eest pipes tO, ti, t2, .... in the form of a Circle arranged on the turntable, as in Fig. 1, and only the test tube tO is filled with a solution sample.

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The working steps of the various components of the pump are shown in FIG. It should be noted that a work cycle consists of 27 successive movements.

In Pig. 4, the horizontally arranged numbers are the numbers of the various steps, and the kinked transverse lines of the individual stations PO, P2 ¹ , ... C designate the movement patterns of the individual components. The line segments extending along the higher level indicate that the associated component is in its raised position, and the line segments extending along the lower level indicate that the associated component is in its lower position . The ascending and descending line segments indicate that the assigned components are being moved up and down, respectively. The line of the pipette G is the only one to have a section in the middle level, which indicates that the pipette 0 is held at a distance above the liquid surface in the test tube, although the end of the pipette C is in the. Test tube is located. The height of the end of the pipette G can be adjusted with the rod B5 shown in FIG. 2, but the corresponding operation of the rod B5 is not shown in FIG. 4 and is also not mentioned in the following description. The arrow in the line Ta of the Pig, 4 indicates that the turntable Ta performs a turning step in the step indicated by the arrow,

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The movements of the individual parts in the The order of their work steps. The ones mentioned Numbers indicate the numbers of these steps.

Wr. 1 Preparatory state before the beginning. Of the five devices PO, P1, P2, P2 ¹ and P3, only the rear shut-off device P3 is in its raised, blocking position. The fine tube IT and the pipette G are also in their upper ones Positions.

ITr. 2 The front shut-off device P1 is raised.

Ir. 3 The fine tube N sinks into the test tube t and at the same time, the rear shut-off device P3 also moves downwards, creating the possibility will expel the diluting liquid.

No. 4 The ejector P2 is raised and displaces the diluting liquid into the test tube ti.

No. 5 The rear shut-off device P3 is raised and clamps the pipe T.

No. 6 The fine tube N is lifted out of the test tube »

No. 7 The foremost shut-off device PO is raised and clamps the pipe T, and at the same time the front

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Shut-off device P1 lowered, whereby the pipette C is prepared for its work.

No. 8 The front ejection device P2 ^T is raised and increases the upper level of the liquid in the branch ^{pipe T f} , whereby an amount of air corresponding to the compression of the pipe T is expelled from the pipette 0.

No. 9 The pipette is placed in the test tube tO, which contains the sample should take up to a point near the ground.

No. 10, 11, 12, 13 and H.

The upper ejector P2 ¹ is repeatedly moved up and down to mix the sample in the test tube t0. Such a mixing and stirring step is unnecessary in the first cycle since the sample itself is initially homogeneous in the test tube. In the second and subsequent cycles, on the other hand, such a stirring mixing step is necessary in order to continuously mix the diluting liquid and the sample with one another.

No. 15 The pipette is raised approximately to the middle of the sample tube, lifting the end of the pipette C out of the liquid.

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No. 16 τιηά 17

The liquid in the test tube to is poured away. There is a risk of air bubbles entering the pipette during mixing during steps 10-14 penetrated or that there was too much liquid in the pipette. The pipette 0 must be completely removed once Liquid flowed through. For this purpose, the front shut-off device P1 and the front Ejector P2 raised one by one to ensure perfect liquid ejection.

No. 18 The front shut-off device P1 is lowered.

No. ₀ 19 The pipette C is lowered to the bottom of the test tube t0.

ITr. 20 The front ejection device P2 ¹ is lowered so that the pipette can again correctly suck up liquid in the test tube to

Mr. 21 The pipette 0 is now raised.

No. 22 The turntable Ta is rotated to put the test tube t2 in the position below the fine tube N and the test tube ti in a position next to the pipette 0 bring.

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No. 23 The pipette C is inserted up to the middle of the test tube ti lowered.

No. 24 and 25

The front ejector P2 'and the front one Shut-off devices P1 are raised so that the liquid is perfectly dispensed into the test tube ti will. In these steps, the sample liquid from the test tube to only becomes the diluting liquid which was filled in the test tube ti in step # 4, but it is not touched. It is only stirred again in steps 10 to 14 of the next cycle.

No. 26 The pipette G is raised.

No. 27 All facilities PO, P2 », P1 and P2 are lowered and are prepared for the next work cycle.

By repeating the work cycle described, it is possible

t1
lent to produce in the first test tube / a first diluted liquid with a certain degree of dilution, in the second test tube t2 a dilute liquid with a greater degree of dilution, and in the third test tube t3 a dilute liquid with an even greater degree of dilution. In this way, liquids with an increasing degree of dilution are obtained in successive test tubes.

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If the two ejectors P2 and P2 ^{1 have} the same conveying capacity, double the dilution can be achieved in one stage, and if the ejector P2 is twice as long as the ejector P2 ¹ , five times the dilution can be produced in one stage. By changing the length ratio of the two ejection ^{devices P2 and P2 1} , it is therefore possible to set a desired degree of dilution.

In the exemplary embodiment described, only purely mechanical arrangements are used for all drive devices been. This mechanical embodiment of the invention is particularly reliable. However, it is also possible to use the individual parts can also be driven electrically, e.g. by lifting magnets.

The invention makes use of the phenomenon that when a tube made of flexible and elastic material, for example silicone resin, is pressed against a flat plate for a certain length, an extremely precise amount of liquid from the tube is squeezed out, and that after releasing the pipe, a precisely determined amount of liquid is sucked into the pipe. the Shut-off devices and the ejection device, which presses the pipe together over a predetermined length, are in a predetermined manner Sequence actuated so that a pumping process takes place. This pumping or pipetting process can be carried out in reverse so that one obtains a pump which can dilute liquids with various predetermined degrees of dilution supplies.

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Claims (6)

Expectations 1.J Pump for the production of dilute liquids with different, predetermined degrees of dilution, characterized by a tube (T) made of flexible and its shape Re-accepting material, the inlet end of which is in a container (FL), the dilution liquid contains, and at the output end eiii fine feed pipe (N) is provided through a branch pipe (T!), which branches off from a basic section of the pipe (T) and on its output end has a pipette (C), through an upstream in front of the "branching point of the tube (T) and of the branch pipe (T ') arranged shut-off device (PO), through a shut-off device (P1) and an ejection device (P2), which can compress the pipe (T) to a predetermined length, both (P1 and P2) behind the Junction points are arranged one behind the other, and by a drive device (Ta), which test tubes one after the other in positions below the pipette (C) or; of the fine feed pipe (N). 2. Apparatus according to claim 1, characterized in that downstream behind the Abzwdgpunkt alternately two ejector devices (P2 ?, P2), which can compress the portion of the pipe (T) assigned to them, and two Shut-off devices (P1, P3) i which the assigned section of the pipe (T) can shut off, - are arranged. 409844/0311 3. Apparatus according to claim 1 or 2, characterized in that the fine feed pipe (N) at the outlet end of the tube (T) and the pipette (C) at the outlet end of the branch pipe (T ¹ ) are arranged so that they are relative to the test tubes (to, ti, t2,. ».), which are brought one after the other into positions below the feed pipe (N) or the pipette (C) and can be moved up and down. 4. "Device according to claim 1, characterized in that a turntable under the pipette (C) and the "feed tube" (N) is arranged, on which along its circumference • test tubes are arranged at the same distance from each other, which can rotate horizontally in angular steps corresponding to the distance between the test tubes (ti, t2, t3,. ·.), and that the charging tube (N) and the pipette (C) open and movable above the positions of the previous one Test tube or »the following test tube are arranged. 5. Device according to one of claims 1 to 4 »characterized in that the various shut-off devices (PO, P1, P3), the ejection ^{device (P2 f} , P2), the loading tube (N), the pipette (C) and the test tubes (to, ti, t2, ...) by a drive device · are / moved in a certain order / that in the various Test tubes dilute liquids with different, predetermined degrees of dilution can be produced A098AA / 0311 6. Device according to one of claims 1 to 5, characterized in that "the" two ejection devices (P2 ¹ , P2) are formed with working surfaces of different sizes acting on the tube (T), so that the desired degree of thinning is produced. A0984Ü / 0311