Title of Invention

PIPETTE PROVIDED WITH SAMPLED VOLUME ADJUSTMENT MEANS

Abstract The invention relates to an adjustable volume sampling pipette comprising: a pipette body having a longitudinal axis; an adjustment screw disposed inside the pipette body, the adjustment screw capable .of turning to adjust a volume in the pipette; and an adjustment knob; wherein the adjustment knob is movable between an active position in which a turning action applied to the knob is transmitted to the adjustment screw and an inactive position in which a turning action applied to the adjustment knob is prevented from turning the adjustment screw.
Full Text

The invention relates to pipettes for sampling liquids.
Document FR—2 696 110; for example, discloses a sampling pipette having a knurled wheel accessible through a window in the body of the pipette in order to adjust the volume of liquid to be taken. The volume is also indicated on a display. That pipette presents numerous advantages. The knurled wheel does not project outside the body of the pipette and is therefore relatively unlikely to be actuated involuntary. In addition, while it is being driven, the knurled wheel is braked by means of a friction assembly which further reduces any risk of losing adjustment. Nevertheless, it is desirable to improve it further. There remains a small risk of the volume to be taken being accidentally altered by involuntary action on the knurled wheel.
It is therefore desired to eliminate any risk of accidental alternation to the volume that is to be taken.
Document US—5 849 248 discloses a pipette having a locking element that is movable between an inactive position in which it prevents the adjustment means from performing adjustment, and an active position in which it allows them to perform adjustment. That element extends close to a volume-adjusting knob. There is therefore no need to fear any unwanted change to the volume to be taken.
An object of the invention is to provide a pipette of a type that is different but that also avoids unwanted change of adjustment.
According to the invention, this object is achieved by providing a sampling pipette including means for adjusting the volume of liquid taken as a sample, said means comprising at least one adjustment control member, the pipette including a locking element movable between an inactive position in which it makes the adjustment

means unsuitable for performing adjustment and an active position in which it makes the adjustment means suitable for performing adjustment, the locking member being the adjustment control member.
Thus, when the locking element is in the inactive position, it is not possible accidentally to change the adjustment of the volume to be taken. In addition, this elimination of any risk of loss of adjustment makes it possible in return to eliminate or reduce the friction braking on the knurled wheel, thereby making it easier to turn when making an adjustment voluntarily. This elimination is all the more welcome since with the prior art pipette of document FR—2 696 110, it is possible for the user's glove to become pinched between the wheel and the body of the pipette while turning the wheel. This drawback can thus likewise be eliminated.
Furthermore, the pipette of the invention enables a single locking element to be used for all of the successive operations associated with adjustment, e.g. unlocking, volume adjustment, and locking.
The invention may also present at least any one of the following characteristics:
• the locking element is slidably movable between the two positions;
• the locking element is arranged to be driven directly from one of the two positions to the other by a user;
• the locking element extends inside a body of the pipette;
• the pipette is arranged in such a manner that the locking element is suitable for transmitting an adjustment movement to a member of the adjustment means when in the active position, and is unsuitable for performing such transmission when in the inactive position;
• the pipette is arranged in such a manner that the locking element is suitable for transmitting movement

from one to the other of two members of the adjustment means other than the locking element when in the active position, and is unsuitable for performing said transmission when in the inactive position; - the movement is a turning movement;
• the adjustment means comprise two members arranged to be positively engaged with each other w"hen the locking element is in the active position, and to be disengaged from each other when the locking element is in the inactive position;
• the pipette has two adjustment control members;
• the pipette includes a sampling control knoh forming an adjustment control member;
• the pipette includes return means for returning the locking element into the inactive position;
• the pipette has means for holding the locking element in the inactive position against the return means;

• the pipette is arranged in such a manner that the locking element is suitable for passing from the active position to the inactive position by passing through a hard point; and
• the adjustment means comprise a driving member and a driven member suitable for being driven by the driving member via at least one complementary shape connection, one of the driving and driven members being deformable so as to interrupt the connection when it is subjected to intense urging exceeding a predetermined intensity.
Other characteristics and advantages of the invention appear further from the following description of a preferred embodiment and of a variant given as non-limiting examples. In the accompanying drawings:
• Figure 1 is a fragmentary axial section view of a pipette constituting a preferred embodiment of the invention;
• Figure 2 is a perspective view of a portion of the adjustment mechanism of the Figure 1 pipette;

• Figure 3 is a larger scale view of the Figure 2 mechanism;
• Figure 4 is an axial section view of the Figure 2 mechanism;
• Figure 5 is a perspective view of a sub-portion of the Figure 2 mechanism;
• Figure 6 is an elevation view of the Figure 5 sub-portion;
• Figure 7 is a perspective view of the positive clutch and the driver of the Figure 4 mechanism;
• Figures 8 to 11 are four fragmentary views in axial section showing the various stages of co-operation between the adjustment knob and the coupler of the Figure 4 mechanism;
• Figure 12 is a cross-section view of the Figure 6 sub-portion on plane XII-XII;
• Figure 13 is an exploded section of certain elements of Figure 12;
• Figure 14 is a section view of the adjustment screw on its own;
• Figures 15 to 18 show various stages of cooperation between the elements of Figure 12; and
• Figure 19 is a view analogous to Figure 12 showing a variant embodiment of the invention.
The sampling pipette of the present embodiment of the invention is of the same type as that of document FR— 2 696 110. Reference should therefore be made to that document for certain details of the pipette already disclosed therein. Only certain aspects of the volume-adjusting mechanism are described in detail herein.
In conventional manner, the pipette 2 comprises a body 2 serving as a handle to be held in the hand of the user- The pipette has a piston {not shown) slidably movable along a longitudinal axis 10 of the pipette inside a bottom cavity of the pipette in order to suck a volume of liquid to be taken into said cavity or in order to expel the liquid therefrom. Piston displacement is

controlled in particular by means of a control rod 4 of axis 10 having its bottom portion connected to the piston via parts of conventional type and not shown. At its top end, the rod 4 is surmounted by a pushbutton 6 rigidly fixed to the rod suitable for being actuated by the user using the thumb of the hand that is holding the pipette. This causes the piston to move down or up as a function of the corresponding movement of the knob. The pipette includes a return spring suitable for returning the piston and the rod to the high position at the end of their down stroke for expelling liquid, and a purge spring whose effect is added to that of the return spring when the stroke of the piston is continued downwards for a purge stroke.
The volume to be taken during a normal full stroke of the piston, not including any purge stroke, can be adjusted by means of an adjustment knob 8 in the form of a ring, and by means of the pushbutton 6. These two knobs are mounted so as to be capable of turning about the longitudinal axis 10 of the pipette. Turning either of these knobs causes an adjustment screw 5 that is coaxial with the rod 4 to turn about the axis 10. The way in which turning the screw 5 causes the volume to be taken to vary is conventional and is not described. There follows a detailed description of the top portion of the adjustment mechanism.
All of the parts described below are symmetrical about the axis 10 unless otherwise specified.
With reference to Figures 1 to 4, the pipette has a coupler 12 slidably mounted on the rod 4 but constrained to turn together therewith. For this purpose, the coupler presents a central top orifice presenting three radial tabs 14 engaging in three longitudinal grooves 16 in the rod 4. This orifice is formed by a top washer 18 of the coupler. The coupler has three arms 20 extending downwards parallel to the axis 10 away from the washer 18. Each arm 20 is generally flat in the direction

extending radially to the axis 10, and on its face 22 facing away from the axis it presents an elongate portion in relief 24 extending in the circumferential direction of the axis 10.
The adjustment knob 8 is slidably movable along the axis 10 and can be turned about said axis. It is essentially cylindrical in shape about the axis 10. The outside face 26 of this knob is accessible to the user via windows in the body to enable the knob to be manipulated. For this purpose, the knob has portions in relief for gripping purposes. Close to its top circular edge, the knob 8 has three forks 3 0 projecting radially towards the axis. These forks are in the form of female U-shapes open towards the axis, and they are complementaary in shape to the profiles of the arms 20, receiving respective ones of them.
It follows from the above arrangement that the knob 8 is constrained to turn with the coupler 12 but that it is not fixed thereto in sliding. The knob 8 can occupy both a low or inactive position constituting a locked position, and a high or active position constituting an unlocked position. These two positions are independent of the angular position of the knob 8 about the axis. The knob moves from one position to the other by sliding along the axis. The coupler 12 has an annular spring 26 about the axis 10 pressing radially against the inside faces of the arms 20 to urge them radially away from the axis.
In the low position, as shown in Figures 1 to 4, and 8, the arms 20, but not the portions 24 in relief, are received in the forks. The same applies in the high position as shown in Figure 11, On passing from one position to the other, as shown in Figures 8 to 11, the portions in relief 24 are received in the forks and cause the arms 20 to flex temporarily in a radial direction. This leads to an audible click and provides a hard point during manipulation, thus informing the user about

changes between the high and low positions. In addition, the portions 24 in relief hold the knob in the high position against the return spring, unless contrary action is exerted by the user.
With reference to Figures 1, 4, and 7, the pipette has a positive clutch 32 of generally cylindrical shape presenting an outer annular peripheral rib 34 approximately at half-height. The knob 8 comprises two cylindrical parts 8a and 8b constituting a top part and a bottom part that are engaged as force-fits on the outside of the clutch 32 and that bear axially against the rib 34. The knob 8 is rigidly secured to the clutch. On its outside face, as shown in detail in Figure 7, the clutch has portions in relief that co-operate with complementary portions in relief on the knob in order to provide said rigid connections. The clutch 32 has a set of teeth 36 extending close to its top edge, projecting radially from its inside face towards the axis.
The pipette has a driver 3 8 with a top portion 40 of cylindrical shape provided with a plurality of teeth 42, e.g. two teeth, extending close to its top edge, projecting from its outside face radially away from the axis. These two teeth are suitable for engaging with the set of teeth 3 6 in the clutch when they are at the same height along the axis 10 as the set of teeth.
The driver 3 8 can be moved relative to the adjustment screw 5. It extends directly in register therewith in a radial direction. Unlike the adjustment screw 5 which is free to turn helically about the axis 10, the driver 3 8 is prevented from sliding along the axis 10 relative to the body of the pipette. For this purpose, its top portion is blocked by a spacer 44 and its bottom portion is blocked by a part 46, as shown in Figure 1.
With reference in particular to Figures 5, 6, and 12, the driver 38 has two main tabs 48 and two secondary tabs 50 extending parallel to the axis ID downwards from

the top portion 40. The secondary tabs 50 are in the form of cylindrical sectors about the axis 10. They alternate around the axis with the main tabs 48. The main tabs 48 have cylindrical outside faces and inside faces that are plane, from which there project respective splines 52 of rectangular section extending parallel to the axis 10. The driver 38 has a spring 54 surrounding the outside of the four tabs 48, 50 and received in outside notches thereof. The spring tends to urge the tabs radially towards the axis.
The adjustment screw 5 ia hollow and has the control rod 4 passing longitudinally therethrough. These two parts are completely independent concerning relative movement. The coupling screw 5 is generally circularly symmetrical. Nevertheless, and more precisely, it has two flats 56 that are parallel to each other and to the axis 10 on opposite sides of said axis. These flats extend over a middle portion 58 of the screw extending above a bottom portion 60 of the screw that is threaded and serves to adjust volume. The flats 56 are connected to each other via circular arcs 61. The adjustment screw also has two longitudinally extending ridges 62 parallel to the axis 10, extending from the edges of respective flats so as to constitute abutments when going circumferentially around the outside face of the screw 5 away from the flats, and also so as to present circular arcs that do not form abutments going away from the cylindrical zones 61.
The two ridges 62 are not symmetrical to each other about the axis 10, but they are symmetrical to each other about a midplane of the screw parallel to the two flats. In addition, the two ridges 62 do not coincide exactly with each other in position along the axis 10. They overlap over a certain length. However, one of the ridges extends higher than the other whereas said other ridge extends further down than the first. The two ridges thus overlap in part along the axis 10. The

longitudinal position of the second ridge, normally hidden in Figure 6, is nevertheless represented by a line 56.
The driver 3 8 may be coupled to turn with the screw 5, or it may be decoupled therefrom.
When coupled, as shown in Figures 12 and 15, the driver is situated at a level along the screw where the two ridges 62 overlap. The secondary tabs 4 8 press against the cylindrical zones 61 and are complementary in shape thereto. They co-operate therewith to form surface-on-surface contact. The splines 52 bear radially against the flats 56 and come into abutment against the respective ridges 62. The spring 54 holds the four tabs pressed against the screw 5, and in particular it keeps the splines engaged against the ridges. Consequently, any turning movement of the driver 38 can be transmitted to the adjustment screw 5. Since the driver, unlike the screw 5, is prevented from sliding along the axis, such turning causes the screw to slide along the axis, with the screw moving helically. These two parts are thus coupled to turn about the axis by means of friction forces, and above all by means of the ridges and the splines. Torque is thus transmitted even against a high level of opposing torque.
The ridges 62 are positioned in such a manner that in the vicinity of each top and bottom end-of-stroke positions of the adjustment screw 5, the ridge which serves to transmit movement towards said abutment is interrupted, as shown in Figures 14 to 18. As a result, over the entire remaining stroke to be traveled before reaching the abutment position, torque transmission takes place only via friction forces between the tabs and the screw. Under such conditions, transmission takes place only if the magnitude of the connection forces, and thus the magnitude of the opposing torque, is less than a predetermined value which is a function of the spring 54, This transmission nevertheless takes place so that the

user can continue to manipulate the driver 3 8 (indirectly as described below) in order to drive the screw 5. Once the screw 5 reaches the end of the adjustment stroke, the opposing torque becomes infinitely large and breaks the connection via the friction forces. In spite of the return effect of the spring 54, the main tabs 4 8 then splay apart so as to move off the flats and onto the zones 61 in order to follow the shape of the screw, thus allowing the driver 38 to turn on its own. The adjustment screw 5 is thus subjected to little force and remains stationary. The thread 60 of the screw 5 is thus protected against excessive force.
If the user seeks to drive the screw 5 in the opposite direction away from this position, it suffices to turn the driver 38 in the opposite direction. Within less than half a turn, one of the splines 52 meets the other ridge 62 and the two parts are again connected to turn together, but in the opposite direction. The same operation occurs in the vicinity of the other end of the adjustment stroke.
The operation of the adjustment knob 8 is described below.
The knob is shown in its low, inactive, and locked position in Figures 1, 3, and 4. The arms 20 are in engagement with the knob 8. The rod 4 is thus constrained to turn with the knob 8. In this position, the teeth 36 of the clutch are out of engagement with the teeth 42 of the driver 38. Any movement of the knob 8 is thus prevented from turning the driver 3 8 or the screw 5. This low position of the knob 8 thus causes the adjustment means to be inactive. The volume to be taken therefore cannot be modified either voluntarily or involuntarily. The word "locked" written on the outside face 26 of the knob 8 appears in the window where it can be seen by the user. A return spring 60 shown in Figure 1 bears axially upwards against the coupler 12 and

downwards against the knob 8, thereby urging the knob so as to keep it in this low position.
If the user desires to adjust the volume, then the knob 8 must be slid upwards against the spring 60 so that the forks 30 go past the portions 24 in relief, thereby producing a click and a hard point. The knob is then in its high, active, and unlocked position. It is held in this position by the portions 24 in relief until the user applies an opposing force. While in this position, the teeth 36 of the clutch are engaged with the teeth 42 of the driver 38. Any turning action applied by the user directly to the knob 8 or to the knob 6 is thus transmitted via the teeth 36, 42 to the driver 38, and then to the adjustment screw 5, providing it is not already at the end of its stroke in the desired adjustment direction. Once the desired sampling volume has been set, the user can slide the knob 8 back into its low position to prevent any untimely loss of adjustment.
In the above^described pipette, it should be obseirved that the driver 38 is clamped against the screw 5, i.e. these parts are thus clutched or declutched in a manner that is automatic and not due to direct action taken by the user on these parts. In addition, the user never acts directly on the adjustment screw 5.
Provision can be made for that one of the two elements 5 and 3 8 which is deformable in order to interrupt the connection between them to be the screw 5.
Figure 19 shows a variant embodiment in which numerical references plus 100 are given to elements that are analogous. The rod 104 is not shown.
In this variant, the splines 152 have a profile which is V-shaped with a rounded tip. The flats 156 are replaced by V-grooves 156 having the same V-angle as the splines so as to enable the screw 105 to be driven by the driver 138. In the vicinity of the abutment positions, the respective grooves flare so as to increase the slope of one of their two faces. This face forms a ramp. The

pipette is arranged in such a manner that once the end-of-stroke position is reached, the clamping force of the spring is insufficient to hold the splines 152 in the grooves 156. The ramp then causes the splines to escape from the grooves and the main tabs 148 to be splayed apart such that the driver no longer drives the screw and continues to turn on its own.
The pipette may include electronic display means (e.g. liquid crystal means) for displaying a parameter relating to the operation of the pipette. For example, these means may continuously indicate the locked or unlocked state of the knob 8.



WE CLAIM:
1. An adjustable volume sampling pipette comprising: (a) a pipette body having a longitudinal axis; (b) an adjustment screw disposed inside the pipette body, the adjustment screw capable of turning to adjust a volume in the pipette; and (c) an adjustment knob; wherein the adjustment knob is movable between an active position in which a turning action applied to the knob is transmitted to the adjustment screw and an inactive position in which a turning action applied to the adjustment knob is prevented from turning the adjustment screw.
2. The adjustable volume sampling pipette as claimed in claim 1, wherein the adjustment knob is slidably movable between the active position and the inactive position in direction parallel to the longitudinal axis of the pipette.
3. The adjustable volume sampling pipette as claimed in claim 1, wherein the adjustment knob is accessible to a user through a window in the pipette body.
4. The adjustable volume sampling pipette as claimed in claim 1, comprising a rod coupled to the adjustment knob and passing longitudinally through the adjustment screw.
5. The adjustable volume sampling pipette as claimed in claim 4, comprising a pushbutton mounted to the top end of the rod.
6. The adjustable volume sampling pipette as claimed in claim 4, wherein the rod is coupled to the adjustment knob by a coupler that is slidably movable along the rod and constrained to turn with the rod.

7. The adjustable volume sampling pipette as claimed in claim 6, wherein the
coupler comprises a washer having a central orifice and at least one tab extending
radially into the orifice and the rod comprises at least one longitudinal groove along
its length and wherein the rod extends through the orifice such that the at least one tab
engaged the at least one groove.
8. The adjustable volume sampling pipette as claimed in claim 6, wherein the
adjustment knob is constrained to turn with the coupler but is not constrained to slide
with the coupler.
9. The adjustable volume sampling pipette as claimed in claim 7, wherein the washer comprises at least one arm extending downwards away from the washer and the adjustment knob comprises at least one fork projecting radially toward the longitudinal axis and wherein the at least one fork receives the at least one arm.
10. The adjustable volume sampling pipette as claimed in claim 9, wherein the at least one arm comprises an elongate portion in relief extending away from the longitudinal axis and wherein the portion in relief is received by the at least one fork when the adjustment knob passes from the active position to the inactive position to produce an audible click.
11. The adjustable volume sampling pipette as claimed in claim 9, wherein the coupler comprises an annular spring pressing against the at least one arm to urge the at least one arm away from the longitudinal axis.
12. The adjustable volume sampling pipette as claimed in claim 1, comprising: (d) a clutch having a generally cylindrical shape onto which the adjustment knob is mounted, the clutch comprising an outside face, an inside face and teeth projecting radially from its inside face toward the longitudinal axis; and (e) a driver, having a

cylindrical shape, disposed around a portion of the adjustment screw and extending into the clutch, the driver comprising a top portion with an outside face and teeth extending radially from the outside face away from the longitudinal axis; wherein the teeth on the driver are positioned to engage the teeth on the clutch when the adjustment knob is in the active positioned but not when the adjustment knob is in the inactive position.
13. The adjustable volume sampling pipette as claimed in claim 12, wherein the
driver comprises tabs extending downwards from the top portion, the tabs comprising
inside faces and splines projecting from the inside faces and the adjustment screw
comprises a middle portion above a threaded bottom portion, the middle portion
having an outside face and longitudinally extending ridges along the outside face and
wherein a turning movement of the driver causes the splines to come into abutment
with the ridges to transmit the turning motion to the adjustment screw.
14. The adjustable volume sampling pipette as claimed in claim 13, comprising a
spring surrounding the outside of the tabs.
15. The adjustable volume sampling pipette as claimed in claim 13, wherein the splines and the ridges comprise a complementary shape connection.
16. The adjustable volume sampling pipette as claimed in claim 15, wherein the complementary shape connection is interrupted in a vicinity of a top end-of-stroke position of the adjustment screw or a bottom end-of-stroke position of the adjustment screw.

17. The adjustable volume sampling pipette as claimed in claim 12, wherein the driver comprises tabs extending downwards from the top portion, the tabs comprising inside faces and splines projecting from the inside faces and the adjustment screw comprises a middle portion above a threaded bottom portion, the middle portion having an outside face and grooves along the outside face and wherein a turning movement of the driver causes the splines to come into abutment with the grooves to transmit the turning motion to the adjustment screw.


Documents:

in-pct-2002-1623-che abstract-duplicate.pdf

in-pct-2002-1623-che claims-duplicate.pdf

in-pct-2002-1623-che descripition(completed)-duplicate.pdf

in-pct-2002-che-1623-abstract.pdf

in-pct-2002-che-1623-assignment.pdf

in-pct-2002-che-1623-claims duplicate.pdf

in-pct-2002-che-1623-claims original.pdf

in-pct-2002-che-1623-correspondance others.pdf

in-pct-2002-che-1623-correspondance po.pdf

in-pct-2002-che-1623-description complete duplicate.pdf

in-pct-2002-che-1623-description complete original.pdf

in-pct-2002-che-1623-drawings.pdf

in-pct-2002-che-1623-form 1.pdf

in-pct-2002-che-1623-form 26.pdf

in-pct-2002-che-1623-form 3.pdf

in-pct-2002-che-1623-form 5.pdf

in-pct-2002-che-1623-other documents.pdf

in-pct-2002-che-1623-pct.pdf


Patent Number 205915
Indian Patent Application Number IN/PCT/2002/1623/CHE
PG Journal Number 26/2007
Publication Date 29-Jun-2007
Grant Date 12-Apr-2007
Date of Filing 04-Oct-2002
Name of Patentee M/S. GILSON SAS
Applicant Address 19 AVENUE DES ENTREPRENEURS, B P 45, 95400 VILLIERS LE BEL
Inventors:
# Inventor's Name Inventor's Address
1 VIOT, François 21, allée des Vergers F-95430 Auvers-sur-Oise
PCT International Classification Number B01L3/02
PCT International Application Number PCT/FR2001/001068
PCT International Filing date 2001-04-09
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 00/04473 2000-04-07 France