专利摘要:
To improve the ergonomics of a sampling pipette, the invention provides a control member (25) for occupying a nominal central position in which a spring (60) brings a locking member (46) into its locking position. of the volume control system to be withdrawn, the member (25) being displaceable axially towards each of the two following positions: a low position of cone ejection, in which the control member (25) bears on the cone ejector (20), the displacement of the nominal central position towards the low position being effected against the springs (32); and - a high unlocking position of the brake ring (40), the displacement of the control member (25) from the nominal central position to the high position driving a release member (70) to move the locking (46) against the spring (60) until the brake ring (40) is released.
公开号:FR3040896A1
申请号:FR1558650
申请日:2015-09-15
公开日:2017-03-17
发明作者:Bruno Dudek;Stephane Guichardon
申请人:Gilson SAS;
IPC主号:
专利说明:

PRESSURE PIPETTE COMPRISING A DOUBLE-FUNCTION CONTROL MEMBER FOR CONE EJECTION AND UNLOCKING OF THE VOLUME ADJUSTMENT SYSTEM
DESCRIPTION
TECHNICAL FIELD The invention relates to the field of sampling pipettes, also called laboratory pipettes or liquid transfer pipettes, intended for sampling and dispensing liquid in containers or the like.
The pipettes concerned by the present invention are manually operated pipettes. These pipettes are intended to be held in the hand by an operator during liquid collection and dispensing operations, these operations being performed by setting in motion a pipetting control button, obtained by the application of a pressure of 'actuation on this same button.
STATE OF THE PRIOR ART
For many years, the design of manually operated pipettes has been the subject of many improvements. These improvements are intended in particular to simplify the design of the pipettes, or to improve their ergonomics.
However, a manually operated pipette remains relatively complex, especially because of the presence of multiple controls including the pipetting button, a locking member for blocking the sampling volume control system, or an eject button cones.
There remains therefore a need to optimize the design of such pipettes, in particular to improve their ergonomics.
DISCLOSURE OF THE INVENTION The invention therefore aims to at least partially meet the need identified above.
To do this, the subject of the invention is a manually operated sampling pipette comprising: a fixed pipette body; a pipetting control rod at the end of which is arranged a pipetting control button; - A conical ejector raised in the upper position relative to the fixed pipette body by first elastic return means; a control screw for adjusting the sampling volume; - A brake ring of the control screw, integral in rotation therewith.
According to the invention, the pipette further comprises a dual-function control member for unlocking control of the brake ring and a cone ejection control, the control member being slidably mounted relative to the fixed pipette body. in an axial direction of the pipette, the latter comprising a locking member of the brake ring, second elastic return means reminding the locking member in a locking position in which the locking member cooperates with the ring of braking for braking the rotation thereof, and follower means of the axial movement of the dual-function control member, said follower means comprising a release member of the locking member, said pipette being configured so that the control member can occupy a nominal central position in which said second elastic return means bring the locking member of in its locking position, and can be moved axially, from its nominal central position, to each of the two following positions: - a low position of cone ejection, in which the control member presses the ejector cone, the displacement of the nominal central position towards the low position of cone ejection taking place against the force developed by said first elastic return means; and - a high unlocking position of the brake ring, the displacement of the double-acting control member from the nominal central position to the unlocking high position leading said release member to move the locking member to the against the force developed by said second elastic return means, until release of the brake ring. The invention improves the ergonomics of the pipette by providing a dual-function control member, replacing two separate members provided in the solutions of the prior art. In addition to the simplicity provided by the invention, safety is also provided since the locking position of the locking member is obtained in the nominal central position of the dual function member, that is to say when there is no effort is applied on the latter by the operator. The risks of unwanted adjustment of the volume to be taken are thus reduced to nothing.
As is apparent from the above, the blocking of the volume adjustment control screw is not produced by an effort of the operator, but results from the force developed by the second elastic return means. Consequently, the braking force of the screw is constant and independent of the operator's force, unlike pipettes of the prior art.
Finally, it is noted that the design offered by the present invention requires the use of only one hand for the actuation of the dual function control member, whether to reach the low ejection position of cone, to reach the unlocked high position, or to reach the nominal central position from any of the last two positions. This provides a particularly satisfactory ergonomics. The invention furthermore exhibits at least one of the following optional features, singly or in combination.
The pipette is configured so that the unlocking high position of the brake ring is an equilibrium position held by friction between said release member and the locking member. With this equilibrium position, the operator can adjust the volume to be taken without having to provide any effort to maintain the control member in the unlocked up position.
Said release member is a pivoting finger.
Said locking member comprises: - a ring arranged axially facing a collar of the brake ring, a first end pivotally mounted on a fixed element of the pipette, and a second end opposite to the first and intended to cooperate with said release member, so that the second end and said release member respectively form a cam and a cam follower.
In this case, the first end is pivotally mounted along an eccentric axis of rotation, arranged in a transverse plane of the pipette. Thanks to this eccentricity and the pivoting nature of the locking member, the latter acts as a lever arm when moving the control member to the unlocked top position. The effort to be applied by the operator on the dual-function control member is therefore less than the force developed by the second elastic return means, which further improves ergonomics and reduces the risk of musculoskeletal disorders. skeletal.
Preferably, a friction washer is interposed between said collar and the ring of the locking member.
Said follower means comprise at least one rotary angular sector rotating along an axis of rotation of the follower means, the toothed angular sector cooperating with a rack made on said dual-function control member, the toothed angular sector being rotationally integral with said release member . In addition, in the unlocked high position of the brake ring, the equilibrium position is held by friction between the second end of the locking member and the release element, the friction force being oriented with a component non-zero in the tangential direction relative to said axis of rotation of the follower means. Therefore, a simple downward pressure on the control member is sufficient to break the equilibrium position, and to bring it back to the nominal central position.
In addition, the pipette is configured so that in the unlocking position of the brake ring, said dual-function control member constitutes an axial stop for the pipetting control button in its downward stroke, and so that the axial displacement of the double-acting control member caused by the axial displacement of the pipetting control knob, causes, before the end of a purge stroke, a break in said equilibrium position after which said locking automatically moves towards its locking position, under the effect of the force developed by the second elastic return means.
This feature first allows the use of the pipetting control button rather than the dual function controller to return the controller to the nominal center position, in which the volume control system is blocked. Consequently, this feature also makes it possible to be certain that the volume control system is blocked after the first purge stroke, in the event that the operator has forgotten to proceed with such locking via the control member. dual function.
Preferably, the pipette is configured so that the volume control screw is rotated by the control rod.
Preferably, the cone ejector comprises an ejection rod biased upwards by the first elastic return means, and a lower ejection portion secured to a lower end of the ejection rod.
Preferably, said dual-function control member is provided with stop means for limiting its upward stroke relative to the fixed body of the pipette.
Finally, the pipette is a single-channel or multichannel pipette. Other advantages and features of the invention will become apparent in the detailed non-limiting description below.
BRIEF DESCRIPTION OF THE DRAWINGS
This description will be made with reference to the appended drawings among which; - Figure 1 shows a front view of a manually operated sampling pipette according to the present invention, with its double-acting control member arranged in nominal central position; - Figures 2 and 3 are enlarged views in axial section of the pipette shown in the previous figure, in two separate axial section planes; - Figures 4 to 6 show in perspective various elements of the pipette shown in the previous figures; FIGS. 7a and 7b represent an enlarged portion of an upper part of the pipette shown in the preceding figures; FIGS. 8a and 8b show views similar to those of FIGS. 7a and 7b, with the dual-function control member being in the low position of cone ejection; FIG. 8c represents a view similar to that of FIG. 1, with its dual-function control member being in the low position of cone ejection; FIGS. 9a to 9c represent views similar to those of FIGS. 8a to 8c, with the dual-function control member being in the unlocked high position of the brake ring; and FIG. 10 represents a view similar to that of FIG. 1, with its dual-function control member being in the unlocked position of the brake ring during a purge stroke of the control rod.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
Referring to Figure 1, there is shown a manually operated sampling pipette 1 intended to be held by the hand of an operator, who, using his thumb 4, is able to operate the pipette to generate the dispensing of a liquid that has been previously sucked.
More specifically, the pipette 1 comprises a handle 6 forming the upper body of the pipette, the handle of which opens a control rod 10 carrying at its upper end, in the pipetting position, a pipetting control button 12 whose upper part is intended under pressure from the operator's thumb. As a guide, it is noted that a display screen (not shown) can be provided on the handle 6.
Under the handle 6, the pipette 1 comprises a removable lower part 14, which ends downwards by a cone holder 16 receiving a consumable 18, also called sampling cone.
A cone ejector 20 opens towards the bottom of the handle 6. As will be mentioned below, the ejector can be set in motion relative to the handle 6 and the lower part 14, both forming the fixed body 23 of the pipette. One of the peculiarities of the invention, which will be detailed below, resides in the implementation of a dual-function control device 25, which alternatively enables the unlocking function of the volume control system to be provided. sampling, and the function of cone ejection. In this regard, it is noted that in the embodiment described and shown in the figures, it is a single-channel pipette carrying a single consumable 18. However, it could be a multichannel pipette carrying several cones , without departing from the scope of the invention.
With reference to FIGS. 2 and 3, there is shown the upper part of the pipette 1, of longitudinal axis 26.
In the lower part of the handle 6, the latter houses a portion of the cone ejector 20. It is an ejection rod 30 biased upwards by first elastic return means, preferably one or several compression springs 32. The springs 32 act on a plate 33 fixed to the upper end of the rod 30. At its lower end, the rod 30 is secured to a lower ejection portion 34 which travels outside the body fixed 23, along and around the lower part (as shown in Figure 1).
Around the pipetting control rod 10, the pipette is equipped with a volume control system 36 to be sampled, housed inside the handle 6. This system 36 comprises, upstream of the kinematic chain, a screw sample volume control. This screw 38 is integral in rotation, along the axis 26, of a braking ring 40 arranged around the screw 38, itself traversed by the control rod 10. Thus, in known manner, the volume adjustment to take off is performed by the operator by turning the knob 12, which causes the rotation of the control rod 10, that of the screw 38, then that of the brake ring 40. Simultaneously and primarily, the rotation of the screw 38 drives a downstream part of the driveline of the adjustment system 36, the actuation of which makes it possible to vary the volume which will then be taken.
The brake ring 40 is centered on the axis 26 and has a flange-shaped peripheral end 42 which extends in a transverse plane of the pipette. The upper surface of the flange 42 supports a friction washer 44 of elastomer facing upwardly with a locking member 46 of the brake ring 40. The locking member 46, also shown in FIG. 6, is housed in a fixed hollow element 50, itself housed in the handle 6. It comprises a ring 52 arranged facing axially, downwards, of the friction washer 44. Moreover, it comprises a first end 54 pivotally mounted on the fixed element 50, along an axis of rotation 56 eccentric with respect to the axis 26, and arranged in a transverse plane of the pipette so as to be substantially orthogonal to the same axis 26. The axis of rotation 56 is Preferably, the locking member 46 also has a second end 58 opposite the first end 54, namely arranged diametrically opposite on the ring 52.
The pipette also comprises second elastic return means, made by one or more compression springs 60 whose upper end bears on an upper part of the fixed hollow element 50, and whose low end bears on the ring 52, and more precisely on a shoulder formed inside thereof.
The spring 60 thus forces the locking member 46 to press against the friction washer 44, and thus against the flange 42 of the brake ring which supports the same washer 44.
As indicated above, the pipette further comprises the dual-function control member 25, also shown in FIG. 4. This member 25 specific to the invention comprises an upper actuating portion 62 projecting outside the handle 6. , and on which the operator can operate with his thumb when gripping the pipette. The actuating portion 62 is extended downwards by two axial support tongues 64, each equipped with an axial abutment tooth 66 designed to limit its upward stroke relative to the fixed body 23 in which the element 25 is slidably mounted axially. The axial tabs 64 run inside the handle 6 and their low ends are opposite the plate 33 of the cone ejector, as is best seen in Figure 3. Finally, one of the two tabs 64 is equipped with a rack 69 extending axially.
The pipette 1 is also equipped with means for tracking the axial movement of the dual-function control member 25, these follower means 68 being also shown in FIG. 5. They are housed in the handle 6, and comprise a release element 70 of the locking member 46, intended to cooperate with a lower surface of the second end 58. The release member 70 is preferably a pivoting finger, while the lower surface of the second end 58 has a slope relative to a pipette transverse plane, so that these elements 70, 58 respectively form a cam and a follower cam.
In addition, the follower means 68 comprise a toothed angular sector 72, for example extending substantially 90 °. This sector 72, like the finger 68 integral in rotation with the latter, are rotatably mounted on the handle 6 along an axis of rotation 74 arranged in a transverse plane of the pipette, and preferably parallel to the axis of rotation 56 of the locking member 46. The toothed angular sector 72 meshes with the rack 69 of the dual-function control member 25.
In the figures described above, the control member 25 occupies a nominal central position with respect to the handle 6, this position being a position of equilibrium when no action is performed by the operator on this member 25. this central nominal position also shown in Figures 7a and 7b, the spring 60 exerts a force that recalls the locking member 46 in a locking position, wherein the ring 52 is pressed against the flange 42 of the brake ring 40 More precisely, the force developed by the spring 60 causes the member 46 to pivot downwards from its first articulated end 54, to abut against the friction washer 44 supported by the collar 42.
Due to the frictional force exerted between the two elements 52, 42 through the washer 44, the braking ring 40 remains locked in rotation, which causes the locking of the sampling volume adjustment system.
Therefore, in this nominal central position of the control member 25, the operator can perform pipetting operations with the button 12 and the rod 10, without risking changing the setting of the volume to be taken. Still in this same position, the finger 70 remains at a distance from the second end 58 of the locking member, while the tabs 64 are spaced from the plate 33 of the ejector 20 by a small axial clearance 80, referenced on the FIG. 3. From this nominal central position, the control member 25 can be moved by the thumb of the operator either upwards in a high unlocking position of the brake ring 40, or downwards in a low position of cone ejection.
Referring firstly to FIGS. 8a to 8c, it is shown the low cone ejection position, in which the control member 25 presses on the plate of the cone ejector 20, via the lower end of its tabs 64. During the downward pressure of the thumb of the operator on the member 25, the axial clearance 80 shown in Figure 3 is first quickly consumed, then the tabs 64 come into contact with the platen 33. The further actuation of the control member 25 is against the force developed by the springs 32, and thus pushing the assembly of the ejector 20 downwards. The ejector rod 30 then leaves part of the handle 6, as shown in Figure 8c. This movement thus causes the cone ejector 20 to move downwards by pressing on the cone, until ejection thereof.
The displacement of the member 25 from the nominal central position to this low position does not cause any displacement of the locking member 46, which retains its locking position thanks to the plating force developed by the spring 60. during this operation of ejection of the cone, the adjustment of the volume to be sampled is not modified.
In addition, during the same movement of the control member 25 downwards, the rack 69 meshes with the toothed sector 72, but the pivoting finger 70 does not come into contact with the second end 58 of the control member. 46. Indeed, this finger tilts down at the same time that the control member 25 descends, due to its rotational drive by the toothed sector 72. During movement between the nominal central position and the low position d cone ejection, the force of the spring 60 on the locking member 46 remains constant.
After ejection of the cone and release of the pressure of the operator on the control member 25, the latter returns to the nominal central position thanks to the return force developed by the springs 32.
Referring now to Figures 9a to 9c, there is shown the unlocking top position of the brake ring 40, position in which this ring can rotate freely, and thus accompany the rotation of the control rod 10 applied via the button 12 by the operator, to adjust the volume to be taken.
During the upward movement of the member 25 from its nominal central position, the rotation of the toothed sector 72 driven by the axial movement of the tongues 64 causes the finger 70 to pivot upwards, until it comes into contact with the second end 58 of the locking member 46. From this contact, the two elements 70, 58 fulfill their cam and follower function, respectively.
As the rise of the member 25 continues under the effect of the action exerted by the operator, the pivoting finger 70 raises the second end of the locking member 46, causing a rotation of this rotation along its axis of rotation 56. This rotation of the member is effected against the force developed by the spring 60, but with an actuating force of the operator which is advantageously well below that of the spring 60, due to the leverage effect observed. The pivoting of the locking member 46 upwardly causes the latter to reduce the axial pressure that it exerts on the flange 42 via the washer 44, until release of the braking ring 40. This release is materialized by a absence of axial pressure between the two elements 52, 42, or by the preservation of a very low pressure which does not prevent the brake ring 40 from turning during the adjustment of the volume by the operator.
The upward movement of the dual-function control member 25 is stopped by its axial stop teeth 66, which come into contact with corresponding fixed elements (not shown) of the fixed body 23. Once the upper position of unlocking is achieved, despite the significant force developed by the compressed spring 60, this position is self-maintained by the friction between the rotary finger 70 and the second end 58 of the locking member 46. Due to this equilibrium state , the operator can release the control member 25 which remains in the up position, then turn the control knob 12 and proceed to adjust the volume to be withdrawn. The friction force 90 between the cam 70 and the cam follower 58, which maintains the equilibrium position, is oriented with a non-zero component 92 in the tangential direction relative to the axis of rotation 74. Therefore, after adjusting the volume to be taken, the operator can exert a simple downward pressure on the control member 25 to oppose this friction force 90, and break this equilibrium position. The equilibrium is thus broken after a very short downward stroke of the control member 25. After this break, the operator can continue the descent of the control member 25 until it regains its position. nominal power plant. Simultaneously, the locking member 46 moves automatically and abruptly downwards towards its locking position, under the effect of the force developed by the spring 60 pressing on the ring 52 of this locking member 46.
Referring now to Figure 10, it is noted that when the control member 25 is in the unlocked up position, it constitutes an axial stop for the control button 12 during its downward stroke. This is particularly interesting when the operator forgets to bring the member 25 in the central nominal position, after making a volume adjustment to take.
Indeed, during a descent of the control rod 10 downwards and after the dispensing stroke, the knob 12 comes into contact with the upper end of the member 25 which is found to be driven downwards with this same button 12.
After a small axial displacement of the control member 25, and before the end of a purge stroke of the button 12, a break in the equilibrium position of the cam 70 and the cam follower 58 is created, for the same reason as that explained above in the case of a deliberate movement of the member 25 by the operator.
Therefore, after this breaking of the equilibrium position, the locking member 46 automatically finds its locking position thanks to the force developed by the spring 60. Simultaneously, the purge stroke continuation with the control knob 12 continues to generate a sliding down of the dual-function control member 25, due to the retention of the axial stop between these two elements 12, 25. Moreover, it is preferentially made that when the button 12 when it reaches the end of the purge stroke, the dual-function control member 25 occupies its nominal central position. Therefore, in the event of forgetting the operator, this nominal central position is automatically found after the first downward stroke of the control rod 10 and its associated control knob 12.
Then, the release of the control button 12 leads to the automatic raising of the control rod 10 in a known manner which will not be further described, while the dual-function control member 25 remains in its place in its nominal central position.
Of course, various modifications may be made by those skilled in the art to the invention which has just been described, solely by way of non-limiting examples.
权利要求:
Claims (13)
[1" id="c-fr-0001]
Hand-operated sampling pipette (1) comprising: - a fixed pipette body (23); - a pipetting control rod (10) at the end of which is arranged a pipetting control button (12); - a cone ejector (20) biased in the upper position relative to the fixed pipette body (23) by first elastic return means (32); a screw (38) for controlling the sampling volume; - A braking ring (40) of the control screw (38), integral in rotation therewith, characterized in that it further comprises a control member (25) with dual function for unlocking control of the brake ring (40) and a cone ejection control, the control member (25) being slidably mounted relative to the stationary pipette body (23) in an axial direction of the pipette, the latter including an organ locking (46) of the brake ring (40), second elastic return means (60) reminding the locking member (46) in a locking position in which this locking member cooperates with the brake ring ( 40) for braking the rotation thereof, and follower means (68) for axial movement of the dual-function control member (25), said follower means (68) having a release member (70) of the locking member (46), said pipette being configured so that e the control member (25) can occupy a nominal central position in which said second elastic return means (60) bring the locking member (46) into its locking position, and can be moved axially, from its nominal central position, to each of the two following positions: - a low cone ejection position, in which the control member (25) presses on the cone ejector (20), the displacement of the nominal central position towards the low position of cone ejection taking place against the force developed by said first elastic return means (32); and - a high unlocking position of the brake ring (40), the displacement of the dual-function control member (25) from the nominal central position to the unlocking top position leading said release member (70) to moving the locking member (46) against the force developed by said second elastic return means (60), until release of the brake ring (40).
[2" id="c-fr-0002]
2. Pipette according to claim 1, characterized in that it is configured so that the unlocking top position of the brake ring (40) is an equilibrium position held by friction between said release member (70) and the locking member (46).
[3" id="c-fr-0003]
3. Pipette according to claim 1 or claim 2, characterized in that said release member (70) is a pivoting finger.
[4" id="c-fr-0004]
4. Pipette according to any one of the preceding claims, characterized in that said locking member (40) comprises: - a ring (52) arranged axially facing a flange (42) of the brake ring (40) a first end (54) pivotally mounted on a stationary member (50) of the pipette, and a second end (58) opposite to the first and intended to cooperate with said release member (70), so that the second end (58) and said clearance member (70) respectively form a cam and a cam follower.
[5" id="c-fr-0005]
5. Pipette according to the preceding claim, characterized in that the first end (54) is pivotally mounted along an eccentric axis of rotation (56), arranged in a transverse plane of the pipette.
[6" id="c-fr-0006]
6. Pipette according to claim 4 or claim 5, characterized in that a friction washer (44) is interposed between said flange (42) and the ring (52) of the locking member (46).
[7" id="c-fr-0007]
7. Pipette according to any one of the preceding claims, characterized in that said follower means (68) comprise at least one toothed angular sector (72) rotatable about an axis of rotation (74) of the follower means, the angular sector toothed ( 72) cooperating with a rack (69) formed on said dual-function control member (25), the toothed angular sector being rotationally integral with said release member (70).
[8" id="c-fr-0008]
8. Pipette according to the preceding claim combined with claim 2, characterized in that in the unlocked high position of the brake ring (40), the equilibrium position is held by friction between the second end (58) and the release member (70), the frictional force being oriented with a non-zero component (92) in the tangential direction relative to said axis of rotation (74) of the follower means (68).
[9" id="c-fr-0009]
9. Pipette according to the preceding claim, characterized in that it is configured so that in the unlocked high position of the brake ring (40), said dual-function control member constitutes an axial stop for the control button for pipetting (12) in its downward stroke, and that the axial displacement of the dual-function control member (25) caused by the axial displacement of the pipetting control knob (12) generates, prior to the end of a purge stroke, a rupture of said equilibrium position after which said locking member (46) moves automatically in the direction of its locking position, under the effect of the force developed by the second elastic means recall (60).
[10" id="c-fr-0010]
10. Pipette according to any one of the preceding claims, characterized in that it is configured so that the screw (38) volume control volume is rotated by the control rod (10).
[11" id="c-fr-0011]
11. Pipette according to any one of the preceding claims, characterized in that the cone ejector (20) comprises an ejection rod (30) biased upwards by the first elastic return means (32), as well as a lower ejection portion (34) integral with a lower end of the ejector rod (30).
[12" id="c-fr-0012]
12. Pipette according to any one of the preceding claims, characterized in that said dual-function control member (25) is equipped with abutment means (66) for limiting its upward stroke relative to the fixed body of the pipette ( 23).
[13" id="c-fr-0013]
13. Pipette according to any one of the preceding claims, characterized in that it is a single channel pipette or multichannel.
类似技术:
公开号 | 公开日 | 专利标题
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同族专利:
公开号 | 公开日
BR112018000944A2|2018-09-04|
EP3349901B1|2019-06-12|
WO2017046120A1|2017-03-23|
PL3349901T3|2019-12-31|
US10799860B2|2020-10-13|
CN108025305A|2018-05-11|
KR20180052121A|2018-05-17|
ES2744440T3|2020-02-25|
EP3349901A1|2018-07-25|
CN108025305B|2020-04-24|
CA2997942A1|2017-03-23|
JP6800230B2|2020-12-16|
US20180250667A1|2018-09-06|
FR3040896B1|2017-10-13|
JP2018532588A|2018-11-08|
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法律状态:
2016-09-28| PLFP| Fee payment|Year of fee payment: 2 |
2017-03-17| PLSC| Search report ready|Effective date: 20170317 |
2017-09-29| PLFP| Fee payment|Year of fee payment: 3 |
2018-09-28| PLFP| Fee payment|Year of fee payment: 4 |
2019-09-30| PLFP| Fee payment|Year of fee payment: 5 |
2021-06-11| ST| Notification of lapse|Effective date: 20210506 |
优先权:
申请号 | 申请日 | 专利标题
FR1558650A|FR3040896B1|2015-09-15|2015-09-15|PRESSURE PIPETTE COMPRISING A DOUBLE-FUNCTION CONTROL MEMBER FOR CONE EJECTION AND UNLOCKING OF THE VOLUME ADJUSTMENT SYSTEM|FR1558650A| FR3040896B1|2015-09-15|2015-09-15|PRESSURE PIPETTE COMPRISING A DOUBLE-FUNCTION CONTROL MEMBER FOR CONE EJECTION AND UNLOCKING OF THE VOLUME ADJUSTMENT SYSTEM|
CA2997942A| CA2997942A1|2015-09-15|2016-09-14|Sampling pipette comprising a control member with double function for ejecting a cone and unlocking the system for volume adjustment|
ES16770712T| ES2744440T3|2015-09-15|2016-09-14|Sampling pipette comprising a control member with dual cone ejection and volume adjustment system release functions|
PL16770712T| PL3349901T3|2015-09-15|2016-09-14|Sampling pipette comprising a control member with double function for ejecting a cone and unlocking the system for volume adjustment|
PCT/EP2016/071625| WO2017046120A1|2015-09-15|2016-09-14|Sampling pipette comprising a control member with double function for ejecting a cone and unlocking the system for volume adjustment|
CN201680053239.2A| CN108025305B|2015-09-15|2016-09-14|Sampling pipette comprising a control member with dual functions for ejecting a cone and unlocking a system for volume adjustment|
JP2018532813A| JP6800230B2|2015-09-15|2016-09-14|Sampling pipette equipped with a control member that has the dual functions of unlocking the volume control system and cone ejection.|
KR1020187007300A| KR20180052121A|2015-09-15|2016-09-14|A sampling pipette including a dual function control member for releasing the cone and unlocking the system for volume control|
BR112018000944-0A| BR112018000944A2|2015-09-15|2016-09-14|? manually activated sampling pipette?|
US15/759,983| US10799860B2|2015-09-15|2016-09-14|Sampling pipette comprising a control member with double function for ejecting a cone and unlocking the system for volume adjustment|
EP16770712.4A| EP3349901B1|2015-09-15|2016-09-14|Sampling pipette comprising a control member with double function for ejecting a cone and unlocking the system for volume adjustment|
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