PL72476Y1 - Four-channel pipette equipped with a pipette tip ejection mechanism - Google Patents

Abstract

A four-channel pipette having a pipette body and a four-channel pipette head connected to the pipette body, where the pipette body has an upper part of the body and a lower part of the body, in the upper part of the body there is a dosing button and a suction and pressing system, and the lower part of the body is connected to the mentioned head four-channel equipped with four ports, the mentioned ports are arranged in a square shape, characterized by the fact that in the upper part (2') of the body (2) there is a through channel (7) leading into a socket (8) for the button (9), wherein in said passage channel (8) there is a movably placed shaft (10) having a first end and a second end, at its first end the shaft (10) is connected to the button (9), at its second end the shaft (10) is equipped with plate (11), in the mentioned socket (8) of the button (9) under the button (9) there is a pressure spring (12), and the plate (11) is equipped with holes equipped with four flanges (13) imitating the shape of the mentioned ports (5 ) provided in the head, and through the mentioned holes equipped with four flanges (13), the plate (11) is movably mounted on the mentioned ports (5) of the head.

Description

EN 72 476 Y1 2 Description of the formula The subject of the utility model is a four-channel pipette equipped with a mechanism for ejecting pipette tips. The utility model relates to the field of technology including multichannel pipettes, ie devices that allow the collection of a specific volume of liquid and the simultaneous dispensing of the collected sample into a plurality of containers suitable for a given application. Such devices are also often called laboratory pipes or automatic pipettes. Automatic pipettes include a suction-delivery system which, during pipetting, in the first operating step, sucks the liquid to the pipette tip, and in the second operating step, pushes the previously sucked liquid out of the said tip into a suitable container. The aforementioned system, in simplified terms, consisting of a piston fitted with a spring in a sealed cylinder and a piston stroke regulator, ensures that a precisely defined volume of liquid is sucked into the tip of the pipette and its precise transfer to an appropriate container (e.g. test tube, multi-well plate). Adjustment of the volume of the drawn liquid is provided by a regulator which determines the range of the plunger stroke, which then translates into the volume of the liquid sucked into the pipette tip. The regulator may be in the form of a manually controlled knob regulating the piston stroke or its functions may be provided by an electronic circuit ensuring microprocessor control. The solutions for the suction and delivery system of automatic pipettes are well known to the person skilled in the art and are not exemplary. In many practical laboratory applications, it is advisable to dispense the liquid by pipette simultaneously into many containers, e.g. into multiwell plates. One example of such an application is immunocytochemical analyzes in which cells are cultured in 4-well plates. In the case when the planned experiment includes, for example, a comparison of cells on several / a dozen plates, then multiple, single preparation of the wells of the plate requires a long time of the operator's work and increases the risk of experiment failure, e.g. due to too long time when the cells are not located above the cells. liquid. In such cases, a multichannel pipette becomes useful, and for immunocytochemical analyzes, a four-channel pipette is particularly preferable. The construction of a multichannel pipette, including a four-channel pipette, is well known to those skilled in the art. According to the state of the art, a four-channel pipette comprises a pipette body equipped with a known suction-delivery system and a head fluidly connected to the body, in which four channels are fluidly connected to the suction-delivery system provided in the pipette body. For each of the four channels located in the head, there is an outlet port on which you can place pipette tips of the size selected for a given dosing volume. An example of a head of such a four-channel pipette is specifically disclosed in patent document FR2916368 (A1). The pipette head shown in the referenced document has circular ports arranged in a square shape, which is particularly advantageous when the pipette is used for dispensing into standard four-well plates, as is the case with sequenced immunocytochemistry analyzes. When using the pipette for immunocytochemical analyzes, the operator must frequently change the disposable pipette tips that are inserted into the ports of the pipette head. With multichannel pipettes, the operation of changing multiple tips at the same time becomes cumbersome and time-consuming. The purpose of this utility model is to provide a four-channel pipette equipped with a tip ejection mechanism which ensures that all four tips are ejected simultaneously into the pipette. The subject of the utility model is a four-channel pipette having a pipette body and a four-channel pipette head connected to the pipette body, the pipette body having an upper body part and a lower body part, and in the upper part of the body there is a dosing button and a suction-delivery system, and the lower one part of the body is connected to the above-mentioned four-channel head equipped with four ports, the above-mentioned ports are arranged on a square plan, the pipette according to the utility pattern is characterized by the fact that in the upper part of the body there is a passageway passing into the button seat, whereby in the said passage there is a movable stem having a first end and a second end, at its first end the stem is connected to the push-button, at its other end the stem is equipped with a knock-off plate, and in said push-button seat, under the push-button, a compression spring is located and the knocking off plate it comprises four holes fitted with flanges imitating the shape of said ports provided in the head and through said four holes fitted with flanges, the dropping plate is movably seated on said ports of the head. EN 72 476 Y1 3 The button has an upper travel stop for the button and a lower travel stop for the button. The upper part of the pipette body is equipped with a handle. The utility pattern is shown in the drawing, in which: Fig. 1 shows the pipette according to the utility pattern in a side view with the through-channel in the pipette body, a button and button seat, and the compression spring and plate in the rest position of the pipette tip ejection mechanism. Fig. 2 is a side view of the pipette according to the utility design with a channel in the pipette body, a button and push button seat, and the compression spring and plate in the drop-off position of the pipette tip ejection mechanism. Fig. 3 shows a perspective view of a pipette pattern in the rest position of the pipette tip ejection mechanism. Fig. 4 is a perspective view of the pipette patterned in the rest position of the pipette tip ejection mechanism with the pipette tips seated on the ports of the head. Fig. 5 shows a consecutive view of the pipette according to a utility pattern. Fig. 6 is a bottom view of the pipette showing the holes in the dump plate provided with flanges into which the ports of the pipette head are seated in a square shape. Fig. 7 shows a bottom view of the dump plate. The pipette 1, according to the utility pattern as shown in Fig. 1, has a pipette body 2 and a pipette head 3, the pipette body 2 having an upper body 2 'and a lower body 2 ", a dispensing button 4 is provided in the upper body 2' of the body, and the lower 2 "part of the body is connected to a four-channel head 3 equipped with four ports 5 for the installation of pipette tips (not shown in Fig. 1, see 6 in Fig. 4), the upper part 2 'of the body is provided with a passageway 7 transforming into a socket 8 of a button 9, wherein in said passage 7 a shank 10 having a first end and a second end is movably arranged, the shank 10 at its first end being connected to the button 9, and the shank 10 at its other end being provided with is connected to a board 11. In the seat 8 of the button 9 under the button 9 there is a compression spring 12, and the board 11 has four holes (not shown in Fig. 1, shown in Fig. 7) provided with a collar e 13 with the shape of the ports 5 provided in the head 3. In the upper part 2 ', the body is equipped with a holder 14. For the purposes of this utility model, the mechanism for ejecting pipette tips, in which the pipette is fitted according to the pattern, includes a shaft 10 connected to a button 9 and a plate 11 and a compression spring 12, said shaft 10 being movably seated in a through channel 7 which passes into a seat 8 provided in the body 2 for a button 9, said seat 8 receiving a pressure spring 12. Through-hole as used herein means a channel running along the length of the pipette into which the shaft 12 can be inserted, the width of the channel being designed to be slightly larger than the width of the shaft, so as to ensure that the shaft moves freely in the channel - thus ensuring that the shaft is embedded in the channel in a movable manner. The upper body portion 2 'houses a prior art suction-press system (not shown). Activation of the mentioned system, i.e. suction and dosing of the sucked up liquid, is ensured by a dosing button 4 located in the upper part of the body, cooperating with the system. The lower part 2 "of the body provides a fluid connection of the pipette head 3 with the suction and pressure system arranged inside the body in a manner known in the art. The solutions of the suction and delivery system, its connection and control with the button as well as the connection of the system with the head are solutions known in the state of the art, they are not the essence of the design, they are not shown in the drawing. The head 3 is a four-channel head (channels inside the head not shown in the drawing), with a separate port 5 for each channel in the head. Pipette tips 6 are attached to the ports 5 (as shown in Fig. 4). The button 9 is connected to the stem 10. This connection can be made by gluing the stem into a seat in the button, or by a form, thread or other connection known to the person skilled in the art. The button is preferably provided with an upper travel stop 9 "and a lower travel stop 9". The abovementioned stops are projections limiting the movement of the button in the seat 8 of the button, the upper stop 9 "limiting the movement of the button downwards, and the lower stop 9" limiting the movement of the button upwards. Under the button 9 in the seat 8 there is a pressure spring 12, whose task is by exerting pressure on the button 9 to keep the system in the rest position (as shown in PL 72 476 Y1 4 in Fig. 1), i.e. in the position in which the button 9 is located in the raised position, the plate 11 is adjacent to the head 3. As shown in Fig. 7, plate 11 is provided with four holes 15 provided with collars 13 which follow the shape of the ports 5 and ensure the seat of the plate on the ports. As used herein, this means that the shape of the plate holes flanges 13 allows for the reception of ports inside the flanges allowing the plate to be movably seated on the ports 5. The seating of the ports 5 in the plate hole flanges 13 is illustrated in Fig. 6. As shown in Fig. 1 - Fig. 3, the diameter of the ports increases towards the head. Similarly, the diameter of the hole in the flange is increased, but at no point on the flange the diameter of the flange must be greater than the largest diameter of the pipette tip (typically 8 mm) to ensure that the pipette tips are dropped. The plate 11 is permanently connected to the shank 10. This connection can be made in a known manner by welding, threading or some other known method (not shown). Ports 5 on head 3 are arranged in a square shape. The concept of a square layout is explained in Fig. 6, which shows that the port outlets 5 have the shape of a circle, where the center of said circles is marked with the symbol x. As can be seen in Fig. 6, the combination of said circle centers (dashed line) provides a square shape. Ports thus arranged are understood in the context of this formula as ports arranged in a square. The handle 14 provided in the upper part 2 of the body 2 ensures ergonomic handling of the pipette, while allowing for its easy storage, serving as an element allowing the pipette to be suspended on the pipette stand. In the resting position (as shown in Figs. 1 and 3) plate 11 is adjacent to the head 3. Pressing the button 9 causes the shaft 10 to move in the through-channel 7 downwards, at the same time displacing plate 11 along the ports 5, plates 11 holes inside the flanges 13. As a result of this movement, the flanges 13 release the tips 6. After the ejection, due to the pressure exerted on the button 9 by the pressure spring 12, the mechanism returns to its rest position, i.e. the shaft moves upwards in the through-channel 7 , the button 9 returns to the raised position (as shown in Fig. 1) and the plate to the position adjacent to the head. After dropping, it is possible to put more tips into the pipette. The design solution ensures efficient discharge of tips into the pipette, increasing the usability of the 4-channel pipette. PL

Claims (3)

Protective Claims 1. Four-channel pipette having a pipette body and a four-channel pipette head connected to the pipette body, the pipette body having an upper body part and a lower body part, in the upper part of the body there is a dosing button and a suction-delivery system, and the lower part the body is connected to the said four-channel head provided with four ports, the ports being arranged on a square plan, characterized in that in the upper part (2 ') of the body (2) there is provided a through channel (7) passing into the socket (8) for a button (9), wherein in said through channel (8) a movable stem (10) having a first end and a second end is arranged, at its first end the stem (10) is connected to the button (9), on its first end at the other end, the shaft (10) is equipped with a plate (11), in the above-mentioned socket (8) of the button (9) there is a compression spring (12) under the button (9), and the plate (11) is equipped with with holes equipped with four flanges (13) imitating the shape of said ports (5) provided in the head, and through said holes equipped with four flanges (13) the plate (11) is movably seated on said ports (5) of the head. 2. A four-channel pipette according to claim 1. The apparatus of claim 1, characterized in that the button (9) has an upper travel stop (9 ") and a lower travel stop (9"). 3. A four-channel pipette according to claim 1, The pipette body (2) as claimed in claim 1 or 2, characterized in that the pipette body (2) is provided with a holder (14) in the upper part (2 '). PL