JPS62170852A - Partial injector - Google Patents

Abstract

PURPOSE:To obtain a device which can execute a determination extending over a wide range, by providing the first plunger in the first slide hole of a body part, and providing the second plunger for moving through the inside of the second side hole, on said plunger. CONSTITUTION:When a plunger 12 is made to ascend from a state that the tip part of an inlet and discharge tube 1 is immersed into a liquid sample 8, and the upper face of a head part 12a abuts on a plunger 3, the plunger 3 ascends, the liquid sample 8 is absorbed into the inlet and discharge tube 1, and when the plunger 12 is made to descend, the sample 8 is discharged, and a partially injecting operation whose partially injecting capacity is large is executed. When the plunger 12 is made to ascend within a range where the upper face of the head part 12a does not abut on the plunger 3, from a state that the upper face of the head part 12a does not abut on the plunger 3, the liquid sample 8 is absorbed into the tube 1, and when the plunger 12 is made to descend, the sample 8 is discharged, and the partially injecting operation of a small capacity is executed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a dispensing device for quantitatively determining a liquid, which is used in an automatic chemical analyzer or the like.

[Conventional technology]

Dispensing devices used in automatic chemical analyzers, etc., suck in and discharge liquid by moving a plunger (Japanese Patent Application Laid-Open No. 59-147268, Japanese Patent Application Laid-Open No. 60-14226).
Publication No. 1).

FIG. 16 is a diagram showing a conventional dispensing device using a plunger. In the figure, 7a is a motor, 7b is a motor 7a
7c is an output lot of the linear motion mechanism 7b, 5 is a holding base attached to the output lot 7c, 7d is a guide, and 7e is a sliding member fixed to the holding base 5. The sliding member 7e is guided by a guide 7dl. A vertical drive mechanism 7 that moves the holding table 5 up and down by a motor 7a, a linear movement mechanism 7b, etc. is constructed.
2 = has been done. Reference numeral 4 denotes a body part fixed to the holding table 5, 1 a suction and discharge pipe provided at the lower part of the body part 4, and 16 a body part 4.
A sliding hole 2 provided in the body portion 4 is a communication hole provided in the body portion 4, and the sliding hole 16 communicates with the suction and discharge pipe 1 via the communication hole 2. 30 is a plunger provided in the sliding hole 16, 6a is a motor attached to the holder 5, 6e is a male screw rotatably supported by the holder 5, and 6b is the output shaft of the motor 6a and the male screw 6e. A coupling 6c connecting the two is a female screw screwed into a male screw 6e, and the plunger 30 is fixed to the female screw 6c. , 6f is a guide fixed to the holding base 5, 6d is a sliding member fixed to the female screw 6c,
The sliding member 6d is guided by a guide 6f. A plunger drive mechanism 6 that moves the plunger 30 up and down is constituted by a motor 6a, a male screw 6e, an acid screw 60, and the like. 10 is a container transport mechanism, 9 is a container attached to the container transport mechanism 10, 8 is a liquid sample stored in the container 9,
11 is a controller that controls the motor 7a, the motor 6a, and the container transport mechanism 10.

In this dispensing device, the container 9 is positioned below the suction and discharge pipe 1 by the container transport mechanism 10, and the lower drive mechanism 7
When the holding table 5 is lowered until the tip of the suction and discharge tube 1 is immersed in the liquid sample 8, the plunger 30 is raised by a predetermined amount by the plunger drive mechanism 6, and the liquid sample 8 is placed inside the suction and discharge tube 1. Inhaled. Next, the holding table 5 is raised by the vertical drive mechanism 7, and the container transport mechanism 1
0, the container 9 into which the liquid sample 8 was to be transferred was positioned on the f side of the suction and discharge tube 1, and the holding table 5 was lowered by the vertical drive mechanism 7, and the tip of the suction and discharge tube 1 was inserted into the container 9. Thereafter, by lowering the plunger 30 using the plunger drive mechanism 6, the liquid sample 8 sucked into the suction/discharge pipe 1 can be transferred to the container 9. After this, after the holding table 5 is raised by the vertical drive mechanism 7,
The container 9 is transported by the container transport mechanism 10.

[Problem that the invention seeks to solve]

By the way, in automatic chemical analyzers, etc., there are cases where a wide range of quantification is required, ranging from several μQ order to mfl order. It is necessary to reduce the suction amount for a predetermined movement amount of the plunger drive mechanism 6 (plunger 30) by decreasing the diameter, and also to increase the movement amount of the plunger 30. In this case, if the suction amount increases, the plunger 30 The time it takes to move becomes longer.

In order to solve this problem, it is possible to provide plungers with different diameters in multiple body parts, but in this case, it is necessary to provide multiple plunger drive mechanisms, making the entire device large and expensive. It is inevitable that it will become.

This invention was made in order to solve the above-mentioned problems, and provides a dispensing device that can quantify over a wide range, has a small plunger movement, and does not require multiple plunger drive mechanisms. The purpose is to

[Means for solving problems]

In order to achieve this object, in the present invention, in a dispensing device that sucks in and discharges liquid by moving a plunger, a first sliding hole is provided in the body part, and a first sliding hole is provided in the first sliding hole. A plunger having a diameter of the first plunger is provided on either the body portion or the first plunger. A second sliding hole having a diameter smaller than that of the sliding hole is provided, and a second plunger that moves within the second sliding hole is provided.

[Effect]

In this dispensing device, by moving the first plunger within the first sliding hole, a dispensing operation with a large dispensing volume can be performed, and by moving the first plunger within the second sliding hole, the second plunger can be moved within the second sliding hole. By moving the plunger, a dispensing operation with a small dispensing volume can be performed.

[Example] FIG. 1 is a diagram showing a dispensing device according to the present invention. In the figure, 3 is a plunger provided in the sliding hole 16;
4 is a sliding hole provided in the plunger 3, and the diameter of the sliding hole 14 is naturally smaller than the diameter of the sliding hole 16.

13 is a guide hole provided in the plunger 3, 12 is a plunger provided in the sliding hole 14, 12a is a head of the plunger 6 and 12, and the head 12a is provided in the guide hole 13, The head 12a is fixed to a female screw 6c.

When the plunger 12 is moved with the upper and lower surfaces of the head 12a in contact with the plunger 3, the plunger 3 moves, but in other cases, friction between the body 4 and the plunger 3 Due to the force, the plunger 3 is stopped. 15 is a sealing member provided between the plunger 3 and the plunger 12.

In this dispensing device, as shown in FIG.
As shown in the figure, when the plunger 12 is raised, the plunger 3 is raised and the liquid sample 8 is placed inside the suction and discharge tube 1.
is inhaled. As shown in FIG. 4, after inserting the tip of the suction and discharge tube 1 into the container 9 into which the liquid sample 8 is to be discharged, as shown in FIG. The liquid sample 8 in the discharge tube 1 is discharged into a container 9. In this case, the liquid sample 8 is sucked in and discharged by moving the large-diameter plunger 3, so that a dispensing operation with a large dispensing volume can be performed. Further, as shown in FIG. 6, the plunger 12 is moved from a state where the top surface of the head 12a is not in contact with the plunger 3 to a state in which the top surface of the head 12a is not in contact with the plunger 3, as shown in FIG. If you raise it with
A liquid sample 8 is drawn into the chamber. As shown in FIG. 8, after inserting the tip of the suction and discharge tube 1 into the container 9 into which the liquid sample 8 is to be discharged, as shown in FIG. The liquid sample 8 in the discharge tube 1 is discharged into a container 9. In this case, the liquid sample 8 is sucked in and discharged by moving the plunger 12 having a small diameter, so that a dispensing operation with a small dispensing volume can be performed. Furthermore, after discharging the liquid sample 8 from the suction and discharge pipe 1, the plunger 1
2.3 is lowered, air is discharged from the suction/discharge pipe 1, so even a small amount of liquid sample 8 adhering to the inner wall of the suction/discharge pipe 1 can be easily discharged. Accuracy can be improved.

FIG. 10 is a diagram showing a part of another dispensing device according to the present invention. In the figure, 17 is a plunger provided in the sliding hole 16, and when the plunger 3 is moved with the upper and lower surfaces of the plunger 3 in contact with the plunger 17, the plunger 17 moves, but in other cases for,
The plunger 17 is stopped due to the frictional force between the body portion 4 and the plunger 17. 18 is a sliding hole provided in the plunger 17, and the plunger 3 is provided in the sliding hole 18. 19 is a communication hole provided in the plunger 17, and the communication hole 19 allows the sliding hole 18 and the communication hole 2 to communicate with each other.

In this dispensing device, dispensing operation with a large dispensing volume can be performed by moving the plunger 17 up and down.
Furthermore, by stopping the plunger 17 and moving the plunger 3 up and down, it is possible to perform a dispensing operation of the perfect volume.Furthermore, with the plunger 17.3 stopped, only the plunger 12 can be moved up and down. By doing so, a dispensing operation with a small dispensing volume can be performed. Further, after discharging the liquid sample 8 from the suction and discharge pipe 1, the plunger 12
．． 3.17 is lowered, air is discharged from the suction and discharge pipe 1, so even a small amount of liquid sample 8 attached to the inner wall of the suction and discharge pipe 1 can be easily discharged. Accuracy can be improved.

FIG. 11 is a sectional view showing a part of another dispensing device according to the present invention. In the figure, 20 is a sliding hole provided in the body portion 4, and the diameter of the sliding hole 20 is smaller than the diameter of the sliding hole 16. 21 is a plunger provided integrally with the plunger 3, and the plunger 21 moves within the sliding hole 20. 22 is a communication hole provided in the plunger 3, and 23 is a communication hole provided in the body portion 4. When the plunger 21 is not inserted into the sliding hole 20, the communication holes 22 and 23 do not communicate with each other, and the plunger 21 When inserted into the sliding hole 20, the communication holes 22 and 23 communicate with each other. The plunger 3 is fixed to the female screw 6c.

In this dispensing device, the plunger 21 is connected to the sliding hole 20.
If you move the plunger 3 up and down within the range where it is not inserted into the
Dispensing operations with large dispensing volumes can be performed. Further, as shown in FIG. 12, the plunger 21 is inserted into the sliding hole 20.
By moving the plunger 3 up and down while the slide hole 16 is inserted into the plunger and the atmosphere is communicated with the atmosphere through the communication holes 22 and 23, it is possible to perform a dispensing operation with a small dispensing volume. .

FIG. 13 is a sectional view showing a part of another dispensing device according to the present invention. In the figure, 24 is an atmosphere communication pipe that communicates the sliding hole 16 with the atmosphere, and 25 is an electromagnetic on-off valve provided in the atmosphere communication pipe 24.

In this dispensing device, dispensing operation with a large dispensing volume can be performed by moving the plunger 3 up and down within the range where the plunger 21 is not inserted into the sliding hole 20 with the electromagnetic on-off valve 25 closed. Moreover, by opening the electromagnetic on-off valve 25 and moving the plunger 3 up and down with the plunger 21 inserted into the sliding hole 20, dispensing operation with a small dispensing volume can be performed.

FIG. 14 is a sectional view showing a part of another dispensing device according to the present invention. In the figure, 26 is a sliding hole provided in the body portion 4, and the diameter of the sliding hole 26 is smaller than the diameter of the sliding hole 16. A plunger 27 is provided integrally with the plunger 3, and even when the upper surface of the plunger 3 is in contact with the body 4, the tip of the plunger 27 is inserted into the sliding hole 26. 28 is a communication hole provided in the body portion 4, and the communication hole 2
2.23 communicates with each other, the communication hole 28 connects with the sliding hole 16.
When the communication holes 22 and 23 do not communicate, the communication hole 28 connects the sliding hole 16 and the suction and discharge pipe 1.
do not communicate with

29 is a sealing member provided between the body portion 4 and the plunger 27.

In this dispensing device, the communicating hole 28 allows the sliding hole 16 to
By moving the plunger 3 up and down within a range where the suction and discharge pipe 1 communicate with each other and the communication holes 22 and 23 do not communicate with each other, a dispensing operation with a large dispensing volume can be performed.

Further, as shown in FIG. 15, the sliding hole 16 and the suction/discharge pipe 1 do not communicate with each other, and the sliding hole 1
By moving the plunger 3 up and down within a range where the plunger 6 communicates with the atmosphere, a small dispensing volume can be performed.

Moreover, since the plunger 27 is always inserted into the sliding hole 26 and there is no need to take the plunger 27 in and out of the sliding hole 26, it is possible to prevent the plunger 27 from being damaged.

In the above embodiment, the liquid sample 8 is placed in the container 9.
Although the case of discharging the liquid sample 8 has been described, the present invention can also be applied to a dispensing device or the like that supplies the liquid sample 8 to a well provided in, for example, an electropersistent gel. Further, a disposable tip may be attached to the suction and discharge pipe 1. moreover.

In the embodiments shown in FIGS. 1 and 10, the dispensing volume can be selected in two or three stages, but if another plunger is provided in the plunger 17, the dispensing volume can be adjusted in four stages. It is also possible to allow more selections.

In addition, in the dispensing device shown in FIG. 11, two sliding holes 16 and 20 are provided in the body portion 4, but three or more sliding holes with different diameters are provided in the body portion 4, and these sliding holes are By integrally providing a plunger that moves within the flow hole, the dispensing volume can be selected from three or more levels.

〔Effect of the invention〕

As explained above, in the dispensing device according to the present invention, since the dispensing volume can be selected, it is possible to perform quantitative determination over a wide range, the moving range of the plunger is small, and moreover, it is possible to use a plurality of plungers. Since there is no need to provide a drive mechanism, the entire device does not become large or expensive.

As described above, the effects of this invention are remarkable.

[Brief explanation of drawings]

FIG. 1 is a diagram showing a dispensing device according to the present invention, and FIGS. 2 to 9 are explanatory diagrams of the operation of the dispensing device shown in FIG.
0 and 11 are sectional views showing a part of another dispensing device according to the present invention, FIG. 12 is an explanatory diagram of the operation of the dispensing device shown in FIG. 11, and FIGS. 13 and 14. 15 is an explanatory diagram of the operation of the dispensing device shown in FIG. 14, and FIG. 16 is a diagram showing a conventional dispensing device. be. 1... Suction and discharge pipe 3... Plunger 4...
・Body part 8...Liquid sample 9...Container 12...Plunger 13...Guide hole 14...Sliding hole 16・
...Sliding hole 17...Plunger 18...
・Sliding hole 20...Sliding hole 21...Plunger 26...Sliding hole 27...Plunger

Claims (1)

[Claims] 1. In a dispensing device that sucks in and discharges liquid by moving a plunger, a first sliding hole is provided in the body, and the first sliding hole is provided in the body.
a first plunger is provided in the sliding hole, and a second sliding hole is provided in either the body portion or the first plunger, the diameter of which is smaller than the diameter of the first sliding hole; A dispensing device comprising a second plunger that moves within the second sliding hole. 2. providing the second sliding hole in the first plunger;
2. The dispensing device according to claim 1, wherein the first plunger is provided with a guide hole, and the head of the second plunger is provided within the guide hole. 3. The dispensing device according to claim 1, wherein the second sliding hole is provided in the body, and the second plunger is provided integrally with the first plunger.