JP2005017177A - Dispensation support rack and dispensation support system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a dispensation support rack capable of adding surely an identification number of a specimen container in which a parent specimen, is stored to a specimen container in which a child specimen is stored. <P>SOLUTION: In this dispensation support rack 2 for storing the specimen container 10 for the parent specimen having the parent specimen identification number and the specimen containers 12, 14 for the child specimen having the child specimen identification numbers, the parent specimen identification number of the specimen container 10 for the parent specimen is acquired, and the acquired parent specimen identification number is displayed on a display part 16. In addition, the acquired parent specimen identification number is written on IC tags provided on the specimen containers 12, 14 for the child specimen. Then, the child specimen identification numbers of the specimen containers 12, 14 for the child specimen are acquired, and the acquired child specimen identification numbers are written on an IC tag provided on the specimen container 10 for the parent specimen. In addition, the residual quantity of the parent specimen remaining in the specimen container 10 for the parent specimen after dispensation is inputted and written. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a dispensing support rack for supporting dispensing of specimens such as blood, plasma, and serum, and a dispensing support system including the dispensing support rack.
[0002]
[Prior art]
Conventionally, specimens such as blood, plasma, and serum used for examination are collected in a medical institution or the like, stored in a specimen container constituted by a test tube or the like, and transported to the examination institution. In the inspection organization, after receiving the received sample, the sample is stored and the requested inspection is performed. That is, reception processing, for example, processing such as attaching a label describing sample information including a sample number for identifying a sample, a reception date, etc., to a sample container containing a sample carried into a laboratory ( For example, see Patent Document 1), and the specimen is stored. In addition, the examination of the specimen that has been received and stored is performed based on the description content of the examination request document that is carried together with the specimen from the medical institution.
[0003]
[Patent Document 1]
JP-A-8-285855
[0004]
[Problems to be solved by the invention]
When a sample test is instructed, the required sample (parent sample) is extracted from the sample rack based on the sample instruction information, dispensed, and the dispensed sample (child sample) is used. Inspection is performed. In this case, in order to associate (link) the parent sample and the child sample, it is necessary to attach a label on which the identification number or sample information of the parent sample is attached to the sample container in which the child sample is stored. It took a lot of effort. Further, when performing the test, the sample is identified based on the identification information described on the label, and therefore there is a possibility that the sample may be mixed up due to an erroneous reading of the label. Furthermore, there is a possibility that the sample may be mixed up by attaching an incorrect label to the sample container containing the dispensed sample.
[0005]
An object of the present invention is to provide a dispensing support rack that can reliably add an identification number of a sample container in which a parent sample is stored to a sample container in which a child sample is stored, and a dispensing support rack including the dispensing support rack. To provide a support system.
[0006]
[Means for Solving the Problems]
The dispensing support rack according to claim 1 is a dispensing support rack that accommodates a parent sample specimen container having a parent specimen identification number and at least one child specimen specimen container having a child specimen identification number. A first sample IC provided in the child sample container with the parent sample number acquiring means for acquiring the parent sample identification number of the sample container for the sample, and the parent sample identification number acquired by the parent sample number acquiring means; And a parent specimen number writing means for writing in the tag.
[0007]
According to the dispensing support rack according to claim 1, the parent sample identification number of the parent sample container is set as the parent sample specimen in a state where the parent sample container and the child sample container are accommodated in one rack. Since the first IC tag provided in the container can be written, the parent sample identification number can be surely added to the sample container for child samples in which the child sample is accommodated. Therefore, it is possible to prevent the parent sample identification number from being added to the wrong child sample container.
[0008]
The dispensing support rack according to claim 2, wherein the parent sample specimen container includes a second IC tag for storing the parent specimen identification number, and the parent specimen number acquisition means is connected to the second IC tag. A parent sample number reading means for reading the parent sample identification number is provided.
[0009]
According to the dispensing support rack described in claim 2, since the sample container for the parent sample is provided with the second IC tag, the parent sample identification number stored in the second IC tag is read and read. The parent sample identification number can be reliably written to the first IC tag provided in the child sample container.
[0010]
The dispensing support rack according to claim 3, wherein the parent sample specimen container includes a barcode having the parent specimen identification number, and the parent specimen number acquisition means reads the parent specimen identification number from the barcode. A parent specimen number reading unit is provided.
[0011]
According to the dispensing support rack according to claim 3, since the sample container for parent sample is provided with the barcode having the parent sample identification number, the parent sample identification number is read from the barcode, and the read parent sample identification is read. The number can be reliably written in the second IC tag provided in the sample container for child samples.
[0012]
The dispensing support rack according to claim 4 further includes parent sample number display means for displaying the parent sample identification number acquired by the parent sample number acquisition means.
[0013]
According to the dispensing support rack described in claim 4, since the parent sample identification number of the sample container for the parent sample can be displayed, the parent sample is surely identified by the parent sample identification number when dispensing the sample. And it can be confirmed easily.
[0014]
The dispensing support rack according to claim 5 is read by the child sample number reading means for reading the child sample identification number from the first IC tag storing the child sample identification number, and the child sample number reading means. And a child sample number writing means for writing the child sample identification number in the second IC tag provided in the parent sample sample container.
[0015]
According to the dispensing support rack of claim 5, the child sample identification number stored in the first IC tag provided in the child sample sample container is provided in the parent sample sample container. Therefore, the child sample identification number can be reliably added to the parent sample container. Therefore, the dispensed child sample can be easily confirmed by referring to the child sample identification number stored in the second IC tag provided in the parent sample container.
[0016]
The dispensing support rack according to claim 6, wherein the parent sample stored in the parent sample specimen container is dispensed into the child sample specimen container, and then the parent sample remaining in the parent sample specimen container is disposed. It further comprises a remaining sample amount input means for inputting the remaining amount of the sample, and the child sample number writing means further writes the remaining amount of the parent sample input by the remaining sample amount input means.
[0017]
According to the dispensing support rack according to claim 6, the remaining amount of the parent sample remaining in the parent sample specimen container after the dispensing is reliably supplied to the second IC tag provided in the parent specimen specimen container. Can write. In addition, when it becomes necessary to perform a retest or a new test of the sample by referring to the remaining amount of the parent sample stored in the second IC tag provided in the sample container for the parent sample Whether or not it is necessary to collect blood again from the patient can be grasped, and when it is not necessary to collect blood again, a reexamination or a new examination can be quickly performed.
[0018]
The dispensing support rack according to claim 7 is a dispenser that obtains dispensing information based on the examination request information of the parent sample from the host system based on the parent sample identification number obtained by the parent sample number obtaining means. It is characterized by comprising information acquisition means and dispensing information display means for displaying the dispensing information acquired by the dispensing information acquisition means.
[0019]
According to the dispensing support rack described in claim 7, since the dispensing information based on the examination request information of the parent sample acquired from the host system can be displayed, the dispensing information of the displayed parent sample is referred to. By doing so, the parent sample can be reliably and easily dispensed.
[0020]
The dispensing support rack according to claim 8, wherein a laboratory that writes information on a laboratory in which a child sample included in the dispensing information is examined is written in at least one of the first tag and the second tag. An information writing means is provided.
[0021]
According to the dispensing support rack according to the eighth aspect, it is possible to reliably add information on a laboratory in which a child sample is tested to the second IC tag provided in the parent sample specimen container. Therefore, by referring to the information about the laboratory attached to the sample container for child samples, it is possible to prevent the sample container for child samples containing the child sample from being carried into the wrong laboratory.
[0022]
A dispensing support system according to claim 9 is provided with the dispensing support rack according to any one of claims 1 to 8 and a host system having inspection request information of a parent sample. The dispensing support rack includes a remaining sample amount transmitting unit that transmits the remaining amount of the parent sample after dispensing to the upper system, and the upper system is transmitted by the remaining sample amount transmitting unit. A first storage unit that stores the remaining amount of the parent sample in association with the parent identification number is provided.
[0023]
According to the dispensing support system of the ninth aspect, the dispensing support rack capable of writing the parent sample identification number of the parent sample specimen container into the first IC tag provided in the child specimen specimen container is provided. Therefore, the parent sample identification number can be surely added to the sample container for child samples in which the child sample is accommodated. Further, since the remaining amount of the parent sample remaining in the parent sample specimen container after dispensing is transmitted to the upper system, the remaining amount of the parent sample can be managed in the upper system. Therefore, by referring to the remaining amount of the parent sample stored in the host system, it is necessary to collect blood from the patient again when it is necessary to perform a retest or a new test of the sample. If it can be easily grasped and blood collection is not necessary again, a retest or a new test can be quickly performed.
[0024]
The dispensing support system according to claim 10, wherein the dispensing support rack includes a child sample number transmitting unit that transmits the child sample identification number to the higher system, and the higher system includes the child sample number transmitting unit. A second storage means is provided for storing the transmitted child sample identification number in association with the parent sample identification number.
[0025]
According to the dispensing support system of claim 10, the dispensing support rack capable of writing the parent sample identification number of the parent sample sample container into the first IC tag provided in the child sample container is provided. Therefore, the parent sample identification number can be surely added to the sample container for child samples in which the child sample is accommodated. In addition, since the child sample identification number of the child sample sample container is transmitted to the host system, the child sample identification number can be managed in association (linked) with the parent sample identification number.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an external view of a dispensing support rack according to an embodiment of the present invention. The dispensing support rack 2 has a rectangular parallelepiped shape that can be held with one hand, and includes three sample container insertion portions 4, 6, and 8 for inserting the sample containers into the upper wall portion. The sample container insertion part 4 is provided on the left side of the upper wall of the dispensing support rack 2 and accommodates a parent sample test tube (parent sample container) 10 that accommodates the parent sample. The sample container insertion section 6 is provided at the center of the upper wall of the dispensing support rack 2 and accommodates a child sample test tube (child sample container) 12 that accommodates the child sample. The sample container insertion section 8 is provided on the right side of the upper wall of the dispensing support rack 2 and accommodates a child sample test tube (child sample container) 14 that accommodates the child sample.
[0027]
In addition, a display unit 16 that displays a specimen identification number, dispensing information, and the like is provided on the upper right side of the front wall of the dispensing support rack 2. Further, an enter button 18, a load button 20, and an erase button 22 are provided from the top in the approximate center of the front wall of the dispensing support rack 2. Furthermore, a numeric keypad 24 is provided at the lower right side of the front wall of the dispensing support rack 2, that is, at the lower part of the display unit 16, for inputting the remaining amount of the parent sample after dispensing.
[0028]
FIG. 2 is a configuration diagram of the dispensing support rack 2 according to the embodiment of the present invention. An IC tag (second IC tag) 26 in which a parent sample identification number is stored in the parent sample test tube 10 housed in the sample container insertion portion 4 of the dispensing support rack 2, a sample container insertion portion The child sample test tube 12 accommodated in 6 has an IC tag (first IC tag) 28 in which a child sample identification number is stored, and a child sample test tube accommodated in the sample container insertion portion 8. 14 stores an IC tag (first IC tag) 30 in which a child sample identification number is stored. Here, as the IC tags 26, 28, and 30, those that can read and write information without contact, for example, RFID (Radio Frequency Identification) tags and the like are used.
[0029]
For the IC tags 26, 28, and 30, for example, an electrostatic coupling system having a communication distance of about several millimeters at maximum or an electromagnetic induction system having a communication distance image of about several cm at maximum is used. Accordingly, the IC tag 26 transmits / receives information only to an antenna 34 described later, and does not transmit / receive information to antennas 36, 38 described later. Similarly, the IC tag 28 transmits and receives information only to the antenna 36 and does not transmit and receive information to the antennas 34 and 38. Similarly, the IC tag 30 transmits and receives information only to the antenna 38 and does not transmit and receive information to the antennas 34 and 36. Further, the IC tags 26, 28, and 30 have a film shape and an extremely thin shape, and do not affect the properties of the specimen to be accommodated, for example, polyester, polyethylene, polypropylene, PET (polyethylene terephthalate), etc. It is coated with the material of.
[0030]
In addition, the dispensing support rack 2 reads the parent sample identification number stored in the IC tag 26, the child sample identification number stored in the IC tags 28 and 30, and the like, and performs reading of information related to the sample. A writing device 32 is provided. The dispensing support rack 2 includes an antenna 34 in the vicinity of the sample container insertion portion 4, an antenna 36 in the vicinity of the sample container insertion portion 6, and an antenna 38 in the vicinity of the sample container insertion portion 8. . The antenna 34 receives the parent specimen identification number stored in the IC tag 26 and transmits it to the reading / writing device 32. Further, the child specimen identification number stored in the IC tags 28 and 30 is received from the reading / writing device 32 and transmitted to the IC tag 26. Similarly, the antenna 36 receives the child sample identification number stored in the IC tag 28 and transmits it to the reading / writing device 32. Further, the parent sample identification number stored in the IC tag 26 or the child sample identification number stored in the IC tag 30 is received from the reading / writing device 32 and transmitted to the IC tag 28. Similarly, the antenna 38 receives the child sample identification number stored in the IC tag 30 and transmits it to the reading / writing device 32. In addition, the parent sample identification number stored in the IC tag 26 or the child sample identification number stored in the IC tag 28 is received from the reading / writing device 32 and transmitted to the IC tag 30.
[0031]
FIG. 3 is a block configuration diagram of the entire dispensing support system according to the embodiment of the present invention. The dispensing support system includes a control unit 40 that controls the dispensing support system. The display unit 16, the enter button 18, the load button 20, the erase button 22, and the numeric keypad 24 are connected to the control unit 40. The control unit 40 is connected to a host system 42 that stores inspection request information including dispensing information. Further, an antenna 34 is connected to the control unit 40 via a read / write device 32 that reads a parent specimen identification number stored in the IC tag 26 or writes data to other IC tags 28 and 30. Similarly, it is connected to the antenna 36 via a reading / writing device 32 that reads a child sample identification number stored in the IC tag 28 or writes data to other IC tags 26 and 30. Similarly, it is connected to the antenna 38 via a read / write device 32 that reads a child sample identification number stored in the IC tag 30 or writes data to other IC tags 26 and 28.
[0032]
Next, processing of the dispensing support system according to the embodiment will be described with reference to the flowchart of FIG.
[0033]
First, the worker inserts the parent sample test tube 10 in which the parent sample is stored in the parent sample sample container insertion portion 4 of the dispensing support rack 2. Similarly, the child sample test tube 12 is inserted into the child sample sample container insertion portion 6 of the dispensing support rack 2, and the child sample test tube 14 is inserted into the child sample sample container insertion portion 8.
[0034]
Next, when the command signal is acquired by pressing the load button 20 (step S10), the control unit 40 is stored in the IC tag 26 accommodated in the parent sample test tube 10 accommodating the parent sample. The parent sample identification number is acquired from the reading / writing device 32 via the antenna 34 (step S11). Next, based on the parent sample identification number acquired in step S11, the control unit 40 acquires the examination request information of the parent sample accommodated in the parent sample test tube 10 from the host system 42 (step S12). Next, the control unit 40 displays dispensing information based on the parent sample identification number acquired in step S11 and the examination request information of the parent sample stored in the parent sample test tube 10 acquired in step S12 on the display unit 16. Displayed (step S13).
[0035]
FIG. 5 is a diagram showing a state in which the parent sample identification number and the dispensing information are displayed on the display unit 16 in step S13. Here, the dispensing information includes the required number of child samples, the sample amount required for each child sample, and information on the laboratory in which each child sample is tested. The display unit 16 requires “ID0” as the parent sample identification number, the child sample 1 and the child sample 2 as child samples, the sample amount of the child sample 1 is 5 ml, and the examination is performed in the laboratory 1. The sample amount of the child sample 2 is 3 ml, and it is displayed that the examination is performed in the laboratory 2.
[0036]
Next, the worker dispenses the sample from the parent sample test tube 10 containing the parent sample to the child sample test tubes 12 and 14 according to the parent sample dispensing information displayed on the display unit 16. To do.
[0037]
Next, as shown in FIG. 5, when the operator presses the enter button 18 in a state where “parent ID writing?” Is displayed below the display unit 16 (step S14), the control unit 40 acquires a signal instructing writing of the parent sample identification number, and writes the parent sample identification number acquired in step S11 to the IC tag 28 provided in the child sample test tube 12 via the antenna 36. Similarly, the parent sample identification number acquired in step S11 is written to the IC tag 30 provided in the child sample test tube 14 via the antenna 38 (step S15). That is, as shown in FIG. 6, by writing the parent specimen identification number ID0 stored in the IC tag 26 into the IC tags 28 and 30 via the read / write device 32, the IC tag 28 has its own identification number. The child sample identification number ID1 and the parent sample identification number ID0 are stored, and the IC tag 30 stores the child sample identification number ID2 and the parent sample identification number ID0, which are their own identification numbers.
[0038]
Next, as shown in FIG. 7, when the operator presses the enter button 18 in a state where “child ID write?” Is displayed below the display unit 16 (step S16), the control unit 40 acquires a signal instructing writing of the child sample identification number, and acquires the child sample identification number stored in the IC tag 28 from the read / write device 32 via the antenna 36 from the IC tag 28. Similarly, the child sample identification number stored in the IC tag 30 is acquired from the reading / writing device 32 via the antenna 38 from the IC tag 30. Next, the acquired child sample identification number ID1 is written to the IC tag 26 provided in the parent sample test tube 10 and the IC tag 30 provided in the child sample test tube 14 via the read / write device 32. The acquired child sample identification number ID2 is written into the IC tag 26 provided in the parent sample test tube 10 and the IC tag 28 provided in the child sample test tube 12 via the read / write device 32 (step S17). That is, as shown in FIG. 8, the IC tag 26 stores a parent sample identification number ID0, a child sample identification number ID1, and a child sample identification number ID2, which are their own identification numbers. Similarly, the child tag identification number ID1, the parent sample identification number ID0, and the child sample identification number ID2 that are their own identification numbers are stored in the IC tag 28, and the child sample identification number that is their own identification number is stored in the IC tag 30. ID2, parent sample identification number ID0, and child sample identification number ID1 are stored.
[0039]
Next, the control unit 40 uses the child sample identification number ID1 of the child sample test tube 12 stored in the IC tag 28 and the child sample identification number ID2 of the child sample test tube 14 stored in the IC tag 30. Transmit to the host system 42. The host system 42 stores the transmitted child sample identification numbers ID1 and ID2 in association with the parent sample identification number ID0 of the parent sample test tube 10 stored in the IC tag 26 (step S18).
[0040]
Next, the child sample identification numbers ID1 and ID2 acquired in step S17 are displayed on the display unit 16. That is, as shown in FIG. 9, the display unit 16 includes a parent sample identification number ID0, a child sample identification number ID1, dispensing information corresponding to the child sample identification number ID1, a child sample identification number ID2, and a child sample identification number ID2. Dispensing information corresponding to is displayed.
[0041]
Next, as shown in FIG. 9, in the state where “remaining sample input?” Is displayed below the display unit 16, the worker remains in the parent sample test tube 10 after dispensing by pressing the numeric keypad 24. When the remaining amount of the parent sample is input and the enter button 18 is pressed (step S19), the control unit 40 acquires a signal instructing writing of the remaining amount of the parent sample, and the parent sample input in step S19 is acquired. The remaining amount is written from the read / write device 32 to the IC tag 26 provided in the parent sample test tube 10 via the antenna 34 (step S20). Next, the control unit 40 transmits the remaining amount of the parent sample input in step S19 to the upper system 42. The host system 42 stores the transmitted remaining amount of the parent sample in association with the parent sample identification number ID0 of the parent sample test tube 10 stored in the IC tag 26 (step S21).
[0042]
According to the dispensing support rack according to this embodiment, since it is configured in a small shape that can be held with one hand, it can be dispensed regardless of location.
[0043]
In addition, according to the dispensing support system according to this embodiment, the IC tag provided in the parent sample test tube in a state where the parent sample test tube and the child sample test tube are accommodated in one rack. Since the stored parent sample identification number can be written in the IC tag accommodated in the child sample test tube, the parent sample identification number is stored in the child tag identification number of the child sample test tube. Can be reliably added. Therefore, it is possible to prevent the parent sample identification number from being added to an erroneous child sample test tube.
[0044]
In addition, since the dispensing information based on the parent sample identification number and the inspection request information of the parent sample can be displayed on the display unit, the parent sample identification number should be confirmed surely and easily when dispensing the sample. The sample can be reliably and easily dispensed by referring to the dispensed information of the parent sample displayed.
[0045]
Further, since the child sample identification number stored in the IC tag provided in the child sample test tube can be written in the IC tag provided in the parent sample test tube, the child sample test tube is provided. The dispensed child sample can be easily confirmed by referring to the child sample identification number stored in the IC tag.
[0046]
Further, since the child sample identification number can be transmitted to the host system storing the test request information of the parent sample and stored in correspondence with the parent sample identification number, the parent sample identification number, the child sample identification number, and the host It is possible to reliably associate (link) the examination request information of the parent sample stored in the system.
[0047]
In addition, since the remaining amount of the parent sample remaining in the parent sample test tube after dispensing can be stored in the IC tag and the host system provided in the parent sample test tube, it is provided in the parent sample test tube. When it is necessary to perform a retest or a new test of the sample by referring to the remaining amount of the parent sample stored in the IC tag or the host system, it is necessary to collect blood from the patient again Whether or not blood collection is necessary again, a retest or a new test can be performed quickly.
[0048]
In the dispensing support system according to this embodiment, three sample container insertion portions are provided, but one parent sample container insertion portion and one or more child sample container insertion portions are provided. Just do it.
[0049]
Further, in the dispensing support system according to this embodiment, an IC tag capable of storing a parent sample identification number is used, but as shown in FIG. 10, the parent sample test tube 10 is a parent sample. You may make it provide the barcode 50 which has an identification number. In this case, a barcode reader 52 is provided in the vicinity of the sample container insertion portion 4 in order to read the parent sample identification number, and is recorded on the barcode 50 by the reading / writing device 32 via the barcode reader 52. Read the parent specimen identification number. The read parent specimen identification number is written from the read / write device 32 to the IC tag 28 via the antenna 36. Similarly, the read parent specimen identification number is written to the IC tag 30 from the read / write device 32 via the antenna 38.
[0050]
Further, in the dispensing support system according to this embodiment, information on the laboratory in which the child sample included in the dispensing information stored in the host system is tested is provided in the child sample test tube. You may write in an IC tag. That is, when writing the parent sample identification number stored in the IC tag 26 in the IC tag 28 in step S15, the control unit 40 uses the child sample included in the parent sample dispensing information acquired in step S12. Information on a laboratory in which a child sample contained in the test tube 12 is examined is written in the IC tag 28. Similarly, when the parent sample identification number stored in the IC tag 26 is written in the IC tag 30 in step S15, the child sample test tube 14 included in the parent sample dispensing information acquired in step S12 is stored. Information on the examination room where the examination of the contained child sample is performed is written in the IC tag 30. In this case, information on the laboratory in which the child sample is examined can be reliably added to the child sample test tube in which the child sample is accommodated. Therefore, by referring to the information stored in the IC tags 28 and 30 provided in the child sample test tubes 12 and 14 in which the child sample is accommodated, information on the laboratory in which the child sample is tested. Can be easily obtained, and the test tube for a child sample containing the child sample can be prevented from being carried into the wrong laboratory.
[0051]
In the dispensing support system according to this embodiment, the parent sample test request information is stored in the host system. However, the parent sample test request information may be added to the parent sample IC tag. In other words, before the test tube for the parent sample is inserted into the dispensing support rack by an operator or before the test tube for the parent sample is inserted into the dispensing support rack by the worker, the test request information of the parent sample is previously stored in the IC tag provided in the test tube for the parent sample. It may be memorized.
[0052]
Further, in the dispensing support system according to this embodiment, when inputting the remaining amount of the parent sample after dispensing with the numeric keypad 24, an input error can be corrected by pressing the erase button 22. That is, when the erase signal is received by pressing the erase button 22, the control unit 40 deletes the input data input by pressing the numeric keypad 24.
[0053]
【The invention's effect】
According to the dispensing support rack of the present invention, the parent sample identification number of the parent sample specimen container is provided in the child sample specimen container in a state where the parent sample specimen container and the child specimen specimen container are accommodated in one rack. Therefore, the parent sample identification number can be surely added to the sample container for child samples in which the child sample is accommodated. Therefore, it is possible to prevent the parent sample identification number from being added to the wrong child sample container.
[0054]
Further, according to the dispensing support system of the present invention, the dispensing support rack is provided that can write the parent sample identification number of the parent sample specimen container into the first IC tag provided in the child specimen specimen container. Therefore, the parent sample identification number can be reliably added to the child sample container containing the child sample. Further, since the remaining amount of the parent sample remaining in the parent sample specimen container after dispensing is transmitted to the upper system, the remaining amount of the parent sample can be managed in the upper system. Therefore, by referring to the remaining amount of the parent sample stored in the host system, it is necessary to collect blood from the patient again when it is necessary to perform a retest or a new test of the sample. If it can be easily grasped and blood collection is not necessary again, a retest or a new test can be quickly performed.
[Brief description of the drawings]
FIG. 1 is a diagram showing an appearance of a dispensing support rack according to an embodiment of the present invention.
FIG. 2 is a diagram showing a configuration of a dispensing support rack according to the embodiment of the present invention.
FIG. 3 is a block diagram showing a system configuration of the dispensing support system according to the embodiment of the present invention.
FIG. 4 is a flowchart showing processing of the dispensing support system according to the embodiment of the present invention.
FIG. 5 is a diagram showing an example of display on the display unit of the dispensing support rack according to the embodiment of the present invention.
FIG. 6 is a diagram for explaining identification number writing in the dispensing support system according to the embodiment of the present invention;
FIG. 7 is a diagram showing an example of display on the display unit of the dispensing support rack according to the embodiment of the present invention.
FIG. 8 is a diagram for describing identification number writing in the dispensing support system according to the embodiment of the present invention;
FIG. 9 is a diagram showing an example of display on the display unit of the dispensing support rack according to the embodiment of the present invention.
FIG. 10 is a diagram showing another configuration of the dispensing support rack according to the embodiment of the present invention.
[Explanation of symbols]
2 ... Dispensing support rack, 4, 6, 8 ... Sample container insertion part, 10 ... Parent sample test tube, 12, 14 ... Child sample test tube, 16 ... Display unit, 18 ... Enter button, 20 ... Load Button, 22 ... Erase button, 24 ... Numeric keypad, 26, 28, 30 ... IC tag, 32 ... Read / write device, 34, 36, 38 ... Antenna, 40 ... Control unit, 42 ... Host system, 50 ... Bar code, 52 ... Barcode reader.

Claims (10)

A dispensing support rack for accommodating a sample container for a parent sample having a parent sample identification number and at least one sample container for a child sample having a child sample identification number,
A parent sample number acquisition means for acquiring the parent sample identification number of the sample container for the parent sample;
Dispensing support comprising parent sample number writing means for writing the parent sample identification number acquired by the parent sample number acquisition means to a first IC tag provided in the sample container for child samples rack. The sample container for a parent sample includes a second IC tag that stores the parent sample identification number,
The dispensing support rack according to claim 1, wherein the parent sample number acquisition unit includes a parent sample number reading unit that reads the parent sample identification number from the second IC tag. The parent sample specimen container comprises a barcode having the parent specimen identification number,
The dispensing support rack according to claim 1, wherein the parent sample number acquisition unit includes a parent sample number reading unit that reads the parent sample identification number from the barcode. The dispensing support rack according to any one of claims 1 to 3, further comprising a parent sample number display unit that displays the parent sample identification number acquired by the parent sample number acquisition unit. Child sample number reading means for reading the child sample identification number from the first IC tag storing the child sample identification number;
And a child sample number writing unit for writing the child sample identification number read by the child sample number reading unit into the second IC tag provided in the parent sample sample container. The dispensing support rack according to claim 2 or claim 4. A residual sample amount input means for inputting the remaining amount of the parent sample remaining in the parent sample specimen container after dispensing the parent specimen contained in the parent specimen specimen container into the child specimen specimen container; Prepared,
6. The dispensing support rack according to claim 5, wherein the child sample number writing unit further writes the remaining amount of the parent sample input by the remaining sample amount input unit. Dispensing information acquisition means for acquiring dispensing information based on the examination request information of the parent sample from a higher system based on the parent sample identification number acquired by the parent sample number acquisition means;
The dispensing support rack according to claim 1, further comprising dispensing information display means for displaying the dispensing information acquired by the dispensing information acquisition means. The laboratory information writing means is provided for writing information on a laboratory in which a child sample included in the dispensing information is tested to at least one of the first tag and the second tag. 7. Dispensing support rack according to 7. A dispensing support system comprising the dispensing support rack according to any one of claims 1 to 8 and a host system having test request information of a parent sample,
The dispensing support rack includes a remaining sample amount transmitting means for transmitting the remaining amount of the parent sample after dispensing to the higher system,
The upper level system includes a first storage unit that stores the remaining amount of the parent sample transmitted by the remaining sample amount transmission unit in association with the parent identification number. The dispensing support rack includes a child sample number transmission unit that transmits the child sample identification number to the host system,
10. The storage system according to claim 9, wherein the host system includes second storage means for storing the child sample identification number transmitted by the child sample number transmission means in association with the parent sample identification number. Note support system.

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