KR102606014B1 - Measurement Information Transmission System Linked to Code Recognition - Google Patents

Abstract

The present invention relates to a measurement information transmission system linking code recognition. More specifically, when measuring a physical quantity related to the specified measurement factor after reading the code to specify the measurement object and measurement factor, the specific factor of the specific object is measured. By automatically transmitting and storing the values of specific physical quantities to the server, when performing a test on a specific patient in a hospital, etc., the test results for the test items are checked, and the confirmed results are individually matched to the subjects and stored in the database. It is about a measurement information transmission system linked to code recognition that eliminates the inconvenience of having to do so.

Description

Measurement Information Transmission System Linked to Code Recognition}

The present invention relates to a measurement information transmission system linking code recognition. More specifically, when measuring a physical quantity related to the specified measurement factor after reading the code to specify the measurement object and measurement factor, the specific factor of the specific object is measured. By automatically transmitting and storing the values of specific physical quantities to the server, when performing a test on a specific patient in a hospital, etc., the test results for the test items are checked, and the confirmed results are individually matched to the subjects and stored in the database. It is about a measurement information transmission system linked to code recognition that eliminates the inconvenience of having to do so.

In order to facilitate the management of visiting or hospitalized patients in hospitals, etc., a name tag containing personal information such as the patient's name, age, gender, blood type, and disease is worn on the patient's body, or on the patient's bed or on the patient's body. There were many cases where a chart with patient information written on it was hung on the patient's IV station.

Managing a patient in the above manner has the advantage of being able to understand the patient's information at a glance when seeing a doctor or making regular rounds to check the patient's condition, but it is also easy for the patient's personal information to be disclosed to a third party. There was a problem with being exposed.

To solve this problem, attempts have recently been made to confirm the patient's information by having the patient wear a band with a barcode engraved on it and, when necessary, having the barcode included in the band worn by the patient be recognized by a reader.

Figure 1 relates to a conventional patient management band 90, which is disclosed in Korea Registered Utility Model Publication No. 20-0459026 (2012.02.27.).

Referring to Figure 1, the conventional patient management band 90 includes a guiding member 91 having an adhesive surface on the back, and the patient's name, age, gender, and information on one front side of the guiding member 91. It is configured to include a barcode 93 including one or more of blood type and ward information for treatment or treatment.

A patient can move around the hospital for a checkup while wearing the patient management band 90. The barcode (93) included in the patient management band 90 is displayed on a barcode reader installed at the arrival location. ), it becomes possible to easily provide patient information.

However, this conventional patient management band 90 only provides patient information to the side managing the reader, and its use was limited to waiting reception for treatment. For example, when a patient makes a reservation for treatment in advance, it is used only for the purpose of registering for treatment by reading the barcode included in the band 90 on an unmanned barcode reader in order to arrive at the reserved time and receive treatment. will be.

That is, according to the prior art, the barcode 93 included in the patient management band 90 was not actively used in the subsequent process such as receiving treatment, and in the related industry, barcodes and readers are used to identify patients. There is a demand for the introduction of new technology that delivers information, but also allows measured values to be stored and managed by matching patient information.

Korea Registered Utility Model Publication No. 20-0459026 (2012.02.27.)

The present invention was created to solve the above problems,

The purpose of the present invention is to read the code to specify the measurement object and measurement factor, and then measure the physical quantity related to the specified measurement factor, so that the value of the specific physical quantity for the specific factor of the specific object is automatically transmitted to the server and stored. will be.

Another purpose of the present invention is to eliminate the inconvenience of having to check the test results for test items, match the confirmed results to the subjects one by one, and store them in a database when performing a test on a specific patient in a hospital, etc.

Another purpose of the present invention is that, after specifying the test object and test items and performing the test, the test results are automatically transmitted to the server and the test object, item, and result are matched and stored, saving unnecessary time and effort. This is to prevent waste of money.

Another purpose of the present invention is to prevent problems such as test results being saved under another patient's name, test items being checked incorrectly, or test results being omitted during the test process.

Another purpose of the present invention is to minimize the cost of building a system by utilizing existing physical quantity measurement equipment.

Another purpose of the present invention is to automatically store information on a server according to the system, allowing access to the server and use the stored information anytime, anywhere, without being restricted by time and place.

Another purpose of the present invention is to enable relevant information to be easily entered into the system at minimal cost by using a barcode as a recognition target code.

Another object of the present invention is to configure the measurement target code to include a hospital room information code, a bed information code, and a hospital bed information code, so that when the measurement target barcode is read, the number of hospital rooms in which a specific patient is hospitalized is determined. This is to automatically determine how many beds there are in a hospital room and which of those beds is the patient's bed.

Another purpose of the present invention is to construct a measurement factor code, and when a patient to be tested is specified, the measurement factor code corresponding to the item to be tested is read by a scanner, so that the patient can easily specify the item to be tested.

Another purpose of the present invention is to assign a unique measurement target code to each patient, so that when the patient comes to the examination room, etc., the patient's measurement target code can be easily selected from a plurality of measurement target codes through barcode reading. It is done.

Another purpose of the present invention is to assign a unique measurement factor code to each test item, so that the measurement factor code corresponding to the specific factor to be measured from a plurality of measurement factor codes can be easily selected through barcode reading. will be.

In order to achieve the above-described object, the present invention is implemented by an embodiment having the following configuration.

According to one embodiment of the present invention, the present invention includes a code unit to be recognized, and a recognition measurement unit that measures a physical quantity for a specific factor of a specific object recognized through the code unit and transmits measurement data. Do it as

According to another embodiment of the present invention, the recognition and measurement unit includes a scanner unit that recognizes the code unit and specifies a measurement object and measurement factor.

According to another embodiment of the present invention, the recognition measurement unit includes a scale unit connected to the scanner unit to measure and transmit a physical quantity for a specific factor of the target specified by the scanner unit. It is characterized by

According to another embodiment of the present invention, the scale unit includes a code data receiving module that receives code data generated through recognition of the code unit by the scanner unit.

According to another embodiment of the present invention, the scale unit includes a detection module that detects the mass of an object and generates physical quantity data.

According to another embodiment of the present invention, the scale unit has one side connected to the code data receiving module and the other side connected to the detection module to collect measurement data that collects the code data and the physical quantity data. It is characterized by including a calculation processing module that generates.

According to another embodiment of the present invention, the scale unit includes a measurement data transmission module that is connected to the calculation processing module and transmits measurement data generated by the calculation processing module to the outside. Do it as

According to another embodiment of the present invention, the code part includes a measurement object code part, which is a recognition code for specifying the measurement object.

According to another embodiment of the present invention, the measurement target code unit includes a hospital room information code, which is an identification code for specifying a hospital room, and a bed information code, which is an identification code for specifying the number of beds in a specific hospital room, It is characterized by including a bed information code, which is a recognition code for specifying a hospital bed.

According to another embodiment of the present invention, the code portion includes a measurement factor code portion that is a recognition code for specifying a measurement factor.

According to another embodiment of the present invention, the code portion includes a plurality of measurement object code portions and a plurality of measurement factor code portions, and the recognition measurement portion includes one of the plurality of measurement object code portions. After selection, the measurement object and measurement factor are specified by selecting one of the plurality of measurement factor code sections.

According to another embodiment of the present invention, the present invention is characterized in that the code portion is formed of a plurality of barcodes.

According to another embodiment of the present invention, the measurement information transmission system linked to code recognition includes a server unit that receives and stores measurement data generated by the recognition measurement unit.

According to another embodiment of the present invention, the server unit includes a data communication unit that enables a communication connection with the recognition measurement unit, and is connected to the data communication unit to receive measurement data transmitted from the recognition measurement unit. It is characterized by including a database unit for receiving and storing.

According to another embodiment of the present invention, the database unit includes a measurement object database that stores information related to the measurement object, and a measurement factor database that stores information related to the measurement factor, and the measurement factor and The related information is stored in a manner that matches the information related to the measurement object.

The present invention can achieve the following effects by combining the above-mentioned embodiment with the configuration, combination, and use relationship described below.

The present invention has the effect of reading the code to specify the measurement object and measurement factor, and then measuring the physical quantity related to the specified measurement factor, so that the value of the specific physical quantity for the specific factor of the specific object is automatically transmitted to the server and stored. have

The present invention has the effect of resolving the inconvenience of having to check the test results for test items, match the confirmed results to the subjects one by one, and store them in a database when performing a test on a specific patient in a hospital, etc.

In the present invention, when the test object and test items are specified and the test is performed, the test results are automatically transmitted to the server and the test object, item, and result are matched and stored, thereby avoiding unnecessary waste of time, effort, and cost. It has a preventive effect.

The present invention has the effect of preventing problems such as test results being saved under another patient's name, test items being checked incorrectly, or test results being omitted during the test process.

The present invention achieves the effect of minimizing the cost of building a system by utilizing existing physical quantity measurement equipment.

The present invention has the effect of automatically storing information on a server according to the system, allowing users to access the server and use the stored information anytime, anywhere, without being restricted by time and place.

The present invention has the effect of enabling relevant information to be easily entered into the system at minimal cost by using a barcode as a recognition target code.

The present invention is configured so that the measurement target code includes a hospital room information code, a bed information code, and a hospital bed information code, and when the measurement target bar code is read, the number of hospital rooms in which a specific patient is hospitalized and the number of beds in that room are determined. There are several, and the effect is to automatically determine which of those beds is the patient's bed.

The present invention has the effect of constructing a measurement factor code and, when a patient to be tested is specified, reading the measurement factor code corresponding to the item to be tested by a scanner, thereby easily specifying the item to be tested by the patient.

The present invention has the effect of assigning a unique measurement target code to each patient, so that when the patient comes to the examination room, etc., the patient's measurement target code can be easily selected from a plurality of measurement target codes through barcode reading. .

The present invention provides a unique measurement factor code for each test item, resulting in the effect of allowing the measurement factor code corresponding to the specific factor to be measured from a plurality of measurement parameter codes to be easily selected through barcode reading. .

Figure 1 is a diagram showing a conventional band for patient management.
Figure 2 is a diagram illustrating a measurement information transmission system linking code recognition according to an embodiment of the present invention.
Figure 3 is a diagram showing a hospital room information code, a bed information code, and a hospital bed information code.
Figure 4 is a diagram showing a recognition measurement unit.
Figure 5 is a diagram showing a server unit.
Figure 6 is a usage state diagram of a measurement information transmission system linked to code recognition according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the measurement information transmission system linking code recognition according to the present invention will be described in detail with reference to the attached drawings. In the following description of the present invention, if a detailed description of a known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Unless otherwise specified, all terms in this specification have the same general meaning as understood by a person skilled in the art to which the present invention pertains, and if there is a conflict with the meaning of the terms used in this specification, this specification Follow the definitions used in the specification.

The present inventor's measurement information transmission system (1) linking code recognition reads the code, specifies the measurement object and measurement factor, and then measures the physical quantity related to the specified measurement factor. The value of the specific physical quantity for the specific factor of the specific object is It is characterized in that it is automatically transmitted to the server and stored. In this specification, measurement information can be viewed as a broad concept that includes all information related to the measurement object, information related to the measurement factor, and information related to the measurement value.

As a result, when performing a test on a specific patient in a hospital, etc., it is possible to resolve the inconvenience of having to check the test results for test items, match the confirmed result values to the subjects one by one, and store them in the database.

In addition, when the inspection target and inspection items are specified and the inspection is performed, the inspection results are automatically sent to the server and the inspection target, items, and results are matched and stored, preventing unnecessary waste of time, effort, and cost. It is possible to prevent problems such as test results being saved under another patient's name, test items being checked incorrectly, or test results being omitted during the test process.

Figure 2 is a diagram showing a measurement information transmission system 1 linked to code recognition according to an embodiment of the present invention. When explained with reference to Figure 2, the measurement information transmission system 1 linked to code recognition is It includes a code unit 10, a recognition measurement unit 30, and a server unit 50.

The code unit 10 is subject to recognition by the scanner unit 31, which will be described later, and means a collection of symbols for representing information. The code unit 10 may include a barcode in which stick-shaped bars are arranged in two dimensions, or a QR code, which is a two-dimensional code in a matrix format with a black and white grid pattern. Preferably, a barcode is used as the recognition target code so that relevant information can be easily entered into the system at minimal cost.

The code unit 10 includes a plurality of codes, and the user selects the corresponding code among the plurality of codes and recognizes it with the scanner unit 31, which will be described later, to specify the measurement object and measurement factor. To this end, the code unit 10 can be placed in a position that can be recognized by the scanner unit 31 of the recognition measurement unit 30, which will be described later.

The code section 10 includes a measurement object code section 11 and a measurement factor code section 13.

The measurement object code section 11 refers to a recognition code for specifying a measurement object. The measurement object refers to the test object. For example, when the present invention is used in a hospital, a specific patient who visits the laboratory to receive a test can be considered the measurement object.

The measurement object code unit 11 has a plurality of recognition codes for specifying the measurement object, and patients admitted to the hospital, patients who have made a reservation for treatment, etc. are given a unique recognition code in advance for each individual.

Figure 3 is a diagram showing an example of an identification code for specifying a measurement object according to an embodiment of the present invention. According to Figure 3, the measurement object code unit 11 includes a hospital room information code 111, Includes bed information code 113 and hospital bed information code 115.

The hospital room information code 111 is a recognition code for specifying a hospital room, and is a code that provides information about the hospital room to which the patient belongs. When the code unit 10 is configured in a barcode format, numbers may be written on the top or bottom of the bar to prevent damage occurring in a barcode recognition error situation. The hospital room information code 111 in FIG. 3 can be distinguished by the number written on it in addition to the shape of the bar, and the first two digits correspond to this. Therefore, according to the barcode in FIG. 3, it can be seen that the patient belongs to hospital room number 10.

The bed information code 113 is a recognition code for specifying the number of beds in a specific hospital room, and refers to a code that provides information on the number of beds in the hospital room to which the patient belongs. As described above, when the code unit 10 is configured in a barcode format, the bed information code 113 may have a number written on the bar to prepare for a bar recognition error situation, and the third from the front among the written numbers The number of the digit corresponds to bed information, and the number 4 is written in Figure 3, so it can be intuitively confirmed that the patient belongs to room 10 and that there are 4 beds in that room.

The bed information code 115 is a recognition code for specifying a hospital bed, and refers to a code that specifies the bed used by the patient among the beds in a specific hospital room. In the barcode shown in FIG. 3, information about the bed information code 115 can be written as numbers on the bar shape, and the number 1 located on the far right among the written numbers can be seen as indicating the bed information. . Therefore, it can be seen that the patient in question is a patient in room 10, which has 4 beds, and is using bed 1.

The measurement factor code section 13 refers to a recognition code for specifying a measurement factor. The measurement factor refers to an item to be inspected, and preferably, the measurement factor can be viewed as being specified after the measurement target is specified. That is, the system user recognizes a code among the measurement object code sections 11 as the scanner section 31, which will be described later, and then recognizes a code among the measurement factor code sections 13 as the scanner section 31. The process proceeds.

For example, the recognition code for specifying the measurement factor may have information such as urine, feces, etc., and when the user wants to check the urine amount of a specific patient, the patient's code from the measurement object code section 11 After being recognized by the scanner unit 31, the code corresponding to urine in the measurement factor code unit 13 is recognized by the scanner unit 31, and then the amount of urine is measured through the scale unit 33, which will be described later. do. In order to proceed with this process, codes for each of a plurality of inspection items must be prepared, so it is preferable that the measurement factor code unit 13 consists of a plurality of units.

The recognition measurement unit 30 refers to a configuration that measures a physical quantity for a specific factor of a specific object recognized through the code unit 10 and transmits measurement data. The recognition measurement unit 30 can specify the measurement object and measurement factor by selecting one of the plurality of measurement object code units 11 and then selecting one of the plurality of measurement factor code units 13. there is.

Preferably, the recognition measurement unit 30 may be spaced apart from the code unit 10 but located around it so that a previously provided recognition code can be easily read by the recognition measurement unit 30.

FIG. 4 is a diagram showing the recognition measurement unit 30. Referring to FIG. 4, the recognition measurement unit 30 includes a scanner unit 31 and a scale unit 33.

The scanner unit 31 refers to a configuration that recognizes the code unit 10 and specifies the measurement object and measurement factor. The shape of the scanner unit 31 is not limited to any specific shape, but preferably, as shown in FIG. 2, it may be configured in a shape that is easy to hold by hand.

The user finds the code corresponding to the test object and test item among the code parts 10 located around the recognition measurement part 30 and recognizes it with the scanner part 31, thereby specifying the measurement object and measurement factor. When the scanner unit 31 recognizes the code unit 10, code data is generated, and the code data generated in this way can be received by the code data receiving module 331 of the scale unit 33, which will be described later. .

The scale unit 33 is connected to the scanner unit 31 and refers to a configuration that measures and transmits physical quantities for specific factors of an object specified by the scanner unit 31. As shown in FIG. 2, the scale unit 33 is shown in the form of an electronic scale. The present invention does not necessarily limit the scale unit 33 to this electronic scale, but a separate scale unit is provided for data transmission, etc. There is a problem that high costs may occur when constructing a personal information terminal (Personal Digital Assistant, PDA), etc., so the cost of building a system can be minimized by using existing physical quantity measurement equipment. Therefore, by using existing physical quantity measurement equipment and including a BLE (Bluetooth Low Energy) chip, etc. in the equipment, it is possible to build a system environment necessary for data transmission.

Referring to FIG. 4, the scale unit 33 includes a code data reception module 331, a detection module 333, an arithmetic processing module 335, and a measurement data transmission module 337.

The code data receiving module 331 refers to a component that receives code data generated through recognition of the code unit 10 by the scanner unit 31. To this end, one side of the code data receiving module 331 may be connected to the scanner unit 31, as shown in FIG. 4, and the other side of the code data receiving module 331 may be connected to an arithmetic processing module (to be described later). 335), so that measurement data can be generated by collecting a plurality of data including the code data in the calculation processing module 335.

The detection module 333 is a component that detects the physical quantity of an object and generates physical quantity data. Preferably, the physical quantity may be mass. When the mass of an object is detected by the detection module 333, physical quantity data is generated, and the generated physical quantity data is transmitted to the calculation processing module 335, which will be described later. For this purpose, the detection module 333 may be connected to communication with the calculation processing module 335, which will be described later.

The operation processing module 335 is connected on one side to the code data reception module 331, and on the other side is connected to the detection module 333, so that the code data received from the code data reception module 331 and the This refers to a configuration that generates measurement data by collecting the physical quantity data transmitted from the detection module 333. The measurement data may include information on the patient who received the test (room, bed, hospital bed information), information on test items, and information on measurement values for the test items. Therefore, when such measurement data is transmitted to the server unit 50, which will be described later, it is possible to store and manage the data by matching the measurement value with patient information, and by accessing the server unit 50 through the network even if it is remote. , systematically stored information can be easily used.

The measurement data transmission module 337 is connected to the calculation processing module 335 and transmits the measurement data generated by the calculation processing module 335 to the server unit 50, which will be described later. Preferably, a BLE (Bluetooth Low Energy) chip can be used as the measurement data transmission module 337, and the measurement data can be easily uploaded to the server unit 50 through short-distance wireless communication.

The server unit 50 refers to a configuration that receives and stores measurement data generated by the recognition measurement unit 30. The server unit 50 is connected to a network, and if you are in an environment where you can access the network, you can use the data stored in the server unit 50, without being restricted by time and place. An environment in which data stored in unit 50 can be accessed is created.

Figure 5 is a diagram showing the server unit 50, and the server unit 50 includes a data communication unit 51 and a database unit 53.

The data communication unit 51 refers to a configuration that enables a communication connection with the recognition measurement unit 30. The data communication unit 51 connects the server unit 50 to a network, and not only allows the server unit 50 to receive measurement data transmitted from the recognition measurement unit 30, but also enables other Data stored in the server unit 50 can be transmitted to the terminal.

The database unit 53 is connected to the data communication unit 51 and receives and stores measurement data transmitted from the recognition measurement unit 30. The measurement data may include data such as patient information, test items, and test values, and when such measurement data is stored in the database unit 53, it can be stored and managed by matching each patient. Therefore, by checking the change in patient A's urine volume, the doctor can easily determine the patient's recovery status and suggest accurate prescriptions, diagnosis, and treatment accordingly.

Referring to FIG. 5, the database unit 53 includes a measurement object database 531 and a measurement factor database 533.

The measurement target database 531 refers to a configuration that stores information related to the measurement target. When this system (1) is used in a hospital, the information related to the measurement object can be viewed as patient information, and when the measurement data is transmitted to the server unit 50 through the measurement data transmission module 337, the measurement data is transmitted to the server unit 50 through the measurement data transmission module 337. The target database 531 stores measurement target data included in the measurement data. For patients with previously stored data, information about the patient can be used or the content can be updated, and for new patients with no existing data stored, information about the patient can be newly stored.

The measurement factor database 533 is a configuration that stores information related to measurement factors, and it is desirable to view the information related to the measurement factors as being stored in a matching manner with information related to the measurement target. For example, when patient A and patient B are each tested for urine volume, the measurement factor database 533 stores the urine volume value of that patient by matching it to patient A, and storing the urine volume value of that patient by matching it with patient B. The urine volume value is stored. Through this matching storage, the data stored in the server unit 50 is systematically stored and managed based on the patient, allowing doctors, etc. to clearly check the information for each patient, thereby further increasing the utilization of the stored data. .

Figure 6 shows a usage state diagram of the measurement information transmission system 1 linking code recognition according to an embodiment of the present invention. When explained with reference to Figure 6, assuming that the present invention is used in a hospital, When a patient who needs to measure the amount of urine visits the laboratory, the laboratory is equipped with the above-described code unit 10 and the recognition measurement unit 30, and the corresponding code is recognized through the scanner unit 31, thereby allowing the patient to It is specified, and it is even specified that the specified patient will have their urine measured. Afterwards, when the patient receives urine in a paper cup, the user places the cup containing the urine on the detection module 333 of the scale unit 33, and the physical quantity data generated through this process is transmitted to the code data reception module 331. ) is collected with the code data received, and is generated as measurement data by the operation processing module 335. The measurement data generated in this way is automatically transmitted to the server unit 50 through the network even if the user does not take any action, and the server unit 50 receives the transmitted data, matches the patient information with the measurement value, and stores it. I do it.

The above detailed description is illustrative of the present invention. Additionally, the foregoing is intended to illustrate preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications, and environments. That is, changes or modifications can be made within the scope of the inventive concept disclosed in this specification, a scope equivalent to the written disclosure, and/or within the scope of technology or knowledge in the art. The written examples illustrate the best state for implementing the technical idea of the present invention, and various changes required for specific application fields and uses of the present invention are also possible. Accordingly, the detailed description of the invention above is not intended to limit the invention to the disclosed embodiments. Additionally, the appended claims should be construed to include other embodiments as well.

1: Measurement information transmission system linked to code recognition
10: Code section
11: Measurement target code section
111: Hospital room information code
113: Bed information code
115: Hospital bed information code
13: Measurement parameter code section
30: Recognition measurement unit
31: scanner unit
33: Scale part
331: Code data reception module
333: Detection module
335: Operation processing module
337: Measurement data transmission module
50: Server unit
51: Data and Communication Department
53: Database section
531: Measurement target database
533: Measurement parameter database

Claims (15)

It includes a code unit that is subject to recognition, and a recognition measurement unit that measures a physical quantity for a specific factor of a specific object recognized through the code unit and transmits measurement data,
The code portion includes a measurement object code portion that is a recognition code for specifying a measurement object, and a measurement factor code portion that is a recognition code for specifying a measurement factor,
The measurement target code unit has a 4-digit number that identifies the measurement target in addition to the number used in a code recognition error situation, and the first 2 digits of the 4-digit number are a hospital room information code that is a recognition code for specifying the hospital room. and a bed information code, which is a recognition code for specifying the number of beds in a specific hospital room as the 1-digit number following the room information code, and a hospital bed, which is a recognition code for specifying the hospital bed as the 1-digit number after the bed information code. Contains an information code,
The recognition measurement unit includes a scanner unit that recognizes the code unit to specify the measurement object and measurement factor, and a scale unit connected to the scanner unit to measure and transmit the mass of a specific factor of the object specified by the scanner unit. do,
The scale unit includes a code data reception module that receives code data generated through recognition of the code part of the scanner unit, a detection module that detects the mass of an object and generates physical quantity data, and one side is connected to the code data reception module. The other side is connected to the detection module and has an arithmetic processing module that generates measurement data by collecting the code data and the physical quantity data, and is connected to the arithmetic processing module to transmit the measurement data generated by the arithmetic processing module to the outside. Including a measurement data transmission module that
After recognizing the measurement object identification code with the scanner unit, recognizing the measurement factor identification code with the scanner unit, and then sequentially measuring the mass with the scale unit, the measurement object, measurement factor, and measurement result are matched and the server unit A measurement information transmission system linked to code recognition, characterized in that it is automatically saved in . delete delete delete delete delete delete delete delete delete According to paragraph 1,
The code portion includes a plurality of measurement object code portions and a plurality of measurement factor code portions,
The recognition measurement unit selects one of the plurality of measurement object code parts and then selects one of the plurality of measurement factor code parts, thereby specifying the measurement object and the measurement factor. Measurement information linked to code recognition. transmission system. According to paragraph 1,
A measurement information transmission system linking code recognition, wherein the code unit is formed of a plurality of barcodes. According to paragraph 1,
The measurement information transmission system linked to code recognition includes a server unit that receives and stores measurement data generated by the recognition measurement unit. According to clause 13,
The server unit includes a data communication unit that enables a communication connection with the recognition measurement unit, and a database unit connected to the data communication unit to receive and store measurement data transmitted from the recognition measurement unit. Code, Measurement information transmission system linking recognition. According to clause 14,
The database unit includes a measurement object database that stores information related to the measurement object, and a measurement factor database that stores information related to the measurement factor,
A measurement information transmission system linked to code recognition, characterized in that the information related to the measurement factor is matched with information related to the measurement object and stored.

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