KR101189724B1 - Apparatus for Analyzing Urine and Method for Analyzing Urine Using the Same - Google Patents

Abstract

The present invention is provided with a groove for setting the urine test strips at regular intervals, the strip transport unit that can be transported in both left and right directions; A light sensing unit disposed at a center of the path of the strip transport unit to irradiate light to the urine test strip which is transported and introduced by the strip transport unit, and to detect the irradiated light; A sensor unit provided at left and right sides of the strip transport unit based on the light sensing unit to automatically recognize a setting position and a setting time of the strip; Control unit for controlling the conveying direction of the strip transporter according to the setting position of the strip sensed by the sensor unit, and the light sensing unit to control the light sensing unit at the ideal reaction time of the strip by using the strip setting time detected by the sensor unit ; And it provides a urine analysis device and a urine analysis method using the same, including an output unit for output to the LCD display window or a printer as a result of the determination of the control unit.

Description

Urine analysis device and urine analysis method using the same {Apparatus for Analyzing Urine and Method for Analyzing Urine Using the Same}

The present invention relates to a urine analysis device and a urine analysis method using the same, and more particularly, the light sensing at the most ideal reaction time of the strip by automatically recognizing the setting of the strip with urine and accurately calculating the reaction time of the strip. This is to be done, and to provide a urine analysis device and a urine analysis method using the same to provide convenience for both the left hand or right hand user.

In general, the urine analyzer is a device for diagnosing health through a change in color of a reagent by embedding a strip of paper in which urine is embedded with a reagent that reacts with each substance contained in urine.

Conventional urine analyzers have strips in which the reactants react with color sugars in the urine, the reactants react with color acid and uric acid in urine, and the reagents for measuring the acidity (pH) of urine, respectively, in different areas. After wetting the urine, put it on the tray of the urine analyzer and manually input the signal that the strip has been put on the tray using an input device such as a button. When the signal is input, the tray is moved to be located in the light source, and the light source irradiates light for each area divided into strips to receive the reflected light. The received current signal is converted into a voltage signal by an I / V converter, and then converted into a digital signal by an A / D converter, and then input to a controller to be processed.

Reagents buried in the strip have a time to react with each substance in urine and light sensing at the most ideal reaction time is possible to obtain a more accurate measurement.

However, in the conventional urine analyzer, since the setting time of the strip is not input correctly by manually inputting a signal that the strip is placed on the tray, it is difficult to perform light sensing at the most ideal reaction time of the strip. There was a problem that accurate measurements cannot be made.

In addition, the conventional urine analyzer is configured to be suitable for use of the user's right hand as the tray on which the strip is placed is provided on one side of the light sensing unit and the tray is input only on one side of the light sensing unit. Therefore, in the case of a left hand user, there is a problem in that the work is inconvenient, and work efficiency is inferior.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems,

An object of the present invention is provided with a light sensing unit in the center of the transfer path of the tray, the left and right sides of the tray with a sensor unit for automatically detecting whether the setting of the strip and the setting time, respectively, on the left and right sides of the tray based on the light sensing unit By varying the conveying direction of the tray according to the position of the strip selectively set on the upper right side to allow light sensing of the set strip, the urine analysis device for providing convenience to both left and right hand users and using the same To provide a urine analysis method.

Another object of the present invention is to automatically detect the setting time of the strip selectively set on the upper left and right sides of the tray to accurately calculate the reaction time of the strip, so that the light sensing in the most ideal reaction time of the strip It is to provide a urine analysis device and a urine analysis method using the same.

The urine analysis device according to the present invention provided to achieve the above object is provided with a mounting groove in which the urine test strip is set at regular intervals, and a strip transport unit capable of transferring in both left and right directions; A light sensing unit disposed at a center of the path of the strip transport unit to irradiate light to the urine test strip which is transported and introduced by the strip transport unit, and to detect the irradiated light; A sensor unit provided at left and right sides of the strip transport unit based on the light sensing unit to automatically recognize a setting position and a setting time of the strip; Control unit for controlling the conveying direction of the strip transporter according to the setting position of the strip sensed by the sensor unit, and the light sensing unit to control the light sensing unit at the ideal reaction time of the strip by using the strip setting time detected by the sensor unit ; And an output unit outputting the result of the determination by the controller to an LCD display window or a printer.

Here, the strip conveying unit is provided with a conveyor unit that rotates in an elliptical orbit by a drive shaft and a return shaft, a forward and reverse motor for providing rotational force to the drive shaft of the conveyor unit, and an upper surface of the conveyor unit, and the urine test strip is integrally set. The mounting groove is configured as a tray provided at a predetermined interval, the forward and reverse motor is characterized in that the rotation direction is variable by the control signal of the control unit according to the setting position of the strip.

In addition, the sensor unit is characterized in that the light emitting device and the light receiving device is provided with a reflective photo interrupter mounted in one package.

The output unit may be an LCD display window on which the advertisement is displayed together with the determination result or a printer on which the advertisement is printed together with the determination result.

The urine analysis method according to the present invention comprises the steps of selectively setting the strip in which the urine is buried in the groove of the left or right upper surface of the tray according to whether the user is left-handed or right-handed (S100); Recognizing the strip to be set by the sensor unit and transmitting the setting position and the setting time of the strip to the control unit (S200); Receiving, by the control unit, a setting position and a setting time, calculating a reaction time of the strip based on the setting time, and determining a conveying direction of the strip transport unit according to the setting position of the strip (S300); If the reaction time and the conveying direction are determined, driving the strip transport unit to position the strip in the light sensing unit (S400); When the strip is positioned in the light sensing unit, light sensing is performed according to an ideal reaction time of the strip (S500); And determining the degree of discoloration of the strip by comparing the light-sensed data with data preset in the controller (S600) and outputting the determination result to an LCD display or a printer (S700).

Here, the step S700 is characterized in that the advertisement is displayed with the determination result on the LCD display window, the advertisement is printed with the determination result on the output paper output from the printer.

According to the urine analysis device and the urine analysis method using the same of the present invention, the left hand by changing the conveying direction of the tray according to the position of the strip selectively set on the upper left and right sides of the tray, the left hand Or it has the effect of providing convenience to both the right hand user.

In addition, by automatically recognizing the setting time of strips selectively set on the upper left and right sides of the tray and accurately calculating the reaction time of the strip, light sensing is performed at the most ideal reaction time of the strip to obtain more accurate measurement results. There is an effect, and the step of manually indicating the strip setting is omitted, so that more samples can be inspected per unit time.

1 is a perspective view of the urine analysis device according to the invention.
2 and 3 are views showing the transport direction of the strip transfer unit according to the setting position of the strip in the urine analysis device according to the present invention.
Figure 4 is a diagram showing the configuration of the urine analysis device according to the present invention.
5 is a flow chart illustrating a urine analysis method according to the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, a urine analysis device and a urine analysis method using the same according to an embodiment of the present invention with reference to the accompanying drawings will be described in detail. For the purposes of this specification, like reference numerals in the drawings denote like parts unless otherwise indicated.

As shown in FIGS. 1 to 4, the present invention includes a strip transport unit 100, a light sensing unit 200, a sensor unit 300, a control unit 400, and an output unit 500.

First, as illustrated in FIGS. 2 and 3, the strip transport unit 100 includes a conveyor unit 110 in which a drive shaft 111 and a return shaft 112 rotate in an elliptical track by a gear or a belt, and the conveyor Forward and reverse rotation motor 120 for providing a rotational force to the drive shaft 111 of the unit 110, and the mounting groove 131 is provided integrally on the upper surface of the conveyor unit 110 and the test strip 600 is set It consists of a tray 130 provided at a predetermined interval.

In addition, the strip transport unit 100 is wrapped in the tray housing 140, the top of which is open so that the top of the tray 130 is exposed.

Here, the forward and reverse rotation motor 120 is rotated in accordance with the setting position of the strip 600 sensed by the sensor unit 300, the tray 130 is in accordance with the rotation direction of the forward and reverse rotation motor 120 The feed direction is changed.

In addition, when the strip 600 transferred by the tray 130 is located in the light sensing unit 200, the strip transport unit 100 includes a position sensor 150 that controls the transfer of the tray 130. do.

The light sensing unit 200 is a search unit for searching the reaction color of the strip 600, is disposed in the center of the transfer path of the strip transport unit 100, that is, the upper center of the tray 130.

The light sensing unit 200 may be applied to various embodiments. As an embodiment, the light source 210 irradiates light to the strip 600 which is transferred and input by the strip transport unit 100 and the strip. The light detector 220 detects light reflected or scattered at 600 and the A / D converter 230 converts the amount of light detected by the light detector 220 into a voltage.

Herein, the light source 210 sequentially irradiates light of red, green, and blue wavelength bands onto the strip using LEDs, and the photodetector 220 performs real color (R, G, Si photodiode, which is a photodetecting device, is used to detect B), and the A / D converter 230 converts the detected light amount into a voltage using an ADC having a sample and hold function.

The sensor unit 300 is provided at the left and right sides of the tray housing 140 with the light sensing unit 200 at the center to detect whether the strip 600 is placed on the tray 130. The strip 600 automatically recognizes the time set on the tray 130.

Here, the sensor unit 300 preferably uses a low-cost reflective photo interrupter in which the light emitting device and the light receiving device are mounted in one package.

The control unit 400 controls the transfer direction of the strip transport unit 100 according to the setting position of the strip 600 sensed by the sensor unit 300, the strip 600 detected by the sensor unit 300 The light sensing unit 200 is controlled to measure light at an ideal reaction time of the strip 600 by using a setting time, and the strip transport unit according to the signal of the position sensor 150 and the light sensing unit 200. Control the transfer of 100.

In addition, the controller 400 is connected to the A / D converter 230 of the light sensing unit 200 to receive measurement data and compare the preset data to determine the degree of discoloration of the strip 600.

The output unit 500 is an LCD display window for displaying the determination result of the control unit 400 or a printer for outputting the determination result. The advertisement is displayed together with the determination result on the LCD display window, The advertisement is printed with the judgment result.

Referring to the urine analysis method using the urine analysis device consisting of the above configuration as follows.

As shown in FIG. 4, the urine analysis method may include selectively setting the strip 600 in which urine is buried in the mounting groove 131 on the left or right upper surface of the tray 130 according to whether the user is left-handed or right-handed. In operation S100, the sensor unit 300 recognizes the set strip 600, and transmits a setting position and a setting time of the strip 600 to the control unit 400 (S200). The reaction time of the strip 600 is calculated based on the position and the setting time received, and the conveying direction of the strip transport unit 100 is determined according to the setting position of the strip 600 (S300). When the reaction time and the conveying direction are determined, driving the strip transporter 100 to position the strip 600 in the light sensing unit 200 (S400), and the strip 600 is located in the light sensing unit 200. When the light is sensed according to the ideal reaction time of the strip 600 In operation S500, comparing the light-sensed data with data preset in the controller 400 to determine the degree of discoloration of the strip 600 and outputting the determination result to an LCD display or a printer ( S700).

Here, in step S100, if the user selectively sets the strip 600 with urine on the left or right mounting groove 131 of the tray 130 depending on whether the user is left-handed or right-handed, the strip 600 is set. The position and time of the sensor 300 will be recognized.

For example, when the user is left-handed, the strip 600 is set in the upper left mounting groove 131 of the tray 130 by the user's convenience, and the left sensor unit (left) of the tray 130 is provided. The strip set in step 300 is recognized. In addition, when the user is right-handed, the strip 600 is set in the upper right mounting groove 131 of the tray 130 by the user's convenience, and the right sensor unit 300 provided on the right side of the tray 130 is provided. It will be recognized that the strip 600 is set at.

In the step S200, the sensor unit 300 recognizing the strip 600 transmits the setting time and the setting position of the strip 600 to the control unit 400, and the control unit 400 is received from the sensor unit 300. The reaction time of the strip 600 is calculated based on the setting time of the strip 600. In addition, the conveying direction of the strip transport unit 100 is determined according to the setting position of the strip 600, that is, whether it is recognized by the left sensor unit 300 or by the right sensor unit 300.

In the step S300 and S400, when the strip 600 is recognized by the left sensor unit 300 of the tray 130, a forward rotation signal is applied to the forward and reverse rotation motor 120 so that the tray 130 moves to the right. When the 600 is recognized by the right sensor unit 300 of the tray 130, the reverse rotation signal is applied to the forward and reverse rotation motor 120 to move the tray 130 to the left so that the recognized strip 600 is moved to the tray. 130 to be injected into the light sensing unit 200 located in the center of the transfer path. When the strip 600 is input into the light sensing unit 200 and positioned below the light source 210, the position sensor 150 detects the position of the strip 600 and signals the control unit 400. The controller 400 controls the driving of the forward and reverse rotation motor 120 to temporarily stop the transfer of the tray 130.

In the step S500, when the strip 600 is positioned in the light sensing unit 200, light is irradiated from the light source 210 according to an ideal reaction time of the strip 600, and the irradiated light is reflected on the strip 600. Alternatively, the light detector 220 detects the scattered light, converts the light detected by the light detector 220 into an electrical signal in the A / D converter 230, and amplifies the light to a predetermined size to the controller 400. send.

In the step S600, the controller 400 receiving the transmitted data is compared with the preset data to determine the discoloration degree of the strip 600.

In operation S700, the determination result is output to an output unit 500 such as an LCD display or a printer. When the determination result is output, the control unit 400 applies a driving signal to the forward and reverse rotation motor 120 to stop the tray. The 130 is transferred to allow light sensing of the next strip 600.

Here, the advertisement is displayed on the LCD display together with the determination result, and the advertisement is printed on the output paper output from the printer together with the determination result.

As such, the present invention changes the conveying direction of the tray 130 according to the position of the strip 600 selectively set on the upper left and right surfaces of the tray 130 so that light sensing of the set strip 600 is performed. For both left- and right-handed users, this provides ease of operation.

In addition, by automatically recognizing the setting time of the strip 600 which is selectively set on the upper left and right sides of the tray 130, the reaction time of the strip 600 is accurately calculated and thus the optimum reaction time of the strip 600 is achieved. Light sensing results in more accurate measurement results.

While preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments. That is, those skilled in the art to which the present invention pertains can make many changes and modifications to the present invention without departing from the spirit and scope of the appended claims, and all such appropriate changes and modifications Equivalents should be considered to be within the scope of the present invention.

100: strip transport unit 110: conveyor unit
111: drive shaft 112: return shaft
120: forward and reverse rotation motor 130: tray
131: mounting groove 140: housing
150: position detection sensor 200: light sensing unit
210: light source 220: photodetector
230: A / D conversion unit 300: sensor
400: control unit 500: output unit
600: strip

Claims (6)

A strip groove provided with a urine test strip is set at regular intervals and is capable of being transported in both left and right directions;
A light sensing unit disposed at a center of the path of the strip transport unit to irradiate light to the urine test strip which is transported and introduced by the strip transport unit, and to detect the irradiated light;
A sensor unit provided at left and right sides of the strip transport unit based on the light sensing unit to automatically recognize a setting position and a setting time of the strip;
The transport direction of the strip transport unit is controlled according to the setting position of the strip detected by the sensor unit, and the light sensing unit is controlled to perform light sensing at an ideal reaction time of the strip by using the detected setting time of the strip. A controller for comparing the measured data with the preset data to determine a discoloration degree of the strip; And
Urine analysis device comprising an output unit for outputting the determination result of the control unit. The method of claim 1,
The strip conveying unit is a conveyor unit that rotates in an elliptical orbit by a drive shaft and a return shaft, a forward and reverse rotation motor that provides rotational force to the drive shaft of the conveyor unit, and is mounted integrally on an upper surface of the conveyor unit, and a urine test strip is set. The groove is provided with a tray provided at regular intervals, the forward and reverse motor is a urine analysis device characterized in that the rotation direction is changed by the control signal of the control unit according to the setting position of the strip The method of claim 1,
The sensor unit is a urine analysis device characterized in that the light emitting element and the light receiving element is provided with a reflective photo interrupter mounted in one package. The method of claim 1,
The output unit is a urine analysis device, characterized in that the LCD display window for displaying the advertisement with the determination result or the printer is printed with the determination result. Selectively setting the strip in which urine is buried in the mounting groove on the left or right upper surface of the tray according to whether the user is left-handed or right-handed (S100);
Recognizing the strip to be set by the sensor unit and transmitting the setting position and the setting time of the strip to the control unit (S200);
Receiving, by the control unit, a setting position and a setting time, calculating a reaction time of the strip based on the setting time, and determining a conveying direction of the strip transport unit according to the setting position of the strip (S300);
If the reaction time and the transfer direction are determined, driving the strip transport unit to position the strip in the light sensing unit (S400);
When the strip is positioned in the light sensing unit, light sensing is performed according to an ideal reaction time of the strip (S500);
Determining the degree of discoloration of the strip by comparing the light-sensing data with data preset in the controller (S600);
And (S700) outputting the determination result of the step S600 to an LCD display window or a printer. 6. The method of claim 5,
The step S700 is urine analysis method characterized in that to display the advertisement with the determination result of the step S600 on the LCD display window, and the advertisement is printed on the output paper output from the printer with the determination result.

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