KR102203943B1 - Test apparatus of fluidic sample - Google Patents

Abstract

According to the fluid sample testing device according to an embodiment of the present invention, the fluid sample testing device can be further miniaturized by providing the door and the display unit as one module, and user convenience can be improved by allowing the door to be opened and closed semi-automatically. In addition, when the door is opened during sample analysis by detecting whether the door is open through a sensor that detects the opening of the door, an alarm is sounded to notify the user so that the sample analysis can be performed accurately.

Description

Test apparatus of fluidic sample

The present invention relates to a fluid sample testing device including a semi-automatically openable door and a sensor for detecting the opening of the door.

There is a need for an apparatus and method for analyzing fluid samples in various fields such as environmental monitoring, food testing, and medical diagnosis. Previously, in order to perform a test according to a prescribed protocol, an experienced experimenter had to manually perform various steps such as injection, mixing, separation and transfer of reagents, reaction, and centrifugation several times, and such work caused errors in test results. It was the cause.

In order to improve the above problems, a miniaturized and automated fluid sample testing device capable of rapidly analyzing a test substance has been developed. The fluid sample testing device may analyze a sample by using a reaction between a specific chemical substance and a sample through a biosensor or the like.

According to the fluid sample testing device, the sample cartridge to be analyzed may be accommodated in the fluid sample testing device and the sample cartridge may be analyzed while the door is closed. Analysis content, analysis stage, and an indication that analysis is in progress may be displayed through the display unit. Analysis results can be output through a print medium. The fluid sample test device as described above may be used for a blood test for disease detection.

Recent fluid sample testing devices are becoming more compact, and analysis accuracy and user convenience are improving. In the conventional case, although the analysis operation of the sample must be performed while the door of the fluid sample testing device is closed, the analysis operation is performed as it is if the user does not properly check whether the door is open, even if the analysis operation is performed with the door partially open. As this progressed, an error occurred in the test result of the sample. In addition, when the door is opened, the display unit displaying the analysis contents and analysis results of the sample can be covered, which has caused inconvenience in use.

According to an embodiment of the present invention, a fluid sample having a door and a display unit provided as one module, the door is semi-automatically opened and closed, and a sensor for detecting the opening of the door for an alarm when the door is opened during sample analysis Inspection equipment can be provided.

A fluid sample testing device according to an embodiment of the present invention includes: a body through which a sample is analyzed; And a door module positioned in front of the main body, wherein the door module includes: a frame on which a sample cartridge is mounted; A display unit provided in front of the frame; And a door provided in front of the frame and slidably provided to the rear of the display unit.

The frame is provided with a sensor that detects the opening of the door.

An interference part is provided to protrude on the rear surface of the door, and when the door is closed, the interference part is detected by the sensor.

An alarm is provided when it is detected that the door has been opened.

A first rack gear extending in a vertical direction and a second rack gear positioned above the first rack gear and extending in a vertical direction are provided on the rear surface of the door.

The frame includes a first gear meshed with the first rack gear and rotated, and a second gear meshed with the second rack gear and rotated.

The first gear is provided with a double gear including a first front gear and a first rear gear.

The first rack gear is engaged with the first front gear.

The number of gear teeth per unit length of the second rack gear is provided smaller than the number of gear teeth per unit length of the first rack gear, so that when the first front gear and the first rack gear are engaged, The sliding speed is slower than the speed of the door when the second gear and the second rack gear are engaged.

One side is connected to the door, the other side further includes an elastic member fixed to the frame.

The elastic member provides an elastic force pushing the door so that the door can be opened and closed semi-automatically.

A guide portion is formed to protrude from the side of the door, and a guide hole extending in the vertical direction is formed in the frame, and the guide portion is inserted into the guide hole and moves in the vertical direction along the guide hole, thereby sliding the door. To open and close.

A fluid sample testing device according to an embodiment of the present invention includes a fluid sample testing device for performing analysis of a sample, comprising: a frame on which a sample cartridge is mounted; A display unit provided in front of the frame; A door provided under the display unit and provided to slide to the rear of the display unit; An elastic member having one side mounted to the door and the other side fixed to the frame to provide an elastic force pushing the door; And a sensor mounted on the frame to detect the opening of the door, wherein the frame, the display unit, and the door are provided as one module, and the door is opened and closed semi-automatically by the elastic force of the elastic member. .

A first rack gear extending in a vertical direction and a second rack gear positioned above the rack gear and having a smaller number of gear teeth per unit length than the first rack gear are provided on the rear surface of the door.

The frame includes a first gear meshed with the first rack gear and rotated, and a second gear meshed with the second rack gear and rotated.

The first gear is provided as a double gear including a first front gear and a first rear gear, the first front gear may be engaged with the first rack gear, and the first rear gear is the second gear It is meshed with.

A guide hole extending in the vertical direction is formed on the side of the frame, and a guide portion moving along the guide hole is protruded in the door.

According to the fluid sample testing device according to an embodiment of the present invention, the fluid sample testing device can be further miniaturized by providing the door and the display unit as one module, and user convenience can be improved by allowing the door to be opened and closed semi-automatically. In addition, when the door is opened during sample analysis by detecting whether the door is open through a sensor that detects the opening of the door, an alarm is sounded to notify the user so that the sample analysis can be performed accurately.

1 is a perspective view of a fluid sample testing device according to an embodiment of the present invention.
FIG. 2 is a perspective view illustrating an open door of the fluid sample testing device according to an exemplary embodiment of the present invention.
3 is an exploded perspective view illustrating a door module of a fluid sample testing device according to an embodiment of the present invention.
4 is a view showing a view of the door module according to an embodiment of the present invention from the rear.
5 is a view showing a front view of a door module with a door closed according to an exemplary embodiment of the present invention.
6 is a view showing a front view of a door module in an open state according to an embodiment of the present invention.
7 is a view showing a view from the rear of the door module in a state in which the door is opened according to an embodiment of the present invention.

Hereinafter, a fluid sample testing device according to an embodiment of the present invention will be described in detail with reference to the drawings.

1 is a perspective view of a fluid sample testing device according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating a door of a fluid sample testing device according to an embodiment of the present invention being opened.

1 and 2, the fluid sample test apparatus 1 according to an embodiment of the present invention includes a main body 10 and a door module 20 provided in front of the main body 10. Equipment necessary for analysis of a sample may be provided in the main body 10 such as various sensors capable of analyzing the sample. The main body 10 outputs the sample analysis result to a print medium. An output unit 11 may be provided.

The door module 20 includes a display unit 21, a door 22, and a frame 23. The display unit 21 and the door 22 may be disposed in front of the frame 23. The display unit 21 may be located above the door 22. The door 22 may be provided to be slidable, and when the door 22 is opened by sliding, the door 22 may be provided to be located at the rear of the display unit 21.

The display unit 21 may display information on a sample analysis content and a sample analysis operation state. The frame 23 may be provided with a mounting portion 235 on which a sample cartridge may be mounted. The user may slide the door 22 upward to open it, mount the sample cartridge on the mounting portion 235, slide the door 22 downward, and close the door 22 to perform an analysis operation.

3 is an exploded perspective view showing a door module of a fluid sample testing device according to an embodiment of the present invention, and FIG. 4 is a view showing a view of the door module according to an embodiment of the present invention from the rear.

4 and 5, the door module 20 according to an embodiment of the present invention includes a display unit 21, a door 22, and a frame 23. The display unit 21, the door 22, and the frame 23 may be provided as one module. The display unit 21 and the door 22 may be provided in front of the frame 23. The door 22 is located under the display unit 21 and may be provided so that the front surface of the door 22 and the rear surface of the display unit 21 face each other when the door 22 slides and opens.

The door 22 may be mounted on the frame 23 to be slidable. The door 22 may be provided to slide to the rear of the display unit 21. The guide portion 220 may be formed to protrude from the side of the door 22. The guide part 220 is inserted into the guide hole 230 formed in the frame 23 to be described later, and may move along the direction in which the guide hole 230 is extended. As the guide part 220 is inserted into the guide hole 230 and moved, the door 22 may slide while being mounted on the frame 23.

A first rack gear 221 and a second rack gear 222 may be provided on the rear surface of the door 22. The first rack gear 221 and the second rack gear 222 may be provided on the rear surface of the door 22 so as to extend in the vertical direction.

The first rack gear 221 may be engaged with a first gear 231 to be described later, and the second rack gear 222 is provided to be engaged with a second gear 232 to be described later. The second rack gear 222 may be located above the first rack gear 221. The second rack gear 222 may be provided to be spaced apart from the first rack gear 221. A guide rib 225 positioned outside the second gear 232 to be described later may be provided at one side of the first rack gear 221. Since no gear teeth are formed in the guide rib 225, the first gear 231 is engaged with the first rack gear 221 and moves along the first rack gear 221 so that the second gear 232 can rotate. Make it possible.

When the door 22 is opened by sliding in the closed state, first, the first gear 231 provided in the frame 23 rotates while being engaged with the first rack gear 221, and the first gear 231 After passing through the first rack gear 221, the second gear 232 provided in the frame 23 may be engaged with the second rack gear 222 to rotate. When the door 22 is closed by sliding in the open state, the second gear 232 provided in the frame 23 rotates while being engaged with the second rack gear 222, and the second gear 232 After passing through the rack gear 222, the first gear 231 may rotate by engaging the first rack gear 221.

One side of the door 22 may be provided with an elastic member coupling portion 223 to which one side of the elastic member 24 may be connected. The elastic member coupling portion 223 may be provided on the upper side of the door 22. The elastic member 24 may be a torsion spring.

An interference part 224 may protrude from the rear surface of the door 22 and may be provided. The interference unit 224 may be provided above the rear surface of the door 22. The interference unit 224 may be detected by a sensor 233 provided in the frame 23. When the door 22 is completely closed, the interference unit 224 allows it to be detected by the sensor 233. The sensor 233 is positioned above the frame 23 so that the interference part 224 can be detected by the sensor 233 only when the door 22 is completely closed.

For example, the interference unit 224 may be provided to be inserted between the light emitting unit and the light receiving unit of the sensor 233. When the door 22 is completely closed, light emitted from the light emitting unit of the sensor 233 is interfered by the interference unit 224 and does not reach the light receiving unit. When the light emitted from the light-emitting unit does not reach the light-receiving unit, the control unit (not shown) may perform a sample analysis operation assuming that the door 22 is completely closed.

When it is recognized that the light emitted from the light-emitting unit reaches the light-receiving unit, the door 22 is considered to be open, and the door 22 may be notified through an alarm. By giving an alarm when the door 22 is opened during sample analysis or when the sample analysis operation is set to be performed, the user closes the door and allows the sample analysis operation to be performed, or the result of analysis proceeding with the door 22 open. It is possible to take measures, such as re-analyzing, by seeing it as incorrect. The control unit (not shown) may stop the analysis operation of the sample when it detects that the door 22 is not completely closed. This allows sample analysis to be performed while the door 22 is completely closed, thereby obtaining an accurate sample analysis result.

A guide hole 230 may be formed on the side of the frame 23. The guide hole 230 may be formed long in the vertical direction. The guide part 220 provided in the door 22 may be inserted into the guide hole 230 and may move along the guide hole 230. As the guide unit 220 moves along the guide hole 230 formed in the vertical direction, the door 22 can be opened and closed by sliding in the vertical direction.

A first gear 231 and a second gear 232 may be provided in front of the frame 23. The first gear 231 includes a first front gear 231a and a first rear gear 231b provided at the rear of the first front gear 231a. The first front gear 231a may be engaged with the first rack gear 221 provided on the rear surface of the door 22, and the second gear 232 is a second rack gear provided on the rear surface of the door 22 It is provided to be engaged with 222. The first rear gear 231b is provided to be engaged with the second gear 232. As the first rear gear 231b is engaged with the second gear 232, the second gear 232 and the first gear 231 may rotate together.

The number of gear teeth per unit length of the first rack gear 221 may be greater than the number of gear teeth per unit length of the second rack gear 221. The first gear 231 may be provided larger than the second gear 232. The size of the gear teeth provided in the first gear 231 may be smaller than the size of the gear teeth provided in the second gear 232. In detail, the size of the gear teeth provided in the first front gear 231a may be smaller than the size of the gear teeth provided in the second gear 232.

As a result, the sliding speed of the door 22 when the first front gear 231a rotates with the first rack gear 221 engaged and rotated than when the second gear 232 rotates with the second rack gear 222 engaged. Can be slowed down.

The other side of the elastic member 24 may be coupled to the frame 23. The other side of the elastic member 24 may be fixed to the frame 23 by a coupling member. The other side of the elastic member 24 may be mounted on the rear side of the display unit 21 of the frame 23. The elastic member 24 exerts an elastic force in the direction of pushing the door 22 mounted on one side of the elastic member 24.

When the door 22 is closed, one side of the elastic member 24 is located below the other side of the elastic member 24. When the door 22 slides upward and opens, one side of the elastic member 24 moves upward together with the door 22, and when the door 22 is completely open, one side of the elastic member 24 is ) May be provided to be located above the other side.

The elastic member 24 provides an elastic force in the direction of pushing the door 22. For example, when one side of the elastic member 24 is positioned below the other side, the elastic member 24 may push the door 22 downward to provide an elastic force in a direction in which the door 22 is closed. When one side of the elastic member 24 is positioned above the other side, the elastic member 24 may push the door 22 upward to provide an elastic force in the direction in which the door 22 is opened.

Unlike the above, the direction of the elastic force that the elastic member 24 pushes the door 22 may not be linked to the positions of one side and the other side of the elastic member 24. Depending on the shape of the elastic member 24, the direction of the elastic force of the elastic member 24 may be changed based on the elastic limit point of the elastic member 24.

Accordingly, the door 22 can be opened and closed semi-automatically. When the user wants to open and close the door 22, the user can easily open and close the door 24 by providing only a small force that the position of one side of the elastic member 24 can be positioned above or below the other side.

Hereinafter, the opening and closing operation of the door 22 of the fluid sample testing device according to an embodiment of the present invention will be described in detail with reference to the drawings.

5 is a view showing a door module viewed from the front in a closed state according to an embodiment of the present invention, and FIG. 6 is a front view of the door module in an open state according to an embodiment of the present invention. FIG. 7 is a view showing a view from the rear of the door module in an open state according to an embodiment of the present invention.

4 to 7, the door 22 according to an embodiment of the present invention may be opened and closed by sliding. The door 22 may slide to the rear of the display unit 21.

When the door 22 is slid upward while the door 22 is closed, the guide part 220 provided on the side of the door 22 moves upward along the guide hole 230 formed on the side of the frame 23. I can. At this time, the first front gear 231a is engaged with the first rack gear 221 and rotates, and the first front gear 231a is engaged with the first rack gear 221 at the top of the first rack gear 221 The door 22 slides upward while moving from the to the bottom.

The door 22 slides upward so that one side of the elastic member 24 mounted on the door 22 is positioned above the other side of the elastic member 24 mounted on the frame 23, or the elastic member 24 When passing through the elastic limit point of, the door 22 can slide upward by the elastic force of the elastic member 24 without external force. After the first front gear 231a passes through the first rack gear 221, the second gear 232 may rotate by engaging the second rack gear 222. The door 22 may slide upward while a mating point of the second gear 232 and the second rack gear 222 moves from the top to the bottom of the second rack gear 222.

The number of gear teeth per unit length of the second rack gear 222 is smaller than that of the first rack gear 221, and the number of gear teeth required for one rotation of the second gear 232 is that of the first front gear (231a). Since it is smaller than the number of gear teeth required for one rotation, the door 22 is driven by a higher speed and greater force by the rotation of the second gear 232 than when the rotation of the first front gear 231a. Can be slid. Accordingly, when the door 22 is opened, the weight of the door 22 is overcome and the door 22 can be stably opened.

When the door 22 is to be closed, the door 22 can be slid downward. The guide part 220 provided on the side of the door 22 may move downward along the guide hole 230 formed on the side of the frame 23. At this time, the second gear 232 is engaged with the second rack gear 222 and rotates, and the mating point of the second gear 232 and the second rack gear 222 is from the top to the bottom of the second rack gear 222 You can go to

After the second gear 232 passes through the second rack gear 222, the first front gear 231a and the first rack gear 221 may be engaged. The first front gear 231a is meshed with the first rack gear 221 and can rotate, and a meshing point of the first front gear 231a and the first rack gear 221 is You can move from bottom to top.

The door 22 slides downward so that one side of the elastic member 24 mounted on the door 22 is positioned below the other side of the elastic member 24 mounted on the frame 23, or the elastic member 24 When passing through the elastic limit point of, the door 22 can slide downward by the elastic force of the elastic member 24 without external force.

The number of gear teeth per unit length of the first rack gear 221 is larger than that of the second rack gear 222, and the number of gear teeth required for one rotation of the second gear 232 is that of the first front gear (231a). Since it is smaller than the number of gear teeth required for one rotation, the sliding speed of the door 22 when the door 22 rotates by the rotation of the first front gear 231a than when the rotation of the second gear 232 Can be slowed down. As a result, the door 22 is decelerated and closed, thereby reducing the impact applied to the main body 10 while the door 22 is closed.

As described above, the display unit 21, the door 22, and the frame 23 are modularized, so that it is advantageous to miniaturize the fluid sample testing device, and the door 22 is semi-automatically opened and closed to facilitate the usability of the fluid sample testing device. In addition to the improvement, the gear ratio is used to reduce the speed when the door 22 is closed, so that the impact applied to the fluid sample test device when the door 22 is closed can be reduced, thereby preventing damage to the device. The door 22 slides to the rear of the display unit 21 so that even if the door 22 is opened, it does not interfere with the display unit 21 so that the user can control the display unit 21 regardless of whether the door 22 is opened or closed. To be able to confirm. In addition, an alarm is given when the door 22 is opened through the sensor 233 that detects the opening and closing of the door 22 so that an accurate analysis result can be obtained.

1: fluid sample inspection device 10: main body
20: door module 21: display unit
22: door 23: frame
24: elastic member 220: guide portion
221: first rack gear 222: second rack gear
223: elastic member coupling portion 224: interference portion
230: guide hole 231: first gear
232: second gear 233: sensor

Claims (19)

A main body on which the sample is analyzed;
A frame on which the sample cartridge is mounted;
A display unit provided in front of the main body; And
Includes; a door provided in front of the main body and slidably provided to the rear of the display unit,
A fluid sample testing device having a first rack gear extending in a vertical direction and a second rack gear positioned above the first rack gear and extending in a vertical direction on a rear surface of the door. The method of claim 1,
The frame, the door, and the display unit are provided as one module and are located in front of the main body. The method of claim 1,
The fluid sample testing device is provided with a sensor for detecting the opening of the door in the frame. The method of claim 3,
A fluid sample testing device configured to protrude and provide an interference part on a rear surface of the door, and to detect the interference part by the sensor when the door is closed. The method of claim 3,
A fluid sample testing device that provides an alarm when it detects that the door is open. delete The method of claim 1,
A fluid sample testing apparatus including a first gear engaged with the first rack gear and rotating and a second gear engaged with the second rack gear and rotated. The method of claim 7,
The first gear is a fluid sample testing device provided with a double gear including a first front gear and a first rear gear. The method of claim 8,
The first rack gear is a fluid sample testing device that meshes with the first front gear. The method of claim 8,
The number of gear teeth per unit length of the second rack gear is provided smaller than the number of gear teeth per unit length of the first rack gear, so that when the first front gear and the first rack gear are engaged, A fluid sample testing device having a sliding speed lower than the speed of the door when the second gear and the second rack gear are engaged. The method of claim 1,
One side is connected to the door, the other side is a fluid sample testing device further comprising an elastic member fixed to the frame. The method of claim 11,
The elastic member provides an elastic force pushing the door so that the door can be opened and closed semi-automatically. The method of claim 1,
A guide portion is formed to protrude from the side of the door, and a guide hole extending in the vertical direction is formed in the frame, and the guide portion is inserted into the guide hole and moves in the vertical direction along the guide hole, thereby sliding the door A fluid sample testing device that is opened and closed by In the fluid sample testing device for performing the analysis of the sample,
A frame on which the sample cartridge is mounted;
A display unit provided in front of the frame;
A door provided under the display unit and provided to slide to the rear of the display unit;
An elastic member having one side mounted to the door and the other side fixed to the frame to provide an elastic force pushing the door; And
Includes; a sensor mounted on the frame to detect the opening of the door,
The frame, the display unit, and the door are provided as one module, and the door is semi-automatically opened and closed by an elastic force of the elastic member. The method of claim 14,
Fluid sample inspection in which a first rack gear extending in the vertical direction and a second rack gear located above the first rack gear and having a smaller number of gear teeth per unit length than the first rack gear are provided on the rear of the door device. The method of claim 15,
A fluid sample testing device including a first gear meshed with the first rack gear and rotated on the frame, and a second gear meshed with the second rack gear and rotated. The method of claim 16,
The first gear is provided as a double gear including a first front gear and a first rear gear, the first front gear may be engaged with the first rack gear, and the first rear gear is the second gear A fluid sample testing device that meshes with. The method of claim 14,
A fluid sample testing device in which a guide hole extending in a vertical direction is formed on a side of the frame, and a guide portion that moves along the guide hole is protruded in the door. The method of claim 14,
When the door is moved downward and closed, one side of the elastic member is located below the other side of the elastic member,
When the door is moved upward and opened, one side of the elastic member is positioned above the other side of the elastic member.

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