KR102059482B1 - Tissue sample staining apparatus - Google Patents

Abstract

According to the present invention, provided is a tissue staining device comprising: a main body part; a slide mounting part installed in the main body part, and a mounting part being formed so as to mount a tissue slide being capable of being rotated; a sample mounting part installed in the main body so as to be rotatable while sharing the slide mounting part and a center rotation shaft; a sample housing part in which a staining sample is accommodated, and a nozzle part for injecting the staining sample to the tissue slide side mounted on the slide mounting part is formed; and a temperature measuring part installed in the sample mounting part and capable of being in contact with the sample housing part. Therefore, the present invention provides the tissue sample staining device capable of recognizing information about temperature and acidity to a user.

Description

Tissue sample staining apparatus

Embodiments of the present invention relate to tissue sample staining apparatus.

In general, a special pathology test is a test for detecting a particular individual, enzyme, protein, etc. in a cell that cannot be observed in normal staining. Specifically, there are immunopathology using antigen antibody reaction, immunofluorescence pathology using fluorescent material for antigen antibody reaction, molecular pathology using specific genes, and the like.

Dyeing samples used for tissue staining in conventional dyeing equipment for special pathology are stored at room temperature for about 1 hour during dyeing after refrigerated storage, and the dyeing process proceeds to a temperature suitable for tissue staining. It was not known whether it arrived.

In addition, the pH can not be measured separately in the dyeing equipment for special pathological examination, there was a problem that it is not known whether the dyeing is performed with the most suitable pH for tissue staining process.

Background art of the present invention is disclosed in US Patent No. 7718435 (named Automated slide stainer with slide housing).

The present invention has been made to improve the above problems, and to provide a tissue sample staining apparatus capable of recognizing information about the temperature, acidity to the user.

However, these problems are exemplary, and the scope of the present invention is not limited thereby.

One embodiment of the present invention, the main body; A mounting part installed on the main body part, the seating part being formed to mount the tissue slide, and the rotatable slide mounting part; A sample mounting part installed on the main body so as to be rotatable and share a central axis of rotation with the slide mounting part; A sample housing in which a dyeing sample is accommodated and a nozzle unit for injecting a dyeing sample to the tissue slide side mounted on the slide mounting unit is formed; And a temperature measuring part installed in the sample mounting part and in contact with the sample housing part.

In the present invention, the control unit for receiving information about the temperature of the sample housing portion measured from the temperature measuring unit as an electrical signal; And a display unit which receives the electrical signal from the controller and displays information regarding the temperature of the sample housing.

In the present invention, the temperature measuring unit comprises a first plate in contact with the lower surface of the sample housing; And a second plate coupled to the first plate at a predetermined angle and in contact with a rear surface of the sample housing part.

In the present invention, the needle portion is provided in the main body portion, reciprocating toward the sample housing portion, the needle portion penetrates the sample housing portion; An acidity measuring unit may be further included. The acidity measuring unit may be in contact with the needle unit and measure an acidity of the needle unit.

In the present invention, the needle portion, the needle body penetrates the sample housing; And a driving unit coupled to the needle body and moving the needle body.

In the present invention, the sample housing portion, the sample housing body is formed with a receiving portion to accommodate the dyeing sample; And a packing part installed on one surface of the sample housing body and having a passage hole formed therein so that the needle body passes therethrough.

In the present invention, the controller for receiving information about the acidity of the dye sample accommodated in the sample housing measured by the acidity measuring unit as an electrical signal; And a display unit configured to receive an electrical signal from the controller and display information regarding acidity of the dye sample accommodated in the sample housing.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

In the tissue sample dyeing apparatus according to the present invention, the temperature measuring unit measures the temperature of the dye sample accommodated in the sample mounting unit, and furthermore, the sample mounting unit, so that the dyeing process of the tissue sample can be performed at a predetermined temperature.

In addition, the acidity measurement unit measures the acidity of the dye sample, so that the user can recognize the information about the acidity of the dye sample in the tissue sample dyeing apparatus.

In addition, the packing unit can prevent the dye sample from flowing out when the needle body passes through the sample housing.

Of course, the scope of the present invention is not limited by these effects.

1 is a perspective view showing a tissue sample staining apparatus according to an embodiment of the present invention.
FIG. 2 is a view illustrating a portion A of FIG. 1.
FIG. 3 is a side view illustrating part C of FIG. 2.
4 and 5 are side views illustrating a portion B of FIG. 1.
6 is a side view showing the acidity measuring unit according to an embodiment of the present invention.
7 and 8 are block diagrams illustrating a control unit according to an embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. Effects and features of the present invention, and methods of achieving them will be apparent with reference to the embodiments described below in detail together with the drawings. However, the present invention is not limited to the embodiments disclosed below but may be implemented in various forms.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same or corresponding components will be denoted by the same reference numerals, and redundant description thereof will be omitted. .

In the following embodiments, the terms first, second, etc. are used for the purpose of distinguishing one component from other components rather than a restrictive meaning.

In the following examples, the singular forms "a", "an" and "the" include plural forms unless the context clearly indicates otherwise.

In the following examples, the terms including or having have meant that there is a feature or component described in the specification and does not preclude the possibility of adding one or more other features or components.

In the following embodiments, when a part such as a film, a region, a component, or the like is on or on another part, not only is it directly above the other part, but also another film, a region, a component, etc. is interposed therebetween. It also includes cases where there is.

In the drawings, components may be exaggerated or reduced in size for convenience of description. For example, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, and thus the present invention is not necessarily limited to the illustrated.

In the case where an embodiment may be implemented differently, a specific process order may be performed differently from the described order. For example, two processes described in succession may be performed substantially simultaneously or in the reverse order of the described order.

In the following embodiments, when a film, a region, a component, or the like is connected, not only the film, the region, the components are directly connected, but also another film, the region, the components intervening in between the film, the region, the components And indirectly connected. For example, in the present specification, when the film, the region, the component, and the like are electrically connected, not only the film, the region, the component, and the like are directly electrically connected, but other films, the region, the component, and the like are interposed therebetween. This includes indirect electrical connections.

1 is a perspective view showing a tissue sample staining apparatus according to an embodiment of the present invention. FIG. 2 is a view illustrating a portion A of FIG. 1. FIG. 3 is a side view illustrating part C of FIG. 2. 4 and 5 are side views illustrating the portion B of FIG. 1. 6 is a side view showing the acidity measuring unit according to an embodiment of the present invention. 7 and 8 are block diagrams illustrating a control unit according to an embodiment of the present invention.

1 to 8, the tissue sample (T) staining apparatus 1 according to an embodiment of the present invention (hereinafter, referred to as a 'dyeing apparatus') includes a main body portion 10, a slide mounting portion 20, The sample mounting part 30, the sample housing part 40, the temperature measuring part 50, the control part 60, the display part 70, and the acidity measuring part 80 may be included.

1 to 6, the main body 10 according to an embodiment of the present invention will be described later, the slide mounting portion 20, the sample mounting portion 30, the sample housing portion 40, the temperature measuring unit ( 50), by providing a space in which the control unit 60, the display unit 70, the acidity measuring unit 80 is installed, it is possible to form the appearance of the dyeing apparatus 1 according to an embodiment of the present invention.

The main body 10 may be electrically connected to the computer 3 and the server 5, and in relation to the dyeing process of the tissue sample T, the dyeing apparatus 1 may be used according to a dyeing program stored in the computer 3. Dyeing process of the tissue slide (S) can be performed, the dyeing data of the tissue slide (S) associated with this is transmitted to the server (5), the staining data can be accumulated in the server (5).

Referring to Figure 1, the main body portion 10 according to an embodiment of the present invention can be formed in the tube 11, the washing solution, the dyeing sample (L) is completed, the dyeing process is completed in the body portion 10 It is possible to provide a path through which the treatment liquid and the like flow.

Referring to Figure 1, the main body portion 10 may be provided with a treatment liquid receiving portion 93, the treatment liquid receiving portion 93, the dye sample (L) in the dyeing apparatus 1 to dye the tissue slide (S) The treatment solution generated after the dyeing process is completed can be accommodated.

The treatment liquid refers to alcohol and water soluble waste. The treatment liquid receiving part 93 may be provided in plural, and each of the treatment liquid receiving parts 93 may include trace metals, combined dyes and dye-soluble wastes. Can be accommodated.

Referring to Figure 1, the main body portion 10 may be provided with a washing solution accommodating part 95, the washing liquid accommodating part 95 is a washing solution such as ethanol, distilled water used in the dyeing process of the tissue slide (S) is accommodated Can be.

Although not shown in the drawings, the washing liquid container 95 is also connected to the oil pipe 11 so that the washing liquid used in the main body 10 may flow.

Slide mounting portion 20 according to an embodiment of the present invention is to be installed in the main body portion 10, the mounting portion 21 is formed so that the tissue slide (S) on which the tissue sample (T) to be stained is mounted is mounted. Can be.

The seating part 21 may be formed in a groove shape, and the tissue slide S may be mounted. However, the present invention is not limited thereto, and various modifications may be made, such as a retaining clip R on which the tissue slide S is placed.

Since the seating part 21 is formed, the sample housing part 40 disposed above the slide mounting part 20 (based on FIG. 2), specifically, the dyeing accommodated in the sample housing body 41 from the nozzle part 43. Sample (L) can be accurately sprayed on the tissue slide (S).

The slide mounting portion 20 is installed on the main body portion 10 so as to be disposed on the lower side (see FIG. 2) of the sample housing portion 40 to be described later, and is rotatable. Specifically, the slide mounting unit 20 may share a rotational central axis with the sample mounting unit 30 and may be rotated by receiving power from the outside.

1 to 6, the sample mounting unit 30 according to the exemplary embodiment of the present invention may be installed on the main body unit 10 so as to be rotatable while sharing the central axis of rotation with the slide mounting unit 20. The sample mounting unit 30 may be provided with a temperature measuring unit 50 to be described later.

The sample mounting unit 30 may be rotated in a clockwise or counterclockwise direction with respect to a rotational central axis by receiving power from the outside, and receive a electrical signal from the control unit 60 to place the tissue slide disposed on the slide mounting unit 20 ( It may be moved to a preset position to face S).

Sample mounting portion 30 according to an embodiment of the present invention may be provided with a plurality of sample housing 40 and the temperature measuring unit 50 on the basis of the rotation center axis.

1 to 6, the sample housing 40 according to an embodiment of the present invention is to accommodate the dye sample (L), the tissue slide (S) side mounted to the slide mounting portion 20 (Fig. The nozzle part 43 which sprays the dyeing sample L to 1 reference lower side is formed.

The sample housing part 40 may include a sample housing body 41 and a packing part 45. The sample housing body 41 has a hollow accommodating portion 44 formed therein so that the dyeing sample L is accommodated, and the dyeing sample L in the accommodating portion 44 is sprayed to the outside, specifically, the tissue slide S side. The nozzle unit 43 may be formed on one side thereof.

One side of the nozzle unit 43 may be formed in the opening and closing portion (not shown), the pressing member (not shown) is installed in the main body portion 10 is formed in the nozzle portion 43 by pressing the opening and closing portion When the flow path is opened, the dye sample L may be injected from the accommodation portion 44 to the outside through the nozzle portion 43.

The pressing member may pressurize the nozzle unit 43, specifically, the opening and closing unit, in the region B of FIG. 1, which is the inside of the main body 10.

Packing portion 45 according to an embodiment of the present invention is installed on one surface of the sample housing body 41, the needle portion 81, which will be described later, specifically, the passage hole portion 46 to pass through the needle body 82 ) May be formed.

3 and 4, the packing part 45 may be formed of an elastic material, and a through hole part 46 is formed at the center thereof. At this time, due to the elastic restoring force of the packing part 45, the inner circumferential surfaces of the packing part 45 in which the through hole part 46 is formed are in contact with each other, and the through hole part 46 may be closed.

Referring to FIG. 5, when the needle part 81, specifically, the needle body 82 receives power from the driving unit 83 and moves upward, the needle body 82 moves to the passage hole 46. In contact with each other and continuously moving upward, the dyeing sample L in the sample housing body 41 may be applied through the passage hole 46.

When the needle body 82 does not pass through the packing part 45 because the packing part 45 is formed of an elastic material, the through hole part 46 formed in the packing part 45 is closed to close the sample housing body ( 41), specifically, the dyeing sample (L) accommodated in the receiving portion 44 can be prevented from leaking to the outside.

In addition, when the needle body 82 moves to the packing part 45 and penetrates the packing part 45, the needle body 82 may enter the accommodating part 44 through the through hole part 46 so that the dyeing sample L may be coated. It can be effective.

2 to 6, the temperature measuring unit 50 according to an embodiment of the present invention is installed in the sample mounting portion 30, it is possible to contact the sample housing 40. The temperature measuring unit 50 may include a first plate 51 and a second plate 53.

2 and 3, the first plate 51 is in contact with the lower surface of the sample housing 40 (based on FIG. 3), and the second plate 53 is at a predetermined angle with the first plate 51. Coupled to form a contact, the first housing 51 and the second plate 53 are coupled to form a vertical contact with the back of the sample housing portion 40 (the reference surface of Figure 3), but is not limited thereto. Of course, it can be formed at various angles to correspond to the shape of the sample housing 40.

A temperature sensor 50, specifically, the first plate 51 and the second plate 53 according to an embodiment of the present invention may be provided with a contact type temperature sensor (not shown). Therefore, by measuring the temperature of the sample housing 40 in contact with the first plate 51, the second plate 53, indirectly measuring the temperature of the dye sample (L) accommodated in the sample housing 40 can do.

The temperature measuring unit 50, specifically, the first plate 51 and the second plate 53 are contacted at two surfaces of the sample housing 40 to measure the temperature, so that any one of the sample housing 40 Temperature measurement accuracy can be improved compared to measuring only at the point.

In the present invention, the temperature measuring unit 50 is formed of two of the first plate 51 and the second plate 53 in contact with two surfaces of the sample housing 40 to measure temperature, but is not limited thereto. Three or more plates are formed to be in contact with the three or more surfaces of the sample housing 40 to measure the temperature and the like, of course, various modifications are possible.

The temperature measured by the temperature measuring unit 50 is transmitted to the control unit 60 as an electrical signal, and the control unit 60 transmits it as an electrical signal to the display unit 70 again, to the sample housing unit 40, and further to the user. Information about the temperature of the dye sample (L) accommodated in the sample housing 40 can be displayed.

Since a specific configuration of the contact type temperature sensor corresponds to a known technology, a detailed description thereof will be omitted herein.

Referring to FIG. 7, the control unit 60 according to an embodiment of the present invention may receive information about the temperature of the sample housing 40 measured by the temperature measuring unit 50 as an electrical signal.

Referring to FIG. 8, the controller 60 according to an embodiment of the present invention has an acidity pH of the dye sample L accommodated in the sample housing 40 measured by the acidity measuring unit 80 to be described later. information about acidity can be received as an electrical signal.

Referring to FIGS. 7 and 8, the controller 60 may include a dye sample accommodated in the sample housing 40 and the sample housing 40 received from the temperature measuring unit 50 and the acidity measuring unit 80. Information about the temperature of L) and the acidity of the dye sample L may be transmitted to the display unit 70 as an electrical signal.

This allows the user to recognize the information about the temperature of the dye sample (L), the acidity of the dye sample (L) accommodated in the sample housing 40 and the sample housing (40).

1, 7 and 8, the display unit 70 according to an embodiment of the present invention receives an electrical signal from the control unit 60, and thus the temperature of the sample housing 40, and further, the sample housing ( Information about the temperature of the dyeing sample L accommodated in 40) can be displayed.

In addition, the display unit 70 may receive electrical signals from the control unit 60 to display information about the acidity of the dye sample L accommodated in the sample housing 40.

In the present invention, the display unit 70 is installed on the main body unit 10 as a display, and visually shows the user information about the temperature and the acidity information, but is not limited thereto. The sample housing unit 40 ), A variety of modifications are possible, such as information audibly indicating information about the temperature of the dye sample (L) and the acidity of the dye sample (L).

4 to 6, the acidity measuring unit 80 according to an embodiment of the present invention is installed in the main body 10, and may include a needle unit 81 and an acidity measuring body 87. have.

The needle part 81 is installed in the main body part 10, and reciprocates to the sample housing part 40, and can penetrate the sample housing part 40. The needle part 81 may include a needle body 82 and a driver 83. The needle body 82 may penetrate the sample housing 40 so that the dye sample L may be applied inside the sample housing 40.

The needle body 82 may pass through the packing part 45 formed in the sample housing body 41, specifically, the through hole part 46 formed in the packing part 45. The needle body 82 may be rotatably coupled to the end of the driving unit 83.

4 to 6, the driving unit 83 according to an embodiment of the present invention is coupled to the needle body 82 to transfer the power to the needle body 82 to move the needle body 82. Can be.

4 to 6, the driving unit 83 according to an embodiment of the present invention is a hydraulic or pneumatic cylinder type, but is not limited thereto. The needle body receives power from a drive motor and receives a power from a rack-pinion. Various modifications are possible, such as moving 82.

Referring to FIG. 6, the needle body 82 penetrated into the sample housing 40 and the dye sample L is coated may be rotated at one end of the driving unit 83 and moved to the acidity measuring body 87. . When the needle body 82 is in contact with the acidity measuring body 87, the acidity may be measured from an acidity measurement sensor (not shown) installed in the acidity measuring body 87.

Since the acidity measuring sensor corresponds to a known technology, a detailed configuration, operation principle, etc. related thereto will be omitted herein.

The information on the acidity measured by the acidity measuring unit 87 is transmitted to the control unit 60 as an electrical signal, and the control unit 60 transmits back to the display unit 70 so that the user can check the acidity of the dye sample L. Make the information perceivable.

Referring to FIG. 6, in the present invention, the acidity measuring body 87 is located below the sample housing 40, but is not limited thereto, and various modifications are possible, such as being disposed at the side of the sample housing 40. Of course.

The operation principle and effect of the dyeing apparatus 1 according to an embodiment of the present invention as described above will be described.

1 to 8, the dyeing apparatus 1 according to an embodiment of the present invention, the body portion 10, the slide mounting portion 20, the sample mounting portion 30, the sample housing portion 40, temperature measurement The unit 50 may include a control unit 60, a display unit 70, and an acidity measurement unit 80.

The temperature measuring unit 50 is mounted on the slide mounting unit 20, specifically, the seating unit 21, installed on the main body unit 10, and installed on the sample mounting unit 30 and the sample mounting unit 30. Equipped with a sample housing 40 containing the tissue sample (T) staining sample (L) so as to contact the).

In general, tissue samples (T) staining dye (L) may be stored at room temperature or refrigerated, storage is stored refrigerated, in the tissue sample (T) staining process after reaching a predetermined temperature staining process There are cases where this should be done.

Typically, the dyeing proceeds while maintaining at room temperature for about 1 hour, the dyeing process (L) does not reach a predetermined temperature there is a problem that the dyeing process is not properly performed.

2, 3 and 7, the dye sample (L) accommodated in the sample housing 40, further sample housing 40 due to the temperature measuring unit 50 according to an embodiment of the present invention Temperature can be measured, and when the temperature of the dyeing sample (L) reaches a preset temperature, the temperature measuring unit 50 transmits an electrical signal to the control unit 60, and the control unit 60 again displays the display unit 70 By transmitting it as an electrical signal, there is an effect that allows the user to recognize that the state can proceed the dyeing process.

In addition, since the dyeing sample L reaches a preset temperature, the efficiency and accuracy of staining the tissue sample T may be improved.

4 to 5, the acidity measuring unit 80 may include a needle unit 81 and an acidity measuring body 87. The needle part 81 may include a needle body 82 and a driving unit 83, and the needle body 82 may receive power from the driving unit 83 and pass through the sample housing 40.

Specifically, the dye passing through the passage hole 46 formed in the packing portion 45 installed in the sample housing body 41, the dye sample (L) accommodated in the receiving portion 44 of the sample housing body 41 is applied Will be. The needle body 82, which exits from the sample housing body 41, is supplied to the acidity measurement body 87 by receiving power from the driving unit 83.

The acidity of the dye sample L applied to the needle body 82 is measured in the acidity measuring body 87, and the acidity measuring unit 80 transmits an electrical signal to the controller 60 to transmit information about the acidity. The controller 60 transmits the information to the display unit 70 so that the user can recognize the information on the acidity of the dye sample (L). The acidity measuring unit 80 may be installed inside the body unit 10 (part B of FIG. 1).

Due to the dyeing apparatus 1 according to an embodiment of the present invention, it is possible to measure the current temperature and acidity of the dyeing sample L in a single apparatus, and by staining the tissue sample T at the optimum temperature and acidity. There is an effect that the staining efficiency and accuracy of the tissue sample (T) can be improved.

Particular implementations described in the present invention are embodiments and do not limit the scope of the present invention in any way. For brevity of description, descriptions of conventional electronic configurations, control systems, software, and other functional aspects of the systems may be omitted. In addition, the connection or connection members of the lines between the components shown in the drawings by way of example shows a functional connection and / or physical or circuit connections, in the actual device replaceable or additional various functional connections, physical It may be represented as a connection, or circuit connections. In addition, unless otherwise specified, such as "essential", "important" may not be a necessary component for the application of the present invention.

Therefore, the spirit of the present invention should not be limited to the above-described embodiments, and the scope of the spirit of the present invention is defined not only in the claims below, but also in the ranges equivalent to or equivalent to the claims. Will belong to.

1: tissue sample staining apparatus 3: computer
5: server L: stained sample
R: Retaining Clip S: Tissue Slide
T: Tissue Sample 10: Main Body
11: Tube 20: Slide Mount
21: seating portion 30: sample mounting portion
40: sample housing 41: sample housing body
43: nozzle portion 44: receiving portion
45: packing part 46: through hole part
50: temperature measuring unit 51: the first plate
53: second plate 60: control unit
70: display unit 80: acidity measuring unit
81: needle part 82: needle body
83: drive unit 87: acidity measuring body
93: treatment liquid receiving part 95: washing liquid receiving part

Claims (7)

Main body;
A mounting part installed on the main body part, the seating part being formed to mount the tissue slide, and the rotatable slide mounting part;
A sample mounting part installed on the main body so as to be rotatable and share a central axis of rotation with the slide mounting part;
A sample housing unit in which a dyeing sample is accommodated and a nozzle unit for injecting a dyeing sample to the tissue slide side mounted on the slide mounting unit is formed; And
And a temperature measuring part installed in the sample mounting part and in contact with the sample housing part.
A needle part installed at the main body part and reciprocating toward the sample housing part and penetrating the sample housing part; And a pH measurement unit which is in contact with the needle unit and measures the acidity of the needle unit. The tissue sample staining apparatus further comprises a. The method of claim 1,
A control unit which receives information about the temperature of the sample housing unit measured by the temperature measuring unit as an electrical signal; And
And a display unit which receives the electrical signal from the control unit and displays information regarding the temperature of the sample housing unit. The method of claim 1,
The temperature measuring unit comprises a first plate in contact with the lower surface of the sample housing; And
And a second plate coupled to the first plate at a predetermined angle and contacting a rear surface of the sample housing. delete The method of claim 1,
The needle part,
A needle body penetrating into the sample housing; And
And a driving unit coupled to the needle body and moving the needle body. The method of claim 5,
The sample housing portion,
A sample housing body in which a dyeing sample is accommodated; And
And a packing part installed on one surface of the sample housing body and having a through hole formed therein so that the needle body passes therethrough. The method of claim 1,
A control unit which receives, as an electrical signal, information about the acidity of the dye sample accommodated in the sample housing measured by the acidity measuring unit; And
And a display unit which receives the electrical signal from the control unit and displays information on the acidity of the dye sample accommodated in the sample housing.

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