JP4279188B2 - Preparation automatic changer - Google Patents

Description

  The present invention automatically sets a preparation containing a sample in a microscope and replaces it with a preparation containing another sample in histopathological examination, hematology examination, genetic examination, cytology examination, etc. The present invention relates to a preparation automatic exchange device.

In recent years, in microscopic examinations of histopathology, hematology, genetic testing, etc., the collected pathological tissues and samples such as cells and blood are photographed with an imaging device equipped with a microscope, and the images are taken into a computer and displayed. Image data that can be observed above is created. (For example, see Patent Document 1)
JP 2003-222801 A

  Conventionally, when creating image data such as pathological tissue or cells or blood as described above, the preparation of a specimen containing a sample of pathological tissue or the like is set on a microscope or replaced with another one manually. In the case of creating a large number of image data, much time and effort are spent on exchanging the slides.

  Therefore, the present invention solves the problems in the prior art as described above, and automatic slide preparation that can automatically and efficiently supply and exchange a large number of slides containing samples such as pathological tissues to a microscope. An object is to provide an apparatus.

  The automatic slide exchanging apparatus of the present invention provided to achieve the above object includes a base for detachably mounting and fixing the microscope at a fixed position, and a first guide provided at a fixed position on the base. A first movable body that is guided and supported by the first guide member and is horizontally movable in the front-rear direction of the base, a second guide member that is provided on the first movable body, A second movable body that is guided and supported by the two guide members and is horizontally movable in the left-right direction of the base, a preparation holding hand that is movable up and down relative to the second movable body, A third guide member provided at a fixed position on the table; a third movable member guided and supported by the third guide member; and provided so as to be movable up and down relative to the base; and a third movable member A slide storage magazine that is detachably held with respect to the first movable body A first drive source that horizontally moves along one guide member, a second drive source that horizontally moves the second movable body along the second guide member, and a second holding body for the slide holding hand. And a fourth drive source for moving the third movable body up and down along the third guide member.

  In the slide automatic changer, the slide holding hand has a pair of finger portions that horizontally support both end portions of the slide from below, and holds the slide on at least one upper surface of these finger portions. A suction hole communicating with a negative pressure source is opened.

  The slide storage magazine has a pair of side wall plates provided with a plurality of slide holding grooves arranged in parallel in the vertical direction to hold both ends of the slide so as to be removable, and the fingers of the slide holding hand are horizontally inserted and removed. A plurality of preparations can be accommodated in a shelf shape in the vertical direction at possible intervals.

  The slide storage magazine includes a detachable lever that can be switched between a lock position that is fixed to the third movable body by a manual operation and a lock release position that is separable from the third movable body, When the detachable lever is in the unlocked position, the position of the detachable lever is such that it is in a position that prevents the slide from coming out of the slide storage magazine and that the slide can be taken in and out when the detachable lever is in the locked position. And a movable stopper that is linked to.

  In the slide automatic exchange apparatus of the present invention, each drive source is preferably a step motor that is program-controlled by a computer.

  According to the first aspect of the present invention, the sample preparation stored in the preparation storage magazine is taken out and moved between the objective lens and the condenser lens of the microscope, and the preparation that has been inspected and imaged by the microscope is returned to the storage magazine again. It is possible to automatically perform inspection and imaging operations for a large number of samples.

  In addition, since the slide storage magazine can be separated from the third movable body, it is easy to insert and remove the sample slide from the slide storage magazine, and several slide storage magazines are prepared, which are replaced in sequence. As a result, inspection and imaging of a large number of samples can be performed more efficiently.

  In addition, when the preparation storage magazine is separated from the third movable body or transported, the front of the preparation storage magazine is accidentally turned downward so that the preparation containing the precious sample falls out of the preparation storage magazine and is damaged. Accidents can be prevented in advance.

  According to the second aspect of the present invention, the movement and positioning operation of the slide between the slide storage magazine and the microscope can be accurately programmed and controlled by the computer.

  FIG. 1 is a perspective view of a preparation automatic changer as an embodiment of the present invention, FIG. 2 is a front view, FIG. 3 is a side view, and FIG. 4 is a plan view. The automatic slide changing apparatus 1 of the present invention has a base 3 on which a microscope 2 is mounted on the upper surface, and a preparation storage magazine 4 disposed on the base 3 (however, only FIG. 2 shows a state in which this is removed. The prepared slide is taken out by the slide holding hand 5 and is moved between the objective lens 2A of the microscope 2 and the lower condenser lens (not shown). 4 is automatically performed.

  A microscope 2 mounted on the slide automatic exchange apparatus 1 has a binocular eyepiece 2B for observing a sample with the naked eye, and has an image pickup device built therein. An image of the sample taken here is converted into digital data. The data is taken into a computer (not shown), and the image data is edited here to make a database, or can be displayed on a display connected to the computer.

  The microscope 2 is fixed at a predetermined position with respect to the base 3 by one fixed attachment 6A and two fixed attachments 6B attached on the base 3 shown in FIG. The fixed attachments 6A and 6B are manufactured in a shape that conforms to the contour shape of the leg of the microscope 2, and a plurality of types having different shapes are prepared so as to be compatible with the microscopes of a plurality of manufacturers.

  The preparation holding hand 5 is moved on the base 3 in the front-rear direction (X direction in the drawing), the left-right direction (Y direction in the drawing), and the vertical direction (Z in the drawing) by the three-dimensional movement mechanism 7. It is provided to be movable. The three-dimensional movement mechanism 7 includes a guide frame 9 (first guide member) for guiding a movable frame 8 (first movable body) for moving and positioning the preparation holding hand 5 in the front-rear direction (X) of the base 3. )have.

In this embodiment, a pair of guide frames 9 are mounted on the base 3 via spacers 10 in parallel in the left-right direction, with their respective longitudinal directions directed in the front-rear direction of the base 3.
A plurality of types of spacers 10 having different heights are prepared so as to conform to the specifications of microscopes of a plurality of manufacturers, and can be exchanged.

  A linear bearing is incorporated in each guide frame 9 so that the movable frame 8 can be smoothly slid along the longitudinal direction of the guide frame 9. A guide frame 11 (second guide member) is passed and fixed on the pair of left and right movable frames 8 guided by the guide frames 9, and the movable frame 8 and the guide frame 11 are integrally formed. Thus, the base 3 can be moved in the front-rear direction.

  A step motor 12 (first drive source) is attached to one end of one of the pair of guide frames 9. The step motor 12 is drivingly connected to a movable frame 8 guided by the guide frame 9 via a ball screw mechanism (not shown) incorporated in the guide frame 9 to which the step motor 12 is attached. The movable frame 8 is horizontally moved in the front-rear direction of the base 3 along the guide frame 9 by rotating the drive shaft 12 in the forward direction or the reverse direction. As a result, together with the movable frame 8, the guide frame 11 and the other movable frame 8 are configured to move together in the front-rear direction.

  A linear bearing similar to that provided in the guide frame 9 is incorporated in the guide frame 11 so that the movable frame 13 (second movable body) can be smoothly moved along the longitudinal direction of the guide frame 11. Slide displacement is possible.

  A step motor 14 (second drive source) similar to the step motor 12 is attached to one end of the guide frame 11. The step motor 14 is drivingly connected to the movable frame 13 (second movable body) via a ball screw mechanism (not shown) incorporated in the guide frame 11 to which the step motor is attached. The movable frame 13 is configured to horizontally move in the left-right direction of the base 3 along the guide frame 11 by rotationally driving the 14 drive shafts in the forward direction or the reverse direction.

  A preparation holding hand 5 is attached to the upper portion of the movable frame 13 so as to be movable up and down. The preparation holding hand 5 is drivingly connected to a step motor 15 (third drive source) attached to the movable frame 13 via a ball screw mechanism and a linear cam mechanism (not shown) incorporated in the movable frame 13. Thus, by rotating the drive shaft of the step motor 15 in the forward direction or the reverse direction, the preparation holding hand 5 is moved up and down in a horizontal posture with respect to the rotation. ing.

  As shown in FIG. 5, the preparation holding hand 5 has a pair of finger portions 16 for holding both ends of the preparation P containing the sample and holding them, and the upper surfaces of these finger portions 16 finished flat. Each has a suction hole 17 open.

  These suction holes 17 are connected to a ventilation path 18 formed inside the finger portion 16, a pair of ventilation pipes 19 connected to both outer sides of the base portion of the finger portion 16, and a suction hose T shown in FIG. The negative pressure source communicated with the negative pressure source (not shown) is provided so as to attract and hold the preparation P on the upper surface of the finger portion 16 by the negative pressure applied to the suction hole 17 from the negative pressure source.

  In the present embodiment, as shown in FIG. 1, the suction hose T communicating with the intake pipe 19 and the power supply / control cable CB connected to the step motor 15 provided in the movable frame 13 are connected to the guide frame. In order to smoothly follow the movement of the movable frame 13 along 11, a bendable cable guide L is provided. The cable guide L is shown only in FIG.

  On the other hand, a support frame 20 is fixed to a side position of the microscope 2 on the upper surface of the base 3, and a guide frame 21 (third guide member) is attached to the support frame 20. A linear bearing is incorporated in the guide frame 21 and guides and supports the movable frame 22 (third movable body) so as to be movable up and down along the longitudinal direction of the guide frame 21.

A step motor 23 (fourth drive source) is provided at the upper end of the guide frame 21.
The step motor 23 is drivingly connected to a movable frame 22 guided by the guide frame 21 via a ball screw mechanism (not shown) incorporated in the guide frame 21. The movable frame 22 is configured to move up and down along the guide frame 21 by being rotationally driven in the forward direction or the reverse direction.

  The slide storage magazine 4 can be detachably mounted on the front surface of the movable frame 22. As shown in FIG. 6, the preparation storage magazine 4 is provided with a plurality of preparation holding grooves 25 arranged in parallel in the vertical direction to hold both ends of the preparation P with the sample sandwiched between the cover glass G so as to be detachable. The pair of side wall plates 24 is configured so that the plurality of preparations P can be accommodated in a shelf shape in the vertical direction at intervals at which the finger portions 16 of the preparation holding hand 5 can be horizontally inserted and removed.

  As shown in FIG. 7, in order to fix the preparation storage magazine 4 to the movable frame 22 side, a support plate 26 for mounting the preparation storage magazine 4 is attached to the lower end portion of the movable frame 22. A pair of left and right positioning pins 27 projecting from the upper surface of the slide storage magazine 4 are inserted into a positioning hole C provided at the lower end surface of the slide storage magazine 4 and a detachable lever 28 provided at the upper end of the slide storage magazine 4. Is rotated to a lock position indicated by a solid line in FIG. 1, the preparation storage magazine 4 is fixed to the movable frame 22.

  As shown in FIG. 6, a pair of movable stoppers 29 are provided on both outer sides of the side wall plates 24 on the left and right sides of the preparation storage magazine 4. These movable stoppers 29 are formed in a plate shape parallel to the side wall plate 24, and are coupled to each other so as to be integrated with the connecting rod 30 on the left and right sides, and are prepared in the longitudinal direction with respect to the pair of side wall plates 24. Relative displacement is possible by a distance that is half the arrangement pitch of the holding grooves 25.

  These movable stoppers 29 have comb-like stopper pieces 31 formed at the same pitch as the interval between the preparation holding grooves 25 provided on the left and right side wall plates 24. The front ends of these stopper pieces 31 are bent inwardly toward the inside, and as shown in FIG. 6, the front ends of the stoppers 31 are located at positions facing the preparation holding grooves 25 of the side wall plate 24. In some cases, the preparation P held between the preparation holding grooves 25 of the pair of side wall plates 24 is prevented from coming out of the preparation holding grooves 25 forward by the hook-shaped tip portions of the stopper pieces 31.

  Further, the depth of the slit formed between the comb-like stopper pieces 31 of the movable stopper 29 is formed to be smaller than the front-rear width of the preparation P, and the preparation P from the preparation holding groove 25 in the lateral direction. The withdrawal is regulated by the inner wall surfaces of the movable stoppers 29 on both sides.

  On the other hand, when the movable stopper 29 is displaced in the longitudinal direction of the side wall plate 24 and the hook-shaped tip of the stopper piece 31 is shifted by a half pitch from the position facing the preparation holding groove 25, the preparation P interferes with the stopper piece 31. It is possible to extract from the preparation holding groove 25 without any problem.

  In the present embodiment, such an operation of the movable stopper 29 is configured to be performed in conjunction with the rotation of the detachable lever 28. The rotation shaft 32 of the detachable lever 28 is rotatably supported by a bearing portion 33 that is integrally connected to the pair of side wall plates 24 of the preparation storage magazine 4. An eccentric shaft 34 is provided for each.

  These eccentric shafts 34 are respectively inserted into elongated holes 35 formed in the left and right movable stoppers 29, and the detachable lever 28 has a locked position indicated by a solid line in FIG. 7 and an unlocked position indicated by an imaginary line. When these are moved, the left and right movable stoppers 29 are integrally displaced in the longitudinal direction of the side wall plate 24 via these eccentric shafts 34.

On the other hand, the detachable lever 28 is fixed to the outer peripheral surface of the cylindrical portion 36 provided on the rotating shaft 32, and lock pins 37 protrude from the left and right side surfaces of the cylindrical portion 36 plate.
When the slide storage magazine 4 is attached to the movable frame 22, the lock pin 37 is fixed to the movable frame 22 side as shown by a solid line in FIG. The slide storage magazine 4 is fixed to the movable frame 22 by engaging with the 38 lock pin engagement grooves 39 and in cooperation with the positioning pins 27 described above. When the detachable lever 28 is in this locked position, the movable stopper 29 is raised to a position where the preparation P indicated by the solid line in FIG.

  Next, operation | movement of the preparation automatic exchange apparatus 1 of this invention is demonstrated. In this embodiment, the preparation storage magazine 4 is placed in the prepared holding groove 25 of the pair of side wall plates 24 with the detachable lever 28 rotated to the locked position while being removed from the movable frame 22. Insert the prepared slide P.

  In this embodiment, up to 20 preparations P can be stored. When the preparation work of storing the preparation P in the preparation storage magazine 4 is completed, the attachment / detachment lever 28 is rotated to the unlocking position to prevent the preparation P from falling off when the preparation storage magazine 4 is transported.

  Next, the preparation storage magazine 4 is mounted on the movable frame 22 of the preparation automatic changing apparatus 1. First, the microscope 2 is moved to the movable frame by turning the detachable lever 28 to the lock position after fitting the positioning pin provided on the support plate 26 of the movable frame 22 into the positioning hole on the bottom surface of the preparation storage magazine 4. 22 is fixed.

  On the other hand, the preparation holding hand 5 is in a standby position in front of the preparation storage magazine 4 indicated by symbol a in FIG. Further, the preparation holding hand 5 is at a position lowered to the lowering limit with respect to the movable frame 13. On the other hand, the movable frame 22 stops at a position where the movable frame 22 is raised to the reference position near the upper limit position with respect to the guide frame 21.

  From this state, the step motor 12 is driven, and the guide frame 11 moves forward toward the preparation storage magazine 4 side. Along with this, the pair of finger portions 16 provided in the preparation holding hand 5 is moved to the movable frame 22. The preparation motor P enters the lower part of the preparation P located in the preparation magazine 4 held at the bottom, where the step motor 12 is stopped and the intake holes 17 provided in the respective finger portions 16 are formed in the preparation P. It is positioned so that it is directly below.

  Next, the step motor 23 is driven to slightly lower the preparation storage magazine 4, and the preparation P having both ends held on the upper surfaces of the preparation holding grooves 25 of the left and right side wall plates 24 of the preparation storage magazine 4 is a pair of finger portions. At the same time, a negative pressure is applied to the suction hole 17 of the finger portion 16 from a negative pressure source (not shown), and the preparation P is adsorbed and fixed to the upper surface of the finger portion 16.

  Next, from this state, the stepping motor 12 is driven in the reverse direction to move the preparation holding hand 5 together with the guide frame 11 back to the position a in FIG. 4, and then the stepping motor 14 is driven to move the movable frame 13 to the guide frame. 11, the preparation holding hand 5 is opposed to the front surface of the microscope 2, and from here, the step motor 12 is driven to move the preparation holding hand 5 together with the guide frame 11 toward the microscope 2, The preparation P held by the pair of finger portions 16 is stopped so as to come directly under the objective lens 2A of the microscope 2.

  Here, the sample contained in the preparation P is photographed by an imaging device provided in the microscope 2, and image data is input to a computer (not shown). At this time, the eye can also inspect and observe the sample from the eyepiece 2B of the microscope 2.

  Here, the focus adjustment of the sample is automatically performed by driving and controlling the step motor 15 using an autofocus function provided in the imaging apparatus and adjusting the position of the preparation holding hand 5 in the vertical direction. Further, when the position of the sample with respect to the objective lens 2A is adjusted or scanned, the step motor 12 and the step motor 14 are respectively driven and controlled.

  When the photographing of the sample is completed, the step motor 15 is driven and the preparation holding hand 5 is lowered to the lower limit position with respect to the movable frame 13, and then the step motor 12 is driven in the reverse direction together with the guide frame 11. The preparation holding hand 5 moves backward, and the preparation holding hand 5 moves along the guide frame 11 to the standby position a by driving the step motor 14.

  When the preparation holding hand 5 reaches the standby position a, the step motor 12 is driven in the forward direction from here, and the preparation holding hand 5 moves again toward the preparation storage magazine 4, and the preparation P held by the finger portion 16. Is returned to the original position of the preparation storage magazine 4.

  Here, the negative pressure acting on the suction hole 17 of the finger portion 16 is released, and then the step motor 23 is driven to raise the preparation storage magazine 4 slightly, and the preparation held by the pair of finger portions 16. P is held in the preparation holding groove 25 inserted under the preparation storage magazine 4. Thereafter, the preparation holding hand 5 moves backward by the reverse driving of the step motor 12 and stops at the standby position a.

  Further, when another preparation P is continuously supplied to the microscope 2, the stepping motor 23 is driven to lower the movable frame 22 by one pitch of the preparation holding groove 25 of the preparation storage magazine 4 relative to the guide frame 21. Then, the same operation as described above is repeated.

  The series of operations described above can be automatically performed by program control by a computer (not shown). Further, when it is desired to supply the preparations P stored in the preparation storage magazine 4 to the microscope 2 in an arbitrary order, the order is manually input to the computer.

  In the embodiment described above, the preparation storage magazine 4 is configured to be detachable from the movable frame 22, but the preparation storage magazine 4 may be configured not to be removable from the movable frame 22.

  In such a case, there is no possibility that the preparation P is dropped from the preparation storage magazine 4 and it is not damaged, so that the structure can be simplified without incorporating the movable stopper 29 in the preparation storage magazine 4.

  In the present embodiment, a step motor is used as a drive source for the three-dimensional movement mechanism of the preparation holding hand 5, and each movable frame (movable body) is moved by this rotation via the ball screw mechanism. The present invention is not limited to such a structure. For example, a direct current servo motor or an ultrasonic motor is used as a drive source, or a linear step motor is incorporated in a guide frame (guide member) to provide a ball screw mechanism or the like. The movable frame may be directly driven without going through the power transmission mechanism.

  Further, in the present embodiment, the suction holes 17 are opened in each of the pair of finger portions 16 of the preparation holding hand 5, but the suction holes are opened in only one finger portion, and the preparation is placed in the other finger portion. You may make it give only the function to support.

  The preparation automatic exchange device of the present invention can be widely used in histopathological examination, hematology examination, cytology examination, molecular biology examination, biological specimen analysis and the like.

It is a perspective view showing one embodiment of a preparation automatic exchange device of the present invention. It is a front view showing one embodiment of the slide automatic exchange device of the present invention. It is a side view which shows one Embodiment of the preparation automatic exchange apparatus of this invention. It is a top view which shows one Embodiment of the preparation automatic exchange apparatus of this invention. It is a figure which shows the structure of the preparation holding hand in one Embodiment of the preparation automatic exchange apparatus of this invention. It is a perspective fragmentary view of the preparation storage magazine in one Embodiment of the preparation automatic exchange apparatus of this invention. It is a figure which shows the internal structure of the preparation storage magazine in one Embodiment of the preparation automatic exchange apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Preparation automatic change apparatus 2 Microscope 2A Objective lens 2B Eyepiece 3 Base 4 Preparation slide magazine 5 Preparation holding hand 6A, 6B Fixed attachment 7 Three-dimensional movement mechanism 8 Movable frame (1st movable body)
9 Guide frame (first guide member)
10 Spacer 11 Guide frame (second guide member)
12 Step motor (first drive source)
13 Movable frame (second movable body)
14 Step motor (second drive source)
15 Step motor (third drive source)
16 Finger portion 17 Suction hole 18 Ventilation path 19 Ventilation hose 20 Support frame 21 Guide frame (third guide member)
22 Movable frame (third movable body)
23 Step motor (fourth drive source)
24 Side wall plate 24A Bearing portion 25 Preparation holding groove 26 Support plate 27 Positioning pin 28 Removable lever 29 Movable stopper 30 Connecting rod 31 Stopper piece 32 Rotating shaft 33 Bearing portion 34 Eccentric shaft 35 Long hole 36 Cylindrical portion 37 Lock pin 38 Engagement Fragment

Claims (2)

A base for detachably mounting and fixing the microscope in place;
A first guide member provided at a fixed position on the base;
A first movable body guided and supported by the first guide member and provided so as to be horizontally movable in the front-rear direction of the base;
A second guide member provided on the first movable body;
A second movable body guided and supported by the second guide member and provided so as to be horizontally movable in the left-right direction of the base;
A preparation holding hand provided to be movable up and down with respect to the second movable body;
A third guide member provided at a fixed position on the base;
A third movable body guided and supported by the third guide member and provided so as to be movable up and down with respect to the base;
A slide housing magazine which is detachably held against the third movable member,
A first drive source for horizontally moving the first movable body along the first guide member;
A second drive source for horizontally moving the second movable body along the second guide member;
A third drive source for moving the preparation holding hand up and down relative to the second movable body;
A fourth drive source for moving the third movable body up and down along the third guide member,
The preparation holding hand has a pair of finger portions that horizontally support both end portions of the preparation from below, and at least one upper surface of these finger portions communicates with a negative pressure source for adsorbing and holding the preparation. A suction hole is opened,
The slide storage magazine has a pair of side wall plates provided with a plurality of slide holding grooves arranged in parallel in the vertical direction to hold both ends of the slide so as to be removable, and the fingers of the slide holding hand can be inserted and removed horizontally. A plurality of slides are arranged so as to be accommodated in a shelf shape in the vertical direction at intervals, and a lock position fixed to the third movable body by a manual operation and separable from the third movable body The detachable lever that can be switched between the unlocking position and the detachable lever, and when the detachable lever is in the unlocked position, it is in a position that prevents the slide from coming out of the slide storage magazine, and the detachable lever is in the locked position. A movable stopper that is linked to the movement of the detachable lever so that it can be put in and out Preparation autochanger, characterized in that it has.   2. The automatic slide changer according to claim 1, wherein each drive source is a step motor that is program-controlled by a computer.

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