JP5316228B2 - Microscope equipment, controller - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a microscope device of proper operability, when a user uses an OP device manufactured by an outside manufacturer which is different from the manufacturer of the microscope body. <P>SOLUTION: The microscope device 1 includes a signal-generating means 20 for generating a control signal for controlling the operation of a plurality of option devices for microscopes attached to the microscope 1, for each option device of the microscope; an outputting means 3 for outputting the control signal to the option devices for the microscopes; a selecting means 4 for selecting the control signal for controlling the operation of the option devices for the microscopes mounted on the microscope from among a plurality of predetermined control signals for controlling the operation of the option devices for the microscopes; and a commanding means 2 for commanding start of output of the control signal selected by the selecting means to the signal generating means. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a microscope apparatus having an option device for a microscope provided by an external manufacturer different from the manufacturer of the microscope body and having means for controlling the operation of the option device, and a controller for the option device for the microscope.

  Conventionally, various optional devices for a microscope (hereinafter abbreviated as “OP device” in the present specification) that can control operation by electric power are prepared for a microscope. As an OP device, an external manufacturer different from the manufacturer of the microscope body may be manufactured independently so that it can be used for the microscope manufacturer's microscope. In an OP device manufactured by an external manufacturer, the external manufacturer attaches a dedicated controller to the OP device, or is provided with a switch or the like so that the operation can be controlled. And the control signal of such an external manufacturer's OP apparatus differs (for example, refer patent document 1).

JP 2000-56229 A

  When the user uses an OP device manufactured by an external manufacturer different from the manufacturer of the microscope main body, the control unit that outputs a control signal corresponding to the OP device mounted on the microscope is required for each OP device. There is a problem that the operability when using the OP device is poor.

In order to solve the above problems, the present invention provides:
A microscope to which an external device that operates by an alternate signal, a momentary signal, or a predetermined pulse signal is connected,
A selection means for selecting the type of a control signal for controlling the operation of the external device by an address number ;
Instruction means for instructing generation of the control signal ;
Storage means for storing a table in which the address number is associated with the type of the control signal;
A signal generating means for generating an alternate signal, a momentary signal, or a predetermined pulse signal as the control signal. When instructed by the instruction means, the control signal corresponding to the address number selected by the selection means A signal generation means for selecting a type using the table and generating a control signal corresponding to the type of the selected control signal ;
An output terminal for outputting the control signal generated by the signal generating means to the external device ;
Providing a microscope characterized by having a.

  According to the present invention, it is possible to provide a microscope apparatus and a controller having a control unit that outputs a control signal according to an OP apparatus manufactured by an external manufacturer different from the manufacturer of the microscope main body mounted on the microscope, and having high operability. it can.

The microscope apparatus concerning 1st Embodiment is shown, (A) shows a side view, (B) shows the enlarged view of the base part of a microscope apparatus, respectively. The block diagram of the control signal generation part of 1st Embodiment is shown. The selection means of the microscope apparatus concerning 1st Embodiment is shown, (A) shows the external view of the rotary switch which is a selection means, (B) shows the correspondence table of the number of a rotary switch, and the content of an output signal, respectively. The output signal waveform selected by the rotary switch is shown, (A) shows the case of LOW to High output, and (B) shows the case of High to LOW output. The output signal waveform selected by the rotary switch is shown. (A) shows a LOW output while the button is pressed, and (B) shows a case of High output while the button is pressed. The output signal waveform selected by the rotary switch is shown. (A) shows a case where LOW is outputted for a predetermined time, and (B) shows a case where a High output is outputted for a predetermined time. The modification of the microscope apparatus concerning 2nd Embodiment is shown, (A) shows a side view, (B) shows the enlarged view of the base part of a microscope apparatus, respectively. The block diagram of the controller of 2nd Embodiment is shown.

  Hereinafter, a microscope apparatus according to an embodiment of the present application will be described with reference to the drawings. The following embodiments are only for facilitating the understanding of the invention, and excluding additions and substitutions that can be performed by those skilled in the art without departing from the technical idea of the present invention. It is not intended.

(First embodiment)
1 and 2, the microscope apparatus 1 according to the first embodiment is equipped with a camera 5 that is an optional apparatus (OP apparatus) for a microscope manufactured by an external manufacturer different from the manufacturer of the microscope apparatus. A camera controller 6 that controls the camera 5 is connected to the camera 5.

  Note that the OP device of the microscope apparatus 1 is not limited to the camera 5, and various OP devices such as a revolver, a filter turret, and an illumination device can be mounted.

  A button (switch) 2 for instructing the camera controller 6 to output an operation control signal to the base unit 1a of the microscope apparatus 1 is on the right hand side of the base unit 1a, which is near the hand when the observer observes the sample. It is arranged at a position close to the observer on the side. When the user presses the button 2, it becomes a trigger signal to the control signal generation unit 20 described later.

  The position of the button 2 may be arranged on the side surface on the left hand side of the base portion 1a or the front side on the observer side. Further, the buttons 2 may be disposed on both the left and right side surfaces of the base portion 1a. By arranging the buttons 2 on the left and right, it is possible to deal with the dominant hand of the observer. The button 2 is preferably an ON / OFF switch, which is ON when pressed and OFF when released.

  The microscope apparatus 1 includes a control signal generator 20 shown in FIG. The control signal generation unit 20 includes a reference clock generation unit 11 and a programmable semiconductor device, for example, a PLD (Programmable Logic Device) 10. Note that other programmable semiconductor devices such as an FPGA (Field Programmable Gate Array) can be used for the PLD 10.

  On the side surface of the base unit 1a, a rotary switch 4 (see FIG. 3A) which is a selection means for selecting a signal generated by the control signal generation unit 20 and a signal selected by the rotary switch 4 are provided outside the camera controller 6. An output terminal 3 for outputting to the control signal input terminal 6a is arranged. The output terminal 3 and the external control signal input terminal 6a of the camera controller 6 are connected by a predetermined signal line.

  In addition to the rotary switch 4, a switch capable of designating an address number such as a dip switch can be used as the selection means.

  Each address number (number) of the rotary switch 4 and the content of the control signal output from the PLD 10 are associated as shown in FIG. 3B, and the user grasps the control signal of the OP device in advance. Select a signal to control the installed OP device. These signal contents are programmed in the PLD 10, a number is designated by the rotary switch 4, and a button 2 is operated, whereby a predetermined output signal is output from the PLD 10 to the camera controller 6 via the output terminal 3. The contents of each output signal will be described below with reference to FIGS.

(Number 1)
When the number of the rotary switch 4 is set to 1, even if the button 2 is turned ON / OFF, the signal is not output from the control signal generator 20 to the output terminal 3 and is always OFF.

(Number 2)
When the number of the rotary switch 4 is set to 2, the alternate signal is set to be output from the PLD 10. Each time the button 2 is pressed, as shown in FIGS. 4A and 4B, a signal output from the LOW signal to the High signal (FIG. 4A), and a signal output from the High signal to the LOW signal ( FIG. 4B is alternately output from the PLD 10 via the output terminal 3. As shown in FIG. 4 (A), when the button 2 is pressed once, a signal that becomes a high signal is output from the LOW signal and the high signal state is maintained, and the button 2 is pressed for the second time. Return from the High signal to the LOW signal. Alternatively, as shown in FIG. 4B, when the button 2 is pressed once, a signal that becomes a LOW signal is output from the High signal and the LOW signal state is maintained, and when the button 2 is pressed for the second time, the LOW signal is maintained. Return from signal to High signal. These signals correspond to the button 2 performing the ON / OFF switch operation.

  This number 2 signal (alternate signal) is, for example, an instruction to close (LOW) / open (High) or close (High) / open (LOW) a shutter in a shutter device provided in an illumination device or the like. Used as a signal. Alternatively, it is used as a switch operation signal that activates the OP device mounted on the microscope apparatus 1.

(Numbers 3 and 4)
When the number of the rotary switch 4 is set to 3 or 4, the momentary signal is set to be output from the PLD 10.

  When the number is 3, the LOW signal is output from the PLD 10 via the output terminal 3 while the button 2 is pressed, as shown in FIG. In this case, a high signal is output from the output terminal 3 when the button 2 is not pressed, and the output changes to a LOW signal only while the button 2 is pressed.

  On the other hand, when the number is 4, a high signal is output from the PLD 10 via the output terminal 3 while the button 2 is pressed, as shown in FIG. In this case, a LOW signal is output from the output terminal 3 when the button 2 is not pressed, and the output changes to a High signal only while the button 2 is pressed.

  The signals 3 and 4 (momentary signals) are used as signals for the OP device that operates in the period of the LOW signal or the period of the High signal. For example, it is used as a control signal for photographing (exposure) time of the camera 5 (manual exposure for exposing while the button 2 is pressed). Alternatively, it is used as a rotation start signal (continuous rotation while the button 2 is pressed) of a rotating device such as a revolver or a filter turret. Alternatively, the OP device mounted on the microscope apparatus 1 can be used as a signal for operating while the button 2 is pressed.

(Numbers 5-12)
The numbers 5 to 12 of the rotary switch 4 are set so that the PLD 10 outputs a pulse signal whose time t is determined as shown in FIGS. 6 (A) and 6 (B). Numbers 5 to 8 each output a pulse signal at a time t having a different LOW level when the button 2 is pressed, and numbers 9 to 12 each output a pulse signal at a time t having a different High level when the button 2 is pressed. Is set to PLD10.

  Number 5 is LOW pulse signal time t is 10 msec, Number 6 is LOW pulse signal time t is 100 msec, Number 7 is LOW pulse signal time t is 250 msec, Number 8 is LOW pulse signal time t is 500 msec, respectively. Time t is programmed into the PLD 10.

  No. 9 is a high pulse signal time t of 10 msec, No. 10 is a high pulse signal time t of 100 msec, No. 11 is a high pulse signal time t of 250 msec, No. 12 is a high pulse signal time t of 500 msec, And time t is programmed in the PLD 10 respectively. These times t are respectively generated and output by the PLD 10 based on a signal from the reference clock generator 11 in the control signal generator 20.

  The setting of the pulse signal time t may be programmed in the PLD 10 according to the conditions required for the OP device.

  The pulse signals selected and output with numbers 5 to 12 are used as control signals for an OP device that operates with the pulse signals. For example, it can be used for an exposure time signal of the camera 5, an opening / closing signal of a shutter device in an excitation light source device, a rotation start signal / rotation stop signal such as a revolver, or a power ON / OFF signal of an OP device.

  In the description of the first embodiment, the case in which one set of the button 2, the rotary switch 4, and the output terminal 3 is arranged on the base portion 1a has been described. However, the button 2, the rotary switch 4, and the output terminal 3 are arranged in two. More than one set may be provided. Two or more sets are provided, and the signal output corresponding to each set is programmed in the PLD 10 to be used as a control signal for forward / reverse rotation of a rotating device such as a revolver or a filter turret or a control signal for a plurality of OP devices. It becomes possible.

(Second Embodiment)
Next, a modification of the microscope apparatus according to the second embodiment will be described with reference to FIGS.

  The microscope apparatus 101 according to the second embodiment is different from the microscope apparatus 1 according to the first embodiment in that a control signal generation unit 20 is provided in a controller 120 outside the microscope apparatus 101. In addition, the same code | symbol is attached | subjected and demonstrated to the structure similar to 1st Embodiment.

  7 and 8, the microscope apparatus 101 is equipped with a camera 5 which is an optional apparatus (OP apparatus) for a microscope manufactured by an external manufacturer, and a camera controller 6 for controlling the camera 5 is connected to the camera 5. Yes.

  Note that the OP device of the microscope apparatus 101 is not limited to the camera 5, and various OP devices such as a revolver, a filter turret, and an illumination device can be mounted.

  A button (switch) 2 for instructing the camera controller 6 to output an operation control signal is disposed on the base unit 1a of the microscope apparatus 101 at a position near the hand when the observer observes the sample. 2 is connected to an input terminal 3a of a controller 120 provided outside the microscope apparatus 101 via an output terminal 2a. The button 2 is disposed at a position close to the observer on the side surface on the right hand side of the base portion 1a. When the user presses the button 2, it becomes a trigger signal to the control signal generation unit 20 described later.

  The position of the button 2 may be arranged on the side surface on the left hand side of the base portion 1a or on the front side on the observer side. Further, the buttons 2 may be disposed on both the left and right side surfaces of the base portion 1a. By arranging the buttons 2 on the left and right, it is possible to deal with the dominant hand of the observer. The button 2 is preferably an ON / OFF switch, which is ON when pressed and OFF when released.

  The control signal generator 20 disposed in the controller 120 is the same as that in the first embodiment, and detailed description thereof is omitted.

  The controller 120 includes an input terminal 3 a to which a signal from the button 2 is input, a rotary switch 4 that is a selection unit that selects a signal generated by the control signal generation unit 20, and a signal selected by the rotary switch 4. An output terminal 3 for outputting to the external control signal input terminal 6a is disposed. The output terminal 3 and the external control signal input terminal 6a of the camera controller 6 are connected by a predetermined signal line.

  In addition to the rotary switch 4, a switch capable of specifying an address number such as a dip switch can be used as the selection means.

  Each address number (number) of the rotary switch 4 and the control signal content output from the PLD 10 are associated with each other as shown in FIG. The contents of these signals are programmed in the PLD 10, the number of the rotary switch 4 is designated, and the button 2 is operated, whereby a predetermined output signal is output from the PLD 10 to the camera controller 6 via the output terminal 3.

  The signal content output from the control signal generation unit 20 by the operation of the button 2 is the same as in FIGS. 4 to 6 of the first embodiment, and detailed description thereof is omitted. The PLD 10 is the same as that of the first embodiment, and detailed description thereof is omitted.

  As described above, in the microscope apparatus according to the present embodiment, the drive instruction button (switch) of the optional device manufactured by the external manufacturer attached to the microscope apparatus is arranged on the base portion near the observer's hand, and the drive control signal Is programmed in the PLD of the control signal generation unit, the operations of various OP devices manufactured by external manufacturers can be performed without taking an eye off the eyepiece during observation with a microscope.

  In the above embodiment, the button 2 is arranged on the base of the microscope apparatus. However, the button 2 may be arranged on the controller 120 of the second embodiment to be an OP apparatus controller manufactured by an external manufacturer. By installing and using this OP device controller in the vicinity of the hand of the microscope apparatus, it is possible to control the operation of various OP apparatuses manufactured by external manufacturers without taking an eye off the eyepiece during observation of the microscope apparatus.

1, 101 Microscope device 2 Button (switch)
3 Output terminal 4 Rotary switch 5 Camera (optional device)
6 Camera controller 10 PLD
11 Reference clock generator 20 Control signal generator 120 Controller

Claims (6)

A microscope to which an external device that operates by an alternate signal, a momentary signal, or a predetermined pulse signal is connected,
A selection means for selecting the type of a control signal for controlling the operation of the external device by an address number ;
Instruction means for instructing generation of the control signal ;
Storage means for storing a table in which the address number is associated with the type of the control signal;
A signal generating means for generating an alternate signal, a momentary signal, or a predetermined pulse signal as the control signal. When instructed by the instruction means, the control signal corresponding to the address number selected by the selection means A signal generation means for selecting a type using the table and generating a control signal corresponding to the type of the selected control signal ;
An output terminal for outputting the control signal generated by the signal generating means to the external device ;
Microscope, characterized in that it comprises a. 2. The microscope according to claim 1, wherein two or more types of momentary signals and two or more types of pulse signals are associated with the address numbers in the table. It said indicating means microscope according to claim 1 or 2, characterized in that provided in the base of the microscope. The microscope according to any one of claims 1 to 3, wherein the selection unit is provided on a base of the microscope. It said selection means microscope according to any one of claims 1 4, characterized in that it consists of a rotary switch or DIP switch. The signal generating unit and said output terminal, microscope according to claim 1, any one of 5, characterized in that it is built in the microscope.

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