WO2001004684A1 - Element chauffant pour microscope - Google Patents
Element chauffant pour microscope Download PDFInfo
- Publication number
- WO2001004684A1 WO2001004684A1 PCT/JP2000/001451 JP0001451W WO0104684A1 WO 2001004684 A1 WO2001004684 A1 WO 2001004684A1 JP 0001451 W JP0001451 W JP 0001451W WO 0104684 A1 WO0104684 A1 WO 0104684A1
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- WO
- WIPO (PCT)
- Prior art keywords
- transparent
- plate
- transparent plate
- heat
- microscope
- Prior art date
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Classifications
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B21/00—Microscopes
- G02B21/24—Base structure
- G02B21/30—Base structure with heating device
Definitions
- the present invention relates to a heating device for a microscope, which is mounted on a stage of a microscope and a sample is placed on a transparent heating plate to heat the sample.
- a heating device for a microscope As a device to meet this requirement, there is a heating device for a microscope. To apply for this type of device, refer to Japanese Patent Application No. 6-111 540 (Patent No. 2 835 422) and Japanese Utility Model Application No. 7-27 14 (Utility Model Registration No. 301). 6 894).
- This type of device is basically composed of a transparent plate for heat generation, a transparent conductive film formed on the surface of the transparent plate for heat generation by an evaporation method, electrodes for supplying electricity to the transparent conductive film, and a transparent film for heat generation.
- a transparent plate for protection laminated on the plate at a predetermined distance; an insulating transparent material such as silicone filled between the transparent plate for heat generation and the transparent plate for protection; a transparent plate for heat generation and a transparent plate for protection And a housing that holds the outer edges of the heat-generating transparent plate and the protective transparent plate.
- this microscope heating device is mounted on a microscope stage, the sample placed on a slide glass or the like is placed on a protective transparent plate, and the transparent conductive film is energized to generate heat, thereby heating the sample. I do. Furthermore, the temperature is detected by a temperature sensor, and the temperature is adjusted by controlling the conduction to the transparent conductive film based on the detected temperature.
- this type of equipment depending on the type of microscope (inverted microscope, upright microscope, stereo microscope) and the structure (shape) of the microscope stage. Regardless of the type of the above-mentioned heating device for a microscope, it is required that the specimen be kept at a predetermined temperature at all times, and that will determine the performance of this type of device.
- the center of the transparent heating plate tends to be hot, but the temperature sensor is arranged at the end of the heating plate so as not to hinder observation. For this reason, the temperature detected by the temperature sensor is lower than the temperature at the center of the heat-generating transparent plate, and the electrodes are energized based on this detection information. There is a problem that occurs. In addition, there is a problem that accurate temperature adjustment cannot be performed for various reasons.
- the heating device mounted on an upright microscope has a very short focal length of the light source, so the distance from the light source to the sample must be as short as possible. ing.
- the diameter of the electric cord is large, which has hindered the reduction in the thickness of the device. That is, in the conventional electric cord, a pair of power lines for supplying electricity to the electrodes and a pair of signals connected to the temperature sensor are arranged around the core material, and these are covered with an insulating sheath. It is configured. For this reason, this electric cord has a substantially circular cross section, and there is a limit in reducing the diameter. Make the thickness of the device smaller than the diameter of the electric cord This cannot be done, which hinders the thinning of the device.
- the present invention has been made in view of the above-mentioned conventional problems, and a heat generating transparent plate or a protective transparent plate on which a sample is placed is always kept at a desired temperature, and the temperature distribution is uniform. Therefore, it is an object of the present invention to provide a heating device for a microscope which can realize a further reduction in thickness.
- the invention according to claim 1 is directed to a heating element having a transparent conductive film formed on a surface of a transparent base plate and having a pair of electrodes for supplying electricity to the transparent conductive film.
- a heating device for a microscope having a temperature sensor for detecting a temperature, and a housing for holding an outer edge of the transparent plate for heat generation and the transparent plate for protection, the transparent conductive film faces the transparent plate for protection.
- the pair of electrodes are formed on a surface of the heat-transmitting transparent plate on which the transparent conductive film is formed, and at least one end of the pair of electrodes extends in a direction approaching each other. Between one end of the pair A heating device for a microscope, wherein the temperature sensor is disposed.
- the invention according to claim 2 is the heating device for a microscope according to the heating device according to claim 1, wherein the transparent plate for heat generation is square.
- the invention according to claim 3 is the heating device for a microscope according to claim 1 or 2, wherein one end of the electrode is inclined so as to descend toward the outer edge of the base plate. Heating for microscopes characterized by a shape that changes Device.
- the invention according to claim 4 is the heating device for a microscope according to claim 1 or 2, wherein the base is located near one end of the electrodes extending in a direction approaching each other, and A heating device for a microscope, wherein a missing portion of a transparent conductive film is provided on a central portion side of a plate.
- the invention according to claim 5 is characterized in that a transparent conductive film is formed on a surface of a transparent base plate and that the transparent conductive plate has a pair of electrodes for supplying electricity to the transparent conductive film; A transparent plate for protection laminated on the plate at a predetermined distance, an insulating transparent material filled between the transparent plate for heating and the transparent plate for protection, and a temperature sensor for detecting the temperature of the transparent plate for heating.
- a heating device for a microscope comprising: a heating transparent plate; and a housing for holding an outer edge of the protective transparent plate, wherein the heating transparent plate has an exposed portion that does not overlap with the protective transparent plate;
- a heating device for a microscope wherein the exposure device includes the temperature sensor.
- the invention according to claim 6 is characterized in that a transparent conductive film is formed on a surface of a transparent base plate, and the transparent conductive plate has a pair of electrodes for supplying a current to the transparent conductive film; A transparent plate for protection laminated on the plate at a predetermined distance, an insulating transparent material filled between the transparent plate for heating and the transparent plate for protection, and a temperature sensor for detecting the temperature of the transparent plate for heating.
- a heating device for a microscope having the heating transparent plate and a housing for holding an outer edge of the protective transparent plate, wherein the temperature sensor is disposed in a portion covered by the housing. It is a heating device for a microscope.
- the invention according to claim 7 is a heat-generating transparent film having a transparent conductive film formed on a surface of a transparent base plate and having a pair of electrodes for supplying electricity to the transparent conductive film.
- a light plate, a protective transparent plate laminated on the heat generating transparent plate at a predetermined distance, a temperature sensor for detecting a temperature of the heat generating transparent plate, a heat generating transparent plate and a protective transparent plate A heating device for a microscope having a housing for holding an outer edge portion of the heating device, wherein a heat conducting member made of a material having high heat conductivity is provided between the transparent plate for heat generation and the transparent plate for protection.
- This is a heating device for microscopes characterized by the following.
- the invention according to claim 8 is characterized in that a conductive film is formed on a surface of a base plate having a hole, and the heat generating plate has a pair of electrodes for supplying a current to the conductive film; A protective plate having a hole to be formed and laminated on the heat generating plate; an insulating member disposed between the heat generating plate and the protective plate; a temperature sensor for detecting a temperature of the conductive film; A heating device for a microscope having eight housings for holding an outer edge of the plate, wherein the protection plate is made of a material having high thermal conductivity.
- the invention according to claim 9 is the heating device for microscope according to claim 8, wherein the protection plate is a metal plate having high thermal conductivity. is there.
- a tenth aspect of the present invention provides the heating plate, wherein a transparent conductive film is formed on a surface of the transparent base plate, and the heating device has a pair of electrodes for supplying a current to the transparent conductive film.
- a heating device for a microscope comprising a housing for holding an outer edge portion of the heat-transmitting transparent plate and a protective transparent plate, wherein the heating device is made of a material having high thermal conductivity, one surface of which is in contact with the temperature sensor, and A heating device for a microscope, comprising an outside air temperature transmitting member whose surface is exposed to the outside air.
- the invention according to claim 11 is the heating apparatus for a microscope according to claim 10, wherein the outside air temperature transmitting member is made of a metal having high thermal conductivity. It is a heating device for a microscope.
- the invention according to claim 12 is the heating apparatus for a microscope according to claim 10, wherein the outside air temperature transmitting member is made of thermally conductive silicon. It is a heating device.
- the invention according to claim 13 is characterized in that a transparent conductive film is formed on a surface of a transparent base plate, and the heating transparent plate has a pair of electrodes for supplying electricity to the transparent conductive film; A protective transparent plate laminated at a predetermined distance from the substrate, an insulating transparent material filled between the heat generating transparent plate and the protective transparent plate, and a temperature sensor for detecting a temperature of the heat generating transparent plate.
- a heating device for a microscope comprising: a heating transparent plate; and a housing for holding an outer edge of the protective transparent plate, wherein a heat insulating member is provided between the heating transparent plate and the housing. This is a heating device for a microscope.
- the invention according to claim 14 is the heating device for a microscope according to claim 13, wherein an air layer is interposed between the transparent heating plate and the housing in addition to the heat insulating member.
- a heating device for microscopes characterized in that:
- the invention according to claim 15 is characterized in that a transparent conductive film is formed on a surface of a transparent base plate, and the heating transparent plate has a pair of electrodes for supplying a current to the transparent conductive film;
- FIG. 1 is an exploded perspective view of a heating device for a microscope according to a first embodiment.
- FIG. 2 is a plan view of a transparent plate for heat generation mounted on the heating device for a microscope according to the first embodiment.
- FIG. 3 is a sectional view taken along line AA of FIG.
- FIG. 4 is a plan view of another type of heat generating transparent plate mounted on the heating device for a microscope according to the first embodiment.
- FIG. 5 is a plan view of another type of heat generating transparent plate mounted on the heating device for a microscope according to the first embodiment.
- FIG. 6 is a plan view of a microscope heating device according to the second embodiment.
- FIG. 7 is a sectional view taken along line AA of FIG.
- FIG. 8 is a partially enlarged view of FIG.
- FIG. 9 is an exploded perspective view of a heating apparatus for a microscope according to the third embodiment.
- FIG. 3 is a sectional view taken along line AA of FIG.
- FIG. 4 is a plan view of another type of heat generating transparent plate mounted on the heating device for a microscope according to the first embodiment.
- FIG. 10 is an exploded perspective view of a heating apparatus for a microscope according to the fourth embodiment. It is.
- FIG. 11 is an exploded perspective view of a microscope heating apparatus according to a fifth embodiment.
- FIG. 12 is a partially enlarged cross-sectional view of the microscope heating apparatus according to the fifth embodiment.
- FIG. 13 is an exploded perspective view of a microscope heating apparatus according to the sixth embodiment.
- FIG. 14 is a sectional view of the microscope heating apparatus according to the sixth embodiment.
- FIG. 15 is an exploded perspective view of the microscope heating apparatus according to the seventh embodiment.
- FIG. 16 is a sectional view of a microscope heating apparatus according to a seventh embodiment.
- FIG. 17 is a perspective view showing the internal structure of an electric cord mounted on the heating device for a microscope according to the eighth embodiment.
- FIG. 18 is a perspective view showing an internal structure of a state where a power line of an electric cord mounted on the heating apparatus for a microscope according to the eighth embodiment is twisted.
- FIG. 19 is a front view for explaining a use state of the microscope heating apparatus according to the eighth embodiment.
- BEST MODE FOR CARRYING OUT THE INVENTION A heating device for a microscope 1 according to a first embodiment corresponding to claims 1 to 4 will be described with reference to FIGS. 1 to 5.
- FIG. The configuration of the heat generating transparent plate 3 will be described.
- Reference numeral 5 denotes a base plate made of a transparent glass plate square, on the surface of the base plate 5, S i â 2 - transparent conductive film 6 composed of indium alloy is formed by vacuum deposition or the like.
- both S i 0 2 - is formed by indium alloy.
- the transparent conductive film may be made of tin oxide, indium oxide, or the like in addition to the SiO 2 âindium alloy.
- a pair of electrodes 7 and 7 are formed on the surface on which the transparent conductive film 6 is formed.
- the electrodes 7, 7 are provided along the edge of the base plate 5, and are arranged to face each other.
- One end portions 9 and 9 and the other end portions 11 and 11 of the electrodes 7 and 7 extend in a direction approaching each other and are opposed to each other at intervals (see FIGS. 2 and 3).
- Reference numeral 13 denotes a temperature sensor.
- the temperature sensor 13 is attached to the back surface of the base plate 5 (the surface on which the transparent conductive film 6 is not formed), and has one end 9 of a pair of electrodes 7, 7. , 9 are arranged.
- the temperature sensor 13 is connected to a controller (not shown) via a signal line.
- Reference numeral 15 denotes a housing.
- the housing 15 is made of plastic, is formed in a rectangular frame shape, and has a rectangular hole 17. A support portion 19 projecting toward the center of the hole 17 is formed on the inner periphery of the hole 17 of the housing 15.
- the housing 15 is provided with an electric cord 21 containing a power line for energizing the electrodes 7 and 7 and a signal line for the temperature sensor 13.
- Reference numeral 23 denotes a protective transparent plate made of a square transparent glass plate.
- Reference numeral 25 denotes a paper mask, which is formed in a rectangular frame shape.
- Transparent plate for heat generation 3, mask 25 and protection for holes 17 of housing 15 The transparent plate 23 is accommodated in this order, and the edge of the back surface of the heat-generating transparent plate 3 is set on the support portion 19.
- the space between the heat generating transparent plate 3 and the protective transparent plate 23 is filled with silicone as an insulating transparent material, and the edge of the protective transparent plate 23 accommodated in the hole 17 and the hole 17 are formed. Silicone for fixing is filled between the inner peripheral part.
- the heat-generating transparent plate 3 and the protective transparent plate 23 are laminated and adhered via silicone, and are further fixed to the housing 15 with fixing silicone, and the outer edge is held by the housing 15.
- This microscope heating device 1 is mounted on a microscope stage, and a slide glass or the like on which a sample is placed is placed on a protective transparent plate 23. Then, the transparent conductive film 6 is energized through the power line and the electrodes 7 and 7 to generate heat, and the specimen is heated through the protective transparent plate 23 to observe the specimen at a desired temperature.
- the temperature on the back surface of the glass for heating 3 is detected by the temperature sensor 13 and the detection information is sent to the controller via this signal line. Adjust the temperature to 7 to control the temperature.
- the one ends of the pair of electrodes 7, 7 extend in the direction approaching each other, when the electrodes 7, 7 are energized, current flows quickly through the transparent conductive film 6 in the opposing region. Therefore, the temperature of the transparent conductive film 6 in the region facing the electrodes 7, 7 has a high response to energization to the electrodes 7, 7. Therefore, the temperature detected by the temperature sensor 13 and the temperature at the central portion of the heat-generating transparent plate 3 substantially match, and it is possible to prevent an overshoot in which the temperature at the central portion becomes higher than the set temperature, thereby enabling appropriate temperature adjustment.
- Fig. 4 shows another type of transparent plate for heating 27, which is mounted on the heating device 1 for a microscope in the same manner as the transparent plate 3 for heating. Only the shape of one end 31, 31 and the other end 33, 33 of 29 is different from the transparent plate 3 for heat generation. Therefore, similar parts are denoted by the same reference numerals as those of the heat-generating transparent plate 3, and description thereof is omitted.
- One end 31, 31 and the other end 33, 33 of the electrodes 29, 29 extend in a direction approaching each other, and are opposed to one end 31, 31 and the other end 33, 3.
- Reference numeral 3 denotes a shape inclined so as to descend toward the outer edge of the base plate 5. Then, the temperature sensor 13 is attached to the back surface of the base plate 5 (the surface on which the transparent conductive film 6 is not formed), and the temperature sensor 13 is located between one end portions 31 1 and 31 of the electrodes 29 and 29. Are located.
- the electrodes 7, 7 shown in FIGS. 1 to 3 there are corners 10, 10 at one end 9, 9.
- FIG. 5 shows another type of heat generating transparent plate 3 5.
- Reference numeral 5 has the same configuration as that of the transparent plate for heat generation 3 except that the transparent conductive film 6 has a cutout portion 37 in the same manner as the transparent plate 3 for heat generation.
- the transparent plate 35 for the heat-generating plate has one of the ends 9 and 9 of the electrodes 7 and 7 and the other end 11 and 11 near the central portion. It is formed.
- the missing portions 37, 37 are formed by rubbing the transparent conductive film 6 with, for example, a file. Since the cutouts 37 and 37 are formed in the transparent plate 35 for heat generation, current flows so as to concentrate on the corners 10 and 10 of the ends 9 and 9 of the electrodes 7 and 7. Can be prevented, and the temperature near the corners 10 and 10 can be prevented from partially increasing. Therefore, temperature detection by the temperature sensor 13 can be performed more accurately.
- the temperature sensor 13 may be arranged on the front surface side of the base plate 5 instead of the rear surface. In this case, it is arranged via a double-sided tape or the like to be electrically insulated from the transparent conductive film. Further, the temperature sensor 13 may be arranged at a position closer to one of the two ends of the electrode, instead of being intermediate between the pair of one ends. In the above embodiment, it is also possible to adopt a configuration in which a missing portion of the transparent conductive film shown in FIG. 5 is formed on the heat-generating transparent plate having the electrode whose tip end is inclined as shown in FIG. is there. A heating device for microscopes 40 according to a second embodiment corresponding to the fifth and sixth claims will be described with reference to FIGS. 6 to 8.
- FIG. 1 A heating device for microscopes 40 according to a second embodiment corresponding to the fifth and sixth claims will be described with reference to FIGS. 6 to 8.
- Reference numeral 39 denotes a heat-generating transparent plate.
- the heat-generating transparent plate 39 includes a base plate 41 made of a square transparent glass plate, a transparent conductive film 42 formed on the surface thereof, and the transparent conductive film 42. It is composed of electrodes (not shown) for conducting electricity.
- a protective transparent plate 43 made of a square transparent glass plate is laminated at a predetermined distance.
- the space between the heat generating transparent plate 39 and the protective transparent plate 43 is filled with silicone 45 as an insulating transparent material, and the heat generating transparent plate 39 and the protective transparent plate 43 are fixed. It is fixed to the housing 46 by silicone for use, and its outer edge is held by the housing 46.
- the heat generating transparent plate 39 has a longer dimension than the protective transparent plate 43, and in the laminated state, the heat generating transparent plate 39 has an exposed portion 47 that does not overlap with the protective heat generating plate 41. .
- the exposed portion 47 is not filled with the silicone 45, and the transparent conductive film 42 is exposed.
- a temperature sensor 49 is disposed via a double-sided tape 51.
- the double-sided tape 51 fixes the temperature sensor 49 and electrically insulates the transparent conductive film 42.
- a heat insulating member 44 made of a small piece of Styrofoam is stuck. Further, the temperature sensor 49 is provided at a position covered by the housing 46.
- the microscope heating device 40 is used in the same manner as the microscope heating device 1.
- the temperature sensor 49 is disposed on the exposed portion 47 that is not filled with the silicone 45 and the heat insulating member 44 is attached, so that the temperature of the transparent conductive film 42 is accurately detected. be able to.
- the heat of the transparent conductive film is taken by the silicone and is not conducted to the temperature sensor by the straight line.
- the temperature of the conductive film reaches a predetermined temperature Temperature sensor detects that the temperature has not reached the specified temperature.
- the temperature sensor 49 is disposed on the exposed portion 47 as described above so that heat is not conducted to the silicone, and furthermore, a heat insulating member is provided. With the provision of 44, the temperature of the transparent conductive film 42 can be accurately detected by preventing heat from escaping. Further, in the heating device 40 for a microscope, since the temperature sensor 49 is disposed in a portion covered by the housing 46, for example, the petri dish 53 takes heat near the temperature sensor 49, so that an accurate temperature can be obtained. Detection can be prevented from becoming impossible. That is, in the conventional heating device for a microscope, the temperature sensor is provided at a position covered by the protective transparent plate.
- a petri dish is placed on the protective transparent plate, and this is located just above the temperature sensor. Then, heat is conducted to the petri dish via the protection substrate, and the temperature of the portion where the temperature sensor is disposed drops. Since the transparent conductive film is an extremely thin film, the amount of accumulated heat is extremely small, and when heat is conducted to the petri dish, the temperature of that part rapidly decreases in a short time, and based on the temperature detection of the part where this temperature has decreased, When current flows through the electrodes, an overshoot occurs in which the temperature of the central portion of the transparent conductive film becomes higher than the set temperature.
- Reference numeral 55 denotes a plastic housing.
- the housing 55 has an irregular octagon, a box shape having a shallow recess 58, and a bottom of the recess 58.
- a round hole 57 is formed in the hole.
- the housing 55 has a transparent plate 59 for heat generation, an insulating sheet 61 made of an electrically insulating material, an aluminum plate 63 as a heat conductive member, an insulating sheet 65 having the same configuration as the insulating sheet 61, and transparent glass.
- the protective transparent plate 67 constituted by the above is accommodated in this order, and the outer edge portion is held by the housing 55.
- Each of these is an irregular octagon so that it is almost exactly fitted in the recess 58 of the housing 55, and the insulating sheets 61 and 65 correspond to the round holes 57 of the housing 55.
- Holes 62 and 64 are formed, and round hole 66 is formed in aluminum plate 63.
- the transparent plate for heat generation 59 is a base plate 69 made of a transparent glass plate, a transparent conductive film 71 formed on the surface of the base plate 69, and a pair of electrodes 73 for supplying electricity to the transparent conductive film 71. , 73.
- the electrodes 73 and 73 are connected to the power line accommodated in the electric cord 75 attached to the housing 55, and are connected to the power lines and the electrodes 73 and 73 based on detection information of a temperature sensor (not shown).
- the transparent conductive film 71 is energized.
- the microscope heating device 53 is mounted on the stage of the microscope, the sample is placed on the protective transparent plate 67, and is positioned so as to correspond to the round hole 57 of the housing 55, and the sample is observed.
- the heating device 53 for the microscope when the transparent conductive film 71 generates heat, the heat is transmitted to the aluminum plate 63 and accumulated, and the heat is transmitted to the entire transparent plate 67 for protection. Therefore, the temperature of the protective transparent plate 67 is kept constant and the temperature distribution becomes uniform, so that the specimen heated to the predetermined temperature can be observed with certainty.
- an aluminum plate was used as a heat conducting member.
- the heat conductive member may be a plate made of copper, silver, or the like, a plastic plate having high heat conductivity, or a heat conductive silicon (made by Shin-Etsu Chemical Co., Ltd.).
- FIG. 10 shows a heating apparatus 77 for a microscope according to a fourth embodiment, which corresponds to the eighth and ninth aspects of the present invention.
- Reference numeral 79 denotes a plastic housing, which is formed in a substantially disk shape having a shallow circular concave portion 80, and a hole 81 is formed in the concave portion 80.
- the housing 79 includes a heat generating transparent plate 83 as a heat generating plate, an insulating spacer 85 as an insulating member made of an electrically insulating material, and an aluminum plate 87 as a protective plate in this order. It is housed in the housing and fixed by the fixing silicone, and the outer edge is held by the housing 79.
- a substantially square hole 86 is formed at the center of the insulating spacer 85, and a circular hole 88 is formed at the center of the aluminum plate 87.
- the surface of the aluminum plate 87 is anodized.
- the heat-generating transparent plate 83 is made of a disk-shaped transparent glass plate and has a substantially square hole at the center.
- the electrodes 93 and 93 are connected to the power line accommodated in the electric cord 95 attached to the housing 79, and the power lines and the electrodes 93 and 93 are connected to the power lines based on information detected by a temperature sensor (not shown). Electric current is supplied to the transparent conductive film 91 via the second conductive film 91.
- the microscope heating device 77 is mounted on the stage of the microscope, and the sample is placed on the stage and in the area inside the round hole 88 of the aluminum plate 87 to observe the sample.
- the transparent conductive film 91 generates heat in the heating device 77 for a microscope, the heat is transmitted to and accumulated in the aluminum plate 87, and the heat is transmitted to the entire protective transparent plate 77.
- the temperature of the protective transparent plate 77 is kept constant and the temperature distribution becomes uniform, so that the sample placed in the area inside the round hole 88 can be reliably heated to the predetermined temperature.
- the heating device for microscope 77 uses the transparent plate for heat generation 83, but since the specimen is placed in the hole 88 for observation, the heat generation plate does not have to be transparent.
- the protective plate is not limited to aluminum, and may be made of metal such as copper or silver, or other plastics as long as the material has high thermal conductivity.
- a heating device 95 for a microscope according to a fifth embodiment corresponding to claims 10 to 12 will be described with reference to FIGS. 11 and 12.
- Reference numeral 97 indicates a plastic housing, and the housing 97 is formed in a rectangular frame shape.
- a support portion 101 protruding toward the inside of the hole 99 of the housing 97 is formed.
- An electric cord 103 containing a power line and a signal line for a temperature sensor is attached to the housing 97.
- Reference numeral 105 indicates a transparent plate for heat generation.
- the transparent plate for heat generation 105 is a base plate 107 made of a square transparent glass plate, a transparent conductive film 109 formed on the surface thereof, and this transparent plate. It is constituted by a pair of electrodes 111 and 111 for supplying electricity to the conductive film 109.
- a temperature sensor 106 is attached to the surface of the heat-generating transparent plate 105 via a double-sided tape 108. You.
- a protective transparent plate 113 made of a square transparent glass plate is laminated at a predetermined distance via a square frame-shaped paper mask 111.
- Silicone 45 as an insulating transparent material is filled between the heat generating transparent plate 105 and the protective transparent plate 113, and the heat generating transparent plate 105 and the protective transparent plate are filled.
- 1 13 is fixed to the housing 97 by a fixing silicone, and the outer periphery thereof is held by the housing 97.
- a round hole 1 15 is formed in the protective transparent plate 113, and the round hole 115 is provided at a position facing the temperature sensor 106.
- Reference numeral 1 17 denotes an aluminum disk as an outside air temperature transmitting member, and the aluminum disk 1 17 is large enough to fit into the round hole 1 15. As shown in FIG. 12, the aluminum disk 1 17 is fixed to the round hole 115 by silicone 116. The lower surface of the aluminum disk 1 17 is in contact with the temperature sensor 106, and the upper surface is exposed to the outside air.
- L 1 1 and 1 1 1 are connected to the power line accommodated in the electric cord 103 attached to the housing 97, and are connected to the power line and the electrodes 1 1 1 based on the detection information of the temperature sensor 106. , 1 1 1 to the transparent conductive film 109.
- the heating device 95 for the microscope a change in the outside air temperature is transmitted to the temperature sensor 106 via the aluminum disk 117. Therefore, the temperature sensor 106 detects a temperature corresponding to the outside air temperature, and the transparent conductive film 109 is energized based on this detection information, and the temperature can be adjusted according to the outside air temperature.
- the microscope heating device 95 uses an aluminum disk as an outside air temperature transmission member.
- the present invention is not limited to this, and the outside air temperature transmitting member may be made of a metal having high heat conductivity, such as copper or silver, or heat conductive silicon. If heat conductive silicon is used, it can be easily adhered to the temperature sensor 106 because of its plasticity.
- Reference numeral 120 denotes a plastic housing.
- the housing 120 has a substantially disk shape having a circular shallow recess, and a large round hole 123 is formed at the center.
- the transparent plate for heat generation 125 is a base plate 127 made of a disk-shaped glass plate, and is formed on the surface of the base plate 127 so as to supply electricity to the transparent conductive film 129 and the conductive film 129. It is constituted by a pair of electrodes 13 1 and 13 1. On the lower surface of the transparent plate for heat generation 125, a ring-shaped heat insulating member 133 made of polystyrene is adhered. A transparent transparent plate 135 made of a disk-shaped glass plate is laminated on the heat-generating transparent plate 125 with a predetermined distance, and the heat-generating transparent plate 125 and the protective transparent plate 135 are stacked. The space between them is filled with silicon, and a temperature sensor (not shown) is arranged.
- the heat-generating transparent plate 125 and the protective transparent plate 135 are housed in the concave portion 121 of the housing 120, fixed by silicone, and the outer edges thereof are held by the housing 120. As shown in FIG. 14, the heat insulating member 133 is in contact with the bottom of the concave portion 121.
- the housing 130 is provided with an electric cord 137 that accommodates a power line and a signal line of a temperature sensor.
- the electrodes 13 1 and 13 1 are connected to the power line accommodated in the electric cord 13 7, and the temperature sensor is connected to the signal line.
- the power line and the electrode 1 are connected based on the information detected by the temperature sensor.
- Electric current is supplied to the transparent conductive film 13 7 through 13 1.
- the heating device 1 19 for the microscope is provided with a heat insulating member 1 3 3, so that heat can be prevented from being transferred from the transparent heating plate 1 2 5 to the housing 1 2 0 and taken away. Temperature rise.
- the heat insulating member is made of styrene foam, but may be made of other plastics such as urethane resin. Further, the heat insulating member can be made of ceramic or the like.
- Reference numeral 141 denotes a plastic housing.
- the housing 141 has a substantially frame-like square shape and a support portion 144 protruding inward.
- a protrusion 145 is formed at an edge of the support 143.
- Reference numeral 147 denotes a heat-generating transparent plate.
- the heat-generating transparent plate 147 is a base plate 149 made of a square glass plate, and a transparent conductive film formed on the surface of the base plate 149. It is composed of a pair of electrodes 15 3, 15 3 for energizing 15 1 and the transparent conductive film 15 1.
- a square frame-shaped heat insulating member 155 made of styrene foam is adhered on the back surface of the heat-generating transparent plate 147.
- a glass-made protective transparent plate 157 is laminated at a predetermined distance, and the heat-generating transparent plate 1 47 and the protective transparent plate are laminated.
- Silicone 159 is filled between the plate 157 and a temperature sensor (not shown).
- the heat-generating transparent plate 1 4 7 and the protective transparent plate 1 5 7 are housed in the housing 1 4 1, and the back of the heat generating transparent plate 1 4 7 is supported by the projections 1 4 5 and fixed by silicone. , The outer edge of which is held by the housing 14 1.
- An electric cord 163 containing a power line and a signal line of a temperature sensor is attached to the housing 144.
- the electrodes 15 3 and 15 3 are connected to the power line accommodated in the electric cord 16 3, and the temperature sensor is connected to the signal line. Based on the information detected by the temperature sensor, the power line and the electrode 1 are connected. Electric current is supplied to the transparent conductive film 15 1 through 53 and 15 3. Since the heating device for microscope 13 9 is provided with the heat insulating member 15 5, the same effect as that of the heating device for microscope 1 19 is exhibited.
- the heating device for microscope 13 9 has an air layer 16 1 formed between the heat insulating member 15 5 and the support portion 14 3 of the housing 14 1, a high heat insulating effect can be obtained. it can.
- the heat insulating member is made of styrene foam, but may be made of another plastic such as urethane resin. Further, the heat insulating member can be made of ceramic or the like.
- a heating apparatus for microscopes 16 5 according to an eighth embodiment corresponding to claim 15 will be described with reference to the drawings of FIGS. 17 to 19. The configuration of the electric cord 167 provided in the microscope heating device 165 will be described. Symbols 169 and 169 indicate a pair of signal codes.
- the signal codes 169 and 169 are formed by covering the signal line 171 with an electrically insulating coating material 173. I have.
- the power lines 175 and 175 composed of a large number of thin copper wires are wound around the outer periphery of the covering materials 173 and 173 of the signal cords 169 and 169, respectively.
- the signal cords 169 and 169 around which the power lines 175 and 175 are wound are arranged in parallel, and are covered with the outer skin 177 in that state.
- the outer skin 1 77 7 is shaped like a cross-section with the Arabic numeral â8â on its side. As shown in FIG.
- the electric code 167 is inserted through a hole formed on the side surface of the housing 179 in such a manner that the signal codes 169 and 169 are arranged in a horizontal direction.
- the pair of power lines 175 and 175 are connected to a pair of electrodes for supplying electricity to the transparent conductive film of the transparent plate for heating 181, respectively, and the pair of signal lines 171 and 171 are connected to It is connected to a temperature sensor arranged on the transparent conductive film.
- the transparent heating plate 18 1 is laminated with a protective transparent plate 18 3 at a predetermined distance, and an insulating transparent material is placed between the heating transparent plate 18 1 and the protective transparent plate 18 3. As silicone is filled.
- the heating device for the microscope 16 5 transmits the detection information of the temperature sensor to the controller (not shown) from the signal lines 17 1 and 17 1, and based on the detection information, the power lines 17 5 and 17 7 Electric current is supplied from 5 and the electrode to the transparent conductive film. Then, while heating the specimen 184 on the slide glass 182 to a predetermined temperature, observation is performed with the objective lens 185 of an upright microscope. In this observation, it is necessary to focus the light emitted from the light source 186 at a position where the specimen 184 is located.
- the electric cord 16 7 has the structure described above, and Since it is attached, the height can be reduced. Therefore, the heating device for microscope 165 can be made much thinner than the case where a conventional electric cord is used.
- the temperature detected by the temperature sensor substantially coincides with the temperature of the central portion of the heat generating transparent plate. It is possible to prevent overshoot in which the temperature of the central part becomes higher than the set temperature, and it is possible to adjust the temperature appropriately.
- the temperature sensor since the temperature sensor has the exposed portion that is not filled with the insulating transparent material, it is possible to accurately detect the temperature of the transparent conductive film.
- the temperature sensor since the temperature sensor is disposed in the portion covered by the housing, heat near the temperature sensor is taken away by a chassis or the like provided on the protective transparent plate. And accurate temperature detection.
- the transparent conductive film when the transparent conductive film generates heat, the heat is Is transferred to and accumulated in the heat conducting member, and heat is transmitted to the entire protective transparent plate. Therefore, the temperature of the protective transparent plate is kept constant and the temperature distribution becomes uniform, so that the specimen heated to the predetermined temperature can be observed with certainty.
- the heat generating plate when the heat generating plate generates heat, the heat is conducted and accumulated in the heat conducting member, and the heat is transmitted to the entire protective transparent plate. Therefore, the temperature of the protective transparent plate is kept constant and the temperature distribution becomes uniform, so that the specimen heated to the predetermined temperature can be observed with certainty.
- a change in the outside air temperature is transmitted to the temperature sensor via the outside air temperature transmitting member. Therefore, the temperature sensor detects the temperature corresponding to the outside air temperature, and the transparent conductive film is energized based on this detection information, and the temperature can be adjusted according to the outside air temperature.
- the heat insulating member since the heat insulating member is provided, it is possible to prevent the heat from being transmitted from the heat-generating transparent plate to the housing and to be deprived of the heat. It becomes possible.
- the invention as set forth in claim 14 since the heat insulating member and the air layer are provided, it is possible to prevent the heat from being transferred from the heat-generating transparent plate to the housing and to be deprived of the heat.
- the height of the electric cord can be reduced, and the heating device for a microscope can be made considerably thinner than when a conventional electric cord is used. Therefore, even if the focal length of the light source of the upright microscope is particularly short, it is possible to focus on the position of the specimen.
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- Physics & Mathematics (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Microscoopes, Condenser (AREA)
Description
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Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU29407/00A AU2940700A (en) | 1999-07-08 | 2000-03-10 | Heater for microscope |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP11194266A JP2001021813A (ja) | 1999-07-08 | 1999-07-08 | é¡åŸ®é¡çšå æž©è£ çœ® |
JP11/194266 | 1999-07-08 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO2001004684A1 true WO2001004684A1 (fr) | 2001-01-18 |
Family
ID=16321775
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2000/001451 WO2001004684A1 (fr) | 1999-07-08 | 2000-03-10 | Element chauffant pour microscope |
Country Status (3)
Country | Link |
---|---|
JP (1) | JP2001021813A (ja) |
AU (1) | AU2940700A (ja) |
WO (1) | WO2001004684A1 (ja) |
Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR20030072268A (ko) * | 2003-07-25 | 2003-09-13 | ì ê·ë¯Œ | ìšë ì¡°ì ìŽ ê°ë¥í í¬ëª ìŽí ì¥ì¹ |
US10746752B2 (en) | 2009-11-13 | 2020-08-18 | Ventana Medical Systems, Inc. | Opposables and automated specimen processing systems with opposables |
JP5492701B2 (ja) * | 2010-08-10 | 2014-05-14 | ãžãªãããã¯æ ªåŒäŒç€Ÿ | 芳å¯çšãã¬ãŒãåã³é¡åŸ®é¡çšå ç±è£ 眮 |
AU2013370572B2 (en) * | 2012-12-26 | 2016-05-19 | Ventana Medical Systems, Inc. | Specimen processing systems and methods for holding slides |
US9989448B2 (en) | 2012-12-26 | 2018-06-05 | Ventana Medical Systems, Inc. | Specimen processing systems and methods for holding slides |
US11274998B2 (en) | 2012-12-26 | 2022-03-15 | Ventana Medical Systems, Inc. | Specimen processing systems and methods for holding slides |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62135803A (ja) * | 1985-12-09 | 1987-06-18 | Inoue Tamotsu | é¡åŸ®é¡èŠ³å¯çšå æž©è£ çœ® |
JP3016894U (ja) * | 1995-03-07 | 1995-10-09 | æ ªåŒäŒç€Ÿåéãµãã©ã€ | é¡åŸ®é¡çšéæå æž©ãã¬ãŒãããã³é¡åŸ®é¡çšéæå æž©è£ çœ® |
JPH08108080A (ja) * | 1994-10-07 | 1996-04-30 | Hideji Tsuchiya | 亀æµãã€ãºçºçé²æ¢åéæææž©è£ çœ® |
JPH08279392A (ja) * | 1995-04-05 | 1996-10-22 | Kitazato Supply:Kk | éæå æž©ãã¬ãŒãããã³éæå æž©è£ çœ® |
US5717190A (en) * | 1994-04-30 | 1998-02-10 | Kabushiki Kaisha Kitazato Supply | Transparent heating plate for examination of specimens and transparent heating device for use therewith |
JPH10239591A (ja) * | 1997-02-28 | 1998-09-11 | Tokai Hit:Kk | é¡åŸ®é¡èŠ³å¯çšå æž©è£ çœ® |
-
1999
- 1999-07-08 JP JP11194266A patent/JP2001021813A/ja active Pending
-
2000
- 2000-03-10 AU AU29407/00A patent/AU2940700A/en not_active Abandoned
- 2000-03-10 WO PCT/JP2000/001451 patent/WO2001004684A1/ja active Application Filing
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62135803A (ja) * | 1985-12-09 | 1987-06-18 | Inoue Tamotsu | é¡åŸ®é¡èŠ³å¯çšå æž©è£ çœ® |
US5717190A (en) * | 1994-04-30 | 1998-02-10 | Kabushiki Kaisha Kitazato Supply | Transparent heating plate for examination of specimens and transparent heating device for use therewith |
JPH08108080A (ja) * | 1994-10-07 | 1996-04-30 | Hideji Tsuchiya | 亀æµãã€ãºçºçé²æ¢åéæææž©è£ çœ® |
JP3016894U (ja) * | 1995-03-07 | 1995-10-09 | æ ªåŒäŒç€Ÿåéãµãã©ã€ | é¡åŸ®é¡çšéæå æž©ãã¬ãŒãããã³é¡åŸ®é¡çšéæå æž©è£ çœ® |
JPH08279392A (ja) * | 1995-04-05 | 1996-10-22 | Kitazato Supply:Kk | éæå æž©ãã¬ãŒãããã³éæå æž©è£ çœ® |
JPH10239591A (ja) * | 1997-02-28 | 1998-09-11 | Tokai Hit:Kk | é¡åŸ®é¡èŠ³å¯çšå æž©è£ çœ® |
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JP2001021813A (ja) | 2001-01-26 |
AU2940700A (en) | 2001-01-30 |
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