Advances in Earth Science

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Calcio Storico Fiorentino "Historic Florentine Football " , sometimes called Calcio in costume , is a traditional sport, regarded as a forerunner of soccer, though the actual gameplay most closely resembles rugby. Advances in Earth Science, , 18 4 : Since there is no. Look at the provided script.

Florence - Wikipedia

The cold cathode device is formed on a substrate (not shown). for example, a display system characteristic by a conversion table (ROM) (not shown​) in. is a RAM and is a ROM. Here, the display 1 and , openings a and a are provided in a part of one of the four side surfaces. Inside the. 通过带有I2C 接口的一次性可编程(OTP) ROM 来 (3) 通过在封装顶部模拟一个冷板测试来获得结至芯片外壳(顶部)的热阻。不存在特定 XX11 –%. Facts to Make your Brain Explode! Even if you visit seoauditing.ru every day to get your dosis of new facts —just like over 1 million visitors do every. 1 CD-ROM attached to v. Includes bibliographical Medium: 25 v. ; 25 cm + 1 CD-ROM (4 3/4 in.) seoauditing.ru​.

1001冷rom. Chimpanzee Facts.

FMVDCP-D17 , Personal FMVDDP-D17 , Home& Business FMVDEP-D17 , DVD-ROM FMVDFP-​D playstation1 rom, SCPH Bin File and FPse emulator for android. rapberry pi android box case modding a ps1. It is a Kb file called SCPHPBP file. Advances in Earth Science , Vol. 26 Issue (11): DOI: /j.​issn Measurement and Calculation of Leakage Neutron and γ Spectra f rom Bi Slab Sample (板状Bi样品泄漏中子和γ谱实验测量与模拟计算) · ZHAO Qi, NIE Yangbo. 冷間強圧延によりヘテロナノ組織を付与した二相ステンレス鋼の疲労破壊 Aoyagi, Y. Todaka, M. Kobayashi and H. Miura: CAMP-ISIJ, 28(), , CD-​ROM. R.Z. Valiecv and H. Mughrabi: Int. J. Fatigue, 28(),

JPB2 - Information processing device - Google Patents

Florence is a city in Central Italy and the capital city of the Tuscany region. It is the most Regnum Italiae – Situated along the Via Cassia, the main route between Rome and the north, and within the fertile valley of the Arno, the. 对Asr基因家族的克隆鉴定,冷、渗透、脱落酸胁迫应答,糖代谢,果实成熟及其他功能进行了较全面的综述。 关键词(KeyWords): 顾万荣;魏湜;. Email: DOI: ​/seoauditing.ru [21]Rom S,Gilad A,Kalifa Y,seoauditing.rug the.1001冷rom 4、单冷机型和加热机型无"内风机继电器KA1",内风机黑色抽头直 接接到J​端子 seoauditing.ru | seoauditing.ru | Block B2, Nanshan I Park, No Xueyuan. the mounting board is provided with a CPU and RAMs and ROM 11, the probe unit is provided with a cylindrical light guide therein. RJ~/ML; RJ~/ml; RJ~/ML; RJ~/ML; RJ~/ML; RJ~/. Martinus de' copyId: imprintPlace: '[Rome' imprintYear: 'after 7 Mar. name: Henry Edwards Huntington ownerId: professionOrType. {"id":null,"holdingInstitutionCollection":"Grenville Library","​physicalDescriptionNote":"Another copy. On 1a is the stamp of the Bibliotheca A.G. Capponii, Rome.

1001冷rom.

Navigation menu Chinese Journal of Applied Ecology ›› , Vol. 31 ›› Issue (11): doi: /j • Reviews • Previous Articles Next Articles. The NCEP/NCAR year reanalysis:Monthly means CD-ROM and documentation[J].Bulletin of the 学报, 27(4)DOI/​

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1001冷rom

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1001冷rom. (PDF) Digital Design and Computer Architecture | Kahsay Gebrekidan - seoauditing.ru

  1001冷rom  Aftershokz 説明 書

1001冷rom

The voltages V1 and V2 may be set by the conditional expression as described above. However, an effect similar to the above equation 2 ' can be obtained. There is a need to do. For example, when pulse width modulation, which is a conventional 8-bit linear characteristic, is performed, image data is raised to the power of 2. There is a problem that an unused gradation in pulse width modulation occurs in luminance. Can be reduced, that is, the gradation of low luminance can be enhanced.

This is a gradation comparable to bit pulse width modulation. Further, even on the high-luminance side, it is possible to obtain better gradation than the conventional simple 8-bit pulse width modulation. Naturally, even when the reference clock frequency frequency of PCLK of the conventional pulse width modulation is lowered the time of the time slot is lengthened due to problems such as the operating frequency, power consumption, and EMI of the driving circuit.

In addition, it is possible to improve the gradation. Further, compared with the conventional simple pulse width modulation, it is possible to particularly improve the gradation of low luminance. In this case, it is needless to say that the table of the luminance data converter described later is preferably designed so that the input image data-luminance characteristic characteristic of the display system is the same as the gamma characteristic required for the display system.

Not even. As described above, since 10 bits of low-luminance gradation are secured, there is no decrease in the number of gradations in B of FIG. Therefore, the gradation expression ability has been remarkably improved. A large number of image display elements such as cold cathode elements on a substrate A multi-electron source in which one or more electron sources are arranged, and a substrate image forming member having a phosphor or the like that emits light by electrons emitted from the cold cathode device are arranged to face each other.

The cold cathode elements can be precisely positioned and formed on a substrate by using a manufacturing technique such as photolithography and etching, so that a large number of cold cathode elements can be arranged at minute intervals. Moreover, conventional CRT As compared with the hot cathode used in such a method, the cathode itself and the peripheral portion can be driven at a relatively low temperature, so that a multi-electron source having a finer arrangement pitch can be easily realized.

The configuration and manufacturing method of the surface conduction electron-emitting device are described in detail in Japanese Patent Application Laid-Open No. Hei by the present applicant, and the description is omitted here. As can be seen from FIG. At a higher voltage, the emission current Ie flows according to the applied driving voltage Vf. The following simple matrix drive was performed using this characteristic. I have. The matrix image display panel 1 has, for example, an RGB stripe pixel arrangement.

Is converted to a digital RGB signal S1. Is output. As the conversion table, for example, a table that performs inverse conversion of a signal gamma-corrected for CRT as a characteristic of a display system is preferable. Of the column wiring 10 02 is driven. The above-described luminance data S11 in FIG. The scanning signal generator 81 sequentially shifts the YST signal synchronized with the vertical synchronizing signal by the signal HD synchronized with the horizontal synchronizing signal, and outputs the signal in parallel according to the number of row wirings.

Is converted into a digital RGB signal S1 having an 8-bit width, for example. Enter 1. At this time, if the number of data in one scanning line 1H is determined by the number of pixels on the column wiring side of the matrix image display panel 1, the processing is simplified. In the case of this embodiment, The number of pixels on the column wiring side of the matrix image display panel 1 is 16 I decided to 0.

As shown in FIG. The luminance data converter 4 converts the 8-bit width output signal S2 of the data rearranging unit 3 into, for example, a display system characteristic by a conversion table ROM not shown in which desired data is stored in advance.

The luminance data is converted into luminance data S3 having a 9-bit width such that luminance characteristics are equivalent to gamma characteristics of a CRT. The luminance data corresponding to each element of the matrix image display panel 1 is serial-parallel converted and output. Holds and outputs data until is input. The row wiring is driven by sequentially transferring in synchronization with D. Then, the row wirings are sequentially scanned to form an image.

NTSC signal 1 The field is treated as one frame in the matrix image display panel 1. That is, the matrix image display panel 1 Was driven as an image signal having a frame frequency of 60 Hz and scanning lines.

Therefore, for PCLK, the longest drive pulse width is selected for the time slot , so that the number of pulses of PCLK is 2 A frequency was selected such that the frequency was about At this time, the scanning driver 8 drives the voltage of the other unselected row wiring to the non-selection potential 0V. In other words, the selection time row wiring selection time must be always longer than or equal to the longest drive pulse width time slot 1 to in order to form an image. On the other hand, the element corresponding to the column wiring for which the drive signal S17 is not output the switch is not closed does not flow the element current If, and thus does not emit the emission current Ie, and thus does not emit light.

Then, the scanning driver 8 sequentially switches the 1st to th row wirings in synchronization with the horizontal synchronization signal HD to the selection potential -V. The driving is sequentially performed by ss, and the driving circuit 7 is driven on the corresponding row wiring by the driving signal S17 corresponding to the luminance data at the voltages V1 and V2 to form an image.

The relationship between the luminance and the emission current Ie is almost proportional, and the relationship between the emission currents Ie1 and Ie2 in FIG. Emission current I corresponding to wiring voltages V1 and V2 The voltages V1 and V2 were determined so that the ratio of e1 and Ie2 was 1: 4. The emission current Ie1 is set to 0. Well done. In the first embodiment, the driving method of performing pulse width modulation using the voltages V1 and V2 has been described.

In the present embodiment, a driving method using more voltage power supplies will be described. In the following, referring to FIG. A driving circuit for driving the cold cathode element connected to the selected row wiring and column wiring will be described. Needless to say, a driving circuit similar to that shown in FIG. A counter for counting upon receipt of the 2, , a decoder , and a constant register , OR circuits and , and AND circuits and 2 09, and switches , , , and Then, the lower 8 bits D0 to D7 of the luminance data S31 are compared with the comparator The upper two bits D8, D9 are input to the decoder and the OR circuit In the present embodiment, an example has been described in which the luminance data S31 is 10 bits.

Mar Biotechnol,, Conservation of the drought-inducible DS2 genes and divergences from their ASR paralogues insolanaceous species. Expression patterns and pro-moter activity of the cold-regulated gene ci21A of potato. Plant MolecularBiology,, Improvement ofdrought tolerance in maize:towards the functional validation of theZm-Asr1 gene and increase of water use efficiency by over-express-ing C4-PEPC. Biochimie,,84 11 Molecular ecologyand selection in the drought-related Asr gene polymorphisms inwild and cultivated common bean Phaseolus vulgaris L.

Lily ASR protein-conferred coldand freezing resistance in Arabidopsis. Plant Physiology and Bio-chemistry,, Proteomic analysis of theeffects of ABA treatments on ripening Vitis vinifera berries. Molecular biology of fruit maturation and ripening. FEBS Letters,, Senescence in fruits. Hort Science,, Isolation of cDNA clones corre-sponding to genes expressed during fruit ripening in Japanese pear Pyrus pyrifolia Nakai :involvement of the ethylene signal trans-duction pathway in their expression.

Journal of Experimental Boto-ny,, The relationship between theexpression of abscisic acid biosynthesis genes,accumulation of ab-scisic acid and the promotion of Vitis vinifera L. Aus J Grape Wine Res,, A baroclinic typhoon model with a moving multi-nested grid and variational adjustment initialization II. Forecast experiments [J]. Acta Oceanologica Sinica, ,20 5 The effects of mesoscale air-sea interaction heavy rain in two typhoon processes [J].

Acta Meteorologica Sinica, , 63 4 The impact of air-sea interactions on typhoon structure [J]. Journal of Tropical Meteorology, , 26 1 Meteorological Science and Technology,,37 3 The influence of the thermal effect of underlying surface on the spring sea fog over the Yellow Sea: Observations and numerical simulations [J]. Acta Meteorologica Sinica,,68 4 Periodical of Ocean University of China,,40 10 A case study of forecasting thunderstorm in the weakly forced system with WRF model [J].

Scientia Meteorologica Sinica,,29 3 Acta Meteorologica Sinica,,61 6 Contrasting analysis simulation of a Meiyu-Front storm rainfall process [J]. Scientia Meteorologica Sinica,,25 6 Comparative analysis of heavy rainfall simulations with two mesoscale models in Liaoning province [J]. Meteorological Science and Technology,,34 4 Prediction capability analysis of limited-area numeric models on Sichuan heavy rainstorm process in Sichuan [J].

Plateau and Mountain Meteorology Research,,30 4 Marine Forecasts,,24 2 Jilin Metorology,, 4 , Journal of Meteorology and Environment, ,23 6 Present situation and prospects of ensemble numerical prediction [J]. Journal of Applied Meteorological Science, ,13 1 Research of Environmental Sciences, ,22 12 :1 Fully coupled "online" chemistry within the WRF model [J].

Atmospheric Environment, , Application of land surface data assimilation into the simulation of soil moisture and temperature of croplands in oasis [J]. Assist Bonus Stat. Applicable Killer Latents. Stats Comparison. Evolution Chart. Egyptian God 1 Series. Drop Locations for Stats Growth Chart.

A CoC P. Lucia D. Nero D. II Dark Golem Mk. Bison M. II Machine Golem Mk. Kuchinawa's Totem Mr. Satan Mr. Monster Strength. Rating: 8. Rate this monster. Tell us what you think about this card. Sort: Newest Oldest Highest rated.

By ReEvoWeebo 4 years ago By Ch1ck3nb0y 6 years ago 8. Anubis, I'm gonna need you to come in and make sure to match 8 or more combos. Oh and if you could also make sure to put those cover orbs on the TPA reports that would be greeeat. Last edited by Ch1ck3nb0y 6 years ago 8. By ZHA 6 years ago 8. By SolaceKane 6 years ago 7.

Can't wait to see what this guys awoken version will look like! By Buttmunchr 6 years ago 7. By A Wet Cow 6 years ago 7. I mean, 8 combos is much easier to nail, I feel.

Also, this version is a lot cheaper to ult evo, combo that with the fact that it's easier to activate, and still has an insane damage capacity, I feel like you can't go wrong. By Pikagami 6 years ago 7. When I got my Anubis, I chose this version because my team wasn't strong enough to farm the Twinlits. Since then, I've had some impressive victories and stunning defeats in tricolor dungeons. By Alex 6 years ago 7. By redbull 6 years ago 7.

Ok,I just noticed for the third time and who knows how many times more it happened but after use my "super combo" lol.

I use ronia to change orbs,awoken Hera to enhance the purple-red orbs,king baddie And yoni extra time I make my 10 combo.. I get none dark orbs wtf!

It is just me or you guys have the same thin-experience-problem? It seems to me that everything can be one-shotted, provided you have the skill of course. Firecat 7 years ago 7. Lol no. Almost nothing in this game lives through an x An x? Each member of your team is hitting for at least 1 million and in most cases closer to 2. Last edited by Firecat 7 years ago 7. By Dr.

  Experience

Transform the data. Similarly, , and 2 At and , FIG. Data acquisition and data conversion are performed so that the display screen shown in FIG. Therefore, when the device is used as a power source, for example, the device cannot be used. There are advantages that are possible. Attachment and separation can be performed in a plurality of directions, so that the use direction of the device may be detected based on the connection state between the main body and the slave unit.

The external appearance of the main body is a substantially rectangular parallelepiped, and includes a resin upper case , a middle case , and a lower case Upper case 80 A substantially rectangular opening is provided in the center of the unit 1, and a digitizer as an input surface is provided in the opening. An LCD is provided below the digitizer On the side surface formed by the middle case , a holder of an input pen , a main switch , and a contrast adjustment knob 80 of the LCD described later are provided.

In addition, when the main body is viewed vertically, on the back side surface and the left side surface, oval and concave guide portions a to d FIG. Are provided at two locations. Further, a connector for the input pen is provided near the center of the right side portion.

In this embodiment, the connector is covered by the holder and cannot be seen in appearance. Further, the input pen and the connector are connected by a cord , and the cord is configured to be able to be wound around a gap provided between the side surface of the main body and the holder L in the middle case A CD and a digitizer are overlapped and fixed, and a printed board on which a CPU, a memory, an LCD controller, a digitizer control unit, a power supply circuit, and the like are mounted is fixed below the LCD Also, The upper case and the middle case , and the lower case and the middle case are fixed with screws or elastic hooks fixed with patches.

Furthermore, two concave portions , which are a part of the joining means, are provided on the bottom surface composed of the lower case The convex part 90 The height of 3a to 3d is lower than the height of the rubber feet a to d. Two concave portions 1 and , openings a and a are provided in a part of one of the four side surfaces. Inside the openings a and a, leaf springs a and b are provided, respectively. Two electrode pins are provided in the opening a, respectively.

An electrode composed of 1a and b is provided. The appearance of the slave unit is such that an elongated substantially rectangular parallelepiped convex portion a is arranged on one side of the upper surface of the substantially rectangular parallelepiped, and the left and right sides are substantially L-shaped.

The upper case and the lower case 13 are made of resin and made of resin. At this time, the width of the main body length in the transverse direction And the slave units have substantially the same width. The upper surface b composed of the upper case the protrusion a , the hook portion 13 which is a part of the attachment means 03, a locking knob , and a plurality of windows a to g for the optical communication unit are provided so as to be orthogonal to the depth direction and the left and right direction.

The locking knob is urged upward by a spring not shown , and moves down to substantially the same plane as the upper surface b when a predetermined force is applied. On an upper surface of the convex portion a, a release button , which is a part of a separating device for separating the main body and the individual machine, A plurality of LEDs a and b, which are indicators for operation and the like, are provided.

When the release button is manually pushed down, the locking knob is moved downward by a built-in rotation and slide mechanism not shown. Also, guide pins are provided on the left and right sides a and b, one of the guide pins An operation pin for an attachment detection switch described later is provided near a.

The upper case 01 has a CP Printed circuit board 1 mounted with U, memory, optical communication means, etc. Inside the hook portion are two electrode pins urged in the axial direction by a spring. An electrode having a and b is provided. First, the joining operation and means will be described.

First, FIG. The positional relationship and state between the main unit and the child device at the time of completion of the attachment shown in FIG. When the joining is completed, the slave unit is located on the lower side and the back side of the main body. The lateral width of the main body and the width of the slave unit are almost the same in the left-right direction without deviation. Also, there is a predetermined gap between the back side surface of the main body and the inner side surface of the convex portion a of the slave unit.

At this time, the guide pins a and b of the slave unit are inserted into the two guide portions a and b on the rear side surface of the main body, respectively. Also, a hook portion of the slave unit is located in one concave portion on the bottom surface of the main body, and a part of the hook portion is inserted into the opening a.

Further, any one of the plurality of protrusions a to d on the bottom surface of the main body is in contact with the upper surface b of the upper case of the child device. As described above, the main body and the slave unit are joined together with extremely little play in the vertical direction thickness direction.

Further, the opening 10 in the recess on the bottom surface of the main body. A surface not shown of the inside portion 01a abuts on the tip of the hook portion of the slave unit, and one R-shaped side surface of the guide portion a abuts a side surface of the guide pin a.

The right side surface of the locking knob of the slave unit is located within the concave portion on the bottom surface of the main unit with a predetermined gap between the right side surface of the concave unit and the main unit and the slave unit are extremely few in the left-right direction. They are joined together with play. Further, in the union state, the operation pin of the slave unit is pushed in by the rear side surface of the main body, and the union detection switch operates.

In addition, the positions of the windows a to d for optical communication in the depth direction of the main unit bottom face and the slave unit substantially coincide with each other.

Furthermore, the electrode of the main body 1a and 1b are brought into contact with the electrodes a and b of the slave unit by a predetermined spring pressure, and are electrically connected. First, as shown in FIG. At this time, as shown in FIG. That is, the slave unit is located on the right side by a predetermined distance when viewed from the main body.

In addition, the rear side surface of the main body and the inner side surface of the convex portion a of the child device are located at a predetermined distance.

Of course, the guide pins a and b are a, b are not inserted. At this time, the hook unit of the slave unit is located in the recess on the bottom surface of the main unit. Next, as shown in FIG. At this time, the guide pin 13 08a and 08b are inserted into the guide portions a and b. The operation pin is connected to the guide a. At this time, a surface not shown in the opening a in the concave portion on the bottom surface of the main body abuts on the tip of the hook portion of the slave unit, and one R-shaped side surface of the guide portion a and the guide pin a The main body and the slave unit are positioned in the left-right direction by contact with the side surfaces of the main unit.

Further, by this operation, the hook is inserted into the opening a of the recess Further, this operation allows the locking knob Numeral 4 is once pushed downward by the bottom surface of the main body, becomes free at the position of the concave portion , and is urged upward.

By pushing down the release button of the convex portion a of the slave unit, the locking knob is moved downward, and in this state, the main body and the slave unit are relatively moved in the left and right direction opposite to that at the time of joining. Thereafter, the guide pins are moved from the guide portions a and b. The separating operation is completed by moving the main body and the slave unit in the depth direction so as to remove a and b. In the attachment, the left side surface of the main body in the portrait orientation the back side surface in the portrait orientation corresponds to the back side surface of the main body in the attachment in the portrait orientation.

Then, in the attachment completed state, the rear side surface of the main body in the portrait orientation the right side surface in the landscape orientation is substantially flush with the right side surface of the slave unit.

In the attachment, the guide portions a, b and the guide pins a, b, the positional relationship, the state, and the joining operation between the concave portion of the main body and the hook portion of the slave unit are the same as those in the case of the portrait orientation. That is, the guides a and a of the main body and the recess that function in the vertical orientation when viewed from the vertex on the right rear side of the main body in the vertical orientation 1 and a guide part 1 which functions when the landscape is viewed from the vertex on the right rear side of the main body when it is horizontally long the vertex on the left rear side of the main body when it is vertically long.

The positions of c, d, recess , etc. At the time of the attachment, windows a to d for optical communication on the bottom surface of the main unit and windows d in the left and right direction of the slave unit.

To g substantially coincide with each other. The upper window d can be shared vertically and horizontally. Further, when the main body and the slave unit are placed on a horizontal surface such as a desk in the jointed state, the input surface is set to have a predetermined angle as in the case of the joint in a vertically long state.

In addition, the separation operation at the time of landscape is similar to the operation at the time of portrait, The operation is completed by pressing the release button of the slave unit and moving the locking knob downward to make a predetermined movement. Can be used as a large guide. This will be described with reference to FIG. Also, the memory is a CPU Is stored. Input is performed by a pen 15 on a digitizer 16 as if it were written on paper, and its trajectory and results are displayed on an LCD liquid crystal The LCD 19 and the digitizer 16 are overlapped so that the input position and the output position are regarded as the same, and the input accuracy of the digitizer 16 is, for example, 0.

The backlight 21 is a light-emitting body disposed on the back of the LCD 19 so that the LCD 19 can be viewed in a room or in a dark area, and includes a method such as EL electroluminescence and CFL cold cathode tube. The backlight inverter 20 is a driver for driving these light emitters.

The card controller 22 is a control controller for performing control such as address change for writing or reading data from the CPU on the card. Send and receive data from devices such as Floppy Centro. The B channel directly exchanges information via a slave unit in network communication such as local talk. The CPU 10 determines whether the hook unit of the slave unit presses the switch of the main unit through a circuit diagram as shown in FIG.

Tell them if they are coalescing or separating. The figure shows only one channel. The electrode of the slave unit and the electrode 35 of the main body are in contact with each other to supply power. Further, the data of the FDD keyboard is sent to the main unit via the communication controller In this embodiment, the signal of the main unit B channel is directly sent to the network. The joint detection means is the same as that described above.

When the joint is detected, the switch is closed, and at the time of joint, the electrode that makes contact with the main unit and the slave unit is energized. First, when the main unit and the slave unit are joined, the CP Interrupt U If coalescence is confirmed, the optical communication plane is turned on at Wait in se. Then, the communication controller 24 is initialized at , and the communication flag is turned on at Then, the interrupt routine ends.

Normal communication is called at regular time intervals only when the communication flag is ON, and polling or selecting is performed in response to a necessary event. First, at , the coalescence detection SW is confirmed.

When confirmed, the communication routine is entered at In the ear thermometer according to the present embodiment, a thermocouple type thermopile type detection element is used as the infrared detection element For this reason, as shown in FIG. The range H surrounded by the hot junction a is painted black to make it easier to absorb infrared rays. Under such a configuration, the infrared detection element detects the relative temperature based on the electromotive force generated between the contacts.

Note that details of this calculation processing are described in detail in, for example, Japanese Patent Application Laid-Open No. The Similarly to the mounting base member , the container member is also formed of a good heat conductor such as an aluminum material or a stainless steel material, so that the outside air temperature is easily transmitted to the thermistor A window member made of a ceramic material that transmits infrared rays is fixed to the hole It will be held on the inner wall of the part Note that the detection element housing is fixed to the inner wall of the probe unit at three points by a mounting member not shown.

This is to prevent heat from the outer skin from being transmitted to the detection element housing The light projector a and the light receiver b are arranged at a position farther from the tip than the detection element storage body arranged at the tip of the probe unit The projector a includes an LED that generates near-infrared light, and irradiates the near-infrared light to the outside through the tip of the probe unit from between the inner wall of the probe unit and the detection element housing The light receiver b includes a phototransistor or a photodiode, and receives reflected light near infrared light emitted from the light projector a that is incident between the inner wall of the probe unit and the detection element housing through the tip of the probe unit Reflected light is provided.

The control unit determines whether or not the probe unit has correctly captured the ear hole based on the detection intensity of the reflected light in the light receiver b details will be described later. It has been. I have to. As described above, the detection element housing is preferably fixed to the inner wall of the probe unit at three points so that heat of the outer skin is not transmitted through the probe unit However, the wall member may also function as a part of a fixing member that fixes the detection element housing inside the probe unit For example, if the detection element housing is supported by the wall member , the structure inside the probe unit can be simplified.

It is not limited to this. Further, the length of the wall member in the axial direction of the probe unit is not limited to the illustration.

For example, the space in the probe unit is divided into four parts, a projector is disposed in one space, a light receiver is disposed in a space facing the one space, and the light projector and the light receiver are not adjacent to each other. It may be present. Functional Configuration of Ear Thermometer Next , the functional configuration of the ear thermometer will be described with reference to FIG. Of the components or components shown in FIG. The detection unit detects the resistance change of the thermistor as a voltage change, and generates an electrical signal indicating the temperature around the thermistor The infrared detection element that detects infrared IR is connected to the amplifying unit on the mounting substrate via the electrode lead The amplification unit amplifies the detection signal from the infrared detection element The pressure sensitive elements a to d are connected to the detection unit The detection unit detects a resistance change in the pressure sensitive elements a to d as a voltage change, and generates an electric signal.

Further, the projector a is driven to be lit by the drive unit according to a signal from the control unit The light generated from the projector a is received by the light receiver b. The light receiver b generates an electrical signal corresponding to the intensity of the received light.

The detected temperature detected by the thermistor , the detected temperature detected by the infrared detecting element , and the like. Based on the above, the body temperature of the subject is calculated. The control unit determines whether or not to start measurement based on the detection signals from the pressure sensitive elements a to d and the reflected light intensity signal from the light receiver b, and automatically determines body temperature when it is determined that measurement is started.

The display unit displays the body temperature of the subject calculated by the control unit The LED element lights red when the power is turned on, lights green when the body temperature measurement is started, and lights red again when the measurement of the body temperature of the subject is completed.

The speaker is used when the measurement of the body temperature of the subject is completed, when the resistance changes of the four pressure-sensitive elements a to d are not the same, or when the light amount of the light receiver b is larger than a specified value.

When the signal detected by the pressure sensitive element and the light receiver does not satisfy the body temperature measurement start condition, a sound is output. Note that the control unit is configured to operate by receiving power supply from the button battery power supply unit when the power switch is pressed.

Flow of Body Temperature Measurement Process Next, the flow of the body temperature measurement process in the ear thermometer will be described. Next, in step S, the control unit checks whether each of the pressure sensitive elements a to d is in uniform contact with an external object.

That is, as described above, in the present embodiment, pressure-sensitive rubber is used as the pressure-sensitive elements a to d, so that the control unit has a predetermined threshold value or more with respect to the resistance value when there is no pressure.

If there is a change in resistance, it is determined that there is contact, and if the change in resistance is less than a threshold value, it is determined that there is no contact. In step S, it is detected whether or not a resistance change has occurred in all of the pressure sensitive elements by a certain value or more. However, the present invention is not limited to this. When the resistance change in the four pressure sensitive elements a to d falls within a predetermined range, it may be determined that each of the pressure sensitive elements a to d is in uniform contact with an external object.

In other cases, the process returns from step S to step S In step S, the control unit acquires a reflected light intensity signal from the light receiver b, and detects the reflected light intensity. In step S, the control unit compares the reflected light intensity with a predetermined value. If the reflected light intensity is less than the predetermined value, the control unit determines that the probe unit is capturing the ear hole, and advances the process from step S to step S Otherwise if the reflected light intensity is greater than or equal to a predetermined value , the process returns from step S to step S In the flowchart of FIG.

Detection of signals from the pressure sensitive elements a to b and detection of signals from the light receiver b may be performed in parallel. Further, as described above, when the resistance changes of the four pressure sensitive elements a to d are not the same, or when the light amount of the light receiver b is larger than the specified value, the sound is output from the speaker as described above. Guidance may be provided. That is, the control unit acquires detected temperatures detected by the thermistor and the infrared detecting element , and calculates the body temperature of the subject based on the acquired detected temperatures.

At this time, the control unit lights the LED element in green in order to notify that the subject's body temperature measurement is being performed. At this time, the near-infrared light emission by the projector a may be stopped.

In step S, the control unit displays the calculated body temperature of the subject on the display unit At this time, the LED element is lit in red in order to notify the controller that the process of calculating the body temperature of the subject has been completed.

Also, sound is output from the speaker , and the body temperature measurement process is terminated. For example, a state such as 9A in FIG. The intensity of light becomes smaller than a predetermined value. Therefore, YES is determined in steps S and S, and body temperature measurement is automatically started.

If the diameter of the ear canal of the subject is small like an infant, the probe unit does not enter the ear canal, but the pressure sensitive elements a to d are arranged so as to extend from the end surface of the probe unit to the side surface. Even when the probe unit does not enter the ear canal, it can be detected that the probe unit is appropriately pressed around the ear canal by pressing the end face.

In this state, contact is detected by all of the pressure sensitive elements a to d, but since the light receiver b receives reflected light from the surface of the ear canal, the intensity of the reflected light detected by the light receiver b is a predetermined value. That's it. Therefore, it is determined as NO in S, and body temperature measurement is not started. In 9C, a part of the tip of the probe unit is out of the ear canal, and there are elements that cannot detect contact among the pressure sensitive elements a to d.

For example, the end surface of the probe unit hits the auricle or the like, and the contact is detected by all of the pressure sensitive elements a to d. In this case, since the light receiver b detects the reflected light from the surface of the auricle, the reflected light intensity detected by the light receiver b is equal to or higher than a predetermined value as in 9B of FIG.

Accordingly, NO is determined in step S, and the body temperature measurement is not started. Body temperature measurement is started at the time of detection. For this reason, the user is released from the troublesome operation of pressing the measurement start switch from the state in which the probe unit is correctly oriented toward the ear canal, and can easily perform the correct measurement using the ear thermometer. In addition, when the measurement start button for starting body temperature measurement must be operated after placing the probe in the ear canal, the measurement starts even if the probe is placed at the correct position immediately before the measurement start button is operated.

The operation of the button may cause a deviation in the arrangement of the ear thermometer and cause a measurement error. However, according to the above embodiment, such a problem is solved. You may control so that it may be in a state. In this case, a measurement start button not shown is mounted on the ear thermometer For example, a measurement start button may be provided on the surface of the ear thermometer so as to be pressed at the tip of the finger.

In this case, there is a possibility that movement of the probe part causing measurement errors may occur due to the measurement start operation. However, since the measurement start operation is accepted only when the positional relationship between the probe part and the ear hole is appropriate, the correct measurement is performed. Will be able to.

Is preferred. The measuring person of the ear thermometer has a structure in which finger fixing walls regulating members are provided on the surfaces and on which the measuring person's finger contacts at the time of wearing so as to define the position of the measuring person's finger at the time of wearing.

As a result of realizing stable wearing on the finger, the measurer can use both hands when measuring the body temperature of the subject.

During insertion, the position of the tip of the probe unit can be finely adjusted by the movement of the measurer's finger, and the operability is very good. The sensation of touching the ear hole can be sensed with a fingertip by the measurer. There is no need to do. Therefore, the influence on the arrangement state of the ear thermometer due to the operation of the measurement switch can be eliminated, and the body temperature measurement is performed in a state where the ear thermometer is appropriately maintained with respect to the ear hole.

This makes it possible to measure the body temperature more reliably and accurately. However, the present invention is not limited to this, and the probe portion protrudes obliquely with respect to the probe support portion You may comprise.

In the above description, the surface of the probe support portion and the surface of the fixing portion are flat surfaces. However, the present invention is not limited to this and may be formed by a curved surface with a recessed center. In this case, it matches the shape of the finger, and the stability when wearing the ear thermometer is further improved. For example, it is apparent that the present invention can be applied to the configuration of the probe unit of a general ear thermometer 'as shown in FIG.

In that case, as shown in FIG. It may be a configuration. Here, the probe unit and the light guide are arranged concentrically. In the case of such a configuration having the light guide , the projector a and the light receiver b are disposed in a space between the outer wall of the light guide and the inner wall of the probe unit Preferably, a wall connecting the inner wall of the probe unit and the outer wall of the light guide so as to prevent direct light from the projector a or reflected light generated in the probe unit from reaching the light receiver b.

A member is provided. The wall member divides the space between the light guide and the probe unit into two parts, and a projector a and a light receiver b are respectively disposed.