| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 建設機械 | JP2015002164 | 2015-01-08 | JP2016125462A | 2016-07-11 | 三嶋 賢 |
| 【課題】作業者が尿素水タンクに尿素水を給水している際に尿素水タンク内の尿素水量が所定量を超えたことを容易に確認することができる建設機械を提供する。 【解決手段】建設機械は、尿素水を貯留する尿素水タンク32と、尿素水タンク32内の尿素水量を検出する尿素水量検出手段32bと、尿素水タンク32に尿素水を給水する作業者に警告を発する警告手段と、尿素水量検出手段32b及び該警告手段に接続されたコントローラ36とを備えている。コントローラ36は尿素水タンク32内の尿素水量が所定量を超えたことが尿素水量検出手段32bによって検出されると該警告手段を作動させる。該警告手段は、発光手段又は/及び警音を発する警音手段から構成されている。 【選択図】図4 |
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| 22 | JPH0358647B2 - | JP24282884 | 1984-11-16 | JPH0358647B2 | 1991-09-06 | MORI KEIICHI; IMAI HIROHISA |
| 23 | Cartridge type oil tank | JP24282884 | 1984-11-16 | JPS61120018A | 1986-06-07 | MORI KEIICHI; IMAI HIROHISA |
| PURPOSE:To feed oil stably by forming a small hole where a device generating a sound of the flow of air is fitted to the flank of a cylinder which is freely slidable while inscribed in an oil feed port and open at both ends. CONSTITUTION:When the oil is below a cylinder base 11, the oil is fed from the oil feed port 2 as well as normal oil feeding and air flows out the cylinder base 11, the cylinder 5 is floated by a float 9 and a stopper 6 abuts on the oil feed port 2 to seal an oil chamber A with a seal material 10. When the oil is further fed continuously, the air flows out of the cylinder 5 through the small hole 8 from a sounding device 7 as shown by a dotted-line arrow by the increment of the oil in the oil chamber A and the sounding device 7 operates at this time to generate the sound, indicating that the chamber is nearly filled with the oil. | ||||||
| 24 | Fuel residual quantity reporting method for car | JP2791782 | 1982-02-22 | JPS58143220A | 1983-08-25 | ITOU YOUJI; INOUE YOUZOU; FUKATSU KATSUO; MIURA ETSUJI |
| PURPOSE:To get rid of an unnecessary voice report in case when fuel is supplied, and to appropriately recognize the residual quantity of fuel, by reporting a residual quantity value in a voice when the residual quantity of fuel is reduced and reaches one of the step levels, and not reporting in a voice when it is increased. CONSTITUTION:A microcomputer 3 is operated by regulated voltage, and starts its operation processing from a start step 100. In steps 102-108, the flag is initialized, a fuel data L is inputted through an A/D converter 2 from a fuel sensor 1, and when a value of the data L is >=20l, decision of the step 103 becomes YES, the processing proceeds to the step 104, all flags of 20l, 10l and 5l are set, and when the data L is >=10l or <=20l, decision of the step 103 becomes NO, decision of the step 105 becomes YES, the processing proceeds to the step 106, and each flag of 10l and 5l is set. After setting the flags, the processing proceeds to the step 109, the data L is inputted, the processing proceeds to a voice generating routine 200, the operation processing of generation of a voice is executed, the processing proceeds to the step 110, a display level is selected, and the residual quantity of fuel is displayed by a bar graph on an indicator 6. | ||||||
| 25 | Low water level alarm device for wetting device | JP989381 | 1981-01-26 | JPS57124214A | 1982-08-03 | KODAMA NAOHIRO |
| PURPOSE:To make the hearing checking of low water levels possible by providing a cap following up the fluctuations of the water level to the bottom end of a pipe of a bubbling device suspended in a vessel body, and producing oscillating sounds by the effect of a releasing gas at the threshold low water level. CONSTITUTION:A cap following up the fluctuations of a water level is mounted onto a pipe of a wetting device which is so formed as to release gaseous oxygen or the like into water through the bottom end part of the said pipe of a bubbling device suspended in a vessel body, and is so arranged that it is oscillated by the effect of said gas at the threshold low water level thereby colliding against an associated member and producing oscillating sounds. For example, a cap material 7 having a doughnut-like floating part 10 is beforehand mounted onto the circumference at the bottom end of a pipe 4 of a bubbling device, and when the water level (a) arrives at the low threshold (b), the shoulder part 8a of the pipe and the opening edge 9a of the cap contact, and at every accumulation of a constant amt. of the gas in the cap 7b, the cap is forced up to release the gas, and by the oscillating sounds produced at this time the arrival of the water level at the low threshold is checked by hearing sensation. | ||||||
| 26 | Sound-generating method utilizing difference in pressure between inside and outside of flow pipe, informing device for level and quantity of liquid and method for making affluent in short section flow at outlet where size of pipe changes from small to large | JP16926980 | 1980-12-01 | JPS5793213A | 1982-06-10 | KAMIMURA JIYUICHI |
| PURPOSE:To enable detection of the level and quantity of liquid by changing the inside diameter of a flow pipe, by causing thereby the change in pressure in the pipe and by generating a sound from an air flow caused by the differnce in pressure. CONSTITUTION:The pessure in a small pipe part 2 lowers when fluid 1 passes affluently through a pipe having a changed inside diameter. When an air path 3 is provided to communicate with the outside air 5 at this part, the outside air 5 enters therethrough, whereby a sound is generated by a sound source 4 fitted to the intermediate part of the path. When liquid is supplied from a pipe having an outlet 6 with larger diameter than that of the small pipe part 2, the sound is not generated until the level of the liquid reaches the outlet 6. And when the outlet 6 is placed in a state that the flow is affluent by the further rise of the level, the pressure in the small pipe part 2 falls and thereby the sound is generated. Moreover, by increasing or decreasing gradually the diameter of the pipe between the small pipe part 2 and the outlet 6 through the intermediary of a large pipe part 10' and the second small pipe part 2', the inside of the pipe is made affluent with flow in a short section, whereby the flow is changed smoothly. By this constitution, the level of the liquid is detected simply and the turbulence at a part having difference diameter is prevented. | ||||||
| 27 | Washer liquid spraying device | JP2006101319 | 2006-04-03 | JP2007045392A | 2007-02-22 | YAMAGUCHI KAZUYUKI |
| <P>PROBLEM TO BE SOLVED: To provide a washer liquid spraying device capable of changing spraying condition of the washer liquid in response to residual quantity of the washer liquid at low costs. <P>SOLUTION: An window washer device for pumping up the washer liquid W inside a tank 1 and spraying the washer liquid W from a washer nozzle 4 is provided with a spraying amount limiting means 5 for automatically reducing spraying amount when the residual amount of the washer W inside the tank is less than a set value in comparison with a case wherein the residual amount in the tank is larger than the set value so as to inform a driver. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 28 | Apparatus and method for discharging chemical liquid | JP2003304039 | 2003-08-28 | JP2004093566A | 2004-03-25 | RAMEAU GUILLAUME; MENGOLLI PASCAL |
| <P>PROBLEM TO BE SOLVED: To provide a simple, inexpensive and reliable solution for determining the quantity of a liquid chemical product remaining in a container. <P>SOLUTION: The method is a method for measuring the quantity of a chemical liquid 26 remaining in a container 10. The container is connected to a means for making the chemical liquid flow from the container to a used location or the other container 24. Weight P<SB>i</SB>of the liquid in the container is measured at time t<SB>i</SB>(i is variable from 0 to n). The measurement is repeated at a time t<SB>i+1</SB>, a time t<SB>i+2</SB>and a time t<SB>n</SB>(n is an integer larger than 3). A weight change ΔP<SB>i</SB>=P<SB>i</SB>-P<SB>i+1</SB>between the time t<SB>i</SB>, t<SB>i+1</SB>is measured for Δt=t<SB>i-1</SB>-t<SB>i</SB>. When ΔP<SB>i</SB>becomes smaller than a preset fraction F of weight of the container and/or initial weight of the liquid accommodated in the container, a signal S which seems to express that the container becomes empty, is generated. <P>COPYRIGHT: (C)2004,JPO | ||||||
| 29 | JPH0461286B2 - | JP23059082 | 1982-12-27 | JPH0461286B2 | 1992-09-30 | OKAMOTO AKIRA; HATAKEYAMA YASUYUKI; KOBAYASHI TAKEHIRO; NAGATA MASAYUKI; TAKEUCHI TOSHIO |
| 30 | JPH0358648B2 - | JP24282984 | 1984-11-16 | JPH0358648B2 | 1991-09-06 | MORI KEIICHI; IMAI HIROHISA |
| 31 | Yokinoekiryohochisochi | JP19842482 | 1982-11-11 | JPH0246091B2 | 1990-10-12 | TSUJII HIROAKI; TAKAHASHI YOSHINORI; YONEDA MASAKATSU; FUJAMA MAMORU |
| 32 | Water level alarm apparatus for bath tub | JP23059082 | 1982-12-27 | JPS59120815A | 1984-07-12 | OKAMOTO AKIRA; HATAKEYAMA YASUYUKI; KOBAYASHI TAKEHIRO; NAGATA MASAYUKI; TAKEUCHI TOSHIO |
| PURPOSE:To prevent the generation of an electric shock accident and erroneous information by securing an electronical insulating state, by using a large capacity condenser charged by a commercial power source as a power source. CONSTITUTION:A power source circuit 4 charges a large capacity condenser C48 while rectifying a commercial power source 41 and voltage between terminals of C48 is applied to a water detecting circuit 5 by closing switch 78 to enable water level detecting operation. When the water level in a bath tub is low, a sensor 32 is not immersed in water and, therefore, LED25 is held under a lights-out state while a buzzer 26 is held under a non-driving state. When the sensor 32 is immersed in water, LED25 is lighted by the output of a photo- coupler 68 and the buzzer 26 is driven. Therefore, when the water level in the bath tub reaches a predetermined value, visual and audio information is performed. | ||||||
| 33 | Reporting device of quantity of liquid in vessel | JP19842482 | 1982-11-11 | JPS5987323A | 1984-05-19 | TSUJII HIROAKI; TAKAHASHI YOSHINORI; YONEDA MASAKATSU; FUJIYAMA MAMORU |
| PURPOSE:To improve the confirmation which is not affected by circumstance, by detecting the liquid level to report a corresponding quanitity of liquid by voice. CONSTITUTION:When a vessel is full of the liquid, a high-level signal is inputted to address input terminals A3-A0 of a voice synthesizing integrated circuit 5, and a voice output word is selected and designated by this signal. When the liquid level exists between electrodes 1b and 1c, a low-level signal is inputted to input terminals D1 and D2, and consequently, outputs of output terminals Q1 and Q2 is reduced to low-level and are inputted together with high-level outputs of output terminals Q3 and Q4 to terminals A3-A0, and a voice output word is selected and designated. Thus, words ''Full'', ''Sufficient'', ''About half'', ''Little, Please supply'', ''Empty'', etc. are voiced in accordance with the quantity of the liquid to report the quantity of the liquid. | ||||||
| 34 | LIQUID MEASUREMENT SYSTEMS, APPARATUS, AND METHODS OPTIMIZED WITH TEMPERATURE SENSING | EP15826907 | 2015-08-03 | EP3175226A4 | 2018-04-11 | WHITE JAMES; WHALLEY RICHARD; SIHLANICK KEVIN; LEGRAND MATTHEW |
| An apparatus for measuring liquid volume in a container includes a plurality of light sources for emitting electromagnetic radiation (EMR) toward the container, a plurality of sensors optically coupleable to the plurality of light sources, each sensor of the plurality of sensors for detecting the EMR emitted by at least a portion of the plurality of light sources, a temperature sensor for measuring at least one temperature associated with a liquid in the container, and at least one processor for receiving data representative of the portion of the detected EMR from each of the plurality of sensors, comparing the at least one measured temperature to a temperature guideline to identify any temperature events associated with the received data; normalizing the received data based on any temperature events associated with the received data; and converting the normalized data into a signature representative of the EMR detected by the plurality of sensors. | ||||||
| 35 | GESCHIRRSPÜLMASCHINE | EP10187131.7 | 2010-10-11 | EP2311364B1 | 2017-12-27 | Groll, Hubert |
| 36 | Washer fluid spraying apparatus | EP06253672.7 | 2006-07-13 | EP1743817B1 | 2012-02-15 | Yamaguchi, Kazayuki c/o Intel. Property Department |
| 37 | Washer fluid spraying apparatus | EP06253672.7 | 2006-07-13 | EP1743817A2 | 2007-01-17 | Yamaguchi, Kazayuki, c/o Nissan Motor Co. Ltd. |
A washer fluid spraying apparatus is provided. When the amount of the remaining washer fluid in the tank is reduced, the buoyant force of the float (51b) does not have an effect to the valve member (51a), and therefore the cross-sectional area of the flow passage of the valve member (51a) is reduced. Consequently spraying amount is limited compared to a case where there is a plenty of amount of remaining washer fluid. Therefore, compared to the structure that controls the washer pump (2) driving status by detecting the remaining amount by a sensor (5), the driver of the vehicle can know that the amount of the remaining washer fluid in the tank is reduced while limiting the manufacturing costs.
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| 38 | Appareils et procédés de distribution de produits chimiques liquides | EP03291858.3 | 2003-07-28 | EP1394518A1 | 2004-03-03 | Rameau, Guillaume; Mengolli, Pascal |
Procédé pour mesurer la quantité de liquide dans un récipient comportant notamment des moyens d'écoulement dudit liquide depuis ledit récipient vers un point d'utilisation, dans lequel on mesure à un instant ti le poids Pi dans le récipient, cette mesure étant répétée à intervalles de temps prédéterminés. On mesure également la variation de poids ΔPi = P1 - Pi+1 de liquide entre les instants ti et ti+1, ainsi i = 0,1 , ... n-1 de manière à engendrer un signal indiquant que le récipient peut être considéré comme vide lorsque ΔPi est inférieur à un fraction prédéterminée du poids du récipient et/ou du liquide contenu initialement dans celui-ci. |
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| 39 | WATER LEVEL MONITOR AND/OR ALARM SYSTEM FOR BILGES | EP84900005.0 | 1983-12-19 | EP0160646A1 | 1985-11-13 | MOORE, Kevyn Barry |
| Un circuit d'alarme et de contrôle de niveau d'eau pour des cales de bateaux possède deux jeux de sonde (14, 15), (15, 16) entre lesquels s'établit un contact lorsque l'eau dans les cales atteint des niveaux critiques (A, B). Le flux de courant au travers des sondes (14, 15) commute une minuterie (IC1) qui déclenche une pompe de cale (12) pendant une période de temps prédéterminée afin d'abaisser le niveau d'eau. Un circuit de dérivation (Q2) redéclenche la minuterie pour que le fonctionnement de la pompe (12) continue si l'eau n'est pas descendue en dessous du niveau A. Si l'eau augmente jusqu'au niveau B, le flux de courant traversant les sondes (15, 16) déclenche une minuterie (IC2) qui actionne une alarme sonore piézoélectrique (PA) et une alarme visuelle (LED1). | ||||||
| 40 | DISPOSITIF EXTERNE DE SIGNALISATION DU PLEIN D'UN RESERVOIR | EP01978567.4 | 2001-10-18 | EP1250569B1 | 2018-01-17 | Dupont, Jean-Luc |
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