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    • 1. 发明专利
    • Mh cold water production system
    • MH冷水制造系统
    • JP2014178061A
    • 2014-09-25
    • JP2013051895
    • 2013-03-14
    • Saijo Sangyo Joho Shien Center株式会社西条産業情報支援センターSaijo City西条市
    • OCHI KAZUYUKI
    • F25B17/12
    • PROBLEM TO BE SOLVED: To increase a heat exchanging efficiency between brine and water when water in a water storage tank 20 in an MH cold water manufacturing system is cooled, at the same time simplify a piping and the like, and control an operation and a stopping of an MH freezer device 10 and enable a temperature management for cold water to be carried out.SOLUTION: A heat exchanging coil 14 is arranged within a water storage tank 20, and a brine piping 8 of an MH freezer device 10 and the heat exchanging coil 14 are connected by a connection pipe 14a. Brine is supplied to the heat exchanging coil 14 and directly heat exchanged within the water storage tank 20. An agitator 15 is arranged within the water storage tank 20. Water in the water storage tank 20 is agitated with the agitator 15, uniformly cooled to increase a heat exchanging efficiency and at the same time water is prevented from being frozen. Direct heat exchanging operation improves a responsibility of temperature variation of water in regard to capability of the MH freezer device 10 and enables the temperature management to be carried out.
    • 要解决的问题:为了在MH冷水制造系统中的储水箱20中的水被冷却时,为了提高盐水和水之间的热交换效率,同时简化管道等,并且控制操作和 停止MH冷冻装置10,并实现对冷水的温度管理。解决方案:热交换盘管14设置在储水箱20内,MH冷冻装置10的盐水配管8和热量 交换线圈14通过连接管14a连接。 盐水供应到热交换盘管14并在储水箱20内直接热交换。搅拌器15设置在储水箱20内。储水箱20中的水与搅拌器15搅拌,均匀冷却以增加 热交换效率高,同时防止水被冻结。 直接热交换操作改善了MH冷冻装置10的能力方面的水的温度变化的责任,并且能够进行温度管理。
    • 3. 发明专利
    • Air duct, air-blasting system, flower bud differentiation promotion system, and air volume adjustment method
    • 空气导管,空气喷射系统,花盆分类促销系统和空气调节方法
    • JP2014176336A
    • 2014-09-25
    • JP2013051897
    • 2013-03-14
    • Saijo Sangyo Joho Shien Center株式会社西条産業情報支援センターSaijo City西条市
    • OCHI KAZUYUKI
    • A01G9/24A01G1/00A01G7/00
    • Y02A40/268
    • PROBLEM TO BE SOLVED: To provide an air duct capable of easily suppressing the fluctuation of the air discharged from discharge parts arranged in a lengthwise direction, to provide an air-blasting system provided with the air duct, to provide a flower bud differentiation promotion system provided with the air blasting system, and to provide an air volume adjustment method.SOLUTION: A pipe arrangement 30 comprises a pipe body 31. The pipe body 31 includes: an introduction part 32 which is connected with a blow port 20b of an air blower 20 and into which air is introduced from the blow port 20b; and a plurality of discharge parts 33 each provided with a slit 34 from which the air introduced into the introduction part 32 is discharged. The plurality of discharge parts 33 are arranged at an interval in a lengthwise direction of the pipe body 31. In addition, the pipe arrangement 30 is provided with slide covers 36 capable adjusting the total opening area of the slits 34 of the discharge parts 33.
    • 要解决的问题:为了提供一种能够容易地抑制从沿长度方向排列的排出部排出的空气的波动的风道,以提供设置有风道的喷气系统,以提供花芽分化促进系统 设置有喷气系统,并提供风量调节方法。解决方案:管道装置30包括管体31.管体31包括:导入部分32,其与鼓风机的吹气口20b连接 20并从吹气口20b引入空气; 以及多个排出部33,每个排出部33设置有狭缝34,导入导入部32的空气从该狭缝34排出。 多个排出部33在管主体31的长度方向上隔开间隔配置。此外,配管装置30设置有能够调整排出部33的狭缝34的总开口面积的滑动罩36。
    • 4. 发明专利
    • Cultivation apparatus
    • 制作装置
    • JP2014176337A
    • 2014-09-25
    • JP2013051898
    • 2013-03-14
    • Saijo Sangyo Joho Shien Center株式会社西条産業情報支援センターSaijo City西条市
    • OCHI KAZUYUKI
    • A01G9/02
    • PROBLEM TO BE SOLVED: To provide a cultivation apparatus capable of harvesting even in summer.SOLUTION: Strawberries 9 are planted in an array on a long strawberry cultivation bench 2. A cooling pipe 3 which cools down ambient temperature is disposed on cultivation soil 8 in the strawberry cultivation bench 2. A first partition part 52 covers a bottom surface of the strawberry cultivation bench 2. A pair of second partition parts 53 is disposed in an extended manner from both ends in width directions of the first partition part 52 to an upper direction, and positions the strawberry cultivation bench 2 between the second partition parts. Furthermore, a third partition part 6 covers an upper opening between the second partition parts 53.
    • 要解决的问题:提供即使在夏天能够收获的栽培设备。解决方案:草莓9以长的草莓栽培台2的阵列种植。将冷却环境温度的冷却管3设置在栽培土壤8上 草莓栽培台2.第一分隔部52覆盖草莓栽培台2的底面。一对第二分隔部53从第一分隔部52的宽度方向的两端延伸到上部 方向,并将草莓栽培台2定位在第二分隔部分之间。 此外,第三分隔部6覆盖第二分隔部53之间的上部开口。
    • 5. 发明专利
    • Mh cold water and hot water manufacturing control system
    • MH冷水和热水制造控制系统
    • JP2014178062A
    • 2014-09-25
    • JP2013051896
    • 2013-03-14
    • Saijo Sangyo Joho Shien Center株式会社西条産業情報支援センターSaijo City西条市
    • OCHI KAZUYUKI
    • F25B17/12
    • PROBLEM TO BE SOLVED: To manufacture temperature controlled water ranging from cold water to hot water under utilization of an MH cold water manufacturing system.SOLUTION: A cooling heat exchanger coil 14 and a heating heat exchanger coil 16 are arranged in a water storing tank 20. A brine pipe 8 and the cooling heat exchanger coil 14 of an MH freezer device 10 are connected by a cooling connection pipe 14. A high temperature heat source 4H and a heating heat exchanger coil 16 are connected by a heating connection pipe 16a. An agitator 15 is arranged in the water storing tank 20. Brine is supplied from an MH device 10A to the cooling heat exchanger coil 14, directly heat exchanged within the water storing tank 20 to enable it to be cooled. Hot water is supplied from the high temperature heat source 4H to the heating heat exchanging coil 16 and directly heat exchanged within the water storing tank 20 to enable it to be heated. Water in the water storing tank 20 is agitated by the agitator 15 to enable it to be uniformly cooled or heated and further a heat exchanging efficiency is increased.
    • 要解决的问题:在使用MH冷水制造系统的情况下制造从冷水到热水的温度控制水。解决方案:冷却热交换器盘管14和加热热交换器盘管16布置在储水箱20中 MH冷冻装置10的盐水管8和冷却热交换器盘管14通过冷却连接管14连接。高温热源4H和加热热交换器线圈16通过加热连接管16a连接。 搅拌器15设置在储水箱20中。盐水从MH装置10A供应到冷却热交换器盘管14,直接在储水箱20内进行热交换,以使其冷却。 热水从高温热源4H供给到加热热交换盘管16,并在储水箱20内进行直接热交换,使其能够被加热。 储水箱20中的水被搅拌器15搅拌,使其能够被均匀地冷却或加热,并且进一步提高了热交换效率。