161 |
搪玻璃设备烧成炉 |
CN00215873.6 |
2000-08-10 |
CN2450228Y |
2001-09-26 |
傅光胜 |
搪玻璃设备烧成炉,包括:炉体、活动式炉底,其特征在于:在活动式炉底上方设置有烧成架,能有效地防止搪玻璃设备烧成时变形,提高产品合格率,方便装卸输送搪玻璃设备,省时、省力,同时具有升温快、温度均匀、易控制、节约能源、无污染等优点。 |
162 |
喷流换热U型煤气辐射管 |
CN96218797.6 |
1996-08-20 |
CN2294959Y |
1998-10-21 |
高翔; 杨泽耒; 王静梅 |
喷流换热U型煤气辐射管是一种燃烧装置,用于隔焰加热,可用于钢铁、机械行业的保护气氛热处理炉和搪瓷,陶瓷行业的加热炉上。该装置是由燃烧系统、换热系统分别插入到辐射系统的直管2中,通过法兰13,排烟管7上的法兰与辐射系统安装板12相接,燃烧系统与换热系统通过热风管6上的法兰15与排烟管侧部法兰联接构成。该装置热效率可达到70%以上,有效辐射表面最大温差小于100℃,使用寿命较套筒型辐射管提高1.5倍。 |
163 |
搪玻璃设备退火保温箱 |
CN91211677.3 |
1991-05-17 |
CN2101050U |
1992-04-08 |
高寿长; 田茂林 |
一种适用于搪玻璃设备加工制造使用的,搪玻璃设备退火保温箱,由金属材质的外壳内衬着保温材料的圆拱形上罩和平板底座构成。能在不增加能耗的前提下,利用一个简便易行的办法,实施搪玻璃设备的“退火”处理,提高了其耐用度。为该类设备的质量赶超国际水平,提供了一种可行的技术方案。 |
164 |
Firing furnace |
JP15700197 |
1997-06-13 |
JPH10237675A |
1998-09-08 |
WADA HIROMI; SAWADA MASAMITSU |
PROBLEM TO BE SOLVED: To adopt a burner system with high thermal efficiency, to enable heating in a clean atmosphere, to uniformize the heating temp. and to enable the use without problems even under using conditions in rapid heating and rapid cooling as to a firing furnace in which firing for a product applied with glass lining is mainly executed. SOLUTION: This is a bath type firing furnace for glass lining composed of a furnace main body 1 and a hearth 2, in which radiant tubes 3 are approximately uniformlly arranged on the whole body of the furnace main body 1 and hearth 2, furthermore, the arranged radiant tubes are individually capable of controlling the temp. and are composed of heat resistant metal withstanding rapid heating and cooling. |
165 |
JPH0143400Y2 - |
JP453780 |
1980-01-21 |
JPH0143400Y2 |
1989-12-15 |
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166 |
JPS6430359U - |
JP12342287 |
1987-08-11 |
JPS6430359U |
1989-02-23 |
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167 |
JPS6364919B2 - |
JP15908581 |
1981-10-06 |
JPS6364919B2 |
1988-12-14 |
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168 |
Baking device |
JP2432087 |
1987-02-04 |
JPS63192879A |
1988-08-10 |
HAYASHI SATORU |
PURPOSE: To obtain a baked material with less deformation by fixing a material to be baked to a rotating shaft, baking the material, and exerting a tensile stress on the material through the rotating shaft to correct the deformation to be caused by the relaxation of the residual internal stress.
CONSTITUTION: The long-sized material 3 to be baked such as a metallic pipe is placed in a furnace 1, fixed to the rotating shaft 9 by a set screw 13, and rotated by a driving gear 10 through a coupling 12. A heater 2 is simultaneously energized through a temp. controller 7, and the material 3 is heated and baked. In such a baking device, a tow rope 15 is connected to one end of the rotating shaft 9 through a thrust bearing 14, and a tension is exerted on the rotating shaft 9 by a weight 17 through a rope conductor roller 16. Moreover, a ball thrust bearing allowing the displacement in the axial direction is used as the bearings 11aW11d for supporting the rotating shaft 9. A tensile stress is exerted on the material 3 in this way, and the deformation to be caused by the relaxation of the residual internal stress due to the temp. rise is corrected.
COPYRIGHT: (C)1988,JPO&Japio |
169 |
JPS6145905Y2 - |
JP18532181 |
1981-12-12 |
JPS6145905Y2 |
1986-12-23 |
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170 |
JPS6124160Y2 - |
JP15386379 |
1979-11-05 |
JPS6124160Y2 |
1986-07-19 |
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171 |
JPS617511Y2 - |
JP4833082 |
1982-04-02 |
JPS617511Y2 |
1986-03-07 |
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172 |
Apparatus and method for producing enamel-coated long-sized metallic pipe |
JP9110184 |
1984-05-09 |
JPS60234979A |
1985-11-21 |
NAKANO MASAYOSHI; YAMAGUCHI TAKAO; FURUTA MASAKAZU |
PURPOSE: To produce inexpensively a titled long-sized pipe having corrosion resistance and high quality by connecting both ends of the long-sized pipe which is glazed to the movable parts of an infeed device and acceptive device, feeding the pipe into a local calcining furnace while rotating the pipe and calcining successively the enamel.
CONSTITUTION: The rear end of the long-sized pipe 1 glazed with enamel on the inside and outside surfaces is pushed into the connecting piece 2 of an infeed pipe 4 and an accepting pipe 20 is passed in the local calcining furnace 24 and is connected to the front end of the pipe 1 by means of the piece 2. A motor 19 is run to advance a driving wheel 6 which applies rotating and advancing motion to the pipe 4 and advances a supporting wheel 11. The pipe 1 advances under rotation together with the pipe 20 and passes gradually through the inside of the furnace 24, by which the enamel is calcined. The wheel 11 stops upon contact of a push rod 9 with a stopper 13 but the pipe 4 continues to rotate and advance and stops when the rear end of the pipe 4 is delivered to the acceptive base 23 side of the furnace 24.
COPYRIGHT: (C)1985,JPO&Japio |
173 |
High-frequency induction heating type apparatus and method for producing enamel-coated long-sized metallic pipe |
JP9110084 |
1984-05-09 |
JPS60234978A |
1985-11-21 |
NAKANO MASAYOSHI; YAMAGUCHI TAKAO; FURUTA MASAKAZU |
PURPOSE: To produce inexpensively a titled long-sized pipe having high quality and corrosion resistance by supporting rotatably both ends of the long-sized pipe glazed with enamel on both inside and outside surfaces and mounting movably the long-sized pipe to a high-frequency induction heating device.
CONSTITUTION: The long-sized pipe 7 glazed with enamel on the inside and outside surfaces is supported and connected respectively via connecting pieces 8 to a driving shaft 6 and holding shaft 9 held by bearings 5 of bearing stands 4. The circumference of the pipe 7 is enclosed by an annular inductor 11 attached to a supporting base 14 on a traveling carriage 13. The carriage 13 is moved to position the inductor 11 to the end the pipe 7 on the shaft 9 side and a motor 1 is run to rotate the pipe 1. Traveling of the carriage 13 is started and at the same time high-frequency current is conducted to the inductor 11 to heat successively the part of the pipe facing said conductor while the carriage 13 is traveled gradually, by which the enamel of the pipe 7 is successively calcined from one to the other end.
COPYRIGHT: (C)1985,JPO&Japio |
174 |
JPS5993772U - |
JP18943682 |
1982-12-15 |
JPS5993772U |
1984-06-26 |
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175 |
Enamel product |
JP19991282 |
1982-11-15 |
JPS5989773A |
1984-05-24 |
AIDA TAKESHI |
PURPOSE: To provide an enamel product having no fear of to deformation in the stage of calcination by forming under glaze layers on both front and rear surfaces respectively of a base plate 1 to an equal thickness and further forming upper glaze layers on the outside thereof respectively to an equal thickness.
CONSTITUTION: The front and rear surfaces of a base plate 1 formed of a steel plate or the like are first subjected to a pretreatment such as surface roughening and thereafter enamel undercoats are applied on the front and rear surfaces respectively and are calcined, whereby under glaze layers 2, 2 having an equal thickness (a=a') are formed. Enamel glaze is applied on the outside of the repectively layers 2, 2 and are calcined, whereby upper glaze layers 3, 3 respectively having an equal thickness (b=b') are formed. The enamel product obtd. thereby is formed with the layers 2 and the layers 3 at an equal thickness on the front and rear sides of the plate 1. In other words, the thickness of the enamel is equal on the front and rear sides and the generation of deformation is prevented as the principle of a bimetal does not act in the stage of heating in the calcination. The effect of this invention is more remarkable with the smaller thickness, eay, ≤1mm, of the plate 1.
COPYRIGHT: (C)1984,JPO&Japio |
176 |
Production of enamel substrate |
JP13488582 |
1982-08-02 |
JPS5925976A |
1984-02-10 |
IGARASHI TSUNEO |
PURPOSE: To obtain an enamel substrate having flat surfaces without edge working and deburring and any build-up, by dividing the calcination to be accomplished after deposition of an inorg. glass layer on the surface of a metallic plate to primary and secondary calcination, and performing the secondary calcination while pressing the glass layer.
CONSTITUTION: A prescribed wall thickness of an inorg. glass layer 11 is formed on the surface of a metallic plate 10 by electrodeposition painting and is subjected to primary calcination. The plate 10 formed of the layer 11 is sandwiched from both sides with heat-resistant press plates 12 having flat surfaces. The assembly is installed in an electric furnace and is subjected to secondary calcination. The plates 12 have the prescribed weight corresponding to the outside dimension of the plate 10 so as to come into tight contact with the layer 11, for which carbon plates or the like having the heat resistance to the extent of prohibiting melt sticking to the layer 11 in the stage of secondary calcination are used. If the plates 12 are removed after the secondary calcination, an enamel substrate 15 which has smooth surfaces, permits easy printing of electric circuits and mounting of parts and can be stably mounted to other apparatus is obtd.
COPYRIGHT: (C)1984,JPO&Japio |
177 |
JPS58150792U - |
JP4833282 |
1982-04-02 |
JPS58150792U |
1983-10-08 |
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178 |
JPS58150791U - |
JP4833082 |
1982-04-02 |
JPS58150791U |
1983-10-08 |
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179 |
JPS5891472U - |
JP18532181 |
1981-12-12 |
JPS5891472U |
1983-06-21 |
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180 |
JPS5883463U - |
JP17967481 |
1981-12-02 |
JPS5883463U |
1983-06-06 |
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