| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种用于千层布鞋底机的拉线装置 | CN201610603923.5 | 2016-07-28 | CN106087267A | 2016-11-09 | 徐善会 |
| 本发明提供了一种用于千层布鞋底机的拉线装置,拉线装置包括左、右各一组压线装置,压线装置包括一个被动拉线辊和主动拉线辊,被动拉线辊由压线辊油缸带动上、下移动,主动拉线辊由一组相向转动的拉线辊组成;主动拉线辊置于所述被动拉线辊下方;当被动拉线辊向下移动时将所述线压在主动拉线辊上,所述主动拉线辊旋转用于把所述线从鞋底布中拉出,当将线拉紧后,被动拉线辊向上移动恢复常态。本发明的拉线装置,相对于现有技术多层布鞋底机是单面线,而本发明实现了与传统的多层布鞋底完全一样,压线装置实现了线的双面拉紧。 | ||||||
| 2 | 一种制鞋方法 | CN201610224417.5 | 2016-04-12 | CN105768376A | 2016-07-20 | 温朝艳 |
| 本发明公开了一种制鞋方法,其特征在于,它包括:a. 打钢线;提供备好的鞋帮和内鞋底,采用打钢线设置沿着环绕内鞋底边缘边打钢线;b.缝线;提供胶条将鞋帮底部环绕四周围进缝线机上转动缝合至少一圈;c.鞋帮余料切割;采用切割机将鞋帮余料切除至少一圈,切割后鞋帮料口与胶条、内鞋底平齐;d.鞋底热熔;提供备好的鞋底和缓冲垫和经过鞋帮余料切割后的鞋体,将缓冲垫放置于鞋底和内鞋底的底侧之间,然后进行热熔将鞋底边缘与防水胶条经过高温热熔机熔合在一起,将缓冲垫封密于鞋体和鞋底形成的密封腔内。该易于操作和实现、加工成本低、生产效率高、不易掉脚底;使鞋了防水性好、防止掉鞋底的发生,而且有效减少制鞋污染物排放、安全可靠优点。 | ||||||
| 3 | 一种千层布鞋底的推针和拉线方法 | CN201610603921.6 | 2016-07-28 | CN106235532A | 2016-12-21 | 徐善会 |
| 本发明提供了一种千层布鞋底的推针和拉线方法,推针步骤由推针油缸带动左、右针夹装置左、右移动完成;拉线步骤由左、右各一组压线装置完成,接线步骤由被动拉线辊上、下移动和主动拉线辊完成。相对于现有技术的千布鞋底机都是双面线,本多层布鞋底机是单面线,与传统的多层布鞋底完全一样,压线装置实现了线的左、右拉紧。 | ||||||
| 4 | 一种千层布鞋底的拉线方法 | CN201610603925.4 | 2016-07-28 | CN106048909A | 2016-10-26 | 徐善会 |
| 本发明提供了一种千层布鞋底的拉线方法,推针油缸向前推进拔出针和线,拔出一定长度到位后,压线辊油缸推动被动拉线辊到主动拉线辊将线压紧,这时电机通过链轮链条带动主动拉线辊转动,主动拉线辊的转动到将线向下拉紧为止,线拉紧后被动拉线辊退回。本发明的相对于现有技术的实现了主动拉线辊的转动到将线拉紧。 | ||||||
| 5 | Method and device for drying film of solution-type adhesive | JP3814689 | 1989-02-17 | JPH028274A | 1990-01-11 | REIMONDO HANSON; MARUKAMU TEIRUYAADO |
| PURPOSE: To dry a film coated in manufacturing of shoes with reduced energy consumption and cost, by supporting a product coated with an adhesive, colliding air jet onto the exposed coating surface at ambient temperature, and then heating the product up to an adhesion temperature. CONSTITUTION: By coating the surface of a product such as shoes with a solution-type adhesive, supporting the product with supporting mechanism 44 which includes plural supporters 46 such that the coated surface is exposed, inserting the product into a chamber 12 inside a box-shaped structure 10, sending air to a ventilating station 12A of the chamber 12 through a hole 38 in a porous plate 36, colliding the tip of air jet vartically on the coated surface of the product at ambient temperature during a period of time which is determined according to the period of time for which the drying rate is considered constant, and then continuously heating and drying the product with a heating mechanism 40 at the heating station 12B until the adhesion film can stick to an adhered surface, the product is stuck on the adhered surface. COPYRIGHT: (C)1990,JPO | ||||||
| 6 | JPS4928142B1 - | JP8136568 | 1968-11-08 | JPS4928142B1 | 1974-07-24 | |
| 7 | JPS5027426B1 - | JP11667072 | 1972-11-22 | JPS5027426B1 | 1975-09-08 | |
| 8 | Drying a coating of solvent-based adhesive | EP89101554.7 | 1989-01-30 | EP0328923B1 | 1993-05-26 | Hanson, Raymond; Tillyard, Malcolm |
| 9 | Drying a coating of solvent-based adhesive | EP89101554.7 | 1989-01-30 | EP0328923A3 | 1990-04-25 | Hanson, Raymond; Tillyard, Malcolm |
For drying coatings of solvent-based adhesive applied to shoe bottoms a through-flow drying apparatus is provided which utilises air at ambient temperature for the constant rate period (i.e. the period during which the surface of the coating is "wet"), and thereafter applies infra-red heating during the falling rate period (i.e. the period when migration of the solvent through the solid adhesive is to be achieved). In the first stage, jets of air are directed against the shoe bottom at a velocity of not less than 15 metres/second (measured at the inlets (38)), while at the heating station a plate heater (42) of a size which is larger than the area of the shoe bottom is provided. Ideally, when the shoe is removed from the apparatus, an outsole having a reactivated coating of adhesive can be located with the shoe bottom and bonded thereto, without reactivation of the shoe bottom adhesive itself. Also disclosed is a shoe support (46) for supporting shoes of a wide range of sizes with little or no need for adjustment, said support comprising a plurality of pairs of shoe-engaging rolls (60, 62, 64) between which the downwardly depending portions of the shoe last can be accommodated. |
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| 10 | Drying a coating of solvent-based adhesive | EP89101554.7 | 1989-01-30 | EP0328923A2 | 1989-08-23 | Hanson, Raymond; Tillyard, Malcolm |
For drying coatings of solvent-based adhesive applied to shoe bottoms a through-flow drying apparatus is provided which utilises air at ambient temperature for the constant rate period (i.e. the period during which the surface of the coating is "wet"), and thereafter applies infra-red heating during the falling rate period (i.e. the period when migration of the solvent through the solid adhesive is to be achieved). In the first stage, jets of air are directed against the shoe bottom at a velocity of not less than 15 metres/second (measured at the inlets (38)), while at the heating station a plate heater (42) of a size which is larger than the area of the shoe bottom is provided. Ideally, when the shoe is removed from the apparatus, an outsole having a reactivated coating of adhesive can be located with the shoe bottom and bonded thereto, without reactivation of the shoe bottom adhesive itself. Also disclosed is a shoe support (46) for supporting shoes of a wide range of sizes with little or no need for adjustment, said support comprising a plurality of pairs of shoe-engaging rolls (60, 62, 64) between which the downwardly depending portions of the shoe last can be accommodated. |
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| 11 | 기능성 신발 깔창용 한약재 조성물 및 이를 이용한 신발깔창의 제작방법 | KR1020020028375 | 2002-05-22 | KR1020020044123A | 2002-06-14 | 윤효진 |
| PURPOSE: A herb medicine composition for a functional shoes outsole and a manufacturing method for the outsole using the herb medicine composition are provided to effectively remove bad smell and sweat of feet as well as to achieve antibacterial effect. CONSTITUTION: The manufacturing method for the outsole using the herb medicine comprises the steps of; making a functional herb medicine composition by mixing various herb medicines at a desired weight rate; cutting an outer sheet and first and second inner sheets and stacking them by using an adhesive; positioning the integrated sheet so that the first inner sheet is located innermost to form an outsole sheet with a press; sewing both side edge of the outsole sheet to allow the functional herb medicine to be inserted and inserting a heel prosthetic material; charging the functional herb medicine; inserting the prosthetic material at the entrance of the outsole sheet and then sewing it; forming several transverse sewing lines at a regular distance; sewing a selected finishing sheet along the edge of the outsole sheet; and punching holes in the inner surface of the outsole sheet, to which snap type buttons are coupled. | ||||||
| 12 | 3차원 형상을 갖는 신발창 표면 세척장치 | KR1020130021238 | 2013-02-27 | KR101397559B1 | 2014-05-20 | 천제환; 정부영; 천정미; 양기은; 서홍석; 조윤호 |
| The present invention relates to a three dimensional (3D) surface cleaning machine of a footwear sole. Particularly, the present invention relates to a 3D surface cleaning machine of a footwear sole capable of reducing front-end processes of brush in footwear manufacturing processes and improving the quality of footwear by applying plasma cleaning to whole surfaces of the footwear sole designed 3D according to the shape of feet. The present invention comprises a transfer unit (10) for transferring a footwear sole (1); a plasma gun (21) having a spray nozzle (22) toward the surface of the footwear sole (1); a support (40) for placing the plasma gun (21) at a predetermined height to arrange the spray nozzle (22) apart from the surface of the footwear sole (1); a plasma cleaning unit (20) radiating plasma provided from a plasma generator (24) toward the surface of the footwear sole (1) through the spray nozzle (22); and a control unit (30) for controlling the operation of the transfer unit (10) and the plasma cleaning unit (20). The plasma cleaning unit (20) forms a spray path (221) formed at the end of the internal of the spray nozzle (22) of the plasma gun (21) to be inclined toward the axis direction of the spray nozzle (22). The present invention has a rotating unit (23) for rotating the spray nozzle (22), so that the 3D surface of the footwear sole can be cleaned by the plasma of which the spray direction is continuously converted according to the rotation of the spray nozzle (22). | ||||||
| 13 | 신발창의 3차원 형상 표면 세척장치 | KR1020120057449 | 2012-05-30 | KR1020130134150A | 2013-12-10 | 이상진; 서홍석; 조윤호; 김영호; 양기은; 천제환; 박승현 |
| The present invention provides a device for cleaning a 3D surface of a sole. The device for cleaning the 3D surface of the sole is provided to perform plasma cleaning on the whole surface of the sole designed by 3D formation in response to the flexion of feet, thereby minimizing the manufacturing defects of shoes and improving the quality of the shoes. The device for cleaning the 3D surface of the sole comprises a transfer mechanism, a plasma cleaning mechanism, and a rotation actuator. The transfer mechanism transfers the sole. The plasma cleaning mechanism comprises a spray nozzle and irradiates plasma to the surface of the sole through the spray nozzle. The spray nozzle is arranged in a position which is separated from the sole transferred by the transfer mechanism. The rotation actuator comprises a controller which controls the operation of the transfer mechanism and the plasma cleaning mechanism and rotates the spray nozzle. The plasma cleaning mechanism slantly forms the emission of the end unit of the spray nozzle. The present invention cleans the 3D surface of the sole by using the plasma that a spray direction is continuously changed according to the rotation of the spray nozzle. [Reference numerals] (110) Battery unit;(115) Sensing module;(122) Power conversion module;(124) Battery protection module;(132) Driving module;(141) First control module;(143) Second control module;(145) Third control module;(147) Fourth control module;(149) Fifth control module;(AA) External power;(BB,CC) Main control unit | ||||||
| 14 | Surface treatments | US41787173 | 1973-11-21 | US3890664A | 1975-06-24 | HANSON RAYMOND |
| Method and apparatus for treating the surface of a synthetic elastomer workpiece to improve its ability to be coated or bonded in which the surface of the workpiece is exposed to and reacted with products generated by electrolysis at an anode in a body of aqueous electrolyte to form a surface of reacted elastomer integral with the elastomer of the workpiece. The apparatus includes an anode and a cathode mounted for immersion in a body of electrolyte, a source of electricity to create a potential difference between the anode and cathode and a workholder for supporting the workpiece with its surface adjacent the anode to receive the products of electrolysis, the workholder and anode being moveable relative to each other to control the extent of exposure of the workpiece to the products of electrolysis.
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| 15 | Dust removal means | US3699597D | 1971-06-10 | US3699597A | 1972-10-24 | BABSON EDWARD S |
| A head assembly for continuously removing dust accumulating on margins of shoe soles as a result of operations carried out on the margins by a rotary tool. The head is adapted to fit over the tool and includes a feed or guide slot for introducing marginal portions of soles to the interior of the head. The feed slot is located intermediate of air intake means and air exhaust means, and adjustment means is provided for orienting a sole as fed through the feeding slot.
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| 16 | Automatic edge folding and setting machine | US3526010D | 1968-08-12 | US3526010A | 1970-09-01 | SHINJYO SEIICHI |
| 17 | Stretching an upper about a last | US3484880D | 1967-11-17 | US3484880A | 1969-12-23 | BERGERON NORMAND |
| 18 | Method and apparatus for fabricating shoes | US3470573D | 1966-05-09 | US3470573A | 1969-10-07 | BECKA MICHAEL M; HARRIMAN ALLEN C |
| 19 | Strip applying machines | US16813762 | 1962-01-23 | US3077620A | 1963-02-19 | STANLEY KELLETT JOHN; LAWRENCE MOORE KENNETH |
| 20 | Sole slitting machine | US34096053 | 1953-03-09 | US2726411A | 1955-12-13 | LESKIEWICZ STANLEY J |
