The present invention relates to a sheet molding device which cools and removes a sheet quickly.
A conventional sheet molding device is disclosed in TW M447804 to mold a metal sheet, and after molding the metal sheet, a molding part and the metal sheet are moved into a cooling groove, such that temperatures of the molding part and the metal sheet are reduced to cool and remove the metal sheet. However, such a cooling and removing process takes a long time.
In addition, the metal sheet is placed on a top surface of the molding part, and the molding part and a sealing part clamp the metal sheet so that the metal sheet is heated and blow molded. Unfortunately, the metal sheet is melted easily, because a high temperature occurs and the molding part and the sealing part clamp the metal sheet forcefully, so the melted metal sheet penetrates into orifices on the top surface of the molding part, and the metal sheet adheres with the molding part securely and cannot be removed.
The present invention has arisen to mitigate and/or obviate the afore-described disadvantages.
The primary object of the present invention is to provide a sheet molding device which cools and removes a sheet quickly.
To obtain the above objects, a sheet molding device provided by the present invention contains: a base, a mold, and at least one spray nozzle.
The base includes a forming zone and a removing zone.
The mold includes a molding part, an insolation washer, and a sealing part. The molding part has a peripheral rib arranged on a top surface thereof, a die cavity defined inside the peripheral rib, and a first heater disposed on a bottom surface thereof to heat the molding part. The insolation washer is formed in a ring shape and its melting point is higher a sheet, wherein the insolation washer is connected with a top surface of the peripheral rib and its top surface is higher than that of the peripheral rib to accommodate the sheet, the sealing part has an outlet defined therein and connecting with a high-pressure gas supply unit via an air pipe, wherein the sealing part has a second heater mounted on a top surface thereof to heat the sealing part, the molding part and the sealing part are connected together in the forming zone, and after blow molding the sheet, the sealing part is moved toward the removing zone.
The at least one spray nozzle is arranged in the removing zone to spray cooling substances toward the sheet on the molding part.
With reference to
The base 10 includes a forming zone 11 and a removing zone 12.
The mold 20 includes a molding part 21, an insolation washer 22, and a sealing part 23. The molding part 21 has a peripheral rib 210 arranged on a top surface thereof, a die cavity 211 defined inside the peripheral rib 210, and a surrounding groove 212 formed on a top of the peripheral rib 210. The molding part 21 also has a first heater 213 disposed on a bottom surface thereof to heat the molding part 21. The insolation washer 22 is formed in a ring shape and its melting point is higher than the sheet 40. For example, when the sheet 40 is made of aluminum, the insolation washer 22 is made of stainless steel or copper; and when the sheet 40 is made of rubber or plastic, the insolation washer 22 is made of aluminum. A lower portion of the insolation washer 22 is retained with the surrounding groove 212 of the peripheral rib 210, and when the insolation washer 22 is retained with the surrounding groove 212, a top surface of the insolation washer 22 is higher than that of the peripheral rib 210 to accommodate the sheet 40. The sealing part 23 has an outlet 230 defined therein and connecting with a high-pressure gas supply unit (not shown) via an air pipe 231. The high-pressure gas supply unit supplies high-pressure gas and sprays the high-pressure gas out of the outlet 230 through the air pipe 231. The sealing part 23 has a second heater 232 mounted on a top surface thereof to heat the sealing part 23. The molding part 21 and the sealing part 23 are connected together in the forming zone 11, such that a bottom surface of the sealing part 23 presses the sheet 40 on the top surface of the insolation washer 22 to blow mold the sheet 40. After blow molding the sheet 40, the sealing part 23 is moved toward the removing zone 12. In this embodiment, each of the first heater 213 and the second heater 232 is an electric heating tube or a high frequency heater.
The at least one spray nozzle 30 is arranged in the removing zone 12 to spray cooling substances, such as, gas, coolant or cooling mist toward the sheet 40 on the molding part 21, thus cooling and releasing the sheet 40 quickly. In this embodiment, a number of the at least one spray nozzle 30 is any one of two, three, and four.
Referring to
Because the at least one spray nozzle 30 sprays the gas, the liquid or the cooling fluid toward the sheet 40 on the molding part 21, the sheet 40 is cooled and released quickly, and a temperature of the molding part 21 is not lowered greatly so that the molding part 21 is heated quickly, hence the sheet 40 does not adhere on the molding part 21 by ways of the insolation washer 22. Since the melting point of the insolation washer 22 is higher than that of the sheet 40, the isolation washer 22 does not adhere on the molding part 22, thus removing the sheet 40 and the isolation washer 22 from the molding part 21 easily. Preferably, after the sheet 40 is molded, it adheres with the isolation washer 22 to reinforce its structure and to avoid deformation.
While the preferred embodiments of the invention have been set forth for the purpose of disclosure, modifications of the disclosed embodiments of the invention as well as other embodiments thereof may occur to those skilled in the art. Accordingly, the appended claims are intended to cover all embodiments which do not depart from the spirit and scope of the invention.
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