Molding system and method for directly gas-cooling a molding object
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29C-045/73
B29C-033/02
B29C-033/04
출원번호
US-0619643
(2015-02-11)
등록번호
US-10086547
(2018-10-02)
우선권정보
TW-103135997 A (2014-10-17)
발명자
/ 주소
Lin, Shu-Chen
출원인 / 주소
Quanta Computer Inc.
대리인 / 주소
Rabin & Berdo, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A molding system for directly gas-cooling a molding object includes a cold air provider, two molding parts, a plurality of outlets, at least one air-providing molding part, at least one air passage, and a controller. The two molding parts are closed detachably to co-define a forming cavity therebetw
A molding system for directly gas-cooling a molding object includes a cold air provider, two molding parts, a plurality of outlets, at least one air-providing molding part, at least one air passage, and a controller. The two molding parts are closed detachably to co-define a forming cavity therebetween. The outlets are arranged on the air-providing molding part. The air passage is connected to the cold air provider and the outlets. The controller drives the cold air provider to provide cold air to a molding object in the forming cavity directly when the two molding parts are separating.
대표청구항▼
1. A molding system for directly gas-cooling a molding object, comprising: a cold air provider;a first molding part comprising a recess, a mold core located in the recess, and at least one first internal slide block slidably embedded in the mold core and forming a first sliding space in the mold cor
1. A molding system for directly gas-cooling a molding object, comprising: a cold air provider;a first molding part comprising a recess, a mold core located in the recess, and at least one first internal slide block slidably embedded in the mold core and forming a first sliding space in the mold core after sliding;a second molding part, the first molding part and the second molding part being detachably closed to define a forming cavity between the first molding part and the second molding part, the forming cavity being used to form a molding object therein, the molding object being allowed to be adhered to the mold core;at least one air-providing molding part located on the first molding part, the air-providing molding part having a plurality of outlets facing the recess,wherein, when the first molding part and the second molding part are closed to block a communication between the outlets and the recess, the second molding part is located between the outlets and the mold core, and when the first molding part is separated from the second molding part, the outlets communicate with the recess;at least one first additional air-providing molding part located on the mold core, the first additional air-providing molding part having a plurality of first additional outlets, the first additional outlets facing the first sliding space, wherein, when the first internal slide block is embedded in the first sliding space, the first internal slide block blocks a communication between the first additional outlets and the first sliding space, and when the first internal slide block retracts from the first sliding space, the first additional outlets communicate with the first sliding space;at least one air passage connecting the cold air provider and the air-providing molding part; anda controller electrically connected to the cold air provider,wherein the controller drives the cold air provider to provide cold air to the molding object through the outlets after the molding object is formed in the forming cavity. 2. The molding system for directly gas-cooling the molding object of claim 1, further comprising a second additional air-providing molding part located on the second molding part, the second additional air-providing molding part having a plurality of second additional outlets which are located on a surface of the second additional air-providing molding part facing the first molding part, wherein, when the first molding part and the second molding part are closed, the second additional outlets are in the recess, and the first molding part blocks a communication between the second additional outlets and the recess, andthe second additional outlets communicate with the recess when the first molding part is separated from the second molding part. 3. The molding system for directly gas-cooling the molding object of claim 2, wherein one of the first additional outlets and the second additional outlets have an axial direction, a closing direction that the first molding part and the second molding part are closed being orthogonal to or in parallel with the axial direction. 4. The molding system for directly gas-cooling the molding object of claim 1, wherein a plurality of the air-providing molding parts are located on the first molding part, the outlets of the air-providing molding parts mutually surround the mold core. 5. The molding system for directly gas-cooling the molding object of claim 1, further comprising: at least one second additional air-providing molding part located on the second molding part, the second additional air-providing molding part having a plurality of second additional outlets, wherein the second molding part comprises:an additional recess formed on a surface of the second molding part facing the first molding part; andat least one second internal slide block slidably embedded in a surface of the second molding part facing the additional recess and forming a second sliding space in the second molding part after sliding, the second additional outlets facing the second sliding space,wherein, when the second internal slide block is embedded in the second sliding space, the second internal slide block blocks a communication between the second additional outlets and the second sliding space, andwhen the second internal slide block retracts from the second sliding space, the second additional outlets communicate with the second sliding space. 6. The molding system for directly gas-cooling the molding object of claim 5, wherein one of the first additional outlets and the second additional outlets have an axial direction, a closing direction that the first molding part and the second molding part are closed being orthogonal to or in parallel with the axial direction. 7. The molding system for directly gas-cooling the molding object of claim 1, further comprising: a plurality of second additional air-providing molding parts located on the second molding part, each of the second additional air-providing molding parts having a plurality of second additional outlets, wherein the second molding part comprises an additional recess, the additional recess being formed on a surface of the second molding part facing the first molding part; wherein the second additional outlets of the second additional air-providing molding parts mutually surround the additional recess. 8. The molding system for directly gas-cooling the molding object of claim 7, wherein one of the first additional outlets and the second additional outlets have an axial direction, a closing direction that the first molding part and the second molding part are closed being orthogonal to or in parallel with the axial direction. 9. The molding system for directly gas-cooling the molding object of claim 1, wherein the outlets have an axial direction, a closing direction that the first molding part and the second molding part are closed being orthogonal to or in parallel with the axial direction. 10. The molding system for directly gas-cooling the molding object of claim 1, wherein the cold air provider is an air compressor, a refrigerated air dryer, a low temperature nitrogen generator, or a vortex tube device. 11. The molding system for directly gas-cooling the molding object of claim 1, wherein the first additional outlets have an axial direction, a closing direction that the first molding part and the second molding part are closed being orthogonal to or in parallel with the axial direction. 12. A molding system for directly gas-cooling a molding object, comprising: a cold air provider;a first molding part, including a recess, a mold core located in the recess, and at least one internal slide block slidably embedded in the mold core and forming a sliding space in the mold core after sliding;a second molding part, the first molding part and the second molding part being detachably closed to define a forming cavity between the first molding part and the second molding part, the forming cavity being used to form a molding object therein, the molding object being adherable to the mold core;at least one air-providing molding part located on the mold core, the air-providing molding part having a plurality of outlets facing the sliding space;at least one air passage connecting the cold air provider and the air-providing molding part; anda controller electrically connected to the cold air provider,wherein the controller drives the cold air provider to provide cold air to the molding object through the outlets after the molding object is formed in the forming cavity;wherein when the internal slide block is embedded in the sliding space, the internal slide block blocks a communication between the outlets and the sliding space; andwherein when the internal slide block retracts from the sliding space, the outlets communicate with the sliding space.
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이 특허에 인용된 특허 (4)
Hanning Robert (Via Marco 47 Campione d\Italia (TI) CHX CH-6911), Apparatus for the injection-molding and cooling of shaped synthetic-resin bodies.
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