Apparatus and method for dispensing discrete amounts of viscous material
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25B-021/00
F25D-003/00
출원번호
UP-0328378
(2006-01-09)
등록번호
US-7762088
(2010-08-13)
발명자
/ 주소
Fiske, Erik
Quinones, Horatio
Maiorca, Phil
Babiarz, Alec
Ciardella, Robert
출원인 / 주소
Nordson Corporation
대리인 / 주소
Wood, Herron & Evans, LLP
인용정보
피인용 횟수 :
16인용 특허 :
34
초록▼
Apparatus and methods for dispensing small amounts of a viscous material onto a workpiece. The narrow-profile dispensing apparatus includes a fluid chamber, a nozzle, and a valve seat disk representing individual components that are removable from a main body of the dispensing apparatus for cleaning
Apparatus and methods for dispensing small amounts of a viscous material onto a workpiece. The narrow-profile dispensing apparatus includes a fluid chamber, a nozzle, and a valve seat disk representing individual components that are removable from a main body of the dispensing apparatus for cleaning and/or replacement. The nozzle is coupled with the fluid chamber by a heat transfer body that may be cooled by, for example, a cooling fluid routed through an air pathway defined in the heat transfer body. The main body of the dispensing apparatus may be cooled by air exhausted from an air cavity of a pneumatic actuator regulating the movement of a needle to control the flow of viscous material in the dispensing apparatus.
대표청구항▼
The invention claimed is: 1. An apparatus for dispensing a fluid in a noncontact manner, the apparatus comprising: a supply of fluid; a needle; a needle actuator for reciprocating said needle; a main body disposed below said needle actuator, said needle extending through said main body; a fluid cha
The invention claimed is: 1. An apparatus for dispensing a fluid in a noncontact manner, the apparatus comprising: a supply of fluid; a needle; a needle actuator for reciprocating said needle; a main body disposed below said needle actuator, said needle extending through said main body; a fluid chamber housing disposed below said main body, said needle extending into said fluid chamber housing, said fluid chamber housing including a fluid chamber and a valve seat disposed at the bottom of said fluid chamber, and said fluid chamber housing in fluid communication with said supply of fluid; a nozzle including a discharge passageway, said discharge passageway being in fluid communication with said valve seat; a valve element disposed within said fluid chamber, said valve element being moved by the downward movement of said needle to contact said valve seat and prevents the flow of fluid through said valve seat into said discharge passageway, and the upward movement of said needle allows said valve element to move out of contact with said valve seat and permit the flow of fluid through said valve seat into said discharge passageway; a heat transfer member disposed around at least part of said fluid chamber housing, said heat transfer member including a plurality of heating elements; and a retainer including a first retainer arm and a second retainer arm, said first retainer arm and said second retainer arm being movable to a first position and to a second position, wherein, when said first retainer arm and said second retainer arm are moved to the first position, said first retainer arm and said second retainer arm are in contact with said heat transfer member to couple said heat transfer member, said fluid chamber housing, and said nozzle to said main body such that said fluid chamber housing is in fluid communication with said supply of fluid, and wherein, when said first retainer arm and said second retainer arm are moved to the second position, said first retainer arm and said second retainer arm are not in contact with said heat transfer member, and said heat transfer member, said fluid chamber housing, and said nozzle are decoupled from said main body such that said fluid chamber housing is not in fluid communication with said supply of fluid. 2. The apparatus of claim 1 further comprising: cooling means configured for cooling said heat transfer member. 3. The apparatus of claim 2 wherein said cooling means comprises: a coolant fluid source capable of supplying a coolant fluid; and a first fluid passageway in said heat transfer member, said first fluid passageway coupled in fluid communication with said coolant fluid source to direct a flow of the coolant fluid to said first fluid passageway. 4. The apparatus of claim 3 wherein said cooling means further comprises: an annular plenum connected in fluid communication with said fluid passageway for receiving the flow of the coolant fluid. 5. The apparatus of claim 4 wherein said cooling means further comprises: a second fluid passageway in said heat transfer member, said second fluid passageway connected in fluid communication with said annular plenum for exhausting the flow of the coolant fluid from the annular plenum. 6. The apparatus of claim 1 further comprising: a temperature sensor thermally coupled with said heat transfer member and a controller electrically coupled with said temperature sensor; and a controller electrically coupled with said temperature sensor, wherein said heating elements are operatively coupled with said controller and thermally coupled with said heat transfer member, and said controller causes said heating elements to heat said heat transfer member and at least a part of said nozzle in response to temperature signals received from said temperature sensor. 7. The apparatus of claim 6 wherein the apparatus is configured to jet a droplet of the fluid from said discharge passageway as the valve element is moved into contact with said valve seat. 8. The apparatus of claim 6 wherein said main body includes an air cavity, and said valve element is movable into and out of contact with said valve seat by selective application of pressurized air to said air cavity, and further comprising: a solenoid valve having an exhaust port selectively coupled in fluid communication with said air cavity, said solenoid valve configured to direct the pressurized air from said air cavity to said exhaust port to permit movement of said valve element from said opened to said closed position; and an air passageway extending through said main body, said air passageway coupled by said exhaust port of said solenoid valve with said air cavity of said main body so that pressurized air exhausted from said air cavity flows through said air passageway to cool said main body. 9. The apparatus of claim 8 wherein said apparatus is configured to jet a droplet of the fluid from said discharge passageway as said valve element is moved into contact with said valve seat. 10. The apparatus of claim 1 wherein said main body includes an air cavity, and said valve element is movable towards and away from said valve seat by selective application of pressurized air to said air cavity, and further comprising: a solenoid valve having an exhaust port selectively coupled in fluid communication with said air cavity, said solenoid valve configured to direct the pressurized air from said air cavity to said exhaust port to permit movement of said valve element towards and away from said valve seat; and an air passageway extending through said main body, said air passageway coupled by said exhaust port of said solenoid valve with said air cavity of said main body so that pressurized air exhausted from said air cavity flows through said air passageway to cool said main body. 11. The apparatus of claim 10 wherein said apparatus is configured to jet a droplet of the fluid from said discharge passageway as said valve element is moved into contact with said valve seat. 12. The apparatus of claim 3 further comprising: a temperature sensor thermally coupled with said heat transfer member; and a controller electrically coupled with said temperature sensor, said controller causing said cooling means to cool said heat transfer member and thereby at least a part of said nozzle in response to temperature signals received from said temperature sensor.
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