IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
UP-0482952
(2006-07-10)
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등록번호 |
US-7857173
(2011-02-24)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Law Offices of Steven W. Weinrieb
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인용정보 |
피인용 횟수 :
5 인용 특허 :
17 |
초록
▼
A new and improved hot melt adhesive dispensing system comprises a new and improved solenoid control valve assembly and a new and improved adhesive control module assembly. The solenoid control valve assembly is mounted directly upon the adhesive control module assembly by quick-connect fittings, an
A new and improved hot melt adhesive dispensing system comprises a new and improved solenoid control valve assembly and a new and improved adhesive control module assembly. The solenoid control valve assembly is mounted directly upon the adhesive control module assembly by quick-connect fittings, and control air flow paths are defined within the solenoid control valve assembly and within the adhesive control module assembly so as to effectively comprise substantially short, linear fluid flow paths which will thereby minimize the lengths of the control air flow paths and therefore, in turn, minimize the cycling response time of the nozzle dispensing valve member of the adhesive control module assembly.
대표청구항
▼
What is claimed as new and desired to be protected by Letters Patent of the United States of America, is: 1. A fluid dispensing system comprising: a solenoid control valve assembly housing; a solenoid control valve member disposed within said solenoid control valve assembly housing and movable betw
What is claimed as new and desired to be protected by Letters Patent of the United States of America, is: 1. A fluid dispensing system comprising: a solenoid control valve assembly housing; a solenoid control valve member disposed within said solenoid control valve assembly housing and movable between first and second positions; an electrical connector mounted upon a first side wall portion of said solenoid control valve assembly housing for providing electricity to said solenoid control valve member; a pair of inlet supply and outlet exhaust passages defined within said first side wall portion of said solenoid control valve assembly housing and fluidically connected to said solenoid control valve member so as to supply and exhaust control air to and from said solenoid control valve member; a fluid control module assembly having a dispensing valve assembly disposed therein, wherein said dispensing valve assembly comprises a dispensing valve member and a valve stem, and wherein said fluid control module assembly also has a control piston disposed therein which is coaxially mounted upon said valve stem and which is disposed within an air control chamber also defined within said fluid control module assembly; a pair of bores defined within said fluid control module assembly fluidically connected to said air control chamber within which said control piston is disposed; and a pair of fittings projecting outwardly from a second side wall portion of said solenoid control valve assembly housing, which is disposed opposite said first side wall portion of said solenoid control valve assembly housing upon which said electrical connector is mounted and within which said pair of inlet supply and outlet exhaust passages are defined, wherein said pair of fittings respectively define first and second fluid passages which have upstream end portions fluidically connected to said solenoid control valve member and said inlet supply and outlet exhaust passages, while downstream end portions of said pair of fittings are adapted to be mated within said fluid control module assembly so as to be fluidically connected to said pair of bores defined within said fluid control module assembly, which has said control piston and said dispensing valve assembly disposed therein, such that when said solenoid control valve member is disposed at said first position, said inlet supply passage is fluidically connected to said first fluid passage of said pair of fittings and to a first one of said pair of bores defined within said fluid control module assembly such that said control air is supplied to said air control chamber in order to move both said control piston and said dispensing valve member in a first direction so as to permit the dispensing of a fluid, and said second fluid passage of said pair of fittings is fluidically connected to said outlet exhaust passage, while when said solenoid control valve member is disposed at said second position, said inlet supply passage is fluidically connected to said second fluid passage of said pair of fittings and to a second one of said pair of bores defined within said fluid control module assembly such that said control air is supplied to said air control chamber in order to move both said control piston and said dispensing valve member in a second direction so as to prevent the dispensing of a fluid, and said first fluid passage of said pair of fittings is fluidically connected to said outlet exhaust passage. 2. The fluid dispensing system as set forth in claim 1, wherein: each one of said pair of fittings, projecting outwardly from said second side wall portion of said solenoid control valve assembly housing, has an annular recess defined within an external peripheral surface portion thereof; and a retaining pin is disposed within said fluid control module assembly for disposition within said annular recesses defined within said external peripheral surface portions of each one of said pair of fittings so as to removably mount said solenoid control valve assembly upon said fluid control module assembly. 3. The fluid dispensing system as set forth in claim 2, further comprising: a bore defined within said fluid control module assembly which intersects said pair of bores, defined within said fluid control module assembly within which said pair of fittings are disposed, such that said retaining pin can be accommodated within said bore defined within said fluid control module assembly and thereby engage said annular recesses defined within said external peripheral surface portions of each one of said pair of fittings so as to fixedly retain each one of said pair of fittings within said fluid control module assembly. 4. The fluid dispensing system as set forth in claim 3, wherein: said bore defined within said fluid control module assembly for accommodating said retaining pin is internally threaded; and said retaining pin has first shank portions which have smooth external surface portions for engaging each one of said annular recesses defined within said external peripheral surface portions of each one of said pair of fittings, and a second externally threaded portion for threadedly engaging said internally threaded bore defined within said fluid control module assembly. 5. A hot melt adhesive dispensing system comprising: a solenoid control valve assembly housing; a solenoid control valve member disposed within said solenoid control valve assembly housing and movable between first and second positions; an electrical connector mounted upon a first side wall portion of said solenoid control valve assembly housing for providing electricity to said solenoid control valve member; a pair of inlet supply and outlet exhaust passages defined within said first side wall portion of said solenoid control valve assembly housing and fluidically connected to said solenoid control valve member so as to supply and exhaust control air to and from said solenoid control valve member; a hot melt adhesive control module assembly having a dispensing valve assembly disposed therein, wherein said dispensing valve assembly comprises a dispensing valve member and a valve stem, and wherein said hot melt adhesive control module assembly also has a control piston disposed therein which is coaxially mounted upon said valve stem and which is disposed within an air control chamber also defined within said fluid control module assembly; a pair of bores defined within said hot melt adhesive control module assembly fluidically connected to said air control chamber within which said control piston is disposed; and a pair of fittings projecting outwardly from a second side wall portion of said solenoid control valve assembly housing, which is disposed opposite said first side wall portion of said solenoid control valve assembly housing upon which said electrical connector is mounted and within which said pair of inlet supply and outlet exhaust passages are defined, wherein said pair of fittings respectively define first and second fluid passages which have upstream end portions fluidically connected to said solenoid control valve member and said inlet supply and outlet exhaust passages, while downstream end portions of said pair of fittings are adapted to be mated within said hot melt adhesive control module assembly so as to be fluidically connected to said pair of bores defined within said hot melt adhesive control module assembly, which has said control piston and said dispensing valve assembly disposed therein, such that when said solenoid control valve member is disposed at said first position, said inlet supply passage is fluidically connected to said first fluid passage of said pair of fittings and to a first one of said pair of bores defined within said hot melt adhesive control module assembly such that said control air is supplied to said air control chamber in order to move both said control piston and said dispensing valve member in a first direction so as to permit the dispensing of a hot melt adhesive, and said second fluid passage of said pair of fittings is fluidically connected to said outlet exhaust passage, while when said solenoid control valve member is disposed at said second position, said inlet supply passage is fluidically connected to said second fluid passage of said pair of fittings and to a second one of said pair of bores defined within said hot melt adhesive control module assembly such that said control air is supplied to said air control chamber in order to move both said control piston and said dispensing valve member in a second direction so as to prevent the dispensing of a hot melt adhesive, and said first fluid passage of said pair of fittings is fluidically connected to said outlet exhaust passage. 6. The hot melt adhesive dispensing system as set forth in claim 5, wherein: each one of said pair of fittings, projecting outwardly from said second side wall portion of said solenoid control valve assembly housing, has an annular recess defined within an external peripheral surface portion thereof; and a retaining pin is disposed within said hot melt adhesive control module assembly for disposition within said annular recesses defined within said external peripheral surface portions of each one of said pair of fittings so as to removably mount said solenoid control valve assembly upon said hot melt adhesive control module assembly. 7. The hot melt adhesive dispensing system as set forth in claim 6, further comprising: a bore defined within said hot melt adhesive control module assembly which intersects said pair of bores, defined within said hot melt adhesive control module assembly within which said pair of fittings are disposed, such that said retaining pin can be accommodated within said bore defined within said hot melt adhesive control module assembly and thereby engage said annular recesses defined within said external peripheral surface portions of each one of said pair of fittings so as to fixedly retain each one of said pair of fittings within said hot melt adhesive control module assembly. 8. The hot melt adhesive dispensing system as set forth in claim 6, wherein: said bore defined within said hot melt adhesive control module assembly for accommodating said retaining pin is internally threaded; and said retaining pin has first shank portions which have smooth external surface portions for engaging each one of said annular recesses defined within said external peripheral surface portions of each one of said pair of fittings, and a second externally threaded portion for threadedly engaging said internally threaded bore defined within said hot melt adhesive control module assembly.
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