Refuse vacuum system for machine shops
First Claim
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1. A blast gate valve for controlling transmission of vacuum pressure in a machine shop vacuum system, comprising:
- a chassis, said chassis connectable to vacuum system duct work, said chassis defining a flow channel through which the vacuum pressure is transmitted, said chassis defining a central gap, said central gap extending outwardly away from said flow channel;
a rotating blade, said rotating blade pivotably coupled to said chassis, said rotating blade travelling within said central gap, said rotating blade having an optimal teardrop or pear shape for conserving materials and providing a lightweight and effective occlusion blade and so that a majority of said rotating blade serves as an occluding portion of said occlusion blade for the blast gate valve, said rotating blade passing entirely through said gap so that said rotating blade extends past a perimeter of said flow channel to better occlude transmission of vacuum pressure;
an air inlet, said air inlet defined by said chassis adjacent said flow channel, said air inlet interconnecting an environment external to said chassis with said central gap whereby debris such as dust, shavings, and the like are kept clear of said central gap by airflow through said air inlet when vacuum pressure is transmitted by the blast gate valve, said air inlet optimally positioned so that it intersects said central gap adjacent said rotating blade at a widest point of said rotating blade when the blast gate valve is closed;
a semi-circular cut out section, said semi-circular cut out section defined by said chassis and spaced apart from said flow channel, said semi-circular cut out section allowing manual access to said rotating blade while reducing weight and materials required of said chassis;
a DC motor, said DC motor coupled to said chassis and said rotating blade whereby said motor may rotate said rotating blade with respect to said chassis, polarity of current supplied to said DC motor controlling a direction of rotation of said rotating blade;
a washer, said washer coupled to one side of said chassis and coaxial with a drive shaft of said motor;
a spring washer, said spring washer coupled to another side of said chassis and coaxial with said drive shaft; and
a nut, said nut engaging said drive shaft adjacent said spring washer and holding said spring washer against said rotating blade, said washers forming a slip clutch so that said rotating blade is urged against said washer by said spring washer sufficient to hold said rotating blade in place with respect to said drive shaft when said rotating blade is free to turn, yet insufficient to hold said rotating blade in place with respect to said drive shaft when said rotating blade is not free to turn;
wherebysaid rotating blade may pivotably rotate to selectably occlude said flow channel thereby opening and closing the blast gate valve.
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Abstract
A vacuum system for machine shop dust, particulate matter, and the like. Blast gates control the flow of vacuum generated by a dust collector to individual machines that may or may not accommodate vacuum ductwork and the like. The blast gate has a rotating blade inside a chassis with a DC motor effectively using a slip clutch or an increased current feedback system to limit the rotation driving of the rotating blade. Importantly, a small aperture serves to allow air flow into the chassis gap through which the rotating blade rotates in order to ensure the particular matter does not lodge inside the chassis thereby preventing the proper operation of the rotating blade. A central controller having a microprocessor or the like may be programmed or programmable and serve to individually control a selected number of blast gates based upon a feedback mechanism. A piezoelectric sensor or the like senses the vibration arising from the turning on of the associated machinery, indicating the demand for vacuum power to collect particulate matter. In response to the piezoelectric sensor'"'"'s signal, the blast gate is opened and the dust collector is either turned on or stepped up to accommodate the increase load upon the vacuum system. The reverse situation occurs when the machinery is turned off. The piezoelectric sensor ceases signalling the central controller of the machine "on" condition. The central controller then steps down the dust collector/vacuum system and closes the associated blast gate. Alternative embodiments are set forth whereby additional features provide for enhanced utility, including a computer operation, control, monitoring, and feedback.
45 Citations
14 Claims
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1. A blast gate valve for controlling transmission of vacuum pressure in a machine shop vacuum system, comprising:
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a chassis, said chassis connectable to vacuum system duct work, said chassis defining a flow channel through which the vacuum pressure is transmitted, said chassis defining a central gap, said central gap extending outwardly away from said flow channel; a rotating blade, said rotating blade pivotably coupled to said chassis, said rotating blade travelling within said central gap, said rotating blade having an optimal teardrop or pear shape for conserving materials and providing a lightweight and effective occlusion blade and so that a majority of said rotating blade serves as an occluding portion of said occlusion blade for the blast gate valve, said rotating blade passing entirely through said gap so that said rotating blade extends past a perimeter of said flow channel to better occlude transmission of vacuum pressure; an air inlet, said air inlet defined by said chassis adjacent said flow channel, said air inlet interconnecting an environment external to said chassis with said central gap whereby debris such as dust, shavings, and the like are kept clear of said central gap by airflow through said air inlet when vacuum pressure is transmitted by the blast gate valve, said air inlet optimally positioned so that it intersects said central gap adjacent said rotating blade at a widest point of said rotating blade when the blast gate valve is closed; a semi-circular cut out section, said semi-circular cut out section defined by said chassis and spaced apart from said flow channel, said semi-circular cut out section allowing manual access to said rotating blade while reducing weight and materials required of said chassis; a DC motor, said DC motor coupled to said chassis and said rotating blade whereby said motor may rotate said rotating blade with respect to said chassis, polarity of current supplied to said DC motor controlling a direction of rotation of said rotating blade; a washer, said washer coupled to one side of said chassis and coaxial with a drive shaft of said motor; a spring washer, said spring washer coupled to another side of said chassis and coaxial with said drive shaft; and a nut, said nut engaging said drive shaft adjacent said spring washer and holding said spring washer against said rotating blade, said washers forming a slip clutch so that said rotating blade is urged against said washer by said spring washer sufficient to hold said rotating blade in place with respect to said drive shaft when said rotating blade is free to turn, yet insufficient to hold said rotating blade in place with respect to said drive shaft when said rotating blade is not free to turn;
wherebysaid rotating blade may pivotably rotate to selectably occlude said flow channel thereby opening and closing the blast gate valve.
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2. An automatic machine shop vacuum system, comprising:
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a dust collector, said dust collector creating a vacuum; at least one machine, said machine generating dust or shavings to be collected by said dust collector, said machine coupled to said dust collector by a duct, said duct transmitting vacuum pressure to said machine; a blast gate valve, said blast gate valve coupled to said duct and selectably controlling transmission of said vacuum pressure to said machine; a sensor, said sensor coupled to said machine and transmitting a signal when said machine is on that is different from a signal transmitted by said sensor when said machine is off; and a controller, said controller coupled to said dust collector, said blast gate valve, and said sensor, said controller operating said dust collector and said blast gate valve in response to said sensor signals;
wherebydust generated by said machine during a machining process is automatically collected by said dust collector when said machine is turned on, said controller energizing said dust collector and opening said blast gate valve in response to sensor signals indicating the operation of said machine, said controller de-energizing said dust collector and closing said blast gate valve in response to sensor signals indicating the non-operation of said machine. - View Dependent Claims (3, 4)
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5. A controller for an automatic machine shop vacuum system, comprising:
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a processor, said processor being programmable or programmed, said processor receiving and transmitting signals to control the automatic machine shop vacuum system, said processor coupled to a dust collector and a first blast gate valve; and a first piezoelectric sensor, said first piezoelectric sensor coupled to a first machine and indicating an on/off operating condition of said first machine, said first piezoelectric sensor transmitting signals indicating said operating condition to said processor, said first machine coupled to said dust collector by duct work controlled by said first blast gate valve;
wherebysaid processor activates said dust collector and opens said first blast gate valve upon receiving sensor signals that said first machine is on and said processor deactivates said dust collector and closes said first blast gate valve upon receiving sensor signals that said first machine is off. - View Dependent Claims (6)
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7. A blast gate valve for controlling transmission of vacuum pressure in a machine shop vacuum system, comprising:
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a chassis, said chassis connectable to vacuum system duct work, said chassis defining a flow channel through which the vacuum pressure is transmitted, said chassis defining a central gap; a rotating blade, said rotating blade pivotably coupled to said chassis, said rotating blade travelling within said central gap;
wherebysaid rotating blade may pivotably rotate to selectably occlude said flow channel thereby opening and closing the blast gate valve; and wherein said chassis further comprises an air inlet, said air inlet defined by said chassis and adjacent said flow channel, said air inlet interconnecting an environment external to said chassis with said central gap;
wherebydebris such as dust, shavings, and the like are kept clear of said central gap by airflow through said air inlet when vacuum pressure is transmitted by the blast gate valve. - View Dependent Claims (8, 9)
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10. A blast gate valve for controlling transmission of vacuum pressure in a machine shop vacuum system, comprising:
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a chassis, said chassis connectable to vacuum system duct work, said chassis defining a flow channel through which the vacuum pressure is transmitted, said chassis defining a central gap and having a cut out section, said cut out section defined by said chassis and spaced apart from said flow channel, said cut out section allowing manual access to a rotating blade hereinafter defined while reducing weight and materials required of said chassis; and a rotating blade, said rotating blade pivotably coupled to said chassis, said rotating blade travelling within said central gap;
wherebysaid rotating blade may pivotably rotate to selectably occlude said flow channel thereby opening and closing the blast gate valve. - View Dependent Claims (11)
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12. A blast gate valve for controlling transmission of vacuum pressure in a machine shop vacuum system, comprising:
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a chassis, said chassis connectable to vacuum system duct work, said chassis defining a flow channel through which the vacuum pressure is transmitted, said chassis defining a central gap; a rotating blade, said rotating blade pivotably coupled to said chassis, said rotating blade travelling within said central gap, a motor, said motor being coupled to said chassis and said rotating blade to rotate said rotating blade relative to said chassis and wherein said rotating blade may be stopped while said motor continues to turn without damaging said motor;
wherebysaid rotating blade may pivotably rotate to selectably occlude said flow channel thereby opening and closing the blast gate valve. - View Dependent Claims (13, 14)
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Specification
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Current AssigneeAles Litomisky, Petr Litomisky
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Original AssigneeAles Litomisky, Petr Litomisky
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InventorsLitomisky, Ales, Litomisky, Petr
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Primary Examiner(s)Till, Terrence R.
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Application NumberUS09/003,989Time in Patent Office734 DaysField of Search15/301, 15/314, 15/331, 15/339, 137/240, 251/81, 251/129.11, 251/301, 251/302US Class Current15/301CPC Class CodesA47L 5/38 Built-in suction cleaner in...A47L 9/2805 Parameters or conditions be...A47L 9/2842 Suction motors or blowersA47L 9/2857 User input or output elemen...A47L 9/2894 Details related to signal t...B08B 15/002 using a central suction sys...B23D 59/006 for removing or collecting ...B23Q 11/0046 by suckingY02B 40/00 Technologies aiming at impr...Y02P 70/10 Greenhouse gas [GHG] captur...
