USRE32452E - Portable gas-powered tool with linear motor - Google Patents
Portable gas-powered tool with linear motor Download PDFInfo
- Publication number
- USRE32452E USRE32452E US06/831,521 US83152186A USRE32452E US RE32452 E USRE32452 E US RE32452E US 83152186 A US83152186 A US 83152186A US RE32452 E USRE32452 E US RE32452E
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- United States
- Prior art keywords
- piston
- combustion chamber
- cylinder
- chamber
- fuel
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B05—SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C—APPARATUS FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
- B05C1/00—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating
- B05C1/04—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating for applying liquid or other fluent material to work of indefinite length
- B05C1/08—Apparatus in which liquid or other fluent material is applied to the surface of the work by contact with a member carrying the liquid or other fluent material, e.g. a porous member loaded with a liquid to be applied as a coating for applying liquid or other fluent material to work of indefinite length using a roller or other rotating member which contacts the work along a generating line
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B25—HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
- B25C—HAND-HELD NAILING OR STAPLING TOOLS; MANUALLY OPERATED PORTABLE STAPLING TOOLS
- B25C1/00—Hand-held nailing tools; Nail feeding devices
- B25C1/08—Hand-held nailing tools; Nail feeding devices operated by combustion pressure
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B63/00—Adaptations of engines for driving pumps, hand-held tools or electric generators; Portable combinations of engines with engine-driven devices
- F02B63/02—Adaptations of engines for driving pumps, hand-held tools or electric generators; Portable combinations of engines with engine-driven devices for hand-held tools
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02P—IGNITION, OTHER THAN COMPRESSION IGNITION, FOR INTERNAL-COMBUSTION ENGINES; TESTING OF IGNITION TIMING IN COMPRESSION-IGNITION ENGINES
- F02P11/00—Safety means for electric spark ignition, not otherwise provided for
- F02P11/04—Preventing unauthorised use of engines
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02B—INTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
- F02B1/00—Engines characterised by fuel-air mixture compression
- F02B1/02—Engines characterised by fuel-air mixture compression with positive ignition
- F02B1/04—Engines characterised by fuel-air mixture compression with positive ignition with fuel-air mixture admission into cylinder
Definitions
- This invention relates generally to a portable tool which employs a linear motor that is self-contained and is operated by the products of combustion. It requires no separate starting mechanism. Connected to and operated thereby can be various types of attachments, such as, shearing and cutting devices, marking members, hole piercing devices, etc.
- the motor can be used to drive members disposed therebeneath from a magazine; such as hog rings, animal tags and fasteners of all types, including nails, rivets, etc.
- Portable-type tools have been available for long periods of time, and a typical tool is one such as a fastener driving tool for driving nails, or other types of attachments by means of air pressure, battery power, or using some sort of explosive device.
- the compressed air or explosive devices have been used.
- These types of devices have obvious drawbacks.
- In the case of compressed air there is required a compressor which becomes a burden and an inconvenience in addition to the large initial expense required for investment in such equipment.
- explosive devices are used, the operating cost of such unit is high and they cannot be operated for any substantial period of time without having to be refilled.
- the present invention relates to a portable tool powered by the gases produced from the combustion of a fuel and air mixture within a confined space.
- the available power acts on a linear motor which through the action of a mechanism connected to the motor can be used to drive fasteners, operate shearing devices, and other attachments that require relatively large forces.
- a linear motor in which the force output of the linear motor is generated independent of the movement of the motor itself.
- a sealed combustion chamber is provided with a turbulent mixture of fuel and air that is ignited to drive the motor to effectuate the desired action of the tool.
- No starter or other device is employed.
- a portable tool having a linear motor consisting of a piston having a rod connected thereto.
- the piston forms one wall of the combustion chamber.
- the motor is driven in the downward direction and the motor is returned by a spring back to its position to await another firing.
- a second and third embodiments there is illustrated the utilization of the linear motor for driving fasteners into a workpiece.
- the three tools illustrated have in common an arrangement including a main cylinder within a housing that guides a piston during its reciprocation between the driving and return strokes.
- the piston carries a driving member, which in one case can be connected to a suitable attachment for shearing, cutting, punching, etc., and in the other two embodiments is used to drive a fastener into a workpiece.
- a combustion chamber is formed in the housing adjacent the upper end of the main cylinder by the inside of the housing, the piston, and a main valve mechanism which controls the flow of air between the atmosphere and the combustion chamber.
- a fan that is started when the tool is gripped, or when a switch associated with the fan is actuated, to provide turbulence in the combustion chamber which increases the efficiency of the tool.
- the main valve mechanism is controlled by actuation of the trigger, and in the other two embodiments, while the trigger is involved, it is necessary to engage a bottom trip mechanism.
- the bottom trip mechanisms employed are to insure that in at least those two embodiments the tool cannot be fired unless it is engaged with the workpiece. This is a safety feature for fastener driving tools and need not necessarily be employed, depending on the type of tool and the use to which it is being put.
- actuation of the trigger results in a metered amount of fuel being introduced into the combustion chamber after the chamber has been sealed and subsequent actuation of a spark plug to ignite the turbulent mixture of gas and air in the dombustion chamber to drive the linear motor, which in this case is a piston.
- the piston is returned to its driving position by a spring, and in the other embodiments, the piston is returned to its driving position by differential air pressure.
- the pistons When the pistons have been returned to their driving positions, they are retained in place by the spring in the first embodiment and by friction in the other two embodiments.
- FIG. 1 is a partial cross-sectional side elevational view of a portable tool embodying the subject invention and illustrating the relative position of the principal components prior to the tool being operated;
- FIG. 2 is a partial cross-sectional side elevational view of a second embodiment of the present invention, a fastener driving tool, and illustrating the position of the principal components before the tool has been fired;
- FIG. 3 is a partial cross-sectional side elevational view of the fastener driving tool as shown in FIG. 2 illustrating the position of the major components located at the lower end of the barrel section at the end of the linear motor driving stroke;
- FIG. 4 is an enlarged partial cross-sectional side elevational view of the components forming the ignition mechanism of the embodiment of FIG. 2;
- FIG. 5 is a schematic diagram illustrating the ignition circuit of the embodiment of FIG. 2;
- FIG. 6 is a view similar to FIG. 1, but illustrating a third embodiment of a tool embodying the present invention.
- FIG. 7 is a partial cross-sectional side elevational view illustrating details of the safety trip mechanism used in the tool shown in FIG. 6;
- FIG. 8 is a partial cross-sectional plan view of the fastener driving tool of FIG. 7 taken along line 8--8;
- FIG. 9 is an enlarged cross-sectional view of the cap operation of the fuel injection mechanism of the tool illustrated in FIG. 7;
- FIG. 10 is an enlarged cross-sectional view of the fuel metering valve of the present invention.
- FIG. 11 is an enlarged cross-sectional view of a source of fuel used with the present invention.
- FIG. 12 is a cross-sectional view taken along line 12--12 of FIG. 11.
- FIG. 1 illustrates a tool 20 including a housing 22 forming a handle portion of the tool and a cylinder 24 in which the linear motor, herein a piston 26, is disposed.
- the linear motor herein a piston 26
- Connected to the piston 26 is an operator or working member 27, which is connected to the desired attachment to be operated by the linear motor, or which can engage various devices for introduction into the workpiece, or for any other disposition.
- the linear motor or piston 26 is retained in the position shown by a spring 28.
- the housing 22 includes stop members 29 which extend radially inwardly to limit the upward travel of the piston 26.
- a combustion chamber 30 Located within the housing 22 between a cap 32, the piston 26 and the adjacent sidewalls of the housing 22 is a combustion chamber 30.
- the cap is maintained in position relative to the housing by bolts 34.
- a fan blade 36 Located within the combustion chamber 30 is a fan blade 36 which is connected to a shaft 38 operated by the electric motor 40. Actuation of the motor results in the fan creating a turbulence in the combustion chamber, which aids in increasing the efficiency of the tool by providing an improved air-fuel mixture, and improved ignition and flame propagation.
- the electric motor 40 is operated by a battery 42 located in the handle portion of the tool and interconnected by suitable connections, not shown. Also disposed in the combustion chamber is the spark plug 44, which is ignited by a suitable circuit described hereinafter.
- Cylinder 24 includes a slightly enlarged diameter upper end 24a, so that air can flow around the piston 26 and associated O-ring when the piston is in the raised or driving position of FIG. 1, and stop members 29 are circumferentially spaced from one another to define gaps 29a through which air may flow into the combustion chamber.
- a plurality of air inlet openings 24b are provided adjacent the lower end of cylinder 24 for introducing air into the cylinder.
- the trigger mechanism 54 includes a trigger 55 which is connected to a link 56, the left-hand end of which is connected to the depending portion 51 through a pin 58 extending through a slot 60 in the link 56.
- the operation of the trigger 55 also operates the fuel control mechanism 52.
- the fuel control mechanism includes a rod 68 that extends downwardly into engagement with the trigger 55. This position is maintained as shown in FIG. 1 by a compression spring 62 which extends between the fuel control valve housing 64 and a flange 66 integral with the rod 68.
- the details of the fuel control mechanism include the housing 64 and the valve stem 70 which is provided with lands 72, 74.
- the space between the stem 70, housing 64, and lands 72, 74 defines a metering chamber 76.
- fuel is provided in the metering chamber 76 from the fuel container assembly 80 by the action of a fuel control valve 75.
- the land 74 blocks off the entrance from the fuel container 80 and the land 72 unblocks the port 79 to interconnect the metering chamber 76 with the combustion chamber 30.
- the metered amount of fuel is introduced into the combustion chamber upon upward movement of the trigger 55.
- the design is such that the metering chamber 76 is opened to the combustion chamber 30 after the sleeve 50 has closed off the combustion chamber from the atmosphere.
- a switch 77 is mounted on the housing of the tool, and is connected by suitable means, not shown, to the fan motor 40 so that the fan is operated when the switch 77 is actuated. It should be noted that the operator shall engage the fan switch 77 which turns the fan on to provide turbulence in the chamber 30 prior to operating the tool by movement of trigger 55.
- the fuel container assembly 80 includes a pressurized chamber 82 which acts against the piston 84 to maintain the fuel in the container 80 in liquid form.
- the trigger further acts to force together crystals located in a piezoelectric device schematically illustrated at 46. Effectively upward movement of the link 56 about pivot pin 57 acts to force together two crystals disposed in device 46 to generate a voltate to power the spark plug 44. Further details of the device will be described in conjunction with FIGS. 4 and 5 herein, which specifically illustrate a piezoelectric device and the firing circuit.
- this tool operates as follows. First, the fan is started by engaging the switch 77. Upward movement of the trigger 55 closes off the combustion chamber 30 by moving the sleeve 50 to close off the exhaust port 48. As this occurs, further upward movement of the rod 68 introduces the fuel from the metering chamber 76 into the combustion chamber 30. The upward movement of the trigger 55 energizes the piezo-electric system 46, which provides a spark to the plug 44, which ignites the fuel to drive the linear motor piston 26 downward against the action of the spring 28. As soon as the piston 26 begins to move through its driving stroke, the O-ring thereon seals against the sidewall of cylinder 24 and air below the piston is expelled through openings 24b. When the piston 26 reaches the driven position at the end of its driving stroke, it engages a resilient bumper 86 at the lower end of cylinder 24.
- the sleeve 50 moves downwardly and the chamber 30 is opened to atmosphere through ports 48.
- the fan blades have a slight pitch to scavenge the rest of the gases and introduce the fresh air into the combustion chamber for the next firing, as is clear from the directional arrows.
- the piston 26 is returned to the position shown in FIG. 1 by the spring 28, and a second metered quantity of fuel is provided to the chamber 76, so that the tool is in position to be fired a second time.
- FIGS. 2-5 illustrate a portable fastener driving tool employing the novel linear motor.
- a fastener driving tool 100 the principal components of which are attached to or carried by a generally hollow housing 102.
- the housing 102 of the tool 100 has three major sections: a barrel section 108, a graspable, elongated handle section 110 extending horizontally outwardly from a position generally midway of the barrel section, and a base 106 extending under the barrel section and the handle section.
- Located within the barrel section 108 is a main cylinder 104 in which the linear motor is located.
- a magazine assembly 112 holding a row of nails disposed transversely to the path of a fastener driver 132 that is connected to and operated by the linear motor, which in this case is a working piston assembly 130.
- the lower end of the barrel section 108 carries a guide assembly 152 which guides the fastener driver toward the workpiece.
- the magazine 112 supplies fasteners serially under the fastener driver 132 into the guide assembly 152 to be driven into the workpiece.
- the base 106 also supports a holder 116 containing a plurality of dry cells which form the power source 118.
- a fuel tank 114 is mounted between the barrel section 108 and the handle portion 110 of the housing 102.
- the fuel tank 114 is filled with a liquefied, combustible gas kept under pressure, such as, MAPP gas or propane, which vaporizes when it is discharged into the atmosphere.
- the fuel tank 114 is supported by a pivoted lower bracket 200 and a fixed, generally U-shaped upper bracket 202.
- the upper end of the fuel tank 114 carries a valve assembly 204 for metering fuel out of the tank.
- a flexible plastic cover 210 pivotably joined to a cover member 168 fits into the upper bracket 202 to retain the fuel tank in place.
- the cover 210 is opened when the fuel tank 114 must be replaced.
- the cover 210 provides a downward force which snugly holds the lower end of the fuel tank within the lower bracket 200.
- the upper bracket 202 has an inside dimension greater than the outside dimension of the fuel tank 114.
- this dimension is selected so that when the upper end of the fuel tank is forced towards the upper end of the barrel section 108 of the housing 102, the valve assembly 204 will be actuated to dispense a metered quantity of fuel. The manner in which this is accomplished will be explained after the interior components of the tool have been described.
- the open-ended cylinder 104 At the interior of the lower end of the barrel section 108 of the housing 102, there is located the open-ended cylinder 104.
- the cylinder will hereinafter referred to as the "main cylinder.”
- the diameter of the main cylinder 104 relative to the diameter of the barrel section 108 of the housing 102 is such that an open generally annular zone or region 134 is formed.
- the barrel section of the housing 102 is formed with perihperal openings 103, which allows air to pass freely around the exterior of the main cylinder 104.
- the driving piston 130 is mounted within the main cylinder and carries the upper end of the fastener driver 132.
- the upper end of the barrel section 108 of the housing 102 carries an electrically powered fan 122 and a main valve mechanism 124, which controls the flow of air between the combustion chamber 120 and atmosphere.
- the upper end of the housing located above the fan is closed by the cylinder head 126.
- the main valve mechanism 124 includes an upper cylinder 136, which together with the cylinder head 126, the main cylinder 104, and the piston 130 forms the combustion chamber 120.
- the electric fan includes a set of blades 123 which are joined to the output shaft of the electric motor 122.
- the main cylinder 104 is closed at its lower end by a cup-shaped support casting 128 that is suitably supported in the barrel section.
- a cup-shaped support casting 128 Located near the bottom of the cylinder 104 are a series of exhaust ports 156 that are closed off by exhaust valves 172 that are located to control the flow of gas out of the cylinder 104 when the piston linear motor 130 passes the ports 156.
- Connected to the cylinder 104 adjacent the ports 156 is an annular ring-shaped casting 173.
- a seal 158 is used to plug the center of the support casting 128.
- Also located in the support casting 128 are a plurality of ports 176 which interconnect the bottom of the cylinder 104 with the chamber 146 in which there is located a spring 148 for reasons to be described hereinafter.
- the piston 130 moves between the opposite ends of the main cylinder 104.
- the upward and downward movement of the piston defines the driving and return strokes of the piston.
- valves 172 permit exhausting of the gas above the piston when the piston passes the ports 156 and the valves 174, which remain closed during the downward movement of the piston, provide for a compression of the air beneath the piston to provide a bumper preventing the piston from engaging the bottom of the cylinder.
- These valves 174 also function to open and introduce air into the space between the piston after the piston begins to be returned to its driving position.
- the piston 130 carries the fastener driver, which extends through the seal 158 and into the guide assembly 152.
- the guide assembly is configured to pass individual fasteners 154 that are disposed therein by the magazine 112, so that when the piston 130 is driven through its driving stroke a fastener is driven into a workpiece.
- the piston 130 includes a pair of O-rings that are sized so that the frictional force between the piston and the inside sidewalls of the main cylinder is sufficiently great so that in the absence of the differential pressure across the piston it will remain in place relative to the interior sidewalls of the main cylinder when it is returned to its driving position.
- the upward movement of the piston 130 is limited by an overhang of the cylinder 104.
- the cylinder 136 constituting the valve control for the combustion chamber is free to move between the lower position shown in solid lines in FIG. 2 wherein the combustion chamber is open to atmosphere to permit air to flow in, as shown by the arrows 226 and an upper position shown in dotted lines wherein the combustion chamber is sealed off from the atmosphere by the O-ring 162 provided in the cap 126 and the O-ring 160 provided in the main cylinder 104. Air is thus free to enter through the upper opening 140 when the tool is in the position shown in FIG. 2 and expended combustion gas is free to exit from the combustion chamber 120 through the opening 138.
- the downward movement of the cylinder 136 is limited by engagement of inwardly extending fingers 170 on cylinder 136 with cylinder 104.
- the position and configuration of the rotating fan blades 123 causes a differential pressure across the combustion chamber 120. This action creates movement of air in the chamber 120 and forces air in (arrow 226) through the upper openings 140 and out (arrow 224) through the lower openings 138.
- the combustion chamber is sealed off from the atmosphere, and turbulence is created in the combustion chamber by rotation of fan 123, fuel is injected and the mixture is ignited. The flame propogation enhanced by the turbulence substantially increases the operating efficiency of the tool.
- the movement of the cylinder 136 is effected by a bottom trip mechanism which is operated when the tool is brought into contact with a workpiece into which a fastener is to be driven.
- a bottom trip mechanism which is operated when the tool is brought into contact with a workpiece into which a fastener is to be driven.
- it includes a spring-loaded casting to which are connected lifting rods that are used to raise and lower the cylinder 136.
- a Y-shaped casting 142 is located in the chamber 146 between the guide assembly 152 and the lower end of the support casting 128.
- Connected to the casting are three lifting rods 144A, B and C which interconnect the casting 142 to the cylinder 136.
- Extending downwardly from the casting 142 is a cylinder mount 147.
- the spring 148 in the chamber 146 acts to bias the casting 142 into the position shown in FIG. 2.
- the main lifting rod 150 Located within the cylindrical mount 147 is the main lifting rod 150 which when moved upwardly moves the rods 144A, B, and C upwardly, which carries with it the cylinder 136 to close off the combustion chamber.
- the design is selected so that engagement of the main lift rod with the workpiece raises the cylinder 136 the prescribed amount to the broken line position shown in FIG. 2 to seal the combustion chamber. Accordingly, when the tool is lifted off from the workpiece, the spring 148 biases the lifting rod 150 downwardly to move the cylinder 136 to the full line position shown in FIG. 2 wherein the combustion chamber is open to atmosphere.
- the cylinder head 126 carries the electric fan 122, a spark plug 164, and provides an internal passageway 166 through which fuel is injected into the combustion chamber 120.
- the handle section 110 contains the controls used to operate the tool 100.
- the handle section 110 contains a "deadman's" switch 178, a trigger mechanism 180, a piezoelectric firing circuit 182, which activates the spark plug 164, a portion of a fuel ejecting mechanism 184, which introduces fuel into the combustion chamber 120 via the passageway 166 in the cylinder head 126, and a firing circuit interlock mechanism 188, which locks and unlocks the trigger mechanism 180.
- the deadman's switch 178 is mounted at the top of the handle 110. It is suitably connected through appropriate mechanism to operate the electric motor 122 to drive the fan 123. Thus, it can be seen that when the user of the tool grips the handle in the forward position, the fan 122 is actuated to provide turbulence in the combustion chamber 120.
- the trigger mechanism 180 mounted in the handle includes a lever 190 which is pivotally connected to a piezoelectric firing circuit 182 by a pin 192.
- the trigger button 194 is joined by a pivot pin 196 to the fuel ejecting mechanism 184.
- the fuel ejecting mechanism 184 which functions to introduce a prescribed metered amount of fuel into the combustion chamber, includes an actuating link 212 which interconnects the trigger 194 to a camming mechanism 214.
- the operation of the trigger through the linkage 212 and camming mechanism 214 acts to move the fuel tank 114 to the left, which results in depression of the outlet nozzle 206 to introduce a metered amount of fuel into the passageway 166 from the metered valve assembly 204. It is noted that the tank 114 is retained in position by means of the cover 210 which is interengaged with the upper bracket 202.
- the spring 208 acts to return the fuel tank to the position in FIG. 2.
- FIGS. 4 and 5 illustrate the firing circuit 182.
- a camming mechanism actuated by the lever 190 and pivot pin 192 is used to force together the two crystals 182A, 182B.
- An adjusting screw 183 sets the preload to the assembly.
- a schematic diagram of the electrical circuit between the spark plug 164 and the piezo-electric firing circuit 182 is illustrated in FIG. 5 and includes a capacitor C and a rectifier R.
- the capacitor C stores energy until the spark discharges, and the rectifier R permits spark to occur when the trigger is squeezed and not when the trigger is released.
- the piezo-electric firing circuit 182 is tripped when the lever 190 is raised upwardly by the trigger mechanism 180. Before the firing circuit can be refired or recycled, the lever 190 must be lowered to cock the cam used to force the two crystals 182A and 182B together.
- FIGS. 2-5 operates as follows.
- Grasping of the tool 110 engages the deadman's switch 178 to start the fan motor 122 to rotate the blades 123 to provide turbulence in the combustion chamber 120.
- a differential pressure is produced across the combustion chamber, which acts to force fresh air in (arrow 226) through the upper openings 140 and out (arrow 224) through the lower opening 138.
- the rotating fan blades produce a swirling turbulent effect within the combusiton chamber. Any combustion gases remaining in the combustion chamber due to the previous operation of the tool are thoroughly scavenged and discharged from the combustion chamber by operation of the electric fan 122.
- the main lifting rod When the tool is positioned on the workpiece, the main lifting rod is depressed, as shown in FIG. 3, which overcomes the force of the biasing spring 148 to move lifting rods 144A, B, anc C, and the cylinder 136 from its lower position shown in solid lines to its upper position shown in dotted lines to seal off the combustion chamber 120.
- This upward movement of the lifting rods also activates the firing circuit interlock mechanism 188. That is to say that the links 216 and associated pins 218B are pulled out of the slot 198, thus permitting the trigger 194 to be moved upwardly. Upward movement of the trigger 194 actuates the fuel injecting mechanism by moving the container to the left through the action of the linkage 212 and camming mechanism 214.
- the rapid expansion of the exploding air and fuel mixture pressurizes the upper face 130A of the piston 130 and drives the fastener driver downwardly wherein it forces a fastener 154 into a workpiece.
- the movement of the piston 130 through its driving stroke compresses the air within the main cylinder 104 bounded by the lower face of 130B of the piston and the inside of support casting 128.
- the exhaust valve means 172 on the sidewalls of the main cylinder 104 pops open. As long as the exhaust valve means 172 is open, the pressure cannot build up on the lower face 130B of the piston 130.
- the combustion gases are free to flow out of the main cylinder 104 through the exhaust valve means 172 to the atmosphere.
- the temperature of the gases in the combustion chamber rapidly drops from approximately 2000° F. to 70° F. in about 70 milliseconds due to the expansion of the gases as the piston moves downwardly and the cooling effect of the walls surrounding the expanding gases, and this sudden temperature drop produces a vacuum within the combustion chamber 120.
- the exhaust valve means 172 shuts off.
- the piston 130 will be forced upwardly through its return stroke. Initially, this upward movement is caused by the expansion of the compressed air within the compression chamber (see FIG. 3). Subsequent movement is caused by the pressure of the atmosphere, since the thermal vacuum formed within the combustion chamber 120 is on the order of a few psia. Additional air is supplied to the lower face 130B of the piston 130 through the return valves 174 which are operated by the atmospheric pressure. The piston 130 will continue upwardly until it engages the lip on the cylinder and will remain suspended at the upper end of the main cylinder by virtue of the frictional engagement between the sealing rings and the cylinder wall plus the force of the seal 158 on the fastener driver 132.
- the main lifting rod 150 is forced outwardly by its main biasing spring 148. Since the electric fan 123 is still in operation, any remaining combustion gases are forced out of the lower openings 138, and fresh air is drawn in through the upper openings 140. This prepares the tool for firing another fastener into the workpiece.
- the trigger button 194 is released the piezo-electric system 182 is reset or cocked for a subsequent firing period.
- the main lifting rod 150 is driven downwardly by the biasing spring 148, the lock pin 218B within the firing circuit interlock mechanism 188 is forced back into the slotted opening 198 in the housing. This prevents subsequent operation of the trigger mechanism until the tool 100 is properly positioned on the workpiece and the combustion chamber is isolated from the atmosphere.
- FIGS. 6-9 there is illustrated another embodiment of a portable fastener driving tool employing the novel linear motor described hereabove.
- FIGS. 6-9 The fastener driving tool illustrated in FIGS. 6-9 is similar in many respects to that illustrated in FIGS. 2-5.
- the portions of the tool in FIG. 6 that are substantially identical with those illustrated in FIG. 1 have been given the same numerals and will only be briefly referred to herein.
- the aspects of the tool in FIGS. 6-9 that differ from those illustrated in FIGS. 2-5 will be dealt with in detail.
- the principal components of the second embodiment of the fastener driving tool 101 disclosed in FIG. 6 are very similar to those in FIG. 1 in that the tool in FIG. 6 contains housing 102 including a barrel section 108, a graspable elongated handle section 110 extending outwardly from a position generally midway of the barrel section, and a base 106 extending under the barrel section and the handle section. Included in the base 106 is a magazine assembly 112 holding a row of nails disposed transversely to the path of the fastener driver 132.
- the barrel section of the tool including the fan 122, piston assembly 130, main valve means 124, and a bottom trip safety mechanism are very similar to that disclosed in FIGS. 2-5, except for those differences to be discussed hereinafter.
- the mechanism for positioning the upper cylinder 136 that constitutes a main valve means to control the opening and closing of the combustion chamber 120 is slightly different from that disclosed in FIG. 2.
- upward movement of the lifting rod 150 by bringing the tool into contact with the workpiece acts to move the rod support 143 upwardly against the action of the spring 148.
- the rod support 143 is essentially X-shaped and connected to each of these leg portions are lifting rods 145A, 145B, 145C, and 145D, which, as shown in FIG. 7, have their upper ends disposed in the annular slot 137 of cylinder 136.
- FIG. 6 Another difference between the two embodiments is that in the embodiment shown in FIG. 6, upward movement of the cylinder 136 acts to introduce a metered amount of fuel into the combustion chamber. This action takes place through the action of the cylinder 136 engaging depending arm 232 of the cap 228. Upward movement of the cap 228 acts to pivot the cap 228 about the pivot pin 230, with the result that valve assembly 204 is moved inwardly to admit a metered amount of fuel into the passageway 166 leading into the combustion chamber 120. Counterclockwise movement of the fuel tank 114 is permitted by the resilient pad 117 upon which the tank 114 rests within its support.
- FIG. 6 Another difference between the two embodiments is the bottom safety mechanism disclosed in FIG. 6, which prevents movement of the trigger to bring about firing of the tool until the tool engages a workpiece.
- the tool of FIG. 6 employs a safety latch mechanism 242, which when the tool is out of engagement with the workpiece is positioned so that the latch arm 244 thereof prevents trigger actuating movement of the trigger 194 by virtue of engagement between the latch arm 244 and the flange 240 that extends outwardly from the trigger leg 238 of the trigger 194.
- the trigger latch 242 is maintained in the position shown by the action of a torsion spring 248 which is located about the pin 248a whereby the safety latch is connected to the tool housing 110.
- the latch 242 is moved out of engagement with the trigger 194 by the upward movement of the lifting rod 150.
- the lifting rod 150 is connected to the ring 250 through the cylindrical mount 147.
- the ring 250 has an arm 252 that is normally in engagement with the latch arm 246.
- the ring arm 252 pivots the safety latch 242 in a clockwise direction to move the latch arm 244 out of engagement with flange 240.
- the trigger 194 is now free to move and its upward movement moves the lever 236, which actuates the piezoelectric circuit to send a charge to spark plug 164 and ignite the fuel and air mixture contained in the combustion chamber.
- the upward movement of the cylinder 136 results in introduction of a metered amount of fuel into the combustion chamber through passageway 166. This occurs as a result of the cylinder 136 engaging the depending arm 232 of the cap 228, which acts to swing the cap 228 upwardly and move the tank 114 in a counterclockwise direction to actuate the fuel valve assembly to dispense a metered amount of fuel into the chamber 120.
- the upward movement of the lifting rod 150 moves the safety latch 242 in a clockwise direction to disengage the latch from the trigger mechanism to permit the trigger 194 to move upwardly. Upward movement of the trigger 194 results in actuating the piezo-electric firing circuit which fires the spark plug 164 in the combustion chamber 120. The piston 120 is then driven downwardly to drive a nail into a workpiece.
- the return action of the piston and the scavenging of the combustion chamber is identical with that which occurs in the tool of FIG. 2, and further repetition of that operation is not believed necessary.
- Valve 300 includes a valve body 301 having a fuel inlet stem 302, and a fuel outlet stem 303 having passages 304 and 305, respectively.
- Valve body 301 includes a bushing 306 seated within a generally cylindrical cavity 307, and bushing 306 is provided with a cylindrical cavity 308 which defines a metering chamber.
- a coil spring 310 is mounted in a cylindrical cavity 311 in valve body 301 and bears against a spring seat 312 carried at the reduced diameter end 313 of stem 303.
- An O-ring 314 is disposed around stem portion 313, and is loosely received between a flange 315 on bushing 306 and a gasket 317.
- a plug 318 is threadably received within valve body 301 and bears against a flexible gasket 319. Plug 318 supports stem 303 for axial movement with respect thereto.
- Radially extending outlet openings 320 are provided in stem 303 for discharging liquid fuel in atomized form into the passage 166 leading to the combustion chamber.
- the metered charge of liquid fuel within metering chamber 308 is placed in fluid communication with passage 305, when stem 303 is moved inwardly since openings 320 are disposed to the left of gasket 319, and the liquified gaseous fuel expands into the combustion chamber through passages 305 and 166.
- the stem 303 is shifted to the right, as viewed in FIG. 10, under the influence of spring 310, the inclined portin of stem 303 moves away from O-ring 314 and a fresh charge of liquid fuel passes into chamber 308 between stem portion 313 and O-ring 314.
- Metering valve body 301 is associated with liquified gas container 330 by the insertion of inlet stem 302 within an outlet passage 331 at the upper end of container 330.
- the outlet passage 331 is associated with a conventional valve 332, forming no part of the present invention.
- the container 330 is preferably formed of metal to provide appropriate bursting strength, and supported within container 330 is a bag 333 of generally cruciform shape which has a threaded upper end 334 threadably associated with valve 332. Bag 333 is collapsible, and contains therewithin a given volume of liquified gas.
- a suitable propellant 335 such as propane, is provided between the bag 333 and the inner wall of container 330 for applying pressure to bag 333 for expelling liquid fuel outwardly of valve 332, and into the metering valve through inlet passage 304.
- a suitable lubricating medium is associated with, and dispersed within the liquid fuel in bag 333.
- the lubricating medium may take the form of a lubricating oil, which is mixed as a minor percent with the liquid gas in bag 333. It has been found that such a lubricating medium not only does not significantly detract from ignition of the liquid fuel in the combustion chamber or from flame propagation therewithin, but also reduces wear on the moving parts thus prolonging the useful life of the metering valve and other moving parts of the tool.
- a portable gas-powered tool with this novel linear motor can be used for a variety purposes, depending on the attachments connected to the motor. For example, as illustrated in the embodiments of FIGS. 2-5 and 6-7, it can be used to drive fasteners. Also, of course, attachments can be connected to the working member of the linear motor for shearing tree limbs, connecting hog rings, animal tags, piercing holes, marking metal plates, etc. In substance, it can be used anywhere where a large force is required. As stated, this tool is fully portable, can be light in weight, and thus can be used anywhere independent of the need for an external source of power, such as compressed air.
- the novel motor is made possible in a relatively small portable tool by the creation of turbulance in the combustion chamber prior to and during combustion. This has not been done before in a portable tool and while it is acknowledged that internal combustion engines are notoriously old, these all require an external source of power in order to start the engine.
- the fan causes the air and fuel to be mixed to a generally homogeneous state under atmospheric conditions, and continued operation of the fan increases the burning speed of the fuel-air mixture in the combustion chamber prior to and during movement of the working member.
- no external source of power is required and starting of the tool is totally independent of movement of the working member.
- This tool utilizes liquified gas, and thus is very economical to operate. Actually, it is about one half the cost of operating a pneumatic tool powered by a gasoline driven air compressor.
- a relatively small portable tool adaptable for many uses can be designed employing the invention.
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Portable Nailing Machines And Staplers (AREA)
- Transition And Organic Metals Composition Catalysts For Addition Polymerization (AREA)
- Percussive Tools And Related Accessories (AREA)
- Adhesives Or Adhesive Processes (AREA)
- Control Of Motors That Do Not Use Commutators (AREA)
- Valve Device For Special Equipments (AREA)
- Output Control And Ontrol Of Special Type Engine (AREA)
- Surgical Instruments (AREA)
- Medicines Containing Material From Animals Or Micro-Organisms (AREA)
- Medicines Containing Antibodies Or Antigens For Use As Internal Diagnostic Agents (AREA)
- Drilling And Boring (AREA)
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
- Linear Motors (AREA)
- Electrical Control Of Air Or Fuel Supplied To Internal-Combustion Engine (AREA)
Abstract
Description
Claims (15)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US06/831,521 USRE32452E (en) | 1981-01-22 | 1986-02-20 | Portable gas-powered tool with linear motor |
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US22719381A | 1981-01-22 | 1981-01-22 | |
US06/550,521 US4483280A (en) | 1981-01-22 | 1983-11-14 | Portable gas-powered tool with linear motor |
US06/831,521 USRE32452E (en) | 1981-01-22 | 1986-02-20 | Portable gas-powered tool with linear motor |
Related Parent Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US22719381A Continuation | 1981-01-22 | 1981-01-22 | |
US06/550,521 Reissue US4483280A (en) | 1981-01-22 | 1983-11-14 | Portable gas-powered tool with linear motor |
Publications (1)
Publication Number | Publication Date |
---|---|
USRE32452E true USRE32452E (en) | 1987-07-07 |
Family
ID=22852141
Family Applications (3)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US06/550,521 Ceased US4483280A (en) | 1981-01-22 | 1983-11-14 | Portable gas-powered tool with linear motor |
US06/551,559 Expired - Lifetime US4522162A (en) | 1981-01-22 | 1983-11-14 | Portable gas-powered tool with linear motor |
US06/831,521 Expired - Lifetime USRE32452E (en) | 1981-01-22 | 1986-02-20 | Portable gas-powered tool with linear motor |
Family Applications Before (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US06/550,521 Ceased US4483280A (en) | 1981-01-22 | 1983-11-14 | Portable gas-powered tool with linear motor |
US06/551,559 Expired - Lifetime US4522162A (en) | 1981-01-22 | 1983-11-14 | Portable gas-powered tool with linear motor |
Country Status (17)
Country | Link |
---|---|
US (3) | US4483280A (en) |
EP (2) | EP0316468B1 (en) |
JP (1) | JPS57178677A (en) |
KR (1) | KR890000721B1 (en) |
AT (2) | ATE73374T1 (en) |
AU (1) | AU549145B2 (en) |
BR (1) | BR8200348A (en) |
CA (2) | CA1187418A (en) |
DE (2) | DE3279149D1 (en) |
DK (1) | DK157434C (en) |
ES (1) | ES8302196A1 (en) |
FI (1) | FI76949C (en) |
IN (1) | IN157475B (en) |
MX (1) | MX151622A (en) |
NO (2) | NO156519C (en) |
NZ (1) | NZ199535A (en) |
ZA (1) | ZA82448B (en) |
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