CN1403787A - Adjustable variable displacement valve used for combustion dynamic tool - Google Patents

Adjustable variable displacement valve used for combustion dynamic tool Download PDF

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Publication number
CN1403787A
CN1403787A CN02118805A CN02118805A CN1403787A CN 1403787 A CN1403787 A CN 1403787A CN 02118805 A CN02118805 A CN 02118805A CN 02118805 A CN02118805 A CN 02118805A CN 1403787 A CN1403787 A CN 1403787A
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CN
China
Prior art keywords
valve
spring
fluid
measuring room
biased valve
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Granted
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CN02118805A
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CN1221784C (en
Inventor
尤利·斯考尼科夫
托尼·迪索
沃尔特J·泰勒
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Illinois Tool Works Inc
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Illinois Tool Works Inc
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Priority claimed from US09/849,706 external-priority patent/US6655570B2/en
Priority claimed from US09/973,103 external-priority patent/US7051686B2/en
Application filed by Illinois Tool Works Inc filed Critical Illinois Tool Works Inc
Publication of CN1403787A publication Critical patent/CN1403787A/en
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Publication of CN1221784C publication Critical patent/CN1221784C/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25CHAND-HELD NAILING OR STAPLING TOOLS; MANUALLY OPERATED PORTABLE STAPLING TOOLS
    • B25C1/00Hand-held nailing tools; Nail feeding devices
    • B25C1/08Hand-held nailing tools; Nail feeding devices operated by combustion pressure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25CHAND-HELD NAILING OR STAPLING TOOLS; MANUALLY OPERATED PORTABLE STAPLING TOOLS
    • B25C1/00Hand-held nailing tools; Nail feeding devices
    • B25C1/04Hand-held nailing tools; Nail feeding devices operated by fluid pressure, e.g. by air pressure

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Portable Nailing Machines And Staplers (AREA)

Abstract

A variable volume metering chamber and valve assembly for a combustion-powered tool includes a housing defining a metering chamber having an internal volume and including an inlet and an outlet , and a plunger configured for reciprocal movement relative to the chamber for adjusting the internal volume of the metering chamber. The plunger is preferably adjustable by the user to alter the volume of fuel retained in the metering chamber. In the housing, a first valve controls control fluid flow through the inlet, a second valve controls fluid flow through the outlet, and an actuator assembly , connected to the valves, is sequentially operable from a first position, in which the first valve is open and the second valve is closed, to a second position, in which the first and second valves are both closed, and a third position, in which the first valve is closed and the second valve is open.

Description

The adjustable variable displacement valve that is used for combustion-powered tool
Technical field
The present invention relates to the constant volume valve as the combustion-powered tool of power structure instrument (Power framing fool) and so on, more particularly, relate to the constant volume valve module, this valve module is measured and is allowed fluid to flow into firing chamber fluid volume before.
Background technology
Related application
The application is the while pending trial, application on May 4 calendar year 2001, sequence number is 09/849606, exercise question is the continuation part that is used for the constant volume valve of combustion-powered tool.
The invention still further relates to utilization and arranged the fastener-driving tools of pneumatic, combustion powered or other fastoperation of securing member (Collated fasteners) type.In general combustion powered fastener-driving tools comprises a firing chamber, this firing chamber is determined by a cylinder shell and a valve cage, valve cage is arranged to and can opens and closes the firing chamber, these are existing example in following patent, and these patents are that reference number is 32452 Nikolich United States Patent (USP), and sequence number is 4522162,4483474,4403722 Nikolich United States Patent (USP) and sequence number are 4483473 Wagdg United States Patent (USP), quote these patents at this, as a reference.In general, similarly combustion powered nail and U sprig driven tool can be by the IMPULSE trade mark from being positioned at Vernon Hills, and the ITW-Paslode company (Illinois Instrumental Engineering Co.) of IL has bought.
In this instrument, in the driving strike process of each fastener drive in the workpiece, apply constant power and be good.The amount of the amount of the fuel of measurement supply combustion-powered tool or the pressure gas of supply pneumatically operated power tool is helpful to constant power is provided.Narrated a kind of combustion powered fastener instrument in authorizing No. 4721240 United States Patent (USP)s of Cotta, it measures fuel by the valve time of being determined by the motion of cam of opening.Fuel is by the pipeline of a fuel valve arrival firing chamber, and the amount of fuel equals to pass through the volume of a needle-valve in the time that fuel valve is opened.Measuring fluid flow with the time makes the Fluid Volume of supply instrument change along with the variation of rate of flow of fluid.When propellant bottle became sky, flow rate of fluid changed along with the decline of tube pressure.Equally, a public pneumatic fluid supplies the pressure in source or the difference that mobile variation also can cause the power size in each load of supplying with tube.
The control of valve module to the fuel that flows into the firing chamber has been described in No. 655966 and 1293858 United States Patent (USP)s.Two lists of references all disclose a kind of pressure fluid inlet valve and fluid egress point valve, and they prop the machine feeding pipeline.Make high-pressure fluid supply with a machine so that power to be provided by inlet valve, and sending power after when machine returns by the outlet discharge.But the neither one list of references is taught the test constantly how convection cell is provided with this system.And after fuel combustion or high-pressure fluid expansion, fluid no longer is useful for power is provided to instrument, thereby measurement at this moment is invalid.
Authorize No. 4913331 United States Patent (USP)s of Utsumi and narrated a kind of device, this device is by piston of an internal combustion engine drive, and this piston utilizes the fuel of a measuring chamber dispensing constant volume.The fuel piston that comprises this measuring chamber can to-and-fro movement in the fuel cylinder.The position of fuel inlet channel and fuel outlet passage is to arrange like this, and measuring chamber is filled and emptying by the motion of piston between the entrance and exit passage.O-ring seal between fuel piston and the cylinder is positioned in the both sides of chamber, in case fuel leaks into the firing chamber from the high-pressure fuel source.The stable motion of piston makes these O-ring seal rapid wearings, and this is because the cause that they constantly contact with cylinder surface.
A work shortcoming of conventional combustion-powered tool is, when working at a lower temperature, for example is low to moderate 0 ℃, and the pressure of pressure fuel descends, thereby causes bigger pressure reduction between atmosphere and fuel.Under this lower pressure, fuel no longer promptly enters the firing chamber by suitable path.This condition causes the delay of burning, thereby has influenced the work efficiency of instrument.
Another work shortcoming of conventional combustion-powered tool is, when it is operated in high height in other words during height above sea level, lacks the air of the usefulness of burning.Therefore, when using under high height, the conventional combustion-powered tool that has the constant volume fuel metering valve has excessive rich fuel/air mixture in its firing chamber, and this can cause dirt and other operational difficulties of ignition system.Therefore need a kind of combustion-powered tool that fuel metering valve is arranged, it has the ability of fuel quantity in adjusting explosive fuel/air mixture.
Summary of the invention
Therefore, an object of the present invention is,, provide a kind of constant volume of improved fluid to measure as the start building fuel of tool of burning, to produce constant driving force to device.
Another object of the present invention is to provide a kind of constant volume of fluid to measure in the space of compactness.
A further object of the present invention provides a kind of improved constant volume valve module, and its O-ring seal can constantly not wear and tear at sealing surfaces.
A further object of the invention provides a kind of improved constant volume valve module, and it is convenient to flowing of fuel, even descend at pressure, for example the instrument exposure also is like this at low temperatures.
Another object of the present invention provides a kind of improved constant volume valve module, and this valve module provides the ability of fuel metering potpourri, as when tool work during in high height.
Be used to measure the fuel of constant volume so that can satisfy these and other objects, even surpass these purposes for instrument provides this device of constant power.This device is the most useful for the portable fastener tool that is power with pneumatic or internal combustion engine.The structure of valve and control gear also provides and has closed a valve and open delay between another valve in the preferred embodiment, to guarantee flowing to meter fluid between the firing chamber downstream.
But more particularly the invention provides a kind of measuring room of volume modulation, and the valve module that is used for combustion-powered tool comprises a housing that defines measuring room, measuring room has an internal capacity and comprises an entrance and exit, an and post alive (plunger), the post of living is configured to relative chamber and moves reciprocatingly, so that regulate the internal capacity of measuring room.The post of living is preferably adjustable by the user, remains on volume of fuel in the measuring room with change.In this casing, the control of first valve is by the fluid flow of inlet, second valve control is by the fluid flow of outlet, and an actuator that connects with above-mentioned two valves is sequentially opened the primary importance of closing with second valve from first valve and run to the second place and first valve that first and second valves all cut out and close the 3rd position of opening with second valve.
This metering valve also produces constant driving force by fastener-driving tools, its all fuel or hydraulic fluid of self-consistentency of the amount of providing and matter all because instrument is lighted a fire at every turn.It is by volume rather than by the time quantum degree that the fluid of power tool of the present invention is supplied with.Thereby provide more accurate with more consistent power to instrument.When pressure changes, the fluid density in the system because molecule clog closelyer or be rarer and change.But in flow system, if the pressure reduction at metering valve two ends rises and falls, flow velocity also changes so.But as long as the constant volume chamber is full of in the time that the inlet valve of measuring room is opened, the variation of flow velocity is to the just not influence of constant volume system.
In addition, the arrangement of measuring room of the present invention and spring-biased valve causes the compactness utilization in space, and this is useful to compact, portable instrument.Compare with other design, the conllinear arrangement of this valve and the inclination angle of chamber passage have by the pressure fluid supply source the design more short-range characteristics to the firing chamber.
It also is favourable utilizing spring-biased valve to control fluid flow.The valve seat that forms sealing with the measuring room entrance and exit only contacts with locular wall in the quite short time.When the lasting friction that does not have O-ring seal and adjacent wall when closing left by valve.This causes the longer life of O-ring seal.
Another advantage of this valve module is, a dish is provided preferably at least one spring-biased valve, and it is convenient to fuel and flows into chamber passage, even also be so under fuel flows not smooth condition of work, as reducing to when the operate outside temperature when below freezing.
Another advantage of this valve module is that actuator is configured to provide the inherent delay of upper and lower spring-biased valve work, to guarantee to keep at measuring room the fuel of designated volume before valve is put into the firing chamber to fuel down.In the preferred embodiment, decay part ground is realized by the engagement of examining between made ground release actuator pivot linkage arm tongue-like pieces and the actuator control arm notch.Unclamping of this engagement guarantee, when because the control arm discontinuous fluid of tool engagement actuator when making the continuous motion of pivot linkage arm on workpiece, thereby caused one little " interruption " of spring-biased valve work.The consistance that like this, temporarily remains on the volume of fuel of measuring room is maintained.
Another characteristics of this valve module are can change the fuel quantity that flows to the firing chamber in each ignition cycle by regulating in the cycle.In the preferred embodiment, this finishes by an adjustable shaft is provided.The user can be screwed into fuel metering chamber to this axle with screw thread, reducing the volume of this chamber, thus the free space of the fuel that reduces to enter.Therefore, move back outside when the richer in other words potpourri of the more fuel of needs, making axially, make it away from fuel metering chamber, to increase the volume of this chamber.Can obtain the few potpourri of fuel to the propelling of axial fuel measuring room.
Another characteristics of this valve module are that available electrical heating elements replaces above-mentioned adjustable shaft, so that causing using than under the cool condition than low fuel pressure.Peripheral part of heating element heating fuel measuring room itself or heating valve casing.
Description of drawings
Fig. 1 is the rear view of this constant volume valve module of connecting with fuel container;
Fig. 2 is the vertical cross-section front view of this constant volume valve module;
Fig. 3 A-3C is a series of partial cross section figure of this constant volume valve module; Three valve positions when they are described actuator and move past operation order;
Fig. 4 is the partial cross section figure of this constant volume valve, shown in valve be equipped with one and be convenient to fuel moves into the firing chamber from measuring room dish;
Fig. 5 is the partial cross section figure of another embodiment of this constant volume, and it represents the sealed attachment between this valve and pressure fuel tube internal interface;
Fig. 6 be along the line 6-6 of Fig. 4 and shown in the partial cross sectional view of direction, and another embodiment of this valve module is described;
Fig. 7 is another embodiment of the valve module described in Fig. 6, measures the regulating shaft heated object in this embodiment and replaces.
Embodiment
With reference to figure 1 and Fig. 2, constant volume valve module and measuring room are used 10 marks usually.In the following description, speech " on " and D score be to think that assembly is to get orientation shown in the drawings.But, can expect that as known to the professional and technical personnel, this valve module can be used for various circumstances.This valve module 10 is particularly useful in pneumatic or combustion-powered tool (not shown).Valve module 10 has a valve chest 12, and fluid to be measured in valve chest 12 injects under pressure.Valve module 10 provides the fuel of fixed amount for the firing chamber (not shown) of instrument.Can expect also that in addition this valve module 10 also can measure pressurized air to pneumatic tool, this pressurized air expands so that power to be provided.This valve module 10 can be used for having benefited from evenly and any instrument or the device of pressure stable fluid.
The housing 12 of valve module 10 comprises at least two spring-biased valve, i.e. one first spring-biased valve 16 and one second spring-biased valve 18, and they control flow to the inlet 20 of measuring room 24 and the fluid flow of outlet 22 respectively.Measuring room 24 is defined by housing 12, and also can select one or more mouthfuls except that inlet 20 and outlet 22, and the content of this respect will be discussed below.Be the shape or the inlet 20 of measuring room 24 or to export 22 position be not particular importance.But, the best end opposite that inlet 20 and outlet 22 are placed in measuring room 24 diameters.In this structure, spring- biased valve 16,18 is coaxial line substantially preferably, thereby dwindles the space.In the preferred embodiment, fluid flow is crossed measuring room 24 and 20 is flow to outlet 22 from entering the mouth, and is parallel to the axis of spring- biased valve 16,18 usually.
Measuring room 24 can be the chamber that any kind in constant volume space can be provided for fluid measurement, that is to say, is collected in fluid volume in the measuring room and equals the fluid volume of emitting from measuring room.When fluid was sealed in the measuring room 24, pressure remained unchanged.Measuring room 24 can be that the container of a separation also can be a chamber 24 in the housing 12.Housing 12 generally also is used to support other parts of this propulsion system, for example pressure fluid tube 28 (being shown among Fig. 1) and spring-biased valve 16,18.Preferably measuring room 24 relative housings 12 are fixed.
Though the volume of measuring room 24 is preferably changeless, can be selectively by for example settling a movably wall or make valve open to another chamber (show and draw) that it is become is adjustable.But its availability of being used to measure depend on on purpose change certain setting, valve or regulate before chamber 24 keep the ability of constant volumes.
Each of spring- biased valve 16,18 all comprises 34,36 and springs 38,40 of preferred awl 30,32, one bar of seat respectively.Undertaken by first spring-biased valve 16 though discuss, should be understood that the appropriate section that also is applicable to second spring-biased valve 18 in the following discussion.The size and dimension of seat 30 is configured to, inlet 20 sealed engagement of seat 30 and measuring room 24 when spring-biased valve 16 is in off-position.Seat 30 is opening and closing moving by bar 34 controls between the position.Though spring 38 is economic means of this valve of biasing, also can consider to use other bias unit.Spring 38 is used to make valve 16 to location bias.Each spring 38,40 has 42,44 and movable terminals 46,48 of a dog point respectively.Movable terminal 46 applies a power to seat 30, and the power of pushing dog point 42 owing to spring 40 to moves seat 30 on the direction of measuring room 24.Though dog point 42 can directly be braked in housing 12, dog point preferably is positioned at below with the compartment that describes in detail.
Fluid is supplied with housing 12 under pressure.Wish that generally instrument is of portable form, and in this case fluid in the instrument of being contained in or be connected in the pressure vessel 28 on the instrument and transfer out.The factory or other local time fluid that are used in a large amount of pressure fluid supply sources when instrument preferably offer instrument by a flexible pipe or similarity piece (not shown).Valve module 10 of the present invention can be used for any of these situations, and expectation can be used in any device.Because temperature and pressure influences the density of any fluid, so that these factors should be protected is constant as far as possible, so that minimum is reduced in the variation of the Fluid Volume of being supplied with.
Fluid before entering valve module 10 preferably by a filtrator 50 (Fig. 2), so that undesirable pollutant is reduced to is minimum.Filtrator 50 is preferably disposed on an end of nipple joint 51, and nipple joint 51 cooperates with container 28 and engagement hermetically.Fluid enters upper channel 52 after by filtrator 50.Upper channel 52 is directed at the inlet 20 of measuring room 24 from the pressure fluid supply source as pressure vessel 28.In order to obtain the most consistent Fluid Volume, upper channel 52 is preferably enough wide, to obtain the pressure of supply source consistently before closing first spring-biased valve 16.
In some cases, for the accumulated pressure fluid, be desirable to provide one and go up chamber 54.For example, in last chamber 54, thereby provide the fluid stream of bursting that enters measuring room 24 when being opened when inlet 20 in fluid accumulation under the low situation of rate of flow of fluid.The fluid of being emitted by measuring room 24 flows into chamber 56 down.Metering is by being finished by actuator 60 open and close first and second spring-biased valve 16,18.Actuator 60 can be any mechanism, and this mechanism can make first and second spring- biased valve 16,18 with specific order open and close, to permit measuring fluid at measuring room 24.Though it is the preferred form of actuator 60 that mechanical chain closes, one or more cams that computerized control then are another admissible examples.
In the preferred embodiment, actuator 60 comprises a C font actuator arm that has a upper arm 62 and a underarm 64, and upper arm 62 connects with the bar 34 of first spring-biased valve 16, and underarm 64 connects with the bar 36 of second spring-biased valve 18.Upper arm 62 and underarm 64 connect mutually by a control arm 66 (Fig. 1).Notch 67 in the control arm 66 is by 68 engagements of pivot linkage arm, and pivot linkage arm 68 rotatably is engaged on the some 68a of housing 12.Specific engagement between linkage arm 68 and the notch 67 is finished by tongue-like pieces 69.Control linkage arm 68 moves work by nose valve chain component (not shown).The structure of nose chain component and be operated in the Nikolich patent openly is incorporated herein by reference.
An important feature of this actuator 60 is, between the motion of control arm 62,64,66 and upper spring eccentrically arranged valve 16 and lower spring eccentrically arranged valve 18 are to their actuating, produce a delay, make in measuring room 24 moment keep the pressure fluid of constant volume.This decay part ground produces by unclamping the fit engagement between tongue-like pieces 69 and the notch 67.In the preferred embodiment, tongue-like pieces 69 is provided with the zone that a relative notch 67 reduces, and makes that control linkage arm 68 can be a little moving a little in its arc course of situation lower edge that does not cause control arm 62,64,66 motions.Between tongue-like pieces 69 and the notch 67 engagement unclamp or " (sloppiness) staggers " can change with application, just as the concrete structure of fit engagement can change with application, being included in has notch and on control arm 66 tongue-like pieces is arranged on the arm.
Actuator 60 makes first and second spring- biased valve 16,18 with first valve order or the second valve sequential movements, and this depends on which valve is which valve that is opened is pent.Under the situation of combustion-powered tool valve be in proper order according to burn cycle decision or according to air tool impact cycle decision.
Forward Fig. 3 A-3C now to, the valve order is described.Between twice use that begins the instrument of being limited at of first valve order.In this position, give tools supply power and prepare and use, but waiting the workpiece that drives in securing member, Shang Weiyu contacts.At this moment actuator 60 is in the described primary importance of Fig. 3 A, arm 62 apart from a relative span of housing 12 from maximum.At this moment first spring-biased valve 16 is in the position of opening, and second spring-biased valve 18 then is in the position of closing.Therefore measuring room 24 is owing to passage 52 and container 28 intercommunications fill fuel or fluid.
During first valve order, first spring-biased valve 16 moves to the position of closing by the position of opening, and second spring-biased valve is opened, but second valve is not opened before first valve cuts out fully.First valve order is generally by some exciting bank excitations, preparation tool igniting.In order to obtain driving the power of securing member, the fluid that is measured flows into its position, and with supplying power, promptly fuel is moved into the firing chamber or air is moved into expansion vessel.This order is preferably by any preparation mechanism, as contacting of instrument and workpiece, begins to push trigger mechanism and waits and start.If use combustion powered structure instrument (framing tool), firing chamber igniting when the contact element of being easy to act as workpiece so most contacts with workpiece, chamber 56 flows into chamber passages 70 from measuring room 24 to make fuel can pass through down, and finally flow to the firing chamber (not shown).In this described preferred embodiment, this is by the contact start of instrument and workpiece in proper order, and it makes 68 beginnings of pivot linkage arm advance along the curved line of arrow A (Fig. 1) expression.
Importantly be noted that measuring room 24 only as the measurement of fluid, and any physics or chemical change do not take place when being sealed in this chamber in fluid.For constant power is provided, best for each circulation with identical volume, identical temperature and identical pressure conveyance fluid.When fluid generation chemistry or physical action, can not accurately measure, therefore preferably, when fluid has identical chemical composition when measuring room 24 discharges when entering measuring room.
With reference now to Fig. 3 A,, it corresponding to shown in the primary importance of preferred embodiment, in this position, fluid freely enters measuring room 24.When pivot linkage arm 68 during along the definite movement in a curve of arrow A (Fig. 1), tongue-like pieces 67 is moved along the reverse direction of arc.Therefore like this, the last the place ahead pressure that is applied to first bar 34 by upper arm 62 is released, and allows spring 38 that first 30 of first valve 16 is biased to the inlet 20 of measuring room 24 and is meshed.
At this moment, spring- biased valve 16,18 all is closed, thereby has stoped fluid to flow into and outflow measuring room 24 from fluid supply container 28.Draw in Fig. 3 B in this position, and corresponding to the second place of actuator 60.The inlet 20 of measuring room 24 and outlet 22 are all closed, thus fluid-tight in measuring room 24, thereby indoorly provide fluid volume to be measured at this.
Unclamp the temporary delay that the fit engagement between above-mentioned tongue-like pieces 69 and the groove 67 causes second valve 18 to open, at this moment pivot linkage arm 68 continues to advance along the definite curved line of arrow A (Fig. 1).Owing to unclamped engagement, when 68 motions of pivot linkage arm, there is a delay time of unclamping of opening the upper offset of first valve 16, thereby control arm 66 does not also move to second valve 18 is fully opened.This delay guarantees that the volume of fuel in measuring room 24 remains unchanged, and undesirable additional amount can not enter this chamber, maybe can not take place by outlet 22 premature leakage that enter down the chamber.
The 3rd position of actuator 60 is indicated among Fig. 3 C.Closed fully at first valve 16 and to have reached this position after being opened with second spring-biased valve 18.In this position, fluid discharges from measuring room 24.In the preferred embodiment, when actuator arm 60 has just been finished first valve order continuously when primary importance arrives the 3rd position by the second place.
After instrument 12 igniting, second valve is activated in proper order, and in this order, instrument withdrawing from from workpiece causes that pivot linkage arm 68 makes actuator 60 move to primary importance from the 3rd position by the second place.This makes the outlet 22 of measuring room 24 and the downstream of flowing cut off in proper order, and opens inlet 20 once more, so that fluid flows into measuring room 24 again.After instrument 12 igniting but first valve begin in proper order before any excitation all can be used for starting this order.
Second valve order makes the motion of first and second spring-biased valve by step identical with the first valve sequential steps but that order is opposite.The 3rd position of the actuator of representing from Fig. 3 C 60, second spring-biased valve 18 is unclamped with outlet 22, in case fluid flows out from measuring room 24.After cutting out fully, second valve 18 obtains the second place of actuator 60, and represented as Fig. 3 B.At this moment, two valves 16,18 all are closed, in case fluid refluxes, thereby the fluid of surplus only are housed in the measuring room 24.At last, first spring-biased valve 16 is unclamped with inlet 20, makes fluid freely flow into measuring room 24 from fluid supply source 28, but prevents that fluid from freely flowing to chamber passage 70 from source of pressurised fluid 28 by the inlet 20 and the outlet 22 of measuring room 24.
In the preferred embodiment, this course of work valve in other words is to control by the pivot action of linkage arm 68 in proper order, and linkage arm 68 makes actuator 60 move to underarm 64 apart from housing 12 (Fig. 3 A) position farthest apart from housing 12 position (Fig. 3 C) farthest by upper arm 62.Preferably get among the embodiment at this, actuator 60 also comprises a delay device the fit engagement except unclamping between notch 67 and the tongue-like pieces 69, and this mechanism one of is operated in the shut-off valve 16,18 and closes between another valve in 18,16.Such as electric delay, the delay device of any kinds such as electronics method of mechanical delay mechanism all is suitable for.In most preferred mechanical delay mechanism, actuator 60 is connected in each in the bar 34,36 slidably.First bar 34 has first opening mechanism 71 that is fixed on the bar 34, and as " C " clevis, and second bar 36 has one second opening mechanism 72.The spacing of opening mechanism 71,72 on bar 34,36 one of is preferably used in shut-off valve 16,18 and opens between in the valve 18,16 another producing a delay.
In this preferred delay device, the control arm 66 of actuator 60 is longer than the housing 26 that valve module is housed.The length that surpasses is enough to make upper arm 62 and underarm 64 that housing 12 is clipped between them, and between housing and actuator arm 62,64 space more than needed is arranged.In response to the triggering that triggers the valve order, control arm 66 upper and lower motions (direction is for instrument, as shown in Figure 3 orientation).
With reference now to Fig. 3 A,, when actuator 60 was mobile by first valve order, upper arm 62 beginnings contacted with first opening mechanism 71.When control arm 66 moves down, the unclamping in other words of first spring 38 expand make first 30 with measuring room enter the mouth 20 contact before, first opening mechanism 71 keeps propping up upper arm 62 always, thereby closes first spring-biased valve.Be enough to make upper arm 62 and first opening mechanism 71 (shown in Fig. 3 B) to unclamp in case control arm 66 moves to, first spring 38 just is biased to the position of closing to valve 16.Move to the process of the second place (Fig. 3 B) from primary importance (Fig. 3 A) at control arm 66, underarm 64 slides along second bar 36, part but be not fully to 40 decompressions of second spring.Afterwards, move to the process of the 3rd position (Fig. 3 C) from the second place (Fig. 3 B) at control arm 66, underarm slides along second bar 36, and finally contacts with second opening mechanism 72, thereby compress second spring 40, and opens second spring-biased valve 18.Second valve order above-mentioned steps of reversing is similarly being closed second spring-biased valve 18 and is being opened and introduce a delay between first spring valve 16.
Be suitable for preventing that fluid from flowing into valve module 10, O-ring seal is adopted in the place of measuring room 24 and housing 12 outsides.The definite structure of the valve module 10 of concrete application is depended in accurate number, shape and the arrangement of O-ring seal.Shown in the preferred embodiment in, select movably insert 74, be used for when bar contacts by housing 26 and with actuator 60, surrounding the bar 34,36 of each spring-biased valve 16,18.O-circle 76, sealing gasket or similarity piece are preferably used for preventing the leakage between removable insert 74 and housing 12 or the bar 34,36.In some applications, preferably make the size of the length of spring 38,40 above last chamber 54 or following chamber 56.If necessary, removable insert 74 comprises a hollow compartment 78, and its size and dimension is made the partial-length that can load spring 38,40, and can load dog point 42.Removable insert 74 is also provided convenience for getting at spring- biased valve 16,18 and parts thereof when refill-unit is installed.
With reference now to Fig. 4,, preferably this valve module 10 assembles such mechanism, and this mechanism is convenient to fuel by outlet 22 outflow or discharges from measuring room 24, and final admission passage 70, imports the firing chamber.As mentioned above, have been found that when such combustion-powered tool at low temperature, when working below 0 ℃, the pressure of fuel descends, thereby makes fuel flow into firing chamber difficulty more.Speak of this problem, this valve module 10 is preferably adorned a dish 80 that is fixed on the valve 18, particularly is contained in that end of the bar 36 that is set in the measuring room 24.When valve 18 cut out, dish 80 was preferably near inlet 20.For this purpose, dish 80 is fixed on the column piece 82, column piece 82 is fixed to again on the conical seat 32.In the preferred embodiment, coil 80 usefulness brass or have the material of suitable rigidity and thermal resistance to make, column piece 82 then is by rubber, has the polymkeric substance of elastic-like or resilient material to make, and still, can expect to use other material.Dish 80 preferably frictionally is coupled on the column piece 82 by the frictional fit engagement between the axle center hole 86 in projection on the column piece 82 84 and the dish.But also can expect dish 80 other methods that are fastened on the column piece 82 are included but not limited to ultra-sonic welded, embedded molding (insertmolding), bonding or other machanical fastener.Dish 80 size make make its diameter near but less than the diameter of measuring room 24.
At work, when valve 18 was opened, just as the above narration of 3C in conjunction with the accompanying drawings, dish 80 was along with the rest position (among Fig. 4 see the most clearly) of seat 32 from the inlet 20 of close measuring room 24 moves near the position that exports 22.This moves and will all remaining fuel be released measuring room 24 by outlet 22, and final admission passage 70, imports the firing chamber.Like this, fuel is moved out of measuring room 24 by the method for machinery.But,,, in the course of work of instrument, the discharge material of the heat of coming out from the firing chamber is heated to measuring room so another solution provides an auxiliary discharging channel 88 owing to the problem that fuel pressure is low is relevant with temperature.Suitable device is that an electrical heating elements by resistance or other unit feeding energy is set, and makes the temperature of keeping a satisfaction in the measuring room 24, to keep the pressure of fuel.
With reference now to Fig. 5, illustrates in greater detail connection between valve module 10 and the fuel container 28.Importantly, between valve module 10 and fuel container 28, set up sealing relationship, in case the loss of fuel and avoid undesirable burning.Fuel container tube 28 is provided with an inner sleeve 90, and sleeve 90 is determined an outlet for the pressure fuel that is contained in the tube, known in this area.In this area, know and No. 5115944 United States Patent (USP) institute illustrations, quote this patent as proof as a reference at this, sleeve 90 is fixed on the end cap 92, and surrounded by end cap 92, end cap 92 surrounds the end of container 28, and forms a rolling seam (rolled seam) 94 in the above.
Joint 96 and end cap 92 friction engagement, and surround thereby protect the sleeve 90 that protrudes.An axial passage 98 is determined by joint 96, and is admitted sleeve 90.In the preferred embodiment, joint also comprises an easily broken terminal membrane 100, and terminal membrane is lived passage 98 for 100 grades, and the visual indication that provides a container 28 whether to be used.Film 100 is made into like this, in case just poked with nipple 51 fit engagement.Therefore the size of passage 98 is made into and can admits nipple 51.
By the same token, nipple 51 is preferably the roughly shape of cylinder, and the size of diameter or xsect is made into and can meshes with passage 98 slidably and ordinatedly, and the size of length is made and can be meshed with an end 102 of sleeve 90, to realize the fluidic intercommunication between container 28 and the valve 10.In the preferred embodiment, nipple 51 is columnar, still, can be according to shape that use to consider other non-circular cross sections, comprise ellipse, square, rectangle and polygonal shape.
In the preferred embodiment, nipple 51 and sleeve 90 are configured to like this, have just obtained sealing relationship in case reach the described running engagement of Fig. 5.Rubbing contact between the end 102 that this relation that designs in order to prevent undesirable waste of fuel can be by sleeve 90 and the end 104 of nipple 51 realizes.But certain type hermetically-sealed construction is provided preferably in nipple 51 and the sleeve 90 at least one.In the preferred embodiment, hermetically-sealed construction is the elasticity O-circle 106 that provides for nipple 51.But, can consider other hermetically-sealed construction of known type to include but not limited to grommet type seals, molded seal circle and flat packing ring.
In addition, this short circuit pipe end 104 has been determined a chamber 108, and this chamber is used to receive or capture encloses 106 elastic sealing element as O-.More particularly, end 104 is chamferings in other words of taper, and it both had been used to keep O-circle 106 also to be convenient to a nipple 51 insertion joint passages 98.The end 106 easier films 100 of exposing of taper, particularly when nipple 51 be when making as brass by metal especially, brass is preferred, but can expect with other suitable rigidity and durable material are arranged.
In order further to improve the nipple 51 of engagement and the sealing relationship between the sleeve 90, socket end 102 is configured to mesh ordinatedly maybe can admit O-circle 106.Therefore, end 102 preferably is provided with a ring groove 110.Nature can be expected with diverse ways O-circle 106 or other elastic sealing element to be installed on the sleeve 90, or with bonding agent seal is adhered in the groove (not shown) of short circuit pipe end 104 or enclose mounting technique with the O-of other known type.
Can expect, according to application,, can provide the unitor of nipple 51 forms that are arranged on and hold 104 opposite ends so if communicate with container 28 owing to any reason need make fluid, as desired, it and fluid container or fluid reservoir fluid communication.
In use container 28 is inserted in the combustion tool, and nipple 51 is meshed with joint 96 ordinatedly.
Container 28 is crushed on the nipple 51, film 100 is poked, and made short circuit pipe end 104 admission passages 98 up to contacting with socket end 102.As mentioned above, when preferably obtaining sealing relationship, can expect container 28 to be fixed in its position with other locking device.
Therefore, the person skilled in art can understand that this valve module and metering conversion equipment (metering changer) are supplied with the constant volume fluid for power fastening tool a simple method is provided.The entrance and exit of two spring-biased valve, 16,18 control constant volume measuring rooms 24 makes how the no matter fluctuating of rate of flow of fluid can both measure the fluid of constant basis.The Push And Release of actuator 60 control valves 16,18 receives fluids from pressure source 28, and before fluid flows to firing chamber or expanding chamber downstream meter fluid.Arrange valve 16,18 can make the wearing and tearing of seal reduce to minimum like this, thereby reduce maintenance.
With reference now to Fig. 6,, another embodiment of this valve module generally uses 120 marks.Assembly 10 and 120 common parts are with identical number mark.The assembly 10 and 120 the key distinction are that valve module 120 comprises a mechanism that changes fuel metering chamber 24 volumes, makes the user can regulate the volume of fuel that is transported to the instrument firing chamber by this valve module selectively.When at high height above sea level in other words during the high altitude tool using, this adjustability is useful especially, in higher height above sea level, rarefaction of air, thereby needs less fuel for burning efficiently.
In the preferred embodiment, the mechanism that is used to change the fuel metering chamber volume is the dosage post 122 of living, and it is that its orientation is decided to be the elongate articles that can make its relative measuring room 24 do straight reciprocating motion.The post of living preferably moves reciprocatingly along a longitudinal axis, the axis that this axis is determined perpendicular to valve 16,18 usually.
The post 122 of living is expected for any configuration that can stand the test of combustion tool working environment, and occupies the space of this measuring room that is occupied by fuel.In the preferred embodiment, the post 122 of living is elongated metal shaft bars in other words, and it has a valve end 124 and an adjustable side 126.As mentioned above, valve end 124 is made into by occupy the volume that the space that was occupied by fuel reduces measuring room 24 before each ignition cycle of instrument.As described here, valve end 124 is generally the cylindrical shape of butt end.But, can expect that there is the shape with wall 128 complementations of measuring room 24 this termination.
Opposite with valve end 124, adjustable side 126 is configured to be used for selectable manipulation, here is to rotate around axis, rotates in the preferred embodiment and finishes by a screwdriver slot 130.The screwdriver slot of any conventional shape is all deemed appropriate, includes but not limited to the in-line notch, cruciform notch, Tor-x notch etc., and sexangle notch or the conventional notch of using wrench with the square hole head of screw.In regulating the application of this instrument, the attendant who only allows certain qualification can consider the governor motion that uses the user to manufacture.
Between valve end 124 and adjustable side 126, the post of living preferably is provided with screw thread, makes the control that valve end 124 can obtain determining into and out of the to-and-fro movement of measuring room 24.Any equivalent structure that can reach this purpose can be expected.In addition, the post 122 of living is set to long enough, makes adjusting to carry out in the outside of valve chest 12.
Sleeve 132 is configured to operational relation and is installed on the valve chest 12, and can regulate post 122 alive back and forth.More particularly, sleeve 132 surrounds and supporting post 122 alive, and is fixed on the housing 12, preferably is press fitted in the hole 134.Hole 134 communicates with measuring room 124.Also can consider sleeve 132 is fixed to other method on the housing 12, comprise welding, chemical adhesive and similar etc.Sleeve 132 is provided with an axial central through hole 136, and it communicates with measuring room 24, and size is made into can admit the post 122 of living.In order to support the post 122 of living fully, sleeve 132 has enough length, and it vertically reaches in the housing 122 usually.But it is long that the post 122 of living cans be compared to sleeve 132 most.Screw thread has preferably been done in the outer end 138 of sleeve 132, meshes with the screw thread 140 with the post 122 of living.In order to be suitable for using the particular location that is shaped on threaded portion that can change post 122 alive and sleeve 132.
Because hole 134 and through hole 136 and measuring room 24 fluid communication, so importantly, they seal, in case undesirable fuel leak.Therefore, sleeve 132 preferably is provided with the O-ring seal 142 that the O-circle forms, and O-ring seal 142 is arranged in the O-of appropriate size ring recess 144.According to application, groove 144 is arranged on the sleeve 132 or hole 134.In addition, the column sealing circle 146 of living preferably also is an O-circle, and its sealing through hole 136 also is set in the groove 148, and groove 148 is in the through hole 136 or the post 122 of living.
Unaffected for the work that makes valve 16,18, the post 122 of preferably living is set on the deflected position in the measuring room.In other words, the longitudinal axis of the post 122 of living departs from vertical plane, and this plane is bisection measuring room 24 on the reciprocating direction of post of living.Specifically, with reference now to Fig. 6, the post 122 of living is positioned at the back of valve 16,18 axis of movements.
With reference now to Fig. 7,, another characteristics of native system 120 are, live post 122 or sleeve 132 are heated, and the instrument that makes can use at lower temperature (below 0 ℃), and as mentioned above, at this moment the pressure of fuel reduces.The charged lead-in wire (live leads) 150 that heating can connect by the method for electricity by the battery (not shown) power supply of instrument provides.
In addition, also can provide heating with fixing heater wire 152 posts 122 that replace living.Heating member 152 can move reciprocatingly in sleeve 132 by frictional fit, can expect that also heating member 152 is connected on the battery, as known in the art.About auxiliary discharging channel 88 (Fig. 4), as top description, additional heating can be provided by the firing chamber.
Though set forth the specific embodiment of constant volume valve module and measuring room, the professional and technical personnel will appreciate that, can make some changes and correction to them under the situation of not leaving the scope of the invention and appended claim book scope.

Claims (11)

1. constant volume measuring room and valve module use with the pressure fluid supply source that fluid is housed in combustion-powered tool, and described assembly comprises:
The housing of a definite measuring room, measuring room have a plurality of mouthfuls, comprising an inlet and an outlet;
First spring-biased valve that is set in the described housing is used for controlling the flow of fluid by described inlet;
Second spring-biased valve that is set in the described housing is used for controlling the flow of fluid by outlet;
An actuator, this assembly and described first and second spring-biased valve link, and can sequentially run to the second place and the 3rd position from primary importance, open in primary importance first spring-biased valve, second spring-biased valve is closed, all closing in the second place first and second spring-biased valve, is that second spring-biased valve of closing is then opened in the 3rd position first spring-biased valve;
Described valve module is configured and is positioned to like this, in primary importance, the volume of fluid that enters described chamber from described inlet is collected in the measuring room, in the second place, fluid is sealed in the measuring room, in the 3rd position, fluid is emitted from measuring room, thinks that described actuator provides the fluid of constant volume from each sequential movements of primary importance to the three positions.
2. valve module as claimed in claim 1, wherein said actuator can run to the second place from the 3rd position, arrive primary importance again, in the 3rd position, first spring-biased valve is closed, second spring-biased valve is opened, in the second place, first and second spring-biased valve are all closed, in primary importance, first spring-biased valve is that second spring-biased valve of opening is then closed, like this, in the 3rd position, after volume of fluid flows out with the fluid that constant volume is provided from measuring room, measuring room is sealed in case in the backflow of second place fluid, and is that the order of actuator from the 3rd position to primary importance moves again and fill with volume of fluid at the primary importance measuring room.
3. valve module as claimed in claim 1, wherein, described measuring room is configured and is positioned to the fluid volume that makes collection and equals from the fluid volume of measuring room outflow.
4. valve module as claimed in claim 1, wherein, described measuring room is provided with a device, and this device is convenient to the discharge of fluid from described chamber.
5. valve module as claimed in claim 1 also comprises a delay device, and this mechanism is formed at one of to close in described first and second spring-biased valve and open between in described first and second spring-biased valve another and produces a delay.
6. valve module as claimed in claim 5, wherein, in described first and second spring-biased valve each all comprises an offset staff, and each the described bar between described actuator and described housing and the opening mechanism connects slidably, described opening mechanism is placed on the described bar like this, make owing to actuator one of in spring-biased valve opening mechanism and the slippage between another the opening mechanism in the spring-biased valve cause delay.
7. valve module as claimed in claim 6, wherein, described actuator comprises a control arm, this control arm is configured to can be used to activate first and second spring-biased valve, this actuator also comprises a pivot linkage arm, this arm is configured to mesh to produce brake function with control arm, and described two arms all are configured to a fit engagement state that unclamps that is used to produce described delay.
8. valve module as claimed in claim 1 also comprises the mechanism that regulates described measuring room internal capacity.
9. valve module as claimed in claim 8, wherein, described governor motion also comprises a post alive, this work post mechanism causes and can regulate back and forth by described relatively measuring room.
10. valve module as claimed in claim 1 also comprises a well heater, and this well heater offers described housing with operational contact, is used to heat measuring room.
11. an adjustable variable displacement measuring room and a valve module that uses with combustion-powered tool, described assembly comprises:
The housing of a definite measuring room, this measuring room have an internal capacity and comprise an inlet and an outlet; And
Regulate the mechanism of described measuring room internal capacity.
CNB02118805XA 2001-05-04 2002-04-29 Adjustable variable displacement valve used for combustion dynamic tool Expired - Fee Related CN1221784C (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US09/849,706 US6655570B2 (en) 2001-05-04 2001-05-04 Constant volume valve for a combustion powered tool
US09/849,706 2001-05-04
US09/973,103 2001-10-09
US09/973,103 US7051686B2 (en) 2001-02-28 2001-10-09 Variable volume valve for a combustion powered tool

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CN1403787A true CN1403787A (en) 2003-03-19
CN1221784C CN1221784C (en) 2005-10-05

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CA2383904C (en) 2006-09-05
KR20020084700A (en) 2002-11-09

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