CN103527329A - Method and mechanical load bearing fixed chain type mechanism for generating auxiliary valve lifting curve of engine - Google Patents

Abstract

The invention discloses a mechanical load bearing fixed chain type mechanism used for generating an auxiliary valve lifting curve of an engine and a method for generating the auxiliary valve lifting curve of the engine. A main valve lifting curve of the engine is generated through a first working state of the engine, and the auxiliary valve lifting curve of the engine is generated through a second working state of the engine. The fixed chain type mechanism comprises a rolling ball or a driving piston or a combination of the rolling ball and the driving piston, a spring and a fluid flow passage for providing pressurized fluid, and the rolling ball or the driving piston or the combination of the rolling ball and the driving piston can move between a first station and a second station. In the first station, a valve actuating system is in the first working state, and the main valve lifting curve is generated. In the second station, the valve actuating system of the engine is in the second working state, and the auxiliary valve lifting curve is generated. The spring and the pressurized fluid act on the two sides of the rolling ball or the driving piston or the combination of the rolling ball and the driving piston respectively and control the rolling ball or the driving piston or the combination of the rolling ball and the driving piston to be switched between the first station and the second station.

Description

Produce motor Auxiliary valves and rise the method for curve and the solid chain mechanism of machinery carrying

The application submits dividing an application of Patent Office of the People's Republic of China, application number are 201010186306.2, denomination of invention is " a kind of solid chain type engine braking device " application for a patent for invention on 05 27th, 2010 to, and its full content is all recorded in original application.

Technical field

The present invention relates to mechanical field, be particularly a kind ofly used for producing motor Auxiliary valves and rise the method for curve and the solid chain mechanism of machinery carrying thereof.

Background technique

In prior art, the method using internal-combustion engine as brake tool is behaved and is known altogether, only motor temporarily need be converted to compressor.In transfer process, cut off fuel oil, when engine piston compression stroke finishes or while approaching end, open outlet valve, allow compressed gas (being air during braking) to be released, the motor energy that pressurized gas absorbs in compression stroke, can not turn back to engine piston at expansion stroke subsequently, but dissipate by exhaust and the radiation system of motor.Final result is effective engine braking, slows down the speed of vehicle.

A precedent of engine brake is that the U.S. Patent number 3220392 being provided by comings (Cummins) discloses, commercially very successful according to the engine braking system of this patent manufacturing.But, this type of engine braking system is the annex of overhead on motor.For this type of engine brake is installed, between cylinder and valve gap, to add packing ring, therefore, increased extraly height, weight and the cost of motor.Above-mentioned these problems are due to an annex engine braking system being used as to motor, rather than constituent element of motor or integrated part cause.

Engine brake of the prior art is delivered to by machinery input the outlet valve that will open through oil hydraulic circuit.On oil hydraulic circuit, be usually included in reciprocating main piston in master piston bore, this to-and-fro motion comes from the machinery input of motor, such as the shaking of oil sprayer rocking arm, the hydraulic fluid that moves through of main piston is delivered to the sub-piston on oil hydraulic circuit, make its to-and-fro motion in slave piston bore, sub-piston acts on outlet valve directly or indirectly, produces the valve actuation of engine braking running.

Therefore, above-mentionedly by hydraulically powered conventional engines break, there is another shortcoming, be contractibility or the distortion of hydraulic system, this is relevant with the flexibility of liquid, a large amount of compressions that the high flexibility of liquid causes brake valve to rise reduce, valve rises reduces the increase that causes valve to carry, and the increase that valve carries causes higher flexibility, forms a kind of vicious circle.In addition, the valve liter being caused by hydraulic pressure distortion reduces to increase along with the increase of engine speed, and to rise trend on the contrary with the desired brake valve of engine braking performance.In order to reduce flexible hydraulic, must use large diameter hydraulic piston, increase volume and weight.And oily stream need to make for a long time enlarged bore piston stretch out or retract, cause that braking system inertia is large, reaction is slow.

Summary of the invention

For above-mentioned defect, the solid chain mechanism that the machinery that the technical problem that the present invention solves is to provide a kind of Auxiliary valves that is used for producing motor to rise curve carries, configures the above-mentioned defect existing to evade prior art completely by structure optimization.On this basis, the present invention also provides a kind of Auxiliary valves that produces motor to rise the method for curve.

The Auxiliary valves that is used for producing motor provided by the invention rises the solid chain mechanism of the machinery carrying of curve, described motor comprises the valve actuation system with two kinds of working staties: the main valve that the first working state produces motor rises curve, the Auxiliary valves that the second working state produces motor rises curve, and the solid chain mechanism of described machinery carrying comprises:

The combination of spin or driven plunger or spin and driven plunger, the combination of described spin or driven plunger or spin and driven plunger can be moved between the first station and the second station, at described the first station, the solid chain mechanism of machinery carrying makes the described valve actuation system of motor in described the first working state, the described main valve that produces motor rises curve, at described the second station, the solid chain mechanism of described machinery carrying makes the valve actuation system of motor in the second working state, and the described Auxiliary valves that produces motor rises curve;

A spring and a fluid passage that is used to provide pressure fluid, described spring and pressure fluid act on respectively the both sides of the combination of described spin or driven plunger or spin and driven plunger, control it and switch between the first station and the second station.

Preferably, the solid chain mechanism of described machinery carrying also comprises an actuating plunger, described actuating plunger has an off position and an operating position, described off position is corresponding with the first station of the combination of described spin or driven plunger or spin and driven plunger, the actuating plunger that is positioned at off position is inoperative to the valve of motor, described operating position is corresponding with the second station of the combination of spin or driven plunger or spin and driven plunger, is positioned at the actuating plunger of operating position and the valve of motor and forms mechanical linkages.

Preferably, the solid chain mechanism of described machinery carrying is provided with stop bit mechanism, the stroke of actuating plunger described in described stop bit mechanics limit.

Preferably, the solid chain mechanism of described machinery carrying also comprises an actuation spring, and described actuation spring offsets the combination of actuating plunger and described spin or driven plunger or spin and driven plunger.

Preferably, the valve of described motor is exhaust valve.

Preferably, the valve of described motor is intake valve.

The Auxiliary valves of generation motor provided by the invention rises the method for curve, described motor comprises a valve actuation system, described valve actuation system has two kinds of working staties: the main valve that the first working state produces motor rises curve, the Auxiliary valves that the second working state produces motor rises curve, the described Auxiliary valves that described method adopts the solid chain mechanism of machinery carrying to produce motor rises curve, and the solid chain mechanism of described machinery carrying comprises:

The combination of spin or driven plunger or spin and driven plunger, the combination of described spin or driven plunger or spin and driven plunger can be moved between the first station and the second station; At described the first station, the solid chain mechanism of machinery carrying makes the valve actuation system of described motor in described the first working state, and the described main valve that produces motor rises curve; At described the second station, the solid chain mechanism of machinery carrying makes the valve actuation system of described motor in described the second working state, and the described Auxiliary valves that produces motor rises curve;

A spring and a fluid passage that is used to provide pressure fluid; Described method:

Utilize described spring and pressure fluid to act on respectively the combination of described spin or driven plunger or spin and driven plunger, control it switches between the first station and the second station, the valve actuation system of described motor is switched between described the first working state and the second working state, so that the described main valve of generation motor rises the described Auxiliary valves of curve or motor, rises curve.

Preferably, described method comprises the steps:

1) utilize described spring that the combination of described spin or driven plunger or spin and driven plunger is moved on to the second station from the first station, the valve mechanical linkages of described solid chain mechanism and motor, produces described Auxiliary valves by the valve of solid chain mechanism control engine and rises curve;

2) utilize described pressure fluid that the combination of described spin or driven plunger or spin and driven plunger is moved on to the first station from the second station, described solid chain mechanism is inoperative to the valve of motor, produces described main valve rise curve by the valve of main valve actuator control engine.

Preferably, described method comprises the steps:

1) utilize described pressure fluid that the combination of described spin or driven plunger or spin and driven plunger is moved on to the second station from the first station, the described valve mechanical linkages of consolidating chain mechanism and motor, produces Auxiliary valves by the described valve of consolidating chain mechanism control engine and rises curve;

2) utilize described spring that the combination of described spin or driven plunger or spin and driven plunger is moved on to the first station from the second station, described solid chain mechanism is inoperative to the valve of motor, produces main valve rise curve by the valve of described main valve actuator control engine.

Working principle of the present invention is: when needs produce main valve and rise curve, by coordinating of spring and pressure fluid in fluid passage, the combination of spin or driven plunger or spin and driven plunger is movable to the first station, make the valve actuation system of motor in the first working state, the main valve that produces motor rises curve; When needs produce Auxiliary valves and rise curve, by coordinating of spring and pressure fluid in fluid passage, the combination of spin or driven plunger or spin and driven plunger is movable to the second station, make the valve actuation system of motor in the second working state, the Auxiliary valves that produces motor rises curve.

The present invention and prior art are compared, and its effect is actively with obvious.The present invention does not need to adopt hydraulic braking control valve, has simplified design, has reduced cost, has reduced reaction time; Do not adopt liquid to bear brake load, the leakage, distortion and the load fluctuation that do not have high oil pressure and high oil temperature to cause, brake valve rises the impact that is not subject to oil temperature, oil pressure and air content, and brake valve rises can obtain less value, reduces the requirement to engine piston and valve clearance; The present invention simultaneously also can become one with motor, thereby reduces height, the volume and weight of engine brake.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the first embodiment of the present invention when " pass " position.

Fig. 2 is the schematic diagram of the first embodiment of the present invention when " opening " position.

Fig. 3 is the schematic diagram of the second embodiment of the present invention when " pass " position.

Fig. 4 is the schematic diagram of the second embodiment of the present invention when " opening " position.

Fig. 5 is the schematic diagram of the third embodiment of the present invention when " pass " position.

Fig. 6 is the schematic diagram of the third embodiment of the present invention when " opening " position.

Fig. 7 is the schematic diagram of the fourth embodiment of the present invention when " pass " position.

Fig. 8 is the schematic diagram of the fourth embodiment of the present invention when " opening " position.

Fig. 9 is an application schematic diagram of the fourth embodiment of the present invention.

Figure 10 is the schematic diagram of the fifth embodiment of the present invention when " pass " position.

Figure 11 is the schematic diagram of the fifth embodiment of the present invention when " opening " position.

Figure 12 is the schematic diagram of the sixth embodiment of the present invention when " pass " position.

Figure 13 is the schematic diagram of the sixth embodiment of the present invention when " opening " position.

Embodiment

Embodiment 1:

As depicted in figs. 1 and 2, solid chain type engine braking device 100 of the present invention, consists of braking casing 2102, driving mechanism and an arrestment mechanism.In braking casing 2102, be provided with crossing vertical blind hole 190 and horizontal blind hole 260, driving mechanism comprises driven plunger 164 and spin 175, driven plunger 164 forms Fluid Sealing with horizontal blind hole 260, and described driven plunger one end contacts with described spin, forms and coordinates; Arrestment mechanism comprises spool 160.Driven plunger 164 and spin 175 are positioned at the horizontal blind hole 260 of braking casing 2102, usually by return spring 156, push the left side to, rest on the end face 246 of piston hole 260, as shown in Figure 1.One end of return spring 156 is positioned in the spin 175 of driving mechanism, and the other end is positioned on spring seat 158, and spring seat 158 is by back-up ring 157 location that are fixed on braking casing 2102, and spring seat 158 is provided with draining hole 168.Spool 160 is positioned at the vertical blind hole 190 of braking casing 2102, and its upper end is provided with braking transitional surface 126 and braking stress surface 128.Braking transitional surface 126 is conical surface.Braking transition 126 faces can be also plane (comprising step surface and inclined-plane), arc surface, cylndrical surface, sphere or obtain combinating face by above-mentioned two or more Surface forming.Equally, braking stress surface 128 can be plane (comprising step surface and inclined-plane), conical surface, arc surface, cylndrical surface, sphere or obtain combinating face by above-mentioned two or more Surface forming.Spool 160 lower ends are provided with one end of brake spring 177, and the other end of brake spring is fixed on braking casing 2102 by screw 179.Under the effect of spring 177, the braking transitional surface 126 of spool 160 rests in the lower right sides of spin 175, as shown in Figure 1.

Arrestment mechanism also comprises the stop bit mechanism of spool 160, by being fixed on fixing pin 142 in brake box and the position-arresting groove 137 on spool 160, forms.Stop bit mechanism can also adopt the multiple different modes such as step surface.

The working procedure of the present embodiment is: when needs motor is converted to engine braking state (Fig. 2) from normal working (Fig. 1), engine braking control mechanism (not shown) is opened fuel feeding, machine oil is by brake fluid networking, comprise the fluid passage 214 in braking casing 2102, flow to the driving mechanism of solid chain type engine braking device 100.Oil pressure overcomes the active force of return spring 156, driven plunger 164 and spin 175 are pushed away to the right, the braking transitional surface 126 of spin 175 compressing spool 160 upper ends, overcome the load of brake spring 177, spool 160 is pushed away downwards from vertical blind hole 190 is interior, from off position, become operating position.Meanwhile, spin 175 has moved on to braking stress surface 128(Fig. 2 from the braking transitional surface 126 of spool 160 upper ends).

When not needing engine braking, engine braking control mechanism cuts out draining, and driven plunger 164 and spin 175 are not subject to the effect of oil pressure, under the effect of return spring 156, to moving to left, rests on the left side 246 of horizontal blind hole 260.Spool 160 is vertically upwards contracting in blind hole 190 under the effect of brake spring 177, and the braking transitional surface 126 of upper end rests in the lower right sides of spin 175, gets back to off position (Fig. 1), separated with motor normal operation.

Embodiment 2:

As shown in Figure 3 and Figure 4, the present embodiment is in the improvement of implementing on 1 basis, and concrete driven plunger 164 and spin 175 by implementing in 1 become one.The left-hand component of driven plunger 164 is the piston of guiding with sealing, and the drive surface of right-hand component is that sphere 163(can be also the conical surface etc.).

Embodiment 3:

As shown in Figure 5 and Figure 6, the present embodiment is also the improvement on embodiment 1 basis, compare with embodiment 1, the present embodiment has been cancelled driven plunger, increased resetting piston 162, form Fluid Sealing with horizontal blind hole 260, it can be also the combined hole of a taper with discharge orifice 122 and 168(that resetting piston 162 is provided with decompression).Resetting piston 162 and return spring 156 cooperative actions, return spring 156 leans resetting piston 162 in spin 175, pushes down vent 122, guarantees that spin 175 is close to resetting piston 162 all the time.

The working procedure of the present embodiment is: when needs motor is converted to engine braking state when (as shown in Figure 6) from normal working (as shown in Figure 5), engine braking control mechanism (not shown) is opened fuel feeding, machine oil is by brake fluid networking, comprise the fluid passage 214 in braking casing 2102, flow to the driving mechanism of break 100.Oil pressure overcomes the active force of return spring 156, first promotes spin 175.Meanwhile, oil stream flows through spin (by the gap between ball and hole or axial oil groove, not shown in FIG.), oil pressure overcomes the load of brake spring 177, spool 160 is pushed away downwards from vertical blind hole 190 is interior, and the maximum stroke that spool 160 moves down is determined by stop bit mechanism (fixing pin 142 and position-arresting groove 137).Spin 175 is pressed against on resetting piston 162, moves right together, until resetting piston 162 rests on spring seat 158.Now, spin 175 has moved on on the braking action face 128 of spool 160 upper ends.And spool 160 is also to having moved down into operating position as shown in Figure 6.

When not needing engine braking, engine braking control mechanism cuts out draining, and resetting piston 162 and spin 175 are not subject to the effect of oil pressure, under the effect of return spring 156, to moving to left, rests on the left side 246 of horizontal blind hole 260.Spool 160 is vertically upwards moving in blind hole 190 under the effect of brake spring 177, and the braking transitional surface 126 of upper end rests in the lower right sides of spin 175, gets back to off position (Fig. 5), separated with motor normal operation.

Embodiment 4:

As shown in Figure 7, Figure 8 and Figure 9, the present embodiment is compared with embodiment 3, and the present embodiment has only increased braking valve clearance adjusting screw 1102, by locking nut 1052, is fixed on brake box 2102.The working principle of the present embodiment is similar to embodiment 3.

Fig. 9 is an applicating example schematic diagram of the present embodiment.The braking casing 2102 of engine brake 100 is a special-purpose brake rocker arm, is a part for the special-purpose exhaust valve actuation device 2002 of braking.Brake special-purpose exhaust valve actuation device 2002 and also comprise brake cam 2302, cam follower wheel 2352 and brake spring 1982,2302 of brake cams contain the small boss 232 and 233 being positioned on basic circle 2252, for engine braking.

The normal operation of engine exhaust valve by engine exhaust valve is or valve actuator 200 drives generation.Outlet valve is 200 to have a lot of parts, comprises cam 230, cam follower wheel 235, rocking arm 210, valve bridge 400, and outlet valve 300.Outlet valve 300 is biased in by engine air valve spring 310 on the valve seat 320 of engine cylinder-body 500, stops gas to flow between engine cylinder and outlet pipe 600.Rocking arm 210 is arranged on pitman arm shaft 205 rock typely, by the motion of cam 230, passes to outlet valve 300, and it is is periodically opened and closed.Also may there be miscellaneous part in outlet valve system, as valve clearance adjusting screw with resemble foot pad etc., for the purpose of concise and to the point, at this, economizes approximately.Cam 230 more than 225 has a large boss 220 at interior basic circle, produces main valve and rises curve, for normal engine operation.

When needs motor is converted to engine braking state from normal working, engine braking control mechanism (not shown) is opened fuel feeding, machine oil is by brake fluid networking, comprise the fluid passage 214 in fluid passage 211, radial hole 212 and the rocking arm in pitman arm shaft, flow to break 100.Oil pressure first, after overcome brake spring 177 on spool 160 and the load of return spring 156, spin 175 is pushed away to the right together with resetting piston 162.Spool 160 becomes extended position (as shown in Figure 8) from retracted position (as shown in Figure 7).The stroke of spool has been eliminated gap 132(between spool 160 and braking mandril 116 as shown in Figure 9), move through rocking arm 2102, braking valve clearance adjusting screw 1102, spin 175, spool 160 and braking mandril 116 that the small boss 232 and 233 of brake cam 2302 produces are delivered to outlet valve 3001, produce engine braking.

When not needing engine braking, engine braking control mechanism cuts out draining, spin 175 and resetting piston 162 are not subject to oil pressure, under the effect of return spring 156 to moving to left, spin 175 rests in end face 246(Fig. 7 of horizontal blind hole 260), spool 160 is vertically upwards being retracted into off position in blind hole 190, and between braking mandril 116, forms gap 132(as shown in Figure 9), make break 100 separated with motor normal operation.

The braking casing 2102 of engine brake 100, except special-purpose brake rocker arm, can also be the special-purpose brake box of overhead type, the valve bridge of the exhaust rocker arm of motor and motor.

Embodiment 5:

As shown in Figure 10 and Figure 11, the present embodiment is the improvement on embodiment 3 bases, driven plunger and spin and resetting piston are become one, the right-hand component of driven plunger 164 is the piston of guiding with sealing, it is connected with horizontal blind hole liquid sealing, the drive surface of left-hand component is that sphere (can be also plane (comprise step surface, inclined-plane, conical surface, arc surface, cylndrical surface or obtain combinating face by above-mentioned two or more Surface forming), middle part is sphere 163, can be also the conical surface.The working principle of the present embodiment is similar to embodiment 3, at this, no longer describes in detail.

Embodiment 6:

As shown in Figure 12 and Figure 13, the present embodiment is compared with embodiment 3, has increased a return spring 166, and one end of return spring 166 acts on braking casing 2102, and the other end acts in the spin 175 of driving mechanism.The load of return spring 166 is less than the load of return spring 156, and like this when there is no oil pressure, spin 175 is because the load of return spring 156 is greater than another return spring 166, and rests against on the step 246 of horizontal blind hole 260 left ends; Meanwhile, on resetting piston 162, do not reduce pressure and discharge orifice.The working principle of the present embodiment and embodiment 3 are roughly the same, at this, no longer describe in detail.

Above-mentioned explanation has comprised a lot of concrete mode of executions, and this should not be regarded as limitation of the scope of the invention, but as representing concrete illustrations more of the present invention, many other develop all and likely therefrom produce.For instance, the return spring and the brake spring that show here can be the various ways such as cylinder type, leaf type and wave mode, also can install or be positioned at different places.In addition, the stop bit mechanism of brake piston can be also other form.Therefore, scope of the present invention should not decided by above-mentioned concrete illustration, but is decided by affiliated claim and the suitable power of law thereof.

Claims (9)

1. an Auxiliary valves that is used for producing motor rises the solid chain mechanism of the machinery carrying of curve, described motor comprises the valve actuation system with two kinds of working staties: the main valve that the first working state produces motor rises curve, the Auxiliary valves that the second working state produces motor rises curve, it is characterized in that, the solid chain mechanism of described machinery carrying comprises:

The combination of spin or driven plunger or spin and driven plunger, the combination of described spin or driven plunger or spin and driven plunger can be moved between the first station and the second station, at described the first station, the solid chain mechanism of machinery carrying makes the described valve actuation system of motor in described the first working state, the described main valve that produces motor rises curve, at described the second station, the solid chain mechanism of described machinery carrying makes the valve actuation system of motor in the second working state, and the described Auxiliary valves that produces motor rises curve;

A spring and a fluid passage that is used to provide pressure fluid, described spring and pressure fluid act on respectively the both sides of the combination of described spin or driven plunger or spin and driven plunger, control it and switch between the first station and the second station.

2. the solid chain mechanism that machinery as claimed in claim 1 carries, it is characterized in that, the solid chain mechanism of described machinery carrying also comprises an actuating plunger, described actuating plunger has an off position and an operating position, described off position is corresponding with the first station of the combination of described spin or driven plunger or spin and driven plunger, the actuating plunger that is positioned at off position is inoperative to the valve of motor, described operating position is corresponding with the second station of the combination of spin or driven plunger or spin and driven plunger, be positioned at the actuating plunger of operating position and the valve of motor and form mechanical linkages.

3. the solid chain mechanism of machinery carrying as claimed in claim 1 or 2, is characterized in that, the solid chain mechanism of described machinery carrying is provided with stop bit mechanism, the stroke of actuating plunger described in described stop bit mechanics limit.

4. the solid chain mechanism that machinery as claimed in claim 1 carries, it is characterized in that, the solid chain mechanism of described machinery carrying also comprises an actuation spring, and described actuation spring offsets the combination of actuating plunger and described spin or driven plunger or spin and driven plunger.

5. the solid chain mechanism of machinery carrying as claimed in claim 1, is characterized in that, the valve of described motor is exhaust valve.

6. the solid chain mechanism of machinery carrying as claimed in claim 1, is characterized in that, the valve of described motor is intake valve.

7. an Auxiliary valves that produces motor rises the method for curve, described motor comprises a valve actuation system, described valve actuation system has two kinds of working staties: the main valve that the first working state produces motor rises curve, the Auxiliary valves that the second working state produces motor rises curve, it is characterized in that, the described Auxiliary valves that described method adopts the solid chain mechanism of machinery carrying to produce motor rises curve, and the solid chain mechanism of described machinery carrying comprises:

The combination of spin or driven plunger or spin and driven plunger, the combination of described spin or driven plunger or spin and driven plunger can be moved between the first station and the second station; At described the first station, the solid chain mechanism of machinery carrying makes the valve actuation system of described motor in described the first working state, and the described main valve that produces motor rises curve; At described the second station, the solid chain mechanism of machinery carrying makes the valve actuation system of described motor in described the second working state, and the described Auxiliary valves that produces motor rises curve;

A spring and a fluid passage that is used to provide pressure fluid; Described method:

Utilize described spring and pressure fluid to act on respectively the combination of described spin or driven plunger or spin and driven plunger, control it switches between the first station and the second station, the valve actuation system of described motor is switched between described the first working state and the second working state, so that the described main valve of generation motor rises the described Auxiliary valves of curve or motor, rises curve.

8. a kind of Auxiliary valves that produces motor as claimed in claim 7 rises the method for curve, it is characterized in that, described method comprises the steps:

1) utilize described spring that the combination of described spin or driven plunger or spin and driven plunger is moved on to the second station from the first station, the valve mechanical linkages of described solid chain mechanism and motor, produces described Auxiliary valves by the valve of solid chain mechanism control engine and rises curve;

2) utilize described pressure fluid that the combination of described spin or driven plunger or spin and driven plunger is moved on to the first station from the second station, described solid chain mechanism is inoperative to the valve of motor, produces described main valve rise curve by the valve of main valve actuator control engine.

9. a kind of Auxiliary valves that produces motor as claimed in claim 7 rises the method for curve, it is characterized in that, described method comprises the steps:

1) utilize described pressure fluid that the combination of described spin or driven plunger or spin and driven plunger is moved on to the second station from the first station, the described valve mechanical linkages of consolidating chain mechanism and motor, produces Auxiliary valves by the described valve of consolidating chain mechanism control engine and rises curve;

2) utilize described spring that the combination of described spin or driven plunger or spin and driven plunger is moved on to the first station from the second station, described solid chain mechanism is inoperative to the valve of motor, produces main valve rise curve by the valve of described main valve actuator control engine.

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