CN201129211Y - Quasi free-piston straight-line electric generating set - Google Patents

Abstract

The utility model discloses a quasi-free piston straight line electric generating set, which solves problem that the existing power free piston engine is complicated in structure, unreliable in operation and the like, and the quasi-free piston straight line electric generating set has the advantages of simple structure, convenient using, fine reliability of operation and the like. The quasi-free piston straight line electric generating set is characterized in that the quasi-free piston straight line electric generating set comprises at least one electric generating unit, a corresponding fuel supplying system, a corresponding gas inlet system and a corresponding gas outlet system, the electric generating unit is a linkage electric generating unit formed by a cylinder-piston group which moves relative to the straight line, wherein the cylinder and the piston are engaged with each other, an electric generator rotor is connected with a movable member of the linkage electric generating unit, an electric generator stator and a winding are connected with a fixing member of the linkage electric generating unit, simultaneously a stop member which limits the stroke of the movable member is arranged at a dead point of the linkage electric generating unit, and the electric generator stator and the winding are utilized as a power output end.

Description

The semi-free piston linear generator set

Technical field

The utility model belongs to the technology of the heat energy of internal combustion type power plant to the electric energy conversion, relates in particular to a kind of semi-free piston linear generator set.

Background technique

Traditional internal-combustion engine-generator set, at first piston-cylinder the part by piston internal-combustion engine is the past complex line machine power of piston with the thermal power transfer that fuel combustion discharges, partly the past complex line machine power of piston is converted to rotating machinery power by crank-link mechanism again, then with these rotating machinery power some medium taches of process such as coupling, transfer case etc., the conversion of mechanokinetic transmission, shunting and kinetic parameter is converted to electric power by rotary generator with mechanical energy at last.This group shot is widely used, but has following significantly drawback: 1. by two independently energy conversion unit---internal-combustion piston engine, rotary generators, combine by the intermediate connecting ring joint.Heat energy is long to the conversion and the transfer route of electric power, and efficient is low, and energy dissipation is serious.2. owing to piston in the system directly links to each other with connecting rod, the piston lateral force that the swing of connecting rod causes is bigger, has not only caused the mechanical efficiency loss, has caused wearing and tearing and extra heat load between piston and casing wall simultaneously; 3. connecting rod participates in the transmission and the conversion of whole power, connecting rod be subjected to force intensity big, the frictional loss at each articulating point place is serious, the ricing of system running is big.4. crankshaft rod system complexity, heaviness, waste of raw materials is serious, cost of production and operating cost height.

The more above-mentioned traditional internal-combustion engine of electric power free-piston engine EFPE-generator set assembly system has had a lot of improvement.By linear electric generator, realize of conversion and the output of piston linear mechanical energy to electric energy.But itself there is more technical problem in the EFPE scheme:

1. start-up system complexity, subsystem drives difficulty, is difficult to realize regularly, co-ordination; 4 stroke mode of operations, multi-cylinder interlock are difficult to realize.

2. do not have fixedly stop, no fixed journey system, alterable compression ratio is though realize that easily operating mode stability is difficult to control by adjusting the combustion process that compression recently improves motor; In order to pursue efficient low-discharging, require accurate control simultaneously, cause control system comparatively complicated, be difficult to solve compression ratio.

3. the supply timing complex structure of fuel causes the control of compression ratio, firing pressure etc. to become uncertain, and the fuel delivery per cycle control accuracy also requires much higher than conventional engines, thus the difficulty of bringing fuel oil supply system to make.

4. the kinetic characteristic of moving element is a non-sinusoidal nature, piston motion is asymmetric near the dead center position, and braking section is longer than accelerating sections, compare with legacy system, variation has taken place in heat energy-mechanical energy and mechanical energy-power conversions environment, transfer process is brought influence, be difficult to directly realize the performance characteristic and the performance of legacy system.

5. under top speed the same terms, has bigger acceleration.Because structural imbalance, cause the reciprocal inertia force can not homeostasis, cause system works to impact and unstability increases, the vibration problem that causes thus need take additional means to solve;

6. owing to piston " freedom ", so the speed governing difficulty; Because of there not being wheel action engine misses phenomenon serious, cause the functional reliability variation of motor.

Summary of the invention

The purpose of this utility model is exactly in order to address the above problem, provide a kind of have simple in structure, easy to use, the semi-free piston linear generator set of advantages such as engine operation good reliability.

For achieving the above object, the utility model adopts following technological scheme:

A kind of semi-free piston linear generator set, it comprises at least one generator unit, and corresponding fuel supply, air inlet system and exhaust system, described generator unit is by the interlock generator unit that cooperatively interacts and the cylinder-piston set of linear relative movement constitutes, the generator mover is connected with the movement parts of interlock generator unit, and generator unit stator then is connected with the fixed block of interlock generator unit with winding; What constraint movement parts stroke was arranged at the motion stop place of interlock generator unit simultaneously ends part admittedly; Generator unit stator and winding are as power output end.

Described generator unit has a plurality of, is connected in parallel to each other.

Described generator unit is made up of four internal combustion formula cylinder-pistons and annex thereof, its fixed block comprises first cylinder, second cylinder, the 3rd cylinder and the four-cylinder that is installed in successively on the supporting piece, generator unit stator and winding are installed in propping up on the supporting piece between second cylinder and the 3rd cylinder, with respect to the axle center symmetry, each cylinder and generator unit stator and winding are on same axis; Wherein be first firing chamber in first cylinder, the second cylinder head side of second cylinder is second firing chamber, and the 3rd cylinder head side of the 3rd cylinder is the 3rd firing chamber, is the 4th firing chamber in the four-cylinder;

The movement parts of generator unit comprises a power output framework, the generator mover that installation in the middle cooperates with generator unit stator and winding, it is with respect to the axle center symmetry, be respectively equipped with the mover axle at the two ends of power output framework, mover axle two ends connect first piston respectively and second piston is dumbbell shape, and another mover axle connects the 3rd piston and the 4th piston also is dumbbell shape; Each piston-cylinder of fixed block and movement parts is corresponding separately to be installed;

Separate the air khiva that constitutes admittedly end part and be second cylinder and the 3rd cylinder with cylinder head opposite side separately and by piston, auxiliary port is arranged at air khiva bottom, and its inside forms air cushion when Piston Compression, and the retardation motion part moves.

Described generator unit is made up of four internal combustion formula cylinder-pistons and annex thereof, its fixed block comprises first cylinder, the second fixed plug, the 3rd fixed plug, the four-cylinder that is installed in successively on the supporting piece, generator unit stator and winding are installed on the supporting piece between first cylinder and the second fixed plug, another generator unit stator and winding are installed in propping up on the supporting piece between the 3rd fixed plug and four-cylinder, two motor stators and winding are with respect to the axle center symmetry, and each cylinder, piston and generator unit stator and winding are on same axis; Wherein the first cylinder head side of first cylinder is first firing chamber, and the 4th cylinder head side of four-cylinder is the 4th firing chamber;

The movement parts of generator unit comprises a power output framework, is respectively second cylinder and the 3rd cylinder at its two ends, and second cylinder is connected with the mover axle simultaneously, is provided with a generator mover with the second cylinder connecting end on the mover axle, and the other end is a first piston; The 3rd cylinder is connected with another mover axle, and this mover axle and the 3rd cylinder connecting end are provided with another generator mover, and the other end is the 4th piston, and two generator movers are with respect to the axle center symmetry; Each piston in fixed block and the movement parts, cylinder correspondence respectively are installed together;

Separate the air khiva that constitutes admittedly end part and be first cylinder and four-cylinder with cylinder head opposite side separately and by piston, auxiliary port is arranged at air khiva bottom, and its inside forms air cushion when Piston Compression, and the retardation motion part moves.

Each firing chamber can have identical diameter, stroke and compression ratio.Air khiva in the same cylinder and firing chamber diameter are reducing or directly all can together.

Auxiliary timing mechanism is installed on the described fixed block, and it comprises and the corresponding dead center sensor of air khiva, inlet and exhaust valve driving mechanism.

Generator unit of the present utility model adopts 4 internal combustion type piston-cylinder structures.Certain 4 cylinder-piston structures also can have identical diameter, stroke and compression ratio, and identical fuel supply and inlet and exhaust system are arranged.Each piston in fixed block and the movement parts, cylinder correspondence respectively are installed together; Moving element axially connects into an integral body along it, and retainer shaft is to symmetrical configuration.In 4 piston-cylinder structures, having 2, to have auxiliary piston-cylinder structure near the motion stop be the air khiva, and air khiva in the same cylinder and firing chamber diameter are reducing or all can with the footpath.In the confined space that the air khiva forms, under piston action, form air adiabatic compression process---air cushion.This air khiva is used for the confined piston stroke, cushions translational energy simultaneously.

Moving element can be a piston, also can be cylinder block.Can be called the piston structure form, decide the plug structure form.

In the piston structure form, at first adopt two reverse opposed internal combustion type piston-cylinder structures, by straight line mover axle two pistons are connected into an integral body, constitute a dumbbell shape moving element of mover axle two ends symmetry.Then two groups of dumbbell shape moving elements are connected and fixed by the power output framework, form 4 piston motion parts of interlock generator unit.The generator mover that cooperates with generator unit stator and winding in the installation of the middle part of power output framework, it is with respect to the axle center symmetry, be respectively equipped with the mover axle at the two ends of power output framework, mover axle two ends connect first piston respectively and second piston is dumbbell shape, and another mover axle connects the 3rd piston and the 4th piston also is dumbbell shape;

Under the piston structure form, fixed block comprises first cylinder, second cylinder, the 3rd cylinder and the four-cylinder that is installed in successively on the supporting piece, generator unit stator and winding are installed in propping up on the supporting piece between second cylinder and the 3rd cylinder, with respect to the axle center symmetry, each cylinder and generator unit stator and winding are on same axis; Wherein be first firing chamber in first cylinder, the second cylinder head side of second cylinder is second firing chamber, and the 3rd cylinder head side of the 3rd cylinder is the 3rd firing chamber, is the 4th firing chamber in the four-cylinder; Each piston-cylinder of fixed block and movement parts is corresponding separately to be installed;

Under the piston structure form, separate the air khiva that constitutes admittedly to end part be second cylinder and the 3rd cylinder with cylinder head opposite side separately and by piston, auxiliary port is arranged at air khiva bottom, and its inside forms air cushion when Piston Compression, and the retardation motion part moves.

In the generator unit of deciding the plug structure form, four internal combustion formula cylinder-pistons and annex thereof also are divided into two groups, and two internal combustion type piston-cylinder structures in every group are equidirectional along putting, and link together by the mover axle.For the rationality that connects, one of them structural change is the form of fixed piston-moving cylinder.The moving cylinder of two groups of said structures connects by the power output framework, and promptly the order of connection is followed successively by first piston, mover axle, second cylinder, power output framework, the 3rd cylinder, mover axle, the 4th piston.Movement parts also comprises the generator mover that is fixed on the mover axle, and is whole with respect to the axle center symmetry.

Deciding under the plug structure form, its fixed block comprises first cylinder, the second fixed plug, the 3rd fixed plug, the four-cylinder that is installed in successively on the supporting piece; Generator unit stator and winding are installed on the supporting piece between first cylinder and the second fixed plug, and another generator unit stator and winding are installed on the supporting piece between the 3rd fixed plug and four-cylinder; Each cylinder, piston and generator unit stator and winding are with respect to same axis axle center symmetry; Wherein the first cylinder head side of first cylinder is first firing chamber, and the 4th cylinder head side of four-cylinder is the 4th firing chamber;

Deciding under the plug structure form, separating the air khiva that constitutes admittedly to end part be first cylinder and four-cylinder with cylinder head opposite side separately and by piston, auxiliary port is arranged at air khiva bottom, and its inside forms air cushion when Piston Compression, and the retardation motion part moves.

Auxiliary timing mechanism is installed on the described fixed block, and it comprises and the corresponding dead center sensor of air khiva, inlet and exhaust valve driving mechanism.By matching with motion parts, along with the stroke of olinear motion part, auxiliary system is moved respectively, guarantees that each cylinder-piston structure is according to A air inlet, B compression (igniting), C acting, four stroke tissue burnings of D exhaust.Port timing makes 4 pistons-cylinder structure acting phase place of interlock unit be respectively 0 degree, 90 degree, 180 degree and 270 degree.Each piston-cylinder structure does work once in turn in 4 stroke cycle.

Linear electric motor are arranged in the correct position of moving element, and keep axially symmetry of whole olinear motion part, its staor winding output induction current.Described generator unit can a plurality ofly be connected in parallel to each other, and its electric current forms direct current output bus through after adjusting.

Under the state of starting operating, generator set controller detects the phase place of motion parts, and the control linear electric generator perhaps adds actuating motor as actuating motor, uses the energy of battery to drive parts moving linearly.And drive timing auxiliary system and fuel supply, air inlet system and exhaust system, form starting process and set up work cycle.

The beneficial effects of the utility model are:

At first, adopt auxiliary piston-cylinder structure confined piston stroke, realize fixedly stop, fixed journey system.Timing and fuel supply control system are simple.Start-up system, subsystem drive to be simplified.

Secondly, adopt the burning of single-cylinder four-stroke tissue, each stroke that the four cylinders interlock generator unit of 1 piston acting is arranged.Overcome because the flame-out problem that does not have flywheel to cause solves the engine operation poor reliability problem that flame-out phenomenon causes.

The 3rd, adopt fixing compression ratio, existing burning design theory can be suitable for, and has solved the difficult problem of operating mode stability, efficient low-discharging.

The 4th, the interlock unit adopts the direct current power output form, overcomes the non-sine kinetic characteristic owing to moving element, the performance puzzlement that heat energy-mechanical energy and mechanical energy-the power conversions characteristic variations causes.

The 5th, adopt direct current output bus, a plurality of generator units can be in parallel, forms high-power unit.Generator unit can independent startup or parking, has part power delivery efficiency height, characteristics that can fault-tolerant operation.

Description of drawings

Fig. 1 is first embodiment's a general assembly drawing;

Fig. 2 is first embodiment's an anchor structure schematic representation;

Fig. 3 is first embodiment's a movement parts structural representation;

Fig. 4 is second embodiment's a general assembly drawing;

Fig. 5 is second embodiment's an anchor structure schematic representation;

Fig. 6 is second embodiment's a movement parts structural representation.

Wherein, 1. the 4th cylinder head, 2. first firing chamber, 3. first cylinder, 4. air khiva, 5. generator unit stator and winding, 6. second firing chamber, 7. second cylinder, 8. fixed plug, 9. the 3rd cylinder, 10. the 3rd firing chamber, 11. four-cylinders, 12. the 4th firing chamber, 13. first cylinder heads, 14. auxiliary ports, 15. the generator mover, 16. mover axles, 17. second cylinder heads, 18. a supporting piece, 19. the 3rd cylinder heads, 20. the 3rd pistons, 21. the 4th piston, 22. first piston, 23. power output frameworks, 24. second pistons, 25. the second fixed plug, 26. the 3rd fixed plugs.

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is described further.

Embodiment 1:

The interlock generator unit of piston structure form is exemplified below.

Among Fig. 2, first cylinder 3, second cylinder 7, the 3rd cylinder 9 and four-cylinder 11 axially are installed on the supporting piece 18 with one heart.First cylinder head 13 and the 4th cylinder head 1 be (shown in Fig. 2 respectively to the left, right side) toward the outer side, and second cylinder head 17 is relative with the 3rd cylinder head 19, near generator unit stator and winding 5.The afterbody of second cylinder 7 and the 3rd cylinder 9 is air cushion chamber 4 and related sealing and auxiliary port 14 respectively.Generator unit stator and winding 5 also are installed on the supporting piece 18, and it is with respect to the cylinder-bore axis symmetry, and are positioned at the axial centre of whole device.

Shown in the accompanying drawing 3, the first piston 22 and second piston 24 fuse by mover axle 16; Similarly, the 3rd piston 20 and the 4th piston 21 also fuse by mover axle 16.The two ends of power output framework 23 connect two mover axles 16 respectively, and generator mover 15 is installed in the axial centre position of power output framework 23, and power output framework 23 connects to integral body with 4 pistons, generator mover, constitute olinear motion part.

Shown in the accompanying drawing 1, first cylinder 3 and first piston 22 cooperate, and form first firing chamber 2; Second cylinder 7 and second piston 24 cooperate, and form second firing chamber 6; The 3rd cylinder 9 and the 3rd piston 20 cooperate, and form the 3rd firing chamber 10; Four-cylinder 11 and the 4th piston 21 cooperate, and form the 4th firing chamber 12.Power output framework 23 is around the part of second, third cylinder.It is circumferential not to be closed, shown in dotted line, allows a supporting piece 18 to pass its stationary housing, and does not influence the straight line motion of this framework.Similar, the relevant parts of fuel supply and air inlet/vent systems also pass this framework and do not influence its straight line motion.

The summary of the working procedure of generator unit shown in the accompanying drawing 1 is:

Motion parts is positioned at high order end (first and third cylinder top dead center, second, four cylinder lower dead center), begins to move right (first stroke), first cylinder head 13 is carried out aspirating stroke A, second cylinder head 17 is carried out compression stroke B, and the 3rd cylinder head 19 is carried out expansion stroke C, and the 4th cylinder head 1 is carried out exhaust stroke D; The 3rd piston 20 is descending cross auxiliary port 14 after, form confined air air chamber 4 in the bottom of the 3rd cylinder 9, motion parts compression this airtight air, owing to positice ground effect, motion parts stop motion immediately (arrival stop).

Motion parts is to left movement (second stroke), and first cylinder head 13 is carried out compression stroke B, and second cylinder head 17 is carried out expansion stroke C, and the 3rd cylinder head 19 is carried out exhaust stroke D, and the 4th cylinder head 1 is carried out aspirating stroke A; Second piston 24 is descending cross auxiliary port 14 after, form confined air air chamber 4 in the bottom of second cylinder 7, motion parts compression this airtight air, owing to positice ground effect, motion parts stop motion immediately (arrival stop).

Motion parts moves right (the 3rd stroke), and first cylinder head 13 is carried out expansion stroke C, and second cylinder head 17 is carried out exhaust stroke D, and the 3rd cylinder head 19 is carried out aspirating stroke A, and the 4th cylinder head 1 is carried out compression stroke B; The 3rd piston 20 is descending cross auxiliary port 14 after, form confined air air chamber 4 in the bottom of the 3rd cylinder 9, motion parts compression this airtight air, owing to positice ground effect, motion parts stop motion immediately (arrival stop).

Motion parts is to left movement (four-stroke), and first cylinder head 13 is carried out exhaust stroke D, and second cylinder head 17 is carried out aspirating stroke A, and the 3rd cylinder head 19 is carried out compression stroke B, and the 4th cylinder head 1 is carried out expansion stroke C; Second piston 24 is descending cross auxiliary port 14 after, form confined air air chamber 4 in the bottom of second cylinder 7, motion parts compression this airtight air, owing to positice ground effect, motion parts stop motion immediately (arrival stop).

Four cylinders are got angry in turn, and order is 3-2-1-4.

Embodiment 2:

Decide being exemplified below of interlock generator unit of plug structure form.

Shown in the accompanying drawing 5, fill in 8 surely and comprise that second fills in the 25 and the 3rd surely and fill in 26 surely, they are installed on the supporting piece 18 between two generator unit stators and the winding 5.Surely fill in appurtenances such as second firing chamber 6 and the 3rd firing chamber 10 needed air flues, valve, igniting are installed on 8.The afterbody of first cylinder 3 and four-cylinder 11 has auxiliary cylinder chamber 4 related sealing configuration and auxiliary port 14 respectively.Generator unit stator and winding 5 also are installed on the supporting piece 18, and it is divided into 2 parts and corresponding with mover axle 16 respectively with respect to the cylinder-bore axis symmetry.

Shown in the accompanying drawing 6, two generator movers 15 are installed on the two ends of power output framework 23 by mover axle 16 respectively, and generator unit stator and winding 5 also are positioned at the axial centre of whole device, and are fixed on the supporting piece 18.First piston 22 is connected and fixed by mover axle 16 and second cylinder, 7 one ends, forms the part of moving element.The 4th piston 21 is connected and fixed by mover axle 16 and the 3rd cylinder 9 one ends, forms another part of moving element.Power output framework 23 two ends connect second cylinder 7 and the 3rd cylinder 9 respectively.Generator mover 15 is installed in respectively on the two mover axles 16.

Shown in the accompanying drawing 4, first cylinder 3 and first piston 22 cooperate, and form first firing chamber 2; Second cylinder 7 and second is filled in 25 surely and is cooperated, and forms second firing chamber 6; The 3rd cylinder 9 and the 3rd is filled in 26 surely and is cooperated, and forms the 3rd firing chamber 10; Four-cylinder 11 and the 4th piston 21 cooperate, and form the 4th firing chamber 12.Power output framework 23 is around the part of second, third cylinder, and it is circumferential not to be closed, shown in dotted line, allows a supporting piece 18 to pass its stationary housing, and does not influence the straight line motion of this framework.Similar, the relevant parts of fuel supply and air inlet/vent systems also pass this framework and do not influence its straight line motion.

Cylinder-piston the annex and other correlation technique that do not describe in detail in the utility model are known technology, repeat no more.

Claims (5)

1, a kind of semi-free piston linear generator set, it comprises at least one generator unit, and corresponding fuel supply, air inlet system and exhaust system, it is characterized in that: described generator unit is by the interlock generator unit that cooperatively interacts and the cylinder-piston set of linear relative movement constitutes, generator mover (15) is connected with the movement parts of interlock generator unit, and generator unit stator then is connected with the fixed block of interlock generator unit with winding (5); What constraint movement parts stroke was arranged at the motion stop place of interlock generator unit simultaneously ends part admittedly; Generator unit stator and winding (5) are as power output end.

2, semi-free piston linear generator set according to claim 1, it is characterized in that: described generator unit has a plurality of, is connected in parallel to each other.

3, semi-free piston linear generator set according to claim 1, it is characterized in that: described generator unit is made up of four internal combustion formula cylinder-pistons and annex thereof, its fixed block comprises first cylinder (3), second cylinder (7), the 3rd cylinder (9) and the four-cylinder (11) that is installed in successively on the supporting piece (18), generator unit stator and winding (5) are installed in propping up on the supporting piece (18) between second cylinder (7) and the 3rd cylinder (9), with respect to the axle center symmetry, each cylinder and generator unit stator and winding (5) are on same axis; Wherein in first cylinder (3) first firing chamber (2), second cylinder head (17) side of second cylinder (7) is second firing chamber (6), the 3rd cylinder head (19) side of the 3rd cylinder (9) is the 3rd firing chamber (10), is the 4th firing chamber (12) in the four-cylinder (11);

The movement parts of generator unit comprises a power output framework (23), the generator mover (15) that installation in the middle cooperates with generator unit stator and winding (5), it is with respect to the axle center symmetry, be respectively equipped with mover axle (16) at the two ends of power output framework (23), mover axle (16) two ends connect first piston (22) respectively and second piston (24) is dumbbell shape, and another mover axle (16) connects the 3rd piston (20) and the 4th piston (21) also is dumbbell shape; Each piston-cylinder of fixed block and movement parts is corresponding separately to be installed;

Separate the air khiva (4) that constitutes admittedly end part and be second cylinder (7) and the 3rd cylinder (9) with cylinder head opposite side separately and by piston, auxiliary port (14) is arranged at air khiva (4) bottom, and its inside forms air cushion when Piston Compression, and the retardation motion part moves.

4, semi-free piston linear generator set according to claim 1, it is characterized in that: described generator unit is made up of four internal combustion formula cylinder-pistons and annex thereof, its fixed block comprises first cylinder (3) that is installed in successively on the supporting piece (18), the second fixed plug (25), the 3rd fixed plug (26), four-cylinder (11), generator unit stator and winding (5) are installed on the supporting piece (18) between first cylinder (3) and the second fixed plug (25), another generator unit stator and winding (5) are installed in propping up on the supporting piece (18) between the 3rd fixed plug (26) and four-cylinder (11), two motor stators and winding (5) be with respect to the axle center symmetry, each cylinder, piston and generator unit stator and winding (5) are on same axis; Wherein first cylinder head (13) side of first cylinder (3) is first firing chamber (2), and the 4th cylinder head (1) side of four-cylinder (11) is the 4th firing chamber (12);

The movement parts of generator unit comprises a power output framework (23), be respectively second cylinder (7) and the 3rd cylinder (9) at its two ends, second cylinder (7) is connected with mover axle (16) simultaneously, mover axle (16) is gone up with second cylinder (7) connecting end and is provided with a generator mover (15), and the other end is first piston (22); The 3rd cylinder (9) is connected with another mover axle (16), and this mover axle (16) is provided with another generator mover (15) with the 3rd cylinder (9) connecting end, and the other end is the 4th piston (21), and two generator movers (15) are with respect to the axle center symmetry; Each piston in fixed block and the movement parts, cylinder correspondence respectively are installed together;

Separate the air khiva (4) that constitutes admittedly end part and be first cylinder (3) and four-cylinder (11) with cylinder head opposite side separately and by piston, auxiliary port (14) is arranged at air khiva (4) bottom, and its inside forms air cushion when Piston Compression, and the retardation motion part moves.

5, according to claim 3 or 4 described semi-free piston linear generator set, it is characterized in that: auxiliary timing mechanism is installed on the described fixed block, and it comprises and the corresponding dead center sensor of air khiva (4), inlet and exhaust valve driving mechanism.

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