CN206942811U - Rotating engine - Google Patents
Rotating engine Download PDFInfo
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- CN206942811U CN206942811U CN201720577546.2U CN201720577546U CN206942811U CN 206942811 U CN206942811 U CN 206942811U CN 201720577546 U CN201720577546 U CN 201720577546U CN 206942811 U CN206942811 U CN 206942811U
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- 230000006835 compression Effects 0.000 claims abstract description 40
- 238000007906 compression Methods 0.000 claims abstract description 40
- 238000007789 sealing Methods 0.000 claims description 24
- 238000003780 insertion Methods 0.000 claims description 11
- 230000037431 insertion Effects 0.000 claims description 11
- 230000033001 locomotion Effects 0.000 claims description 10
- 230000001360 synchronised effect Effects 0.000 claims description 10
- 230000005520 electrodynamics Effects 0.000 claims description 5
- 238000002347 injection Methods 0.000 claims description 4
- 239000007924 injection Substances 0.000 claims description 4
- 239000007787 solid Substances 0.000 claims description 3
- 230000032258 transport Effects 0.000 claims 1
- 238000005273 aeration Methods 0.000 abstract description 12
- 230000000694 effects Effects 0.000 abstract description 7
- 238000010586 diagram Methods 0.000 description 13
- 210000003739 neck Anatomy 0.000 description 5
- 230000008602 contraction Effects 0.000 description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 239000012530 fluid Substances 0.000 description 2
- 230000006870 function Effects 0.000 description 2
- 230000008520 organization Effects 0.000 description 2
- 239000000243 solution Substances 0.000 description 2
- 230000005540 biological transmission Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000008450 motivation Effects 0.000 description 1
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Abstract
It the utility model is related to a kind of new-type steam power engine, specially rotating engine.Including cylinder body, compression moving cell, movable valve, the cylinder body is fixed on base, inside set annular or circular inner chamber, output shaft is arranged in cylinder body, rotatably, on cylinder body sets a mounting hole, load movable valve, connected with the inner chamber of cylinder body, the valve element of movable valve and with cylinder body mounting hole tolerance fit, it is movable that inner chamber of cylinder block is passed in and out by casing wall.Air inlet and exhaust outlet are respectively arranged with the movable valve, for entering cylinder inner cavity to inner chamber of cylinder block aeration and exhaust, external air inlet pipe by air inlet connection, inputting high pressure draught.Output shaft is connected with the compression moving cell of evagination.High pressure draught is poured into, the rotation of compression moving cell is promoted, is exported and done work by output shaft.Movable valve also acts as choke effect on cylinder body, makes to pour into gas to same direction circulation, forms unidirectional continuous flow, more efficient, noise is small.
Description
Technical field
It the utility model is related to a kind of new-type steam power engine, specially rotating engine.
Background technology
Engine is widely used as PTO.Engine main body is made up of cylinder and piston, and traditional starts
Machine is moved reciprocatingly and produces power output in the cylinder by piston.The defects of this structure be operation when piston and cylinder produce compared with
Operationally there is dead point in strong friction, piston, and most of energy has been lost, and constrain the efficiency of engine.Secondly, it is existing
The general noise of engine is larger, and effect on environment is very big.
The content of the invention
In order to solve the problems, such as that existing structure engine efficiency is low, a kind of engine of Novel structure is devised, improves hair
Motivation efficiency.
Rotating engine, including cylinder body, output shaft, compression moving cell, movable valve, the cylinder body are fixed on base
On, annular or circular inner chamber are inside set, output shaft is arranged in cylinder body, and rotatably, its axostylus axostyle is passed outside cylinder body;Set on cylinder body
One mounting hole, load movable valve, the movable valve is made up of valve casing and the valve element in it, and valve casing is located at outside cylinder body
Wall, the mounting hole of closed cylinder, valve element can slide in valve casing, and connect with the inner chamber of cylinder body and match somebody with somebody with cylinder body mounting hole tolerance
Close, it is movable that inner chamber of cylinder block is passed in and out by casing wall;Air inlet and exhaust outlet are provided with the movable valve, the output shaft connects
The compression moving cell of evagination is connected to, compression moving cell is located in inner chamber of cylinder block;The valve element disengaging cylinder body of the movable valve
Inner chamber is stretched by the mechanical braking arrangement or electrodynamic braking mechanism of its connection passes in and out inner chamber of cylinder block, when valve element is put in cylinder body
Chamber, air inlet are located in cylinder, pour into high pressure draught, promote the rotation of compression moving cell, compression moving cell turns to close
When at spool position, valve element is pulled out into inner chamber of cylinder block, avoids compression moving cell, while air inlet is moved into place in inboard wall of cylinder block
Position is closed.
It is described that rotating disc, rotating disc outer rim connection compression moving cell are provided with the output shaft of inner chamber of cylinder block.
Further, the mechanical braking arrangement is to be provided with curve track on output shaft, and curve track is embedded in a company
Extension bar, the valve element of the other end connection movable valve of connecting rod, output shaft rotation, connecting rod are moved by orbital position, will connected
Valve element insertion or pull out inner chamber of cylinder block.In initial active valve insertion inner chamber, aeration, which promotes, rotates disc spins, output shaft synchronous
Rotation, connecting rod move according to the track of curve track, the valve element of movable valve are pulled out, insertion inner chamber.
Described electrodynamic braking mechanism, electric pushrod class motor can be used, realizes extension and contraction control.
Further, air intake duct is provided with the valve element, air intake duct communicates with air inlet, for draining the height of air inlet
In pressure gas stream injection cylinder body, compressing compression moving cell rotation, synchronous drive output shaft rotary motion.
Further, air intake duct is provided with the valve element, air inlet valve lever is laid into air intake duct, and on air inlet valve lever
Sealing ring is set to be sealed, air inlet valve lever, which is located at, to be opened up notch on the lower square bar of sealing ring and communicated with air inlet, for draining
In the high pressure draught injection cylinder body of air inlet, compressing compression moving cell rotation, synchronous drive output shaft rotary motion.
Further, the outlet port of the air intake duct is at the middle part of valve element.When in the valve element insertion cylinder body of movable valve
During chamber, the outlet of air intake duct is located in inner chamber, and aeration promotes rotating disc motion, when valve element pulls out inner chamber of cylinder block, air intake duct
Outlet is located at cylinder wall, is closed by inboard wall of cylinder block, stops aeration.
Further, exhaust duct is provided with the valve element, exhaust duct runs through valve element bottom, and is connected with exhaust outlet, structure
Into one from inner chamber of cylinder block to movable valve outside exhaust passage, when valve element insert inner chamber of cylinder block when, gas in-line arrangement gas port discharge,
Movable valve is set smoothly to insert.Exhaust duct is arranged in the opposite one side of air intake duct on valve element.
Be provided with sealing ring on the valve element, be stuck in the groove opened up on valve element, when inserting cylinder body valve element and cylinder body it
Between formed sealing.
The neck being adapted with valve element is provided with the inboard wall of cylinder block.After valve element insertion cylinder body, valve element top is caught in cylinder
In the neck of internal wall.
Sealing can be formed when setting the sealing tooth of longitudinal direction to be contacted with cylinder body on the valve element.
It can be connected outside the air inlet valve lever of laying by mechanical braking or electrodynamic braking, control it to pass in and out air intake duct, this work
With in advance being pulled out air inlet valve lever when injecting gas into cylinder, the gas outlet of air inlet valve lever is closed, economizes on gas.Valve
Core and air inlet valve lever are inserted in cylinder simultaneously, act on compression moving cell, cause to rotate disc spins.For example rotating disc have rotated
When one half-turn, air inlet valve lever is pulled out in advance,(Now the position of valve element is still inserted into cylinder), and close into
The gas outlet of air valve stem, or the air inlet of closed cylinder, just entering without gas in cylinder, but the gas in cylinder
It is high pressure conditions, gas is compressed by, so also have very big expansive force, and rotating disc, compression moving cell rotate
Inertia, rotating disc can still rotate acting.It is living when compression moving cell is approximately rotated to movable valve on rotating disc
The valve element of movable valve is drawn out.Behind the position that compression moving cell passes through movable valve, the valve element and air inlet pipe of movable valve are same
When insert in cylinder, and discharge high-pressure fluid, act on compression moving cell, cause to rotate disc spins, so circulation repeatedly.
Rotating engine, by pouring into high pressure draught into cylinder body, promote compression moving cell to make rotation disc spins, lead to
Cross output shaft output acting.Coordinate the engine components such as outside installation high steam device, controlling organization, that is, form a steam
Power engine.
Rotating engine, it is more powerful than crank engine, it is more efficient, and without the dead of transmission of crankshaft
Point, noise are smaller than similar engine, have preferable muting function.
Brief description of the drawings
Fig. 1 is rotary engine design schematic diagram;
Fig. 2 is rotary engine design schematic diagram;Fig. 3 is rotary engine design schematic diagram;
Fig. 4 is movable valve structural representation(Front);Fig. 5 is movable valve structural representation(The back side);
Fig. 6 is valve core structure schematic diagram(Front);Fig. 7 is valve core structure schematic diagram(The back side);
Fig. 8 is rotary engine design schematic diagram;Fig. 9 is rotary engine design schematic diagram;
Figure 10 is rotary engine design schematic diagram;Figure 11 is rotary engine design schematic diagram;
Figure 12 is movable valve structural representation(Front);Figure 13 is movable valve structural representation(The back side);
Figure 14 is valve core structure schematic diagram(Front);Figure 15 is valve core structure schematic diagram(The back side);
Figure 16 is air feeder structure schematic diagram;Figure 17 is air feeder structure schematic diagram;
Reference in figure:1 cylinder body, 2 rotating discs, 3 air inlet pipe, 4 compression moving cells, 5 movable valves, 6 output shafts, 7
Control device, 8 air inlet valve levers, 11 air inlets, 12 exhaust outlets, 13 bases, 14 necks, 51 air intake ducts, 52 exhaust ducts, 53 sealings
Tooth, 54 sealing rings, 55 valve casings, 56 valve elements, 61 curve tracks, 62 connecting rods, 81 air flue sealing rings, 82 notches.
Embodiment
With reference to specific embodiment and Figure of description, the utility model is described in further detail.Tool described herein
Body embodiment only to explain the utility model, is not used to limit the utility model.
Embodiment 1:As shown in figure 1, rotating engine, including cylinder body 1, compression moving cell 4, movable valve 5, it is described
Cylinder body 1 is fixed on base 13, is inside set annular or circular inner chamber, is installed output shaft 6 in inner chamber, rotatably.Pacify on output shaft 6
Compression moving cell 4 is filled, in inner chamber of cylinder block.One mounting hole is set on cylinder body 1, loads movable valve 5.
As shown in Figure 4, Figure 5, valve element 56 of the movable valve 5 by valve casing 55 and in it is formed, and valve casing 55 is located at cylinder
Outside body 1, the mounting hole of closed cylinder 1, valve element 56 can slide in valve casing 55, and connect with the inner chamber of cylinder body 1 and pacify with cylinder body
Hole tolerance fit is filled, can slide through mounting hole disengaging inner chamber of cylinder block.The He of air inlet 11 is respectively arranged with the movable valve 5
Exhaust outlet 12, external air inlet pipe 3 access the inner chamber of cylinder 1 by air inlet 11, high pressure draught are inputted, for being filled to inner chamber of cylinder block
Gas, exhaust outlet 12 are used to be vented.Output shaft 6 is fixed at the center of rotating disc 2, and the compression moving cell 4 of evagination is set on rotating disc 2.
High pressure draught is poured into inner chamber of cylinder block by connecting air inlet pipe 3, the moving cell that is pressurized on rotating disc is promoted, drives and rotate disc spins
Acting, realizes power output.Movable valve 5 plays choke effect simultaneously on cylinder body, makes to pour into gas and is circulated to same direction,
Form unidirectional continuous flow.
The valve element disengaging inner chamber of cylinder block of the movable valve controls by the control device 7 of its external connection.Control device,
Electric pushrod motor can be used, realizes extension and contraction control.
Embodiment 2:As shown in Figure 2 and Figure 3, rotating engine, including cylinder body 1, rotating disc 2, compression moving cell 4, work
Movable valve 5, the cylinder body 1 are fixed on base 13, inside set annular or circular inner chamber, rotating disc 2 is installed in inner chamber.Cylinder body 1
One mounting hole of upper setting, loads movable valve 5.
As shown in Figure 4, Figure 5, valve element 56 of the movable valve 5 by valve casing 55 and in it is formed, and valve casing 55 is located at cylinder
Outside body 1, the mounting hole of closed cylinder 1, valve element 56 can slide in valve casing 55, and connect with the inner chamber of cylinder body 1 and pacify with cylinder body
Hole tolerance fit is filled, can slide through mounting hole disengaging inner chamber of cylinder block.The He of air inlet 11 is respectively arranged with the movable valve 5
Exhaust outlet 12, external air inlet pipe 3 access the inner chamber of cylinder 1 by air inlet 11, high pressure draught are inputted, for being filled to inner chamber of cylinder block
Gas, exhaust outlet 12 are used to be vented.Output shaft 6 is fixed at the center of rotating disc 2, and the compression moving cell 4 of evagination is set on rotating disc 2.
High pressure draught is poured into inner chamber of cylinder block by connecting air inlet pipe 3, the moving cell that is pressurized on rotating disc is promoted, drives and rotate disc spins
Acting, realizes power output.Movable valve 5 plays choke effect simultaneously on cylinder body, makes to pour into gas and is circulated to same direction,
Form unidirectional continuous flow.
The valve element disengaging inner chamber of cylinder block of the movable valve controls by the control device 7 of its external connection.Control device,
Electric pushrod motor can be used, realizes extension and contraction control.
As shown in Figure 6, Figure 7, the bottom of valve element 56 is an inclined-plane, is provided with air intake duct 51 on valve element 56, air intake duct 51 is with entering
Gas port 11 connects, and forms gas channel.Air inlet pipe 3 pours into high pressure draught from air inlet 11, and high pressure draught passes through the note of air intake duct 51
Enter in cylinder body, compressing compression moving cell 4 rotates, the rotary motion of synchronous drive rotating disc 2.The outlet port of air intake duct 51 is in valve
The middle part of core 56.When the valve element 56 of movable valve 5 inserts inner chamber of cylinder block, the outlet of air intake duct 51 is located in inner chamber, and aeration pushes away
Turn Moving plate moves, and when valve element pulls out inner chamber of cylinder block, the outlet of air intake duct 51 is located at cylinder wall, is closed, stops by inboard wall of cylinder block
Only aeration.Exhaust duct 52 is additionally provided with valve element 56, exhaust duct 52 runs through valve element bottom, and is connected with exhaust outlet 12, forms one
It is individual from inner chamber of cylinder block to movable valve outside exhaust passage, when valve element insert inner chamber of cylinder block when, gas in-line arrangement gas port 12 is discharged, and is made
Movable valve can be inserted smoothly.Exhaust duct 52 is arranged in the opposite one side of air intake duct 51, beneficial to air-flow in inner chamber
Constant flow.
Sealing ring 54 is provided with valve element 56, sealing ring 54 is stuck in the groove opened up on valve element 56, valve when inserting cylinder body
Sealing is formed between core and cylinder body, prevents from collaborating.
The neck 14 being adapted with valve element 56 is provided with the inwall of cylinder body 1.As shown in Figure 2 and Figure 3, valve element 56 inserts cylinder body
Afterwards, valve element top is caught in the neck of inboard wall of cylinder block.
Sealing can be formed by being also set up on the side of valve element 56 when longitudinal sealing tooth 53 contacts with cylinder body.
Arrestment mechanism 7 controls valve element movement, insertion, pulls out inner chamber of cylinder block, pours into high pressure draught during insertion, stops during pull-out
Aeration, move in circles, promote and rotate disc spins, power is exported by output shaft.The rotating engine, outside install high pressure additional and steamed
The engine components such as vapour device, controlling organization, that is, form a steam power engine.
Embodiment 3:As shown in Figure 8, Figure 9, rotating engine, including cylinder body 1, rotating disc 2, compression moving cell 4, work
Movable valve 5, the cylinder body 1 are fixed on base 13, inside set annular or circular inner chamber, rotating disc 2 is installed in inner chamber.Cylinder body 1
One mounting hole of upper setting, loads movable valve 5.
As shown in Figure 4, Figure 5, valve element 56 of the movable valve 5 by valve casing 55 and in it is formed, and valve casing 55 is located at cylinder
Outside body 1, the mounting hole of closed cylinder 1, valve element 56 can slide in valve casing 55, and connect with the inner chamber of cylinder body 1 and pacify with cylinder body
Hole tolerance fit is filled, can slide through mounting hole disengaging inner chamber of cylinder block.The He of air inlet 11 is respectively arranged with the movable valve 5
Exhaust outlet 12, air inlet pipe 3 access the inner chamber of cylinder 1 by air inlet 11, input high pressure draught, for inner chamber of cylinder block aeration, arranging
Gas port 12 is used to be vented.Output shaft 6 is fixed at the center of rotating disc 2, and the compression moving cell 4 of evagination is set on rotating disc 2.Pass through company
Tap into tracheae 3 and pour into high pressure draught to inner chamber of cylinder block, promote the moving cell that is pressurized on rotating disc, drive and rotate disc spins acting,
Realize power output.Movable valve 5 plays choke effect simultaneously on cylinder body, makes to pour into gas to same direction circulation, is formed
Unidirectional continuous flow.
As shown in Figure 8, Figure 9, curve track 61 is provided with output shaft 6, curve track 61 is embedded in a connecting rod 62, even
The valve element 56 of the other end connection movable valve 5 of extension bar 62.In initial active valve insertion inner chamber, high pressure gas is poured into cylinder body
Stream, is promoted and rotates disc spins, output shaft synchronous, and connecting rod 62 is moved by orbital position, the valve element 56 of connection is inserted or pulled out
The inner chamber of cylinder body 1, so repeatedly, the valve element 56 of movable valve 5 is pulled out, inserts inner chamber circulation, forms circulation aeration.
Remaining setting is same as Example 1, repeats no more.
Embodiment 4:As shown in Figure 10, Figure 11, rotating engine, including cylinder body 1, rotating disc 2, compression moving cell 4,
Movable valve 5, the cylinder body 1 are fixed on base 13, inside set annular or circular inner chamber, rotating disc 2 is installed in inner chamber.Cylinder body
One mounting hole is set on 1, loads movable valve 5.
As shown in Figure 12 and Figure 13, valve element 56 of the movable valve 5 by valve casing 55 and in it is formed, and valve casing 55 is located at
Outside cylinder body 1, the mounting hole of closed cylinder 1, valve element 56 can be slided in the valve casing 55, and connect with the inner chamber of cylinder body 1 simultaneously and cylinder body
Mounting hole tolerance fit, it can slide through mounting hole disengaging inner chamber of cylinder block.Air inlet 11 is respectively arranged with the movable valve 5
With exhaust outlet 12, air inlet pipe 3 is accessed in movable valve 5 by air inlet 11, high pressure draught is inputted, for being filled to inner chamber of cylinder block
Gas, exhaust outlet 12 are used to be vented.Output shaft 6 is fixed at the center of rotating disc 2, and the compression moving cell 4 of evagination is set on rotating disc 2.
High pressure draught is poured into inner chamber of cylinder block by connecting air inlet pipe 3, the moving cell that is pressurized on rotating disc is promoted, drives and rotate disc spins
Acting, realizes power output.Movable valve 5 plays choke effect simultaneously on cylinder body, makes to pour into gas and is circulated to same direction,
Form unidirectional continuous flow.
As shown in Figure 10, Figure 11, curve track 61 is provided with output shaft 6, curve track 61 is embedded in a connecting rod 62,
The valve element 56 of the other end connection movable valve 5 of connecting rod 62.In initial active valve insertion inner chamber, high pressure is poured into cylinder body
Air-flow, is promoted and rotates disc spins, output shaft synchronous, and connecting rod 62 is moved by orbital position, the valve element 56 of connection is inserted or drawn
Go out the inner chamber of cylinder body 1, so repeatedly, the valve element 56 of movable valve 5 is pulled out, inserts inner chamber circulation, forms circulation aeration.
As shown in Figure 14, Figure 15, the bottom of valve element 56 is an inclined-plane, is provided with air intake duct 51 on valve element 56, air intake duct 51, enters
Air valve stem 8 is inserted into valve element 56, extends in air intake duct 51, and air flue sealing ring 81 and air intake duct are set on air inlet valve lever 8
51 form sealing.As shown in figure 16, the bottom of air inlet valve lever 8 is solid closing, and notch 82, notch are set on the wall of air inlet valve lever
82 are opened in close to position above bar bottom, are a long opening, are connected with air inlet 11.High pressure draught passes through the note of air inlet pipe 3
Enter movable valve, then injection inner chamber of cylinder block is controlled by air inlet valve lever 8, compressing compression moving cell 4 rotates, synchronous drive rotating disc
2 rotary motions.The outlet port of air intake duct 51 is at the middle part of valve element 56.When the valve element 56 of movable valve 5 inserts inner chamber of cylinder block,
The outlet of air intake duct 51 is located in inner chamber, and aeration promotes rotating disc motion, and when valve element pulls out inner chamber of cylinder block, air intake duct 51 goes out
Mouth is located at cylinder wall, is closed by inboard wall of cylinder block, stops aeration.Exhaust duct 52 is additionally provided with valve element 56, exhaust duct 52 runs through valve
The bottom of core, and being connected with exhaust outlet 12, form one from inner chamber of cylinder block to movable valve outside exhaust passage, when valve element inserts
During inner chamber of cylinder block, gas in-line arrangement gas port 12 is discharged, and movable valve is smoothly inserted.Exhaust duct 52 is arranged in air intake duct
In 51 opposite one sides, beneficial to constant flow of the air-flow in inner chamber.
Sealing ring 54 is provided with valve element 56, sealing ring 54 is stuck in the groove opened up on valve element 56, valve when inserting cylinder body
Sealing is formed between core and cylinder body, prevents from collaborating.
Remaining setting is same as Example 1, repeats no more.
In order to reach more preferable operating efficiency, the control device 7 of mechanical braking or electrodynamic braking can be set outside cylinder body
Air inlet valve lever 8 is connected, control air inlet valve lever 8 passes in and out air intake duct 51, as shown in figure 17;Or using the same controlling party of valve element
Formula, be connected air inlet pipe with connecting rod, in connecting rod other end insertion curve track, by connecting rod curve track fortune
Row movement, air inlet valve lever is inserted or pulled out inner chamber of cylinder block.This effect is can be in advance by air inlet when injecting gas into cylinder
Valve rod pulls out, and closes the notch 82 of air inlet valve lever 8, economizes on gas.Valve element and air inlet valve lever 8 are inserted in cylinder simultaneously, are acted on
Compression moving cell, cause to rotate disc spins.For example rotating disc pulls out air inlet valve lever when have rotated a half-turn in advance,
(Now the position of valve element is still inserted into cylinder), the ttom of pipe of air inlet valve lever is solid, and ttom of pipe is just sealed after pull-out
The gas outlet of air inlet pipe 3, or the air inlet of closed cylinder are closed, is just being entered without gas in cylinder, but in cylinder
Gas is high pressure conditions, and gas is compressed by, so also have very big expansive force, and rotating disc, compression moving cell
The inertia of rotation, rotating disc can still rotate acting.When compression moving cell is approximately rotated to movable valve on rotating disc
Wait, the valve element of movable valve is drawn out.Behind the position that compression moving cell passes through movable valve, the valve element of movable valve and air inlet
Valve rod is inserted in cylinder simultaneously, and discharges high-pressure fluid, acts on compression moving cell, is caused to rotate disc spins, is so followed
Ring is repeatedly.
Synchronous curve track is installed on output shaft, the valve of connecting rod control movable valve 5 is driven by the operation of itself
Core 56 passes in and out inner chamber of cylinder block, substitutes external arrestment mechanism control valve element, realizes the circulation of engine.
It is the utility model preferred embodiment in summary, all changes made according to technical solutions of the utility model, institute
The function of production without departing from technical solutions of the utility model scope when belong to the scope of protection of the utility model.
Claims (11)
1. rotating engine, it is characterised in that including cylinder body(1), output shaft(6), compression moving cell(4), movable valve
(5), the cylinder body(1)It is fixed on base(13)On, inside set annular or circular inner chamber, output shaft(6)Installed in cylinder body(1)
In, rotatably, its axostylus axostyle is passed outside cylinder body;Cylinder body(1)One mounting hole of upper setting, loads movable valve(5), the movable valve
(5)By valve casing(55)With the valve element in it(56)Form, valve casing(55)Positioned at cylinder body(1)Outer wall, closed cylinder(1)'s
Mounting hole, valve element(56)Can be in valve casing(55)Interior slip, and and cylinder body(1)Inner chamber connect and match somebody with somebody with cylinder body mounting hole tolerance
Close, it is movable that inner chamber of cylinder block is passed in and out by casing wall;The movable valve(5)On be provided with air inlet(11)And exhaust outlet(12),
The output shaft(6)It is connected with the compression moving cell of evagination(4), compression moving cell(4)In inner chamber of cylinder block;The work
Movable valve(5)Valve element(56)Disengaging inner chamber of cylinder block by its connection mechanical braking arrangement or electrodynamic braking mechanism stretch into
Go out inner chamber of cylinder block.
2. rotating engine according to claim 1, it is characterised in that the output shaft positioned at inner chamber of cylinder block(6)
On be provided with rotating disc(2), rotating disc(2)Outer rim connects compression moving cell(4).
3. rotating engine according to claim 1, it is characterised in that the mechanical braking arrangement is output shaft(6)
On be provided with curve track(61), curve track(61)It is embedded in a connecting rod(62), connecting rod(62)The other end connection live
Movable valve(5)Valve element(56), output shaft rotation, connecting rod(62)Moved by orbital position, by the valve element of connection(56)Insertion
Or pull out cylinder body(1)Inner chamber.
4. rotating engine according to claim 1, it is characterised in that the valve element(56)On be provided with air intake duct
(51), air intake duct(51)With air inlet(11)Communicate, the high pressure draught for draining air inlet is injected in cylinder body, and compressing, which is pressurized, transports
Moving cell(4)Rotation, synchronous drive output shaft(6)Rotary motion.
5. rotating engine according to claim 1, it is characterised in that the valve element(56)On be provided with air intake duct
(51), air inlet valve lever(8)Lay to air intake duct(51)In, and in air inlet valve lever(8)Upper setting sealing ring is sealed, intake valve
Bar(8)Notch is opened up on the lower square bar of sealing ring(82)With air inlet(11)Communicate, for draining the high pressure gas of air inlet
In stream injection cylinder body, compression moving cell is oppressed(4)Rotation, synchronous drive output shaft(6)Rotary motion.
6. the rotating engine according to claim 4 or 5, it is characterised in that the air intake duct(51)Outlet port
In valve element(56)Middle part.
7. rotating engine according to claim 6, it is characterised in that the valve element(56)On be provided with exhaust duct
(52), exhaust duct(52)Through valve element bottom, and and exhaust outlet(12)Connect, exhaust duct on valve element(52)It is arranged in air inlet
Road(51)In opposite one side.
8. rotating engine according to claim 5, it is characterised in that the air inlet valve lever(8)Upper setting air flue is close
Seal(81), air inlet valve lever(8)Bottom be solid closing, notch is set on the wall of air inlet valve lever(82), notch(82)Open up
The position above close bar bottom, with air inlet(11)Connection.
9. rotating engine according to claim 1, it is characterised in that the valve element(56)On be provided with sealing ring
(54), sealing is formed when inserting cylinder body between valve element and cylinder body.
10. rotating engine according to claim 1, it is characterised in that the cylinder body(1)It is provided with inwall and valve
Core(56)Adaptable neck(14).
11. rotating engine according to claim 1, it is characterised in that the valve element(56)It is upper that the close of longitudinal direction is set
Seal tooth(53)Sealing can be formed when being contacted with cylinder body.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720577546.2U CN206942811U (en) | 2017-05-23 | 2017-05-23 | Rotating engine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720577546.2U CN206942811U (en) | 2017-05-23 | 2017-05-23 | Rotating engine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN206942811U true CN206942811U (en) | 2018-01-30 |
Family
ID=61361344
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201720577546.2U Expired - Fee Related CN206942811U (en) | 2017-05-23 | 2017-05-23 | Rotating engine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN206942811U (en) |
-
2017
- 2017-05-23 CN CN201720577546.2U patent/CN206942811U/en not_active Expired - Fee Related
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