RU2006102358A - TURBO-PISTON ENGINE AND TURBO-PISTON SUPPLY - Google Patents

Claims (12)

1. Turbo-piston machine (TPM) (A), selected from the group Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and are at least partially located in the Housing (F), of which on at least one PO (D), hereinafter referred to as the Rotor ( G) made at least one protrusion, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as the Axis (I) Rotor (G), and at least one other PO (D), hereinafter referred to as Valve (J), has at least one Groove (K) made in conjunction with the Piston (H), that is, the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by the execution of the PO (D) with the Link (L) formed by at least one known from the prior art by a method, for example, selected from the group, but not limited to the indicated group: mechanical and / or electrical and / or magnetic and / or gy in a pneumatic and / or pneumatic way, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, mechanical link can be made by gears, as well as a gearbox and / or multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), ogre at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (O) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume ( R) is located, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that at least one Main measure (U), which is a Beat compression or compression - release (V) of the Working Fluid (RT) (W) in the transformer substation (V) or inlet or intake stroke - expansion (X) of the RT (W) in the transformer substation (C) and performed in the Volume (Q), occurs with at least a partial Cut-off (Y) of the Inlet (Z) of the RT (W) during the Measure (X) or with at least a partial Cut-off (Y) of the Release (AA) of the Release (AA) RT (W) during the Measure (V) carried out using at least one of any known h prior art Switchgear (RU) (BB), for example, selected from the group, but not limited to the specified group: Valve (SS) and / or Spool (DD) and / or Pneumatic diode (EE) having different hydraulic resistance and / or flow rate, depending on the direction of movement of the medium passing through the Pneumatic diode (EE), for example RT (W), while (RU) (BB) can have at least one Drive (FF) known from the prior art and operate according to any algorithm, and distribute, for example, liquid phase and / or gaseous at least one RT (W), as well as (RU) (BB), can be formed and / or be a part of any structural elements of TPM (A), for example, Zolotnik (DD) may consist of TPM ( A) at least one inlet and / or outlet window, for example, periodically blocked by any at least one PO (D), while during the intake stroke or intake expansion (X) or compression stroke or compression - release (V), Cut-off (Y) can occur, for example, until the completion of the Main measure (U), for example, consisting in the connection of the Volume (Q), respectively, with the Exhaust manifold (GG), respectively, for the TPR (C) or for the TSC (B), while the surface of the Wall (S) is the Piston (H), limiting the Volume (Q) in which the Main beat (U) takes place, is made, for example, epitrochoid, and the Guide (NN) of the epitrochoid forming, for example, the cylindrical Wall (S) of the Piston (H), can be formed by rolling the Axis (I) of the Rotor (G) along the Outer wall (O) of the Valve (J). 2. Turbo piston machine (A) according to claim 1, characterized in that at least one Piston (H) is symmetrical, that is, it has Walls (S) and (T), which are mirror images of each other relative to the mid-plane, coinciding with the axis of rotation of the Rotor (G) and passing in the middle between the Walls (S) and (T), and at least one Groove (K) of at least one Valve (J), mating with a symmetrical piston, also preferably symmetrical, preferably with epitrochoidal Sidewalls (II) of the Groove (K) intersecting with the External Enka (O) Valve (J). 3. Turbo-piston machine (A) according to claim 2, characterized in that it can be reversed with the possibility of the implementation of the Main cycle (U) on either side of the Piston (H). 4. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as Axis (I) Rot ora (G), and at least one other PO (D), hereinafter referred to as Valve (J), has at least one Groove (K) made in conjunction with the Piston (H), i.e. the Groove (K) and the Piston (H) are configured to periodically coincide with counter synchronous rotation of PO (D), which is ensured by performing PO (D) with Link (L) formed by any method known in the art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic by pneumatic and / or pneumatic means, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made either by gears or a reducer and / or a multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (O) of the Valve (J ), in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while PO (D) periodically divide the volume Cylinder (M) on at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S) (H), and Volume (R) is located for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that, the Inlet (Z) can be through at least one Nozzle ( JJ) any structure known from the prior art, for example through a De Laval nozzle located on at least one Rotor (G), for example, at least one Piston (H) of at least one Rotor (G) at the same time, at least one Nozzle (JJ) is preferably positioned in such a way that it creates a positive thrust during the period of at least one B OSCAL (Z) in the at least one volume (Q). 5. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (PO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as the Axis (I) Roto pa (G), and at least one other PO (D), hereinafter referred to as Valve (J), has at least one Groove (K) made in conjunction with the Piston (H), i.e. Groove (K) and the Piston (H) are arranged to periodically coincide with counter synchronous rotation of PO (D), which is ensured by performing PO (D) with Link (L) formed by any method known in the art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic them and / or pneumatically, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, mechanical link can be made by gears, as well as a gearbox and / or multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, cylindrical wall (O) of the Valve (J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) periodically divide the volume of the Cylinder (M) on at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S) (H), and Volume (R) is located n, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that, together with at least one Rotor (G) consist of Pairs (E) two Valves (J), in this case, during the rotation of PO (D), three working volumes are formed: at least one Volume (Q), at least one Volume (R) and at least one The inter-valve volume (QC), with at least one Inter-valve volume (QC) playing the role of the Intake manifold (LL) for the TPR (C) or Exhaust manifold (GG) of the TPS (B), while at least one n Volume (Q) in any way is periodically connected to at least one Inter-valve volume (QC), while the connection can be made, for example, by at least one Through groove (MM) made in any of at least one (D) and / or in the Housing (F), wherein at least one Feedthrough groove (MM) can be made with a geometry that can be changed in any way, which ensures a change in the flow rate and / or duration of the flow of PT (W) through it. 6. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as the Axis (I) Ro torus (G), and on at least one other PO (D), hereinafter referred to as Valve (J), at least one Groove (K) is made, made paired with the Piston (H), i.e. the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by performing the PO (D) with the Link (L) formed by any method known from the prior art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic in a pneumatic and / or pneumatic way, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made both by gears and a reducer and / or multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (О) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume (R) laid, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that, on the PO (D) several mating elements of the same name (NN) can be made , for example Grooves (K) or Pistons (H), while the Mating elements (NN) located on the PO (D), for example Pistons (H) on the Rotor (G), can be located symmetrically with respect to the axis of rotation of the PO (D), on which they are located. 7. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as the Axis (I) Ro torus (G), and on at least one other PO (D), hereinafter referred to as Valve (J), at least one Groove (K) is made, made paired with the Piston (H), i.e. the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by performing the PO (D) with the Link (L) formed by any method known from the prior art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic in a pneumatic and / or pneumatic way, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made either by gears or by a gearbox and / or a multiplier), and the elements The links (L) can be of any construction known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M) , limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (О) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume (R) located, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that it can contain several Cylinders (M) in series, for example TPM (A) can be multi-stage, while PO (D) can be made combined, that is, they can contain several Mating elements (NN) involved in the operation of various, for example, coaxially arranged Cylinders (M). 8. Turbo-piston machine (A) selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as the Axis (I) Ro torus (G), and on at least one other PO (D), hereinafter referred to as Valve (J), at least one Groove (K) is made, made paired with the Piston (H), i.e. the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by performing the PO (D) with the Link (L) formed by any method known from the prior art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic in a pneumatic and / or pneumatic way, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made both by gears and a reducer and / or multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (О) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume (R) laid, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that it contains at least one SSC (B) in its design and at least one TPD (C), while TPM (A) can be an engine in which at least one RT (W), at least partially, is injected by at least one TPN (B ) at least partially expands in at least one TPR (C), for example, after at least a single, for example, pulsed and / or continuous Energy Supply (00), for example, wasp available in at least one Combustion Chamber (CS) (RR), of any design known from the prior art, while TPM (A) operation can be carried out according to any cycle of operation of thermal machines, for example, thermal engines, for example, according to the prior art a cycle selected from, but not limited to, a specified group: the Otto and / or Diesel and / or Trinkler and / or Brighton and / or Erickson-Joule and / or Humphrey and / or Lenoir and / or Rankin and / or Stirling cycles. 9. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as the Axis (I) Ro torus (G), and on at least one other PO (D), hereinafter referred to as Valve (J), at least one Groove (K) is made, made paired with the Piston (H), i.e. the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by performing the PO (D) with the Link (L) formed by any method known from the prior art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic in a pneumatic and / or pneumatic way, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made both by gears and a reducer and / or multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (О) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume (R) laid, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that at least one of any PO (D) can interact in the process TPM (A) works with several other PO (D), for example, at least one Valve (J) consistently Pairs (E) PO (D) with at least two Rotors (G) and / or, at least one Rotor (G) constitutes Pairs (E) PO (D) with at least two Valves (J), while PO (D), with which Pairs (E) are sequentially made by Valve (J) or Rotor (G) can dis lie, for example, symmetrically with respect to the axis of rotation of the PO (D), sequentially comprising Pairs (E) with them. 10. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as Axis (I) P torus (G), and on at least one other PO (D), hereinafter referred to as Valve (J), at least one Groove (K) is made, made paired with the Piston (H), i.e. the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by performing the PO (D) with the Link (L) formed by any method known from the prior art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic by personal and / or pneumatic means, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made either by gears or a gear and / or a multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (О) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume (R) arranged, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that at least one Wall (P) is at least partially belongs to Rotor (G). 11. Turbo piston engine (A) according to claim 10, characterized in that at least one Wall (P) has a Window (QQ), for example, continuously communicating with the Exhaust manifold (GG). 12. Turbo-piston machine (A), selected from the group: Turbo-piston supercharger (TPN) (B) and / or Turbo-piston expander (TPR) (C), containing at least two Working bodies (RO) (D), which comprise at least one Pair of working bodies (Pair) (E) and at least partially located in the Housing (F), of which at least one PO (D), hereinafter referred to as the Rotor (G) at least one protrusion is made, hereinafter referred to as the Piston (H) above the surface of the Rotor (G), the concentric axis of rotation of the Rotor (G), hereinafter referred to as Axis (I) P torus (G), and on at least one other PO (D), hereinafter referred to as Valve (J), at least one Groove (K) is made, made paired with the Piston (H), i.e. the Groove (K) and the Piston (H) are made with the possibility of periodic coincidence during counter synchronous rotation of the PO (D), which is ensured by performing the PO (D) with the Link (L) formed by any method known from the prior art in at least one way, for example selected from the group, but not limited to the specified group: mechanical and / or electrical and / or magnetic and / or hydraulic by personal and / or pneumatic means, and the gear ratio of the Link (L) can be in any range and determined by the design and / or operational parameters of the device, for example, the mechanical link can be made either by gears or a gear and / or a multiplier), and the elements of the Link (L) can be any structure known from the prior art, for example, gears and / or sprockets can be made with any meshing, while at least one Rotor (G) rotates in at least one Cylinder (M), limited at least one, for example, at least partially open Wall (N) of the Body (F), located, for example, concentrically to the axis of rotation of the Rotor (G), as well as the External, for example, a cylindrical wall (О) of the Valve ( J) in which at least one Groove (K) is made, and on the sides the Cylinder (M) is closed, at least partially, by the End walls (P) of the Cylinder (M), while the PO (D) is periodically divided Cylinder volume (M) into at least two Volumes (Q) and (R), the first of which is located between Valve Wall (O) (J) and Piston Wall (S), and Volume (R) arranged, for example, on the other side of the Piston (H) between the Wall (T) of the Piston (H) and the Wall (O) of the Valve (J), characterized in that at least one Wall (P) is at least partially belongs to Case (F).