RO127119A2 - Multi-purpose non-conventional positive displacement pump with rotary piston - Google Patents

Abstract

The invention relates to a multi-purpose non-conventional positive displacement pump with rotary piston, which may be used for liquids and gases, with high conveyance power and high degree of fluid compression, which ensures by the rotary piston and the rotary shutter the maximum of technical and economical efficiency. According to the invention, the pump comprises a rotary piston (6) and a rotary shutter (7), and a body (1) of the pump together with a main cover (2) and a secondary cover (3) forms the pumping chamber in the shape of a torus sector having the same cross-section as the cross-section of the rotary piston (6) and, at the same time, the sucking chamber, while some toothed wheels (11), some axles (21), some double-row radial-axial bearings (13), some single-row radial-axial bearings (8), some screws for securing the toothed wheels (12), a grooved wedge (10), an angular support (5) and an angular closure cover (14) synchronize the motion between the rotary shutter (7) and the rotary piston (6) due to the transmission ratio of 1:1 that said kinematic link ensures, during the rotation motion the rotary piston (6) and the rotary shutter (7) having no common surface or points to maintain a permanent contact within a range of 360°, either between them, or with the body (1) of the pump, or with the main cover (2) or the secondary cover (3).

Description

The invention relates to an unconventional volumetric and universal rotary piston pump, which can be used for liquids and gases.

There is a wide variety of types of pumps used for multiple purposes, in almost all fields of activity. Each type of pump, which we do not list here, is recommended for certain applications depending on the nature of the fluids. They face their own well-known technical operating problems, which we won't talk about here either. To these is added the fact that they have limited areas of use, for example for gases, requiring special gas pumping systems.

The technical problem that the invention solves is the creation of an unconventional volumetric and universal pump, with a high degree of transport and compression of the fluids, providing them with the rotary piston and the rotary shutter of maximum technical and economic efficiency.

The unconventional volumetric and universal rotary piston pump solves the technical problem mentioned by the fact that the rotary piston started by a drive motor, transmits the 1: 1 rotation motion through a kinematic chain to a rotary shutter which has the role of closing to the left. the output path of the working fluid when the rotary piston compresses it, forcing the fluid to leave the pumping chamber only through the output connection, the chamber having a toric sector.

When the rotary piston reaches the outlet outlet hole, due to the 1: 1 motion transmission ratio, the rotary shutter changes its angular position, now opening to the left the output fluid path.

at this moment the remaining fluid in front of the rotary piston is added by means of the inlet connection a new fluid to be compressed and forced to leave the pumping chamber through the outlet connection. The volume of the pumping chamber, the active area of the rotary piston, the active area

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Ρ <2 0 0 9 -Ο 0 4 2 4 -0 9 -06- 2009 of the rotary shutter being constant and the transmission ratio being 1: 1 provides the pump with a high precision operation, that of a flow meter for fluids, especially when using the drive motor stepper motors or actuators. The pump also has the following advantages: increased reliability, simplicity regarding the dynamics of energy transformations and the kinematic chain, volume and light weight related to the flow rates and pressures it can provide, high pumping efficiency, low production costs and maintenance.

Next, the invention is presented in an exemplary embodiment in relation to FIGS. 1. 39 which represents:

FIG. 1 isometric view of the pump according to the invention.

FIG. 2 front view of the pump according to the invention.

FIG. 3 rear view of the pump according to the invention.

FIG. 4 right-hand view of the pump according to the invention.

FIG. 5 left view of the pump according to the invention.

FIG. 6 top view of the pump according to the invention.

FIG. 7 bottom view of the pump according to the invention.

FIG. 8 exploded view of the pump according to the invention.

FIG. 9 isometric view of the pump according to the invention from which the fixing screws were removed and one of the covers that houses the kinematic chain.

FIG. 10 isometric view of the pump according to the invention from which the fixing screws were removed and both caps that hold the kinematic chain.

FIG. 11 isometric view of the pump according to the invention from which the fixing screws have been removed, both caps housing the kinematic chain and the kinematic chain support.

FIG. 12 isometric view of the pump according to the invention from which the fixing screws were removed, both caps that hold the kinematic chain, the kinematic chain support and the rotary pump piston cover.

FIG. 13 isometric view of the pump according to the invention from which the fixing screws were removed, both caps that hold the kinematic chain, the kinematic chain support, the rotary pump piston cover, the left side closing cap of the radial-axial bearing of the rotary shutter and the support of the rotary shutter drive motor mounting.

FIG. 14 isometric view of the pump according to the invention from which the fixing screws were removed, both caps that hold the kinematic chain, the kinematic chain support, the rotary pump piston cover, the left side closing cap of the radial-axial bearing of the rotary shutter, the support of the rotary shutter drive motor attachment and rotary shutter cover.

FIG. 15 isometric view of the pump according to the invention from which the fixing screws were removed, both caps that hold the kinematic chain, the kinematic chain support, the rotary pump piston cover, the left side closing lid of the radial-axial bearing of the rotary shutter, the support drive motor attachment, rotary shutter cap and pump body, leaving only the kinematic chain of the pump.

FIG. 16 isometric view of the assembly consisting of the piston, rotary and rotary shutter in the intermediate pumping position. K /

FIG. 17 isometric view of the pump body according to the invention.

FIG. 18 isometric view of the assembly formed by the pump body, the rotary shutter cover, the rotary piston and the rotary shutter at the end position of the pump.

FIG. 19 isometric view of the assembly consisting of the rotary piston and the rotary shutter at the end position of the pump.

FIG. 20 isometric view of the assembly consisting of the rotary piston and the rotary shutter in the pumping failure position.

FIG. 21 isometric view of the assembly consisting of the rotary piston and the rotary shutter in the starting position of the pump.

FIG. 22 top view of the assembly consisting of the rotary piston and the rotary shutter in the intermediate pumping position.

FIG. 23 section through the assembly consisting of the rotary piston and the rotary shutter in the intermediate pumping position.

FIG. 24 top view of the assembly consisting of the rotary piston and the rotary shutter in the intermediate position of non-pumping.

FIG. 25 section through the assembly consisting of the rotary piston and the rotary shutter in the intermediate position of non-pumping

FIG. 26 isometric front view of the rotary piston cover.

FIG. 27 isometric rear view of the rotary piston cover

FIG. 28 isometric front view of the assembly consisting of the rotary piston and its lid, in the intermediate pumping position.

FIG. 29 isometric rear view of the assembly consisting of the rotary piston and its lid, in the intermediate pumping position.

FIG. 30 isometric front view of the rotary shutter cover.

FIG. 31 isometric rear view of the rotary shutter cover.

FIG. 32 isometric front view of the assembly formed by the rotary shutter and its lid, which is in the intermediate position of lack of pumping.

FIG. 33 isometric rear view of the assembly formed by the rotary shutter and its lid, which is in the intermediate position of lack of pumping.

FIG. 34 isometric view of the assembly forming the kinematic chain which ensures the 1: 1a transmission of the rotational movement from the rotary piston to the rotary shutter.

FIG. 35 isometric right-hand view of the assembly forming the kinematic chain that ensures the 1: 1a transmission of the rotational movement from the rotary piston to the rotary shutter.

FIG. 36 isometric view of the assembly forming the kinematic chain that ensures the transmission 1: 1a of the rotational movement from the rotary piston to the rotary shutter, of which the closures of the kinematic chain are missing.

FIG. 37 isometric view to the right of the assembly forming the kinematic chain that ensures the 1: 1a transmission of the rotational movement from the rotary piston to the rotary shutter, of which the closures of the kinematic chain are missing.

FIG. 38 isometric view of the kinematic chain support.

FIG. 39 right isometric view of the kinematic chain support.

In the above drawings, in letters and numbers, the following component parts of the pump were noted, according to the invention.

1. The pump body.

2. Main cover.

3. Secondary capacity.

4. The intermediate cover.

5. Angular support (of the kinematic chain).

6. Rotary piston.

7. Rotary shutter.

8. Simple radial-axial bearing.

9. Spacer.

10. Fault channel.

11. Gear.

12. Gear wheel screw.

13. Double radial-axial bearing.

14. Angular closing lid.

15. Fastening screws.

16. Insurance nut.

17. Inlet connection.

18. Outlet connection.

19. Drive motor support.

20. Centering bolts.

21. Ax '

The unconventional volumetric and universal rotary piston pump consists of the pump body 1, the main cover 2, the secondary cover 3, the intermediate cover 4, the angular support 5, the rotary piston 6, the rotary shutter 7, the simple radial-axial bearing 8, the spacer 9, the channel of breaker 10, gear 11, locking screw 12, radial-axial double bearing 13, angular locking cap 14, locking screws 15, locking nut 16, inlet connection 17, outlet connection 18, drive motor support 19, centering bolts 20 and shaft 21.

According to the invention, the unconventional volumetric and universal rotary piston pump operates in the following manner: rotationally driven by the drive motor which is fixed by the pump body 1 and the main cover 2 by means of the drive motor support 19, the rotary piston 6 compresses between them and the rotary shutter 7 the fluid in the pumping chamber. The pumping chamber is shaped like a toric sector and is formed by the enclosure of the main cover 2 and a part of the body of the pump 1. They have the same section as the one of the rotary piston 6. The rotary piston 6 ensures: sealing against the walls of the pumping chamber, against the rotary shutter 7. One side of the rotary piston 6 compresses the fluid in the pumping chamber closed to the left of the rotary shutter 7, and on the other side it draws fresh fluid behind it to refill the pumping chamber via the inlet connection 17, so that the rotary piston 6 does not have an idling stroke. The rotary shutter 7 ensures the synchronization in movement with the rotary piston 6 due to the 1: 1 transmission ratio provided by a kinematic chain of which they are part.

cv- 2009-00424-0 9 -06- 2009 next to them and six identical 11 gears, fixed by mechanical wedges (which I have not represented yet) and secured centered by means of screws 12 as follows: two wheels each gears 11 with respect to the axles 21 supported on the radial axial double bearings 13, a gear 11 with respect to the axis on which the rotary piston 6 is extended by means of simple radial-axial bearings 8, and the sixth gear 11 with respect to the axis on which finds the rotary shutter 7, also enlarged by means of simple radial-axial bearings 8. The compressed fluid can leave the pumping chamber only through the outlet connection 18. The pumping occurs until the rotary piston 6 passes through the outlet of the outlet connection 18. On a full pumping and suction cycle is carried out at 360 °, with precise sequential seals, all of which are done simultaneously, thus ensuring a complete lubrication. and uniform. At the next complete rotation, the cycle resumes after the same scenario. The rotary piston 6 and the rotary shutter 7 during the rotational movement do not have common points or surfaces that maintain a permanent contact during 360 ° neither between them, nor with the body of the pump 1, nor with the main cover 2 or the secondary cover 3. The cover secondary 3 ensures the closure of the rotary shutter 7 relative to the body of the pump 1. An intermediate cover 4 ensures the fixation of the simple radial-axial bearing 8 of the axis of the rotary shutter 7. The kinematic chain through the angular support 5 ensures the constant retention of the angle of taking over the rotational movement in in order to ensure the continuity and optimal transmission thereof from the rotary piston 6 to the rotary shutter 7. At one end the axis of the rotary piston 6 has the simple radial-axial bearing 8 provided by the spacer 9, and the gear wheels 11 are fixed each by its support through a wedge channel 10. Through the closing lids 14 the outer part of the The kinematic belt is closed between them and the angular support 5, by means of the fixing screws 15 and the securing nuts 16, part of the components being fixed between them by means of the fixing screws 15, and ensuring the centered assembly of the main cover 2 and the secondary cover 3 in front of the pump body 1 is made with the centering bolts 20. On the outlet connection 18 and the inlet connection 17, a sense valve itself is installed, known in the prior art and which I did not represent in the drawings.

This pump, according to the invention can be used both in high-precision and high-precision hydraulic drives, as well as in fluid pumping systems wherever required, in industrial and non-industrial applications.

Claims (8)

claims 1. Unconventional volumetric and universal rotary piston pump, consisting mainly of a rotary piston (6), a rotary shutter (7) characterized in that the pump body (1) together with the main cover (2), the secondary cover ( 3) it forms the pumping chamber which has the shape of a toric sector having the same section as that of the rotary piston (6), and at the same time the suction chamber. 2. An unconventional volumetric and universal rotary-piston pump according to claim 1, characterized in that the gear wheels (11), axles (21), double radial-axial bearings (13), single radial-axial bearings (8), screws gearing (12), wedge channel (10), angular support (5) and angular closing lid (14) ensures the synchronization of the rotary shutter (7) with the rotary piston (6) due to the 1: 1 ratio of transmission that this cinematic chain provides. 3. An unconventional volumetric and universal rotary-piston pump according to claim 1 and 2, characterized in that the pump body (1), main cover (2), secondary cover (3), intermediate cover (4), angular support (5) , rotary piston (6), rotary shutter (7), single radial-axial bearing (8), spacer (9), wedge channel (10), gear wheel (11), gear screw (12), bearing radial-axial double (13), angular closure cap (14), fixing screws (15), locking nut (16), inlet connection (17), outlet connection (18), drive motor support (19), centering bolts (20) and shaft (21) may also be executed in other forms or reports of pumping and suction. 4. An unconventional volumetric and universal rotary piston pump according to claim 1, 2 and 3, characterized in that the rotary piston (6) and the rotary shutter (7) during the rotation movement have no common points or surfaces to maintain contact permanently during 360 ° neither between them, nor with the pump body (1), nor with the main cover (2) or the secondary cover (3). 5. An unconventional volumetric and universal rotary piston pump according to claim 1, 2, 3 and 4, characterized in that it can ensure the pumping in a closed or open circuit of a fluid with minimal losses due to the simultaneous pumping with the suction provided by the piston. rotary (6) and the sequential seals that it makes with the other parts with which it comes in contact. 6. An unconventional volumetric and universal rotary piston pump according to claim 1, 2, 3, 4 and 5, characterized in that it can be started by a drive motor coupled to the rotary piston shaft (6), the movement having been transmitted 1: 1 to the rotary shutter (7) through the kinematic chain. 7. An unconventional volumetric and universal rotary-piston pump according to claim 1, 2, 3, 4, 5 and 6, characterized in that it can also be started by two drive motors, the second being able to be coupled. at the axis of the rotary shutter (7), situation in which we can have the assured synchronization of the rotary shutter (7) and the rotary piston (6) also through the kinematic chain. ^ -2 0 0 9 - 0 0 424-0 9 -06- 2009 8. An unconventional volumetric and universal rotary piston pump according to claim 1, 2, 3, 4, 5, 6 and 7, characterized in that it can also be started by two different drive motors with a different transmission ratio. by 1: 1 and giving up the kinematic chain that coupled the rotary piston (6) and the rotary shutter (7).