CN214424691U - Triangular rotor pump - Google Patents

Abstract

The utility model discloses a double-shell triangular rotor pump, which comprises a double-layer shell, wherein an 8-shaped cavity is arranged inside the double-layer shell, a triangular rotor connected with the double-layer shell is arranged in the middle of the double-layer shell, the inner cavity is divided into three parts by the triangular rotor, one side surface of the triangular rotor is provided with a groove, an inner gear is arranged in the groove, the middle part of the triangular rotor is provided with an eccentric shaft, the end of the eccentric shaft positioned on the inner gear is reduced and inserted into a fixed pinion shaft, the pinion is meshed with the inner gear, the pinion and a fixed shaft are fixed by a key, the fixation of the pinion is ensured to be fixed, the outer side of the pinion is provided with an inner cover, the fixed shaft passes through the inner cover, the outer side of the inner cover is provided with a third end cover, the third end cover and the other side surface of the triangular rotor are both provided with second end covers, both ends of the double-layer shell are provided with detachable first end covers, and the second end covers are detachably connected with the first end covers, the double-layer shell is provided with a check valve body.

Description

Triangular rotor pump

Technical Field

The utility model belongs to the technical field of the impeller pump, concretely relates to triangle impeller pump.

Background

The rotor pump is divided into a gear pump, a screw pump, a rotary piston pump (a cam pump and a roots pump), a flexible impeller pump, a sliding vane pump, a hose pump and the like according to the structural type. Common features of various rotor pumps are:

there are no intake valve and discharge valve, and their main working parts are a pump housing and a rotor (such as a gear, a screw, a cam, etc.).

Compared with a reciprocating pump, the rotor does rotary motion, no impact exists, the rotating speed is high, the structure is compact, the size is small, reciprocating energy loss does not exist, and the output power is high.

Discharge pressure is generally higher, but is lower than reciprocating pump, and the flow is still less than reciprocating pump, and efficiency is lower, generally only is applicable to the liquid of carrying small-quantity to mostly use as auxiliary assembly.

And fourthly, most of the rotor pumps are lubricated by the liquid conveyed by the rotor pumps, so that the rotor pumps are generally suitable for conveying the liquid with lubricity and without solid particles.

The rotor pump also intermittently discharges liquid, so the fluctuation of the flow is larger than that of the centrifugal pump and smaller than that of the reciprocating pump, but the flow can be seen as approximately uniform.

When there is liquid film on the surface of rotor (conveying lubricating liquid), the pump will have self-sucking capacity.

The problems of small pressure, small flow and low efficiency of the reciprocating pump are solved.

At patent CN211549976U a triangle rotor pump, including the casing, the casing includes the lateral wall and sets up respectively in the first end cover and the second end cover at lateral wall both ends, still including setting up the triangle rotor in the casing and drive the eccentric subassembly of triangle rotor, the triangle rotor includes rotor body and sets up in rotor body's sealing member, and the sealing member is elastic construction spare, and rotor body includes three top and the side that faces first end cover and second end cover respectively, wherein: the sealing element comprises three first sealing parts which are respectively arranged at the three top ends, each first sealing part is abutted with the inner surface of the side wall to form a radial sealing surface for blocking the adjacent working cavity, and the sealing element also comprises two second sealing parts which are arranged at the two ends of the rotor body in the axial direction and are respectively abutted with the first end cover and the second end cover to form an end surface sealing surface; the two ends of the first sealing part are respectively in gapless fit with the two second sealing parts, so that radial sealing and end face sealing are realized. Although the above problem is solved, the present patent mainly relates to the sealing element outside the rotor body, the core and the creation point of which lies in the sealing element, the present invention resides in the improvement of the entire system of the rotor pump, the two protection ranges being different.

Disclosure of Invention

An object of the utility model is to provide a three lobe rotor pump to solve the problem that proposes among the above-mentioned background art. The gerotor pump may be considered as a reverse of the wankel engine (marada successfully applied to automobiles), while the reciprocating pump may be considered as a reverse of the straight cylinder engine, one of the weaknesses of the wankel engine is that the output torque is small, mainly the moment arm is short, and the same motor torque as the pump due to the short moment arm may provide higher pressure, so the gerotor pump may output higher pressure than the reciprocating pump. And secondly, the principle of the reciprocating pump is different from that of the existing rotor pump, the main shaft rotates three rings of triangular rotors for one circle to finish six times of output, namely the main shaft rotates one circle to finish secondary output, the reciprocating pump has high output efficiency compared with the existing rotor pump and has a simpler integral structure compared with the existing rotor pump. The third output pressure is only related to the input torque and is not related to the rotating speed, which is very different from a centrifugal pump, and the centrifugal pump has to output high pressure by high speed and large torque.

In order to achieve the purpose, the problem of flow direction control of the rotor pump is solved, the triangular rotor pump is provided with two outlets and two inlets, liquid can be pumped and discharged better only after the outlets and the inlets are managed, and if the triangular rotor pump is used as a pipeline pump, the triangular rotor pump is also provided with a combined inlet (only the outlet is managed by a non-pipeline pump). The utility model provides a following technical scheme: a triangular rotor pump comprises a double-layer shell, wherein the double-layer shell is divided into two chambers, an input chamber and an output chamber, the two chambers are arranged in parallel, the input and output ports are respectively arranged in parallel, the input port is connected to the chamber on one side to form the input chamber, and the output chamber is arranged in addition. The double-layer shell is internally provided with an 8-shaped cavity, and the middle part of the double-layer shell is provided with a triangular rotor connected with the double-layer shell.

One side of the triangular rotor is arranged to be a groove, an inner gear is arranged in the groove, an eccentric shaft is arranged in the middle of the triangular rotor, a limiting block is arranged at the end, located by the inner gear, of the eccentric shaft, a clamping groove is formed in the other end of the eccentric shaft, a small gear is connected to the eccentric shaft in a clamped mode, the small gear is meshed with the inner gear, an inner cover is arranged on the outer surface of the small gear, a third end cover is arranged on the outer side of the inner cover, and a second end cover is arranged on the third end cover and the other side of the triangular rotor.

The both ends of double-deck casing all are provided with the first end cover of detachable, and the second end cover can be dismantled with first end cover and be connected.

And a check valve body is arranged on the double-layer shell.

Preferably, a mounting groove is formed at a position where the triangular rotor contacts with the inner wall of the double-layer shell.

In any of the above schemes, preferably, a connecting plate is arranged inside the mounting groove, and the connecting plate divides the three-phase rotor and the double-layer shell into three mutually independent working cavities.

Preferably in any one of the above schemes, the inner wall of the pinion is provided with a second limiting groove, and the second limiting groove is fixedly connected with the limiting block in a clamping manner.

In any of the above schemes, preferably, one end of the third end cover is provided with a raised bump, the surface of the bump is provided with a first limiting groove, the first limiting groove is fixedly connected with the limiting block in a clamping manner, the middle part of the third end cover is provided with a round hole, and the eccentric shaft penetrates through the round hole.

In any of the above schemes, preferably, the middle part of the eccentric shaft is provided with a convex cylinder, and the cylinder is arranged in the middle part of the triangular rotor.

In any of the above schemes, preferably, the inner wall of the internal gear is provided with a first tooth, and the outer wall of the pinion is provided with a second tooth corresponding to the first tooth.

In any of the above schemes, preferably, the first end cover is fixed on two sides of the double-layer shell through bolts, a first round hole is formed in the middle of the first end cover, and the first end cover is fixed on the first round hole of the first end cover through bolts.

In any of the above schemes, preferably, the surface of the inner cover is provided with a hole, the inner cover is sleeved on the eccentric shaft through the hole, the inner cover is matched with the groove, and the inner cover is rotatably arranged relative to the groove.

Preferably in any one of the above schemes, the check valve bodies are provided with four, the check valve bodies are vertically and symmetrically arranged on the side surface of the double-layer shell, and the two check valve bodies on the same side are respectively arranged in the cavities which are different in the shape of the Chinese character '8'.

The utility model discloses a technological effect and advantage: the triangular rotor pump is a reverse innovation of a Wankel engine, the realizability of the triangular rotor pump is verified by Mazda corporation, and the triangular rotor pump has higher output pressure and higher output efficiency compared with a reciprocating pump and an existing rotor pump. The double sealing technology is adopted, namely the side surface sealing of the triangular rotor and the sealing of the rotating shaft are adopted. The sealing technology ensures that the lubricating liquid in the space of the gear engagement and the rotating shaft is not leaked and the conveying liquid is not entered, thereby prolonging the service life and improving the efficiency of the pump. The input and output ports of the triangular rotor pump are integrated through the design of the double-layer shell, an inlet and an outlet are formed when the triangular rotor pump is used for a pipeline pump, and only the outlets are combined when the liquid pump is used for pumping liquid.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a cross-sectional view of fig. 2 of the present invention;

FIG. 4 is a schematic view of a part of the structure of the present invention;

FIG. 5 is a front view of the present invention;

fig. 6 is a cross-sectional view of fig. 5 of the present invention;

fig. 7 is an enlarged schematic view of the structure at a of the present invention;

fig. 8 is a schematic structural view of the double-layer housing of the present invention;

fig. 9 is a cross-sectional view of fig. 8 of the present invention;

fig. 10 is a schematic structural view of a triangular rotor according to the present invention;

fig. 11 is a schematic structural view of the eccentric shaft of the present invention;

fig. 12 is a schematic structural view of the check valve body of the present invention;

fig. 13 is a schematic structural view of a third end cap according to the present invention;

fig. 14 is a schematic structural view of the inner lid of the present invention;

fig. 15 is a schematic structural view of a pinion according to the present invention;

FIG. 16 is a flow chart of the present invention;

fig. 17 is a schematic view of the explosion structure of the present invention.

In the figure: 1. a double-layer shell; 11. an 8-shaped cavity; 12. a connecting plate; 13. a check valve body; 2. a first end cap; 3. a second end cap; 4. an eccentric shaft; 41. a limiting block; 5. a triangular rotor; 51. mounting grooves; 52. an internal gear; 6. a third end cap; 61. a first limiting groove; 62. a circular hole; 7. a pinion gear; 71. a second limiting groove; 8. an inner cover.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The utility model provides a double-deck triangle rotor pump as shown in fig. 1-15, including double-deck casing 1, double-deck casing 1's inside is provided with "8" style of calligraphy cavity 11, "independently part between the 8" style of calligraphy cavity 11, make triangle rotor 5 can do the work of twice in the process of rotating a week, double-deck casing 1's middle part is provided with triangle rotor 5 rather than being connected, the position that triangle rotor 5 and double-deck casing 1 inner wall contacted is provided with mounting groove 51, the inside of mounting groove 51 is provided with connecting plate 12, connecting plate 12 divides into three mutually independent working chamber between triangle rotor 5 and double-deck casing 1, triangle rotor 5 can be driven and compress and release the working chamber alternately;

one side surface of the triangular rotor 5 is provided with a groove, an inner gear 52 is arranged in the groove, the inner gear 52 is fixed in the groove through bolts, the inner wall of the inner gear 52 is provided with a first tooth, the outer wall of the pinion 7 is provided with a second tooth corresponding to the first tooth, the middle part of the triangular rotor 5 is provided with an eccentric shaft 4, the middle part of the eccentric shaft 4 is provided with a convex cylinder, the cylinder is arranged in the middle part of the triangular rotor 5, the end of the eccentric shaft 4, which is positioned at the inner gear 52, is provided with a limit block 41, the other end of the eccentric shaft 4 is provided with a clamping groove, the end, which is positioned at the limit block 41, of the eccentric shaft 4 is clamped with the pinion 7, the pinion 7 is meshed with the inner gear 52, the inner gear 52 rotates along the inner wall of the pinion 7, the inner wall of the pinion 7 is provided with a second limit groove 71, the second limit groove 71 is clamped and fixed with the limit block 41, and the outer surface of the pinion 7 is provided with an inner cover 8, the surface of the inner cover 8 is provided with a hole, the inner cover 8 is sleeved on the eccentric shaft 4 through the hole, the inner cover 8 is matched with the groove, the inner cover 8 is rotatably arranged relative to the groove, the outer side of the inner cover 8 is provided with a third end cover 6, one end of the third end cover 6 is provided with a raised bump, the other end of the bump is sleeved in the eccentric shaft 4, the surface of the bump is provided with a first limiting groove 61, the first limiting groove 61 is fixedly clamped with a limiting block 41, the middle part of the third end cover 6 is provided with a round hole 62, the eccentric shaft 4 penetrates through the round hole 62, and the third end cover 6 and the other side surface of the triangular rotor 5 are both provided with a second end cover 3;

the two ends of the double-layer shell 1 are respectively provided with a detachable first end cover 2, the second end cover 3 is detachably connected with the first end cover 2, the first end covers 2 are fixed on the two sides of the double-layer shell 1 through bolts, the middle part of each first end cover 2 is provided with a first round hole, and each first end cover 2 is fixed at the first round hole of the corresponding first end cover 2 through bolts;

be provided with check valve body 13 on the double-deck casing 1, check valve body 13 is provided with four, and four check valve body 13 vertical symmetry sets up in the side of double-deck casing 1, and sets up respectively in the bilayer of "8" style of calligraphy cavity 11 with two check valve body 13 of one side, adopts the sealing washer to seal in each part junction.

The working principle is as follows: this triangle rotor pump is at the in-process that uses, power rotation eccentric shaft 4 rotates, because of triangle rotor 5 and double-deck casing 1 are coaxial, so triangle rotor 5 revolves around eccentric shaft 4, simultaneously because of the internal gear 52 in the triangle rotor 5 meshes with pinion 7 on the eccentric shaft 4, so triangle rotor 5 is under pinion 7 restriction effect, again around self axle center rotation, triangle rotor 5 has just so accomplished the rotation at "8" style of calligraphy cavity 11, and this rotation process is rotor engine's working process, again because of rotor engine's the difference with the pump, the pump becomes its combustion expansion process and inhales the process, like the flow direction shown in figure 16, the utility model discloses a double-deck casing design, to the flow direction constraint change, with the suction hole and the discharge hole design of "8" style of calligraphy cavity 11 side by side, then the subdividing.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (10)

1. A gerotor pump characterized by: the double-layer shell comprises a double-layer shell (1), wherein an 8-shaped cavity (11) is arranged inside the double-layer shell (1), and a triangular rotor (5) connected with the double-layer shell (1) is arranged in the middle of the double-layer shell;

one side face of the triangular rotor (5) is provided with a groove, an internal gear (52) is arranged in the groove, an eccentric shaft (4) is arranged in the middle of the triangular rotor (5), a limiting block (41) is arranged at the end, located on the internal gear (52), of the eccentric shaft (4), a small gear (7) is clamped on the eccentric shaft (4), the small gear (7) is meshed with the internal gear (52), an inner cover (8) is arranged on the outer surface of the small gear (7), a third end cover (6) is arranged on the outer side of the inner cover (8), and second end covers (3) are arranged on the third end cover (6) and the other side face of the triangular rotor (5);

the two ends of the double-layer shell (1) are respectively provided with a detachable first end cover (2), and the second end cover (3) is detachably connected with the first end cover (2);

a check valve body (13) is arranged on the double-layer shell (1); the double-layer shell is designed in a layering mode, and the suction and the discharge of the pump are isolated through layering.

2. The gerotor pump as in claim 1, wherein: and a mounting groove (51) is formed in the position where the triangular rotor (5) is in contact with the inner wall of the double-layer shell (1).

3. The gerotor pump as in claim 2, wherein: the three-phase motor rotor is characterized in that a connecting plate (12) is arranged in the mounting groove (51), and the triangular rotor (5) and the double-layer shell (1) are divided into three mutually independent working cavities by the connecting plate (12).

4. The gerotor pump as in claim 1, wherein: the inner wall of the pinion (7) is provided with a second limiting groove (71), and the second limiting groove (71) is fixedly connected with the limiting block (41) in a clamping mode.

5. The gerotor pump as in claim 1, wherein: one end of the third end cover (6) is provided with a raised bump, a first limiting groove (61) is formed in the surface of the bump, the first limiting groove (61) is fixedly connected with a limiting block (41) in a clamping mode, a round hole (62) is formed in the middle of the third end cover (6), and the eccentric shaft (4) penetrates through the round hole (62).

6. The gerotor pump as in claim 1, wherein: the middle part of the eccentric shaft (4) is provided with a raised cylinder, and the cylinder is arranged in the middle part of the triangular rotor (5).

7. The gerotor pump as in claim 1, wherein: the inner wall of the inner gear (52) is provided with a first tooth, and the outer wall of the pinion (7) is provided with a second tooth corresponding to the first tooth.

8. The gerotor pump as in claim 1, wherein: the first end cover (2) is fixed on two sides of the double-layer shell (1) through bolts, a first round hole is formed in the middle of the first end cover (2), and the first end cover (2) is fixed on the first round hole of the first end cover (2) through bolts.

9. The gerotor pump as in claim 1, wherein: the surface of the inner cover (8) is provided with a hole, the inner cover (8) is sleeved on the eccentric shaft (4) through the hole, the inner cover (8) is matched with the groove, and the inner cover (8) is rotationally arranged relative to the groove.

10. The gerotor pump as in claim 1, wherein: the check valve bodies (13) are arranged in four, the check valve bodies (13) are vertically and symmetrically arranged on the side face of the double-layer shell (1), and the two check valve bodies (13) on the same side are respectively arranged in the 8-shaped cavity (11).

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