CN204985079U - Pump device - Google Patents

Abstract

The utility model provides a pump device which even sets up the convex part setting up between the first discharge pipe of the pump case body and second discharge pipe to the suppression spills the fluid from the opposite side when spitting the fluid from one side, and the step portion that also can restrain by convex part formation makes the fluid be detained. In pump device, perisporium (44) in second casing (4) of the pump case body are provided with convex part (45) (first convex part and second convex part) between second opening (49) that communicate in first opening (48) and second discharge pipe (9) of first discharge pipe (8) intercommunication. When observing from axis (L1) the orientation of first discharge pipe, the 2nd direction of rotation side is leaned on to the part of leaning on a direction of rotation (CW) side most of inner peripheral surface (80) than first discharge pipe partly at least of tip (461) of the 2nd direction of rotation (CCW) the side of first convex part, and consequently in the perisporium, the centre gripping narrower or do not have this region in the step portion that is formed by first convex part with the region of first opening (48).

Description

Pump-unit

Technical field

The utility model relates to a kind of pump-unit being provided with multiple discharge pipe in pump case.

Background technique

Pump-unit has impeller and pump case, and described pump case has surrounds the perisporium of impeller at radial outside, pump case be provided with on rotating center axis direction with impeller suction port in opposite directions and the discharge pipe at all wall openings.Propose in described pump-unit, the position be separated in the circumferential arranges two discharge pipes.According to described structure, when impeller rotates to the first sense of rotation, can spue from a discharge pipe two discharge pipes fluid, when impeller rotates to the second direction contrary with the first sense of rotation, can tell pipe to spue fluid from another.Further, proposing following technology: at perisporium, protuberance is set by the position of two discharge pipes clamping, when spuing fluid from a discharge pipe, suppressing to spill fluid (with reference to patent documentation 1) from another discharge pipe.

In addition, in patent documentation 1, rounded cross section in discharge pipe, when observing from the axial direction of discharge pipe, the end of protuberance is with the linearly extension of not overlapping with the inner peripheral surface of discharge pipe mode.

Patent documentation 1: Japanese Unexamined Patent Publication 10-43119 publication

Model utility content

In the pump-unit that patent documentation 1 is recorded, because the opening portion (inner peripheral surface of discharge pipe) of the discharge pipe at perisporium place is rounded, on the other hand, the end of protuberance is with the linearly formation of mode contacted with described circle, and therefore the area being held on the region of opening portion and protuberance of perisporium is larger.Therefore, there is following problem: fluid is easy to be stranded in the stepped part formed by protuberance of perisporium.Delay due to described stepped part place become be contained in fluid foreign body retention in stepped part, therefore preferred this scheme.

In view of above problem, problem of the present utility model is to provide a kind of pump-unit, even if described pump-unit arranges protuberance being arranged between the first discharge pipe of pump case and the second discharge pipe, to suppress when spuing fluid from side to spill fluid from opposite side, also the stepped part formed by protuberance can be trapped in by suppression fluid.

In order to solve above-mentioned problem, in the utility model, pump-unit comprises: impeller, and pump case, described pump case has: perisporium, and described perisporium surrounds described impeller at radial outside, suction port, described suction port on rotating center axis direction with described impeller in opposite directions, first discharge pipe, described first discharge pipe is communicated with the first opening portion of described perisporium, and second discharge pipe, described second discharge pipe with described perisporium along described impeller the first sense of rotation and described first open part from the second opening portion of position opening be communicated with, described perisporium is provided with the first protuberance and the second protuberance, described first protuberance is given prominence at the described first sense of rotation side direction radially inner side of described first opening portion, described second protuberance is given prominence at the second sense of rotation side direction radially inner side contrary with described first sense of rotation of described second opening portion, when observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance at least partially than described first discharge pipe inner peripheral surface by the part of described first sense of rotation side by described second sense of rotation side.

In the utility model, the second protuberance that the second sense of rotation side direction radially inner side contrary with the first sense of rotation that the perisporium of pump case is provided with the second opening portion that the first protuberance that the first sense of rotation side direction radially inner side of the first opening portion of being communicated with at the first discharge pipe gives prominence to is communicated with at the second discharge pipe is given prominence to.Therefore, when making impeller rotate to the first sense of rotation and spue fluid from the first discharge pipe, fluid not easily spills from the second discharge pipe, and when making impeller rotate to the second sense of rotation and spue fluid from the second discharge pipe, fluid not easily spills from the first discharge pipe.And, when observing from the axial direction of the first discharge pipe, due to the second sense of rotation side of the first protuberance end at least partially than the first discharge pipe inner peripheral surface by the part of the first sense of rotation side by the second sense of rotation side, therefore, in perisporium, be held on the region of stepped part and the first opening portion formed by the first protuberance narrower or there is not this region.Therefore, when impeller rotates to the first sense of rotation, the stepped part not easily occurring to be formed by the first protuberance makes the situation of fluid retention.

In the utility model, when preferably observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance at least partially than described second discharge pipe inner peripheral surface by the part of described second sense of rotation side by described first sense of rotation side.According to described structure, in perisporium, be held on the region of stepped part and the second opening portion formed by the second protuberance narrower or there is not this region.Therefore, when impeller rotates to the second sense of rotation, the stepped part not easily occurring to be formed by the second protuberance makes the situation of fluid retention.

In the utility model, when preferably observing from the axial direction of described first discharge pipe, the entirety of the end of the described second sense of rotation side of described first protuberance be positioned at the partly overlapping position of the described first sense of rotation side of the inner peripheral surface of described first discharge pipe or be positioned at the inner peripheral surface than described first discharge pipe the part of described first sense of rotation side by the position of described second sense of rotation side, when observing from the axial direction of described second discharge pipe, the entirety of the end of the described first sense of rotation side of described second protuberance be positioned at the partly overlapping position of the described second sense of rotation side of the inner peripheral surface of described second discharge pipe or be positioned at the inner peripheral surface than described second discharge pipe the part of described second sense of rotation side by the position of described first sense of rotation side.According to described structure, there is not the region of stepped part and the first opening portion being held on and being formed by the first protuberance at perisporium, there is not the region of stepped part and the second opening portion being held on and being formed by the second protuberance.Therefore, not easily there is the situation that the stepped part that formed by the first protuberance or the stepped part that formed by the second protuberance make fluid retention.

In the utility model, following structure can be adopted: described first discharge pipe and all rounded cross section of described second discharge pipe, when observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance has along the bending circular shape of the inner peripheral surface of described first discharge pipe, when observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance has along the bending circular shape of the inner peripheral surface of described second discharge pipe.

Now, also following structure can be adopted: when observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance has the circular shape overlapping with the inner peripheral surface of described first discharge pipe, when observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance has the circular shape overlapping with the inner peripheral surface of described second discharge pipe.

In the utility model, also following structure can be adopted: all rounded cross section in described first discharge pipe and in described second discharge pipe, when observing from the axial direction of described first discharge pipe, the linearly extension in end of the described second sense of rotation side of described first protuberance, when observing from the axial direction of described second discharge pipe, the linearly extension in end of the described first sense of rotation side of described second protuberance.

In the utility model, preferably described first discharge pipe and described second discharge pipe are arranged in parallel, and described first protuberance and described second protuberance form continuous print protuberance in the circumferential.According to described structure, be easy to the first discharge pipe and the second discharge pipe pipe arrangement.Further, because the first discharge pipe and the second discharge pipe are arranged in parallel, and the first protuberance and the second protuberance form continuous print protuberance in the circumferential, therefore when carrying out mould-forming to pump case, can simplify the structure of mould.

In the utility model, preferred described pump case configures with described first discharge pipe and described second discharge pipe mode upward.According to described structure, when making impeller rotate to the first sense of rotation and spue fluid from the first discharge pipe, fluid not easily spills from the second discharge pipe due to the impact of gravity, when making impeller rotate to the second sense of rotation and spue fluid from the second discharge pipe, fluid not easily spills from the first discharge pipe due to the impact of gravity.

In the utility model, when observing from the axial direction of the first discharge pipe, due to the second sense of rotation side of the first protuberance end at least partially than the first discharge pipe inner peripheral surface by the part of the first sense of rotation side by the second sense of rotation side, therefore, in perisporium, the region of stepped part and the first opening portion formed by the first protuberance is held on narrower or there is not this region.Therefore, when impeller rotates to the first sense of rotation, the stepped part not easily occurring to be formed by the first protuberance makes the situation of fluid retention.

Accompanying drawing explanation

Fig. 1 (a), Fig. 1 (b) are the explanatory drawings of the outward appearance of the pump-unit illustrated involved by mode of execution 1 of the present utility model.

Fig. 2 is the exploded perspective view of the pump-unit involved by mode of execution 1 of the present utility model.

Fig. 3 is the sectional view of the pump-unit involved by mode of execution 1 of the present utility model.

Fig. 4 is the explanatory drawing of the second housing of the pumping section of the pump-unit illustrated involved by mode of execution 1 of the present utility model and the position relationship of impeller.

Fig. 5 (a), Fig. 5 (b), Fig. 5 (c), Fig. 5 (d), Fig. 5 (e) are the explanatory drawings of the second housing for the pump-unit involved by mode of execution 1 of the present utility model.

Fig. 6 (a), Fig. 6 (b), Fig. 6 (c), Fig. 6 (d), Fig. 6 (e) are the explanatory drawings of the second housing for the pump-unit involved by mode of execution 2 of the present utility model.

(symbol description)

1 pump-unit;

2 pump case;

3 first housings;

4 second housings;

8 first discharge pipes;

9 second discharge pipes;

10 partition wall member;

31 stators;

32 running shafts;

33 rotors;

40 suction ports;

44 perisporiums;

48 first opening portions;

49 second opening portions;

45 protuberances;

46 first protuberances;

47 second protuberances;

60 impellers;

The inner peripheral surface of 80 first discharge pipes;

The inner peripheral surface of 90 second discharge pipes;

100 pumping section;

200 motor part;

461, the end of 462 first protuberances;

471, the end of 472 second protuberances;

The part leaning on most the first sense of rotation side of the inner peripheral surface of 801 first discharge pipes;

The part leaning on most the second sense of rotation side of the inner peripheral surface of 901 second discharge pipes.

Embodiment

Below, be described for implementing mode of the present utility model with reference to accompanying drawing.In addition, in the following description, the axis of the second discharge pipe 9, as L0, using the axis of the first discharge pipe 8 as L1, is described as L2 by the axis (motor axis (the rotating center axis of impeller 60)) of motor part 200.

[mode of execution 1]

(overall structure of pump-unit)

Fig. 1 (a), Fig. 1 (b) are the explanatory drawings of the outward appearance of the pump-unit 1 illustrated involved by mode of execution 1 of the present utility model, Fig. 1 (a) is that Fig. 1 (b) is from the stereogram during unilateral observation pump-unit 1 contrary with the side being provided with suction port 40 from stereogram when being provided with the unilateral observation pump-unit 1 of suction port 40.Fig. 2 is the exploded perspective view of the pump-unit 1 involved by mode of execution 1 of the present utility model.Fig. 3 is the sectional view of the pump-unit 1 involved by mode of execution 1 of the present utility model.Fig. 4 is the second housing 4 of the pumping section 100 of the pump-unit 1 illustrated involved by mode of execution 1 of the present utility model and the explanatory drawing of the position relationship of impeller 60.

As shown in Fig. 1 (a), Fig. 1 (b), Fig. 2 and Fig. 3, the pump-unit 1 in present embodiment has pumping section 100 and drives the motor part 200 of pumping section 100.Pump-unit 1 has pump case 2, and pump case 2 has motor shell 5 and pump case 6.Motor shell 5 has the first housing 3 having bottom tube-like and the partition wall member 10 covering the first housing 3, and described first housing 3 has periphery wall 3a.Further, pump case 6 is made up of the second housing 4 and partition wall member 10.That is, partition wall member 10 is shared in motor shell 5 with pump case 6, and the first housing 3 and the second housing 4 clamp partition wall member 10 and combine.Such as, the first housing 3, second housing 4 and partition wall member 10 connect in turn with the bayonet fashion employing the pawl that is arranged at circumferential many places etc. and combine, by bolt (omitting diagram) etc. by spline.In addition, the first housing 3, second housing 4 and partition wall member 10 also can combine by multiple screw bolt and nut etc. simultaneously.

Partition wall member 10 has the ridge 12 to pump case 6 side protuberance.Ridge 12 has, and keeps boss part 15 at the central part of round plate 14.In boss part 15, sealed member 20 is kept by the sealing holding part 16 to pump case 6 side opening.Partition wall member 10 has the cylinder portion 18 extended in motor shell 5, and cylinder portion 18 is connected with boss part 15 at the wide diameter portion 17 at its root place.Cylinder portion 18 has the through hole 19 of the running shaft 32 through rotor 33, maintains the bearing 26,27 of supporting rotating shaft 32 at the two ends of through hole 19.Running shaft 32 extends from through hole 19 to pump case 6, through sealed member 20.

Be provided with stator 30 in the periphery in cylinder portion 18, stator 30 is wound with coil 31b at stator iron core 31a across insulating part 37a, 37b.At stator 30, terminal board 38 and insulating part 37a side overlapping configuration, outer cover 39 and insulating part 37b side overlapping configuration.

Be combined with rotor housing 34 in the end of the running shaft 32 outstanding in motor shell 5 from cylinder portion 18, the cylindrical body part 35 of rotor housing 34 is positioned at the outside of stator 30.Be provided with permanent magnet 36 by bonding grade at the internal surface of the cylindrical body part 35 of rotor housing 34, the internal surface of permanent magnet 36 is set to and separates specified gap with the outer circumferential face of stator 30.Rotor 33 is defined by above-mentioned rotor housing 34, permanent magnet 36 and running shaft 32.

In the end extended from bearing 26 to pump case 6 of running shaft 32, the impeller 60 be formed from a resin is installed.Impeller 60 is that the outer surface of the substrate wall 61 of hat shape has more blades 63 in cross section.Impeller 60 with partition wall member 10 reverse side in opposite directions, have in conjunction with cylinder portion 65 in the inner side of large-diameter portion 67.Be formed with the annular knurl be made up of many grooves in the end of running shaft 32, by the end by being pressed into running shaft 32 in conjunction with cylinder portion 65, impeller 60 is directly combined with running shaft 32.Thus, impeller 60 becomes only from the single support structure that motor part 200 side is kept.Impeller 60 and running shaft 32, except being combined by annular knurl, also can pass through the combination such as spline or bolt combination.

Second housing 4 has diapire 42 and from the outer circumference end of diapire 42 to the main part 41 that the bearing of trend of axis L0 extends.The cylindrical shape of inner peripheral surface of main part 41, opening end is embedded in the ridge 12 of partition wall member 10.At the second housing 4, the chimeric surface of periphery wall 13 is provided with seal ring 7.

The diapire 42 of the second housing 4 leaves from partition wall member 10, at this diapire 42, running shaft 32 (the rotating center axis of impeller 60) position is in opposite directions provided with suction port 40.Further, the position circumference of main part 41 is separated is provided with the first discharge pipe 8 and the second discharge pipe 9.

As shown in Figure 4, in the pump-unit 1 of present embodiment, there is at the main part 41 of the second housing 4 of pump case 2 perisporium 44 surrounding the cylindrical shape of impeller 60 at radial outside, if impeller 60 is rotated to the first sense of rotation CW by motor part 200, the fluid then flowed into from suction port 40 moves along perisporium 44 to the first sense of rotation CW, and spues from the first discharge pipe 8.On the other hand, if impeller 60 is rotated to the second sense of rotation CCW contrary with the first sense of rotation CW by motor part 200, the fluid then flowed into from suction port 40 moves along perisporium 44 to the second sense of rotation CCW, and the fluid flowed into from suction port 40 spues from the second discharge pipe 9.

(detailed construction of the second housing 4)

Fig. 5 (a), Fig. 5 (b), Fig. 5 (c), Fig. 5 (d), Fig. 5 (e) is the explanatory drawing of the second housing 4 for the pump-unit 1 involved by mode of execution 1 of the present utility model, Fig. 5 (a) is the rear view from unilateral observation second housing 4 contrary with suction port 40, Fig. 5 (b) is the planimetric map observing the second housing 4 from the bearing of trend of the first discharge pipe 8, Fig. 5 (c) rolls tiltedly to the first discharge pipe 8 and observes the stereogram of the second housing 4, sectional view when Fig. 5 (d) is A1-A1 ' line cutting the second housing 4 along Fig. 5 (b), sectional view when Fig. 5 (e) is B1-B1 ' line cutting the second housing 4 along Fig. 5 (a).

As shown in Fig. 4 and Fig. 5 (a), Fig. 5 (b), Fig. 5 (c), Fig. 5 (d), Fig. 5 (e), to be arranged in parallel and to be provided with the first discharge pipe 8 and the second discharge pipe 9, the first discharge pipe 8 and the top of the second discharge pipe 9 all to gravitational direction linearly outstanding at the second housing 4 of the pump-unit 1 for present embodiment.

In the second housing 4, the first opening portion 48 being formed at perisporium 44 is communicated with the first discharge pipe 8, is communicated with the second discharge pipe 9 at the second opening portion 49 of the position opening be separated from the first opening portion 48 along the first sense of rotation CW of perisporium 44.In the present embodiment, the first discharge pipe 8 and the second discharge pipe 9 are the equal cylindrical shape of external diameter and internal diameter.

Further, in perisporium 44, be formed in the first sense of rotation CW side of the first opening portion 48 to the first outstanding protuberance 46 of radially inner side, be provided with to the second outstanding protuberance 47 of radially inner side in the second sense of rotation CCW side of the second opening portion 49.In the present embodiment, the first protuberance 46 and the second protuberance 47 form continuous print protuberance 45 in the circumferential.Therefore, in protuberance 45, the part being positioned at the second sense of rotation CCW side is the first protuberance 46, and the part being positioned at the first sense of rotation CW side is the second protuberance 47.Therefore, between the first opening portion 48 and the second opening portion 49 (being formed with the part of protuberance 45), the interval of the outer peripheral portion of perisporium 44 and impeller 60 is narrower.

At this, when observing from the axis L1 direction of the first discharge pipe 8, the end 461 of the second sense of rotation CCW side of the first protuberance 46 at least partially than the first discharge pipe 8 inner peripheral surface 80 by the part of the first sense of rotation CW side by the second sense of rotation CCW side.

More particularly, first, the first discharge pipe 8 cylindrically.Therefore, the rounded cross section, inside of the first discharge pipe 8, the inner peripheral surface 80 of the first discharge pipe 8 is rounded.Therefore, when observing from the axis L1 direction of the first discharge pipe 8, in the inner peripheral surface 80 of the first discharge pipe 8 by part 801 that the part of the first sense of rotation CW side is the first sense of rotation CW side of the diameter parts in the direction orthogonal with the axis L1 of the first discharge pipe 8 and motor axis L0.

And when observing from the axis L1 direction of the first discharge pipe 8, the end 461 of the first protuberance 46 has along the bending circular shape of the inner peripheral surface 80 of the first discharge pipe 8, end 461 is overlapping with the inner peripheral surface 80 of the first discharge pipe 8.Therefore, when observing from the axis L1 direction of the first discharge pipe 8, the peristome of the first opening portion 48 is overlapping with the end 461 of the first protuberance 46.Further, in the end 461 of the first protuberance 46, the part 461a, the 461b that are arranged in the both sides in motor axis L0 direction lean on the second sense of rotation CCW side by the part 801 of the first sense of rotation CW side than the inner peripheral surface 80 of the first discharge pipe 8.In the present embodiment, in the end 461 of the first protuberance 46, being arranged in part 461a, the 461b of both sides in motor axis L0 direction, being positioned at the part 461b of suction port 40 side than being positioned at the part 461a of the side contrary with suction port 40 by the second sense of rotation CCW side.

Further, when observing from the axis L2 direction of the second discharge pipe 9, the end 471 of the first sense of rotation CW side of the second protuberance 47 at least partially than the second discharge pipe 9 inner peripheral surface 90 by the part of the second sense of rotation CCW side by the first sense of rotation CW side.

More particularly, first, the second discharge pipe 9 cylindrically.Therefore, the rounded cross section, inside of the second discharge pipe 9, the inner peripheral surface 90 of the second discharge pipe 9 is rounded.Therefore, when observing from the axis L2 direction of the second discharge pipe 9, the inner peripheral surface 90 of the second discharge pipe 9 by part 901 that the part of the second sense of rotation CCW side is the second sense of rotation CCW side of the diameter parts in the direction orthogonal with the axis L2 of the second discharge pipe 9 and motor axis L0.

And when observing from the axis L2 direction of the second discharge pipe 9, the end 471 of the second protuberance 47 has along the bending circular shape of the inner peripheral surface 90 of the second discharge pipe 9, end 471 is overlapping with the inner peripheral surface 90 of the second discharge pipe 9.Therefore, when observing from the axis L2 direction of the second discharge pipe 9, the peristome of the second opening portion 49 is overlapping with the end 471 of the second protuberance 47.Further, in the end 471 of the second protuberance 47, the part 471a, the 471b that are arranged in the both sides in motor axis L0 direction lean on the first sense of rotation CW side by the part 901 of the second sense of rotation CCW side than the inner peripheral surface 90 of the second discharge pipe 9.In the present embodiment, in the end 471 of the second protuberance 47, being arranged in part 471a, the 471b of both sides in motor axis L0 direction, being positioned at the part 471b of suction port 40 side than being positioned at the part 471a of the side contrary with suction port 40 by the second sense of rotation CCW side.

Therefore, from Fig. 5 (e), during from protuberance 45 whole observation, the straight length being positioned at the part 45b of suction port 40 side is longer than the straight length of the part 45a being positioned at the side contrary with suction port 40.Even so, in protuberance 45, the straight length La being positioned at the part 45a of the side contrary with suction port 40 is also long than the interval Lb (interval of the first opening portion 48 and the second opening portion 49) of the inner peripheral surface 80 of the first discharge pipe 8 and the inner peripheral surface 90 of the second discharge pipe 9.In addition, in the present embodiment, the interval Lb (interval of the first opening portion 48 and the second opening portion 49) of the inner peripheral surface 80 of length La and the first discharge pipe 8 being positioned at the part 45a of the side contrary with suction port 40 in the internal diameter Lc (diameter) of perisporium 44, protuberance 45 and the inner peripheral surface 90 of the second discharge pipe 9 is set as meeting following relation:

Lb＜Lc/3＜La。

(main efficacy results of present embodiment)

Explain as above, in the pump-unit 1 of present embodiment, at the perisporium 44 of the second housing 4 of pump case 2, between the second opening portion 49 that the first opening portion 48 of the first discharge pipe 8 connection is communicated with the second discharge pipe 9, be provided with protuberance 45 (first protuberance 46 and the second protuberance 47).Therefore, when making impeller 60 rotate to the first sense of rotation CW and spue fluid from discharge pipe 8, fluid not easily spills from the second discharge pipe 9, and when making impeller 60 rotate to the second sense of rotation CCW and spue fluid from the second discharge pipe 9, fluid not easily spills from the first discharge pipe 8.

Further, when observing from the axis L1 direction of the first discharge pipe 8, the end 461 of the second sense of rotation CCW side of the first protuberance 46 at least partially than the first discharge pipe 8 inner peripheral surface 80 by the part of the first sense of rotation CW side by the second sense of rotation CCW side.Therefore, in perisporium 44, be held on the region of stepped part and the first opening portion 48 formed by the first protuberance 46 narrower or there is not this region.In the present embodiment, when observing from the axis L1 direction of the first discharge pipe 8, because the end 461 of the first protuberance 46 is overlapping with the inner peripheral surface 80 of the first discharge pipe 8, when therefore observing from the axis L1 direction of the first discharge pipe 8, the peristome of the first opening portion 48 is overlapping with the end 461 of the first protuberance 46.Therefore, in perisporium 44, there is not the region of stepped part and the first opening portion 48 being held on and being formed by the first protuberance 46.Therefore, when impeller 60 rotates to the first sense of rotation CW, because the fluid bumping against the stepped part formed by the first protuberance 46 successfully flows to the first discharge pipe 8, the stepped part therefore not easily occurring to be formed by the first protuberance 46 makes the situation of fluid retention.Therefore, spue from discharge pipe 8 as fluid for clean water time, because the foreign matter being contained in rinse water successfully flows to the first discharge pipe 8, therefore, it is possible to suppress foreign body retention in the stepped part formed by the first protuberance 46.Further, the situation that the foreign matter that the rotation that impeller 60 not easily occurs is stranded in the stepped part formed by the first protuberance 46 hinders.

Further, even if in the second discharge pipe 9 side, substantially also form the structure identical with the first discharge pipe 8, there is not the region of stepped part and the second opening 49 being held on and being formed by the second protuberance 47 at perisporium 44.Therefore, when impeller 60 rotates to the second sense of rotation CCW, because the fluid bumping against the stepped part formed by the second protuberance 47 successfully flows to the second discharge pipe 9, the stepped part therefore not easily occurring to be formed by the second protuberance 47 makes the situation of fluid retention.Therefore, spue from the second discharge pipe 9 as fluid for clean water time, because the foreign matter being contained in rinse water successfully flows to the second discharge pipe 9, therefore, it is possible to suppress foreign body retention in the stepped part formed by the second protuberance 47.Further, the situation that the foreign matter that the rotation that impeller 60 not easily occurs is stranded in the stepped part formed by the second protuberance 47 hinders.

Further, in the present embodiment, the first discharge pipe 8 and the second discharge pipe 9 be arranged in parallel and the first discharge pipe 8 and the second discharge pipe 9 cylindrically.Therefore, the pipe distribution operations such as the connection carrying out rubber pipe and the first discharge pipe 8 and the second discharge pipe 9 are easy to.Further, the first discharge pipe 8 and the second discharge pipe 9 are arranged in parallel and the first protuberance 46 and the second protuberance 47 are configured to continuous print protuberance 45 in the circumferential.Therefore, when the second housing 4 mould-forming to pump case 2, the structure of mould can be simplified.

Further, the second housing 4 of pump case 2 configures with the first discharge pipe 8 and the second discharge pipe 9 mode upward.Therefore, when making impeller 60 rotate to the first sense of rotation CW and spue fluid from the first discharge pipe 8, fluid not easily spills from the second discharge pipe 9 under the influence of gravity, when making impeller 60 rotate to the second sense of rotation CCW and spue fluid from the second discharge pipe 9, fluid not easily spills from the first discharge pipe 8 under the influence of gravity.

[variation of mode of execution 1]

In described mode of execution 1, when observing from the axis L1 direction of the first discharge pipe 8, the end 461 of the first protuberance 46 is overlapping with the inner peripheral surface 80 of the first discharge pipe 8, but also can be following structure: the inner peripheral surface 80 of end 461 to the first discharge pipe 8 of the first protuberance 46 is by the second sense of rotation CCW side.Equally, also can be following structure: the inner peripheral surface 90 of end 471 to the second discharge pipe 9 of the second protuberance 47 is by the first sense of rotation CW side.

And, when observing from the axis L1 direction of the first discharge pipe 8, as long as the end 461 of the second sense of rotation CCW side of the first protuberance 46 at least partially than the first discharge pipe 8 inner peripheral surface 80 by the part of the first sense of rotation CW side by the structure of the second sense of rotation CCW side, also can be just the structure that the inner peripheral surface 80 of end 461 to the first discharge pipe 8 of the first protuberance 46 leans on the first sense of rotation CW side.Equally, when observing from the axis L2 direction of the second discharge pipe 9, as long as the end 471 of the first sense of rotation CW side of the second protuberance 47 at least partially than the second discharge pipe 9 inner peripheral surface 90 by the part of the second sense of rotation CCW side by the structure of the first sense of rotation CW side, also can be just the structure that the inner peripheral surface 90 of end 471 to the second discharge pipe 9 of the second protuberance 47 leans on the second sense of rotation CCW side.

[mode of execution 2]

Fig. 6 (a), Fig. 6 (b), Fig. 6 (c), Fig. 6 (d), Fig. 6 (e) is the explanatory drawing of the second housing 4 for the pump-unit 1 involved by mode of execution 2 of the present utility model, Fig. 6 (a) is the rear view from unilateral observation second housing 4 contrary with suction port 40, Fig. 6 (b) is the planimetric map observing the second housing 4 from the bearing of trend of the first discharge pipe 8, Fig. 6 (c) rolls tiltedly to the first discharge pipe 8 and observes the stereogram of the second housing 4, sectional view when Fig. 6 (d) is A2-A2 ' line cutting the second housing 4 along Fig. 6 (b), sectional view when Fig. 6 (e) is B2-B2 ' line cutting the second housing 4 along Fig. 6 (a).In addition, because the basic structure of present embodiment is identical with the first mode of execution 1, therefore marks identical symbol to illustrate to common part, and omit the explanation of common part.

As shown in Fig. 6 (a), Fig. 6 (b), Fig. 6 (c), Fig. 6 (d), Fig. 6 (e), identical with mode of execution 1, also to be arranged in parallel and to be provided with the first discharge pipe 8 and the second discharge pipe 9, the first discharge pipe 8 and the second top of discharge pipe 9 all to gravitational direction outstanding at the second housing 4 of the pump-unit 1 for present embodiment.Further, in the second housing 4, the first opening portion 48 being formed at perisporium 44 is communicated with the first discharge pipe 8, is communicated with the second discharge pipe 9 at the second opening portion 49 of the position opening be separated from the first opening portion 48 along the first sense of rotation CW of perisporium 44.In the present embodiment, all cylindrically, but external diameter and internal diameter are different for the first discharge pipe 8 and the second discharge pipe 9.In the present embodiment, the external diameter of the first discharge pipe 8 to the second discharge pipe 9 and internal diameter little.

Further, in perisporium 44, be formed in the first sense of rotation CW side of the first opening portion 48 to the first outstanding protuberance 46 of radially inner side, be provided with to the second outstanding protuberance 47 of radially inner side in the second sense of rotation CCW side of the second opening portion 49.In the present embodiment, the first protuberance 46 and the second protuberance 47 form continuous print protuberance 45 in the circumferential.Therefore, in protuberance 45, the part being positioned at the second sense of rotation CCW side is the first protuberance 46, and the part being positioned at the first sense of rotation CW side is the second protuberance 47.

At this, when observing from the axis L1 direction of the first discharge pipe 8, the end 462 of the second sense of rotation CCW side of the first protuberance 46 at least partially than the first discharge pipe 8 inner peripheral surface 80 by the part of the first sense of rotation CW side by the second sense of rotation CCW side.In the present embodiment, when observing from the axis L1 direction of the first discharge pipe 8, end 462 entirety of the second sense of rotation CCW side of the first protuberance 46 leans on the second sense of rotation CCW side than the part of the first sense of rotation CW side of leaning on most of the inner peripheral surface 80 of the first discharge pipe 8.

More particularly, first, the first discharge pipe 8 cylindrically.Therefore, the rounded cross section, inside of the first discharge pipe 8, the inner peripheral surface 80 of the first discharge pipe 8 is rounded.Therefore, when observing from the axis L1 direction of the first discharge pipe 8, the inner peripheral surface 80 of the first discharge pipe 8 by part 801 that the part of the first sense of rotation CW side is the first sense of rotation CW side of the diameter parts in the direction orthogonal with the axis L1 of the first discharge pipe 8 and motor axis L0.

And when observing from the axis L1 direction of the first discharge pipe 8, position and the motor axis L0 linearly extension abreast of the second sense of rotation CCW side are leaned in the part 801 of the first sense of rotation CW side of leaning on most of the inner peripheral surface 80 than the first discharge pipe 8 in the end 462 of the first protuberance 46.Further, position and the motor axis L0 linearly extension abreast of the second sense of rotation CCW side is leaned in the end 462 of the first protuberance 46 in the part being positioned at the predetermined angular scope of the first sense of rotation CW side of the inner peripheral surface 80 than the first discharge pipe 8.In the present embodiment, in the end 462 of the first protuberance 46, the part 462a, the 462b that are positioned at the both sides in motor axis L0 direction are positioned at identical position in the circumferential.

Further, when observing from the axis L2 direction of the second discharge pipe 9, the end 472 of the first sense of rotation CW side of the second protuberance 47 at least partially than the second discharge pipe 9 inner peripheral surface 90 by the part of the second sense of rotation CCW side by the first sense of rotation CW side.In the present embodiment, when observing from the axis L2 direction of the second discharge pipe 9, end 472 entirety of the first sense of rotation CW side of the second protuberance 47 leans on the first sense of rotation CW side than the part of the second sense of rotation CCW side of leaning on most of the inner peripheral surface 90 of the second discharge pipe 9.

More particularly, first, the second discharge pipe 9 cylindrically.Therefore, the rounded cross section, inside of the second discharge pipe 9, the inner peripheral surface 90 of the second discharge pipe 9 is rounded.Therefore, when observing from the axis L2 direction of the second discharge pipe 9, the inner peripheral surface 90 of the second discharge pipe 9 by part 901 that the part of the second sense of rotation CCW side is the second sense of rotation CCW side of the diameter parts in the direction orthogonal with the axis L2 of the second discharge pipe 9 and motor axis L0.

And when observing from the axis L2 direction of the second discharge pipe 9, position and the motor axis L0 linearly extension abreast of the first sense of rotation CW side are leaned in the part 901 of the second sense of rotation CCW side of leaning on most of the inner peripheral surface 90 than the second discharge pipe 9 in the end 472 of the second protuberance 47.Further, position and the motor axis L0 linearly extension abreast of the first sense of rotation CW side is leaned in the end 472 of the second protuberance 47 in the part being positioned at the predetermined angular scope of the second sense of rotation CCW side of the inner peripheral surface 90 than the second discharge pipe 9.In the present embodiment, in the end 472 of the second protuberance 47, the part 472a, the 472b that are positioned at the both sides in motor axis L0 direction are positioned at identical position in the circumferential.

Therefore, from Fig. 6 (e), during from protuberance 45 whole observation, the straight length being positioned at the part 45b of suction port 40 side is equal with the straight length of the part 45a being positioned at the side contrary with suction port 40.Further, the straight length La of protuberance 45 is longer than the interval Lb (interval of the first opening portion 48 and the second opening portion 49) of the inner peripheral surface 80 of the first discharge pipe 8 and the inner peripheral surface 90 of the second discharge pipe 9.In addition, in the present embodiment, the interval Lb (interval of the first opening portion 48 and the second opening portion 49) of the inner peripheral surface 80 of the internal diameter Lc (diameter) of perisporium 44, the length La of protuberance 45 and the first discharge pipe 8 and the inner peripheral surface 90 of the second discharge pipe 9 is set as meeting following relation:

Lb＜Lc/3＜La。

Explain as above, in the pump-unit 1 of present embodiment, identical with mode of execution 1, at the perisporium 44 of the second housing 4 of pump case 2, between the second opening portion 49 that the first opening portion 48 of the first discharge pipe 8 connection is communicated with the second discharge pipe 9, be provided with protuberance 45 (first protuberance 46 and the second protuberance 47).Therefore, impeller 60 to first sense of rotation CW rotate and when spuing fluid from the first discharge pipe 8, fluid not easily spills from the second discharge pipe 9, and when making impeller 60 rotate to the second sense of rotation CCW and spue fluid from the second discharge pipe 9, fluid not easily spills from the first discharge pipe 8.

Further, when observing from the axis L1 direction of the first discharge pipe 8, end 462 entirety of the second sense of rotation CCW side of the first protuberance 46 leans on the second sense of rotation CCW side than the part of the first sense of rotation CW side of leaning on most of the inner peripheral surface 80 of the first discharge pipe 8.Therefore, in perisporium 44, there is not the region of stepped part and the first opening portion 48 being held on and being formed by the first protuberance 46.Therefore, when impeller 60 rotates to the first sense of rotation CW, because the fluid bumping against the stepped part formed by the first protuberance 46 successfully flows to the first discharge pipe 8, the stepped part therefore not easily occurring to be formed by the first protuberance 46 makes the situation of fluid retention.Therefore, spue from the first discharge pipe 8 as fluid for clean water time, because the foreign matter being contained in rinse water successfully flows to the first discharge pipe 8, therefore, it is possible to suppress foreign body retention in the stepped part etc. formed by the first protuberance 46, obtain identical effect with mode of execution 1.

Further, even if in the second discharge pipe 9 side, also substantially form the structure identical with the first discharge pipe 8, there is not the region being held on stepped part and the second opening portion 49 formed by the second convex step 47 at perisporium 44.Therefore, when impeller 60 rotates to the second sense of rotation CCW, because the fluid bumping against the stepped part formed by the second protuberance 47 successfully flows to the second discharge pipe 9, the stepped part therefore not easily occurring to be formed by the second protuberance 47 makes the situation of fluid retention.Therefore, spue from the second discharge pipe 9 as fluid for clean water time, because the foreign matter being contained in rinse water successfully flows to the second discharge pipe 9, therefore, it is possible to suppress foreign body retention in the stepped part etc. formed by the second protuberance 47, obtain identical effect with mode of execution 1.

[other mode of executions]

In the above-described embodiment, the basic structure of the first protuberance 46 and the second protuberance 47 is identical, but also can be following structure: only in the protuberance of side, and the end of protuberance is given prominence to from the inner peripheral surface of discharge pipe.

Claims (12)

1. a pump-unit, is characterized in that, described pump-unit comprises:

Impeller; And

Pump case,

Described pump case has:

Perisporium, described perisporium surrounds described impeller at radial outside;

Suction port, described suction port on rotating center axis direction with described impeller in opposite directions;

First discharge pipe, described first discharge pipe is communicated with the first opening portion of described perisporium; And

Second discharge pipe, described second discharge pipe with described perisporium along described impeller the first sense of rotation and described first open part from the second opening portion of position opening be communicated with,

Described perisporium is provided with the first protuberance and the second protuberance, described first protuberance is given prominence at the described first sense of rotation side direction radially inner side of described first opening portion, described second protuberance is given prominence at the second sense of rotation side direction radially inner side contrary with described first sense of rotation of described second opening portion

When observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance at least partially than described first discharge pipe inner peripheral surface by the part of described first sense of rotation side by described second sense of rotation side.

2. pump-unit according to claim 1, is characterized in that,

When observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance at least partially than described second discharge pipe inner peripheral surface by the part of described second sense of rotation side by described first sense of rotation side.

3. pump-unit according to claim 2, is characterized in that,

When observing from the axial direction of described first discharge pipe, the entirety of the end of the described second sense of rotation side of described first protuberance be positioned at the partly overlapping position of the described first sense of rotation side of the inner peripheral surface of described first discharge pipe or be positioned at the inner peripheral surface than described first discharge pipe the part of described first sense of rotation side by the position of described second sense of rotation side

When observing from the axial direction of described second discharge pipe, the entirety of the end of the described first sense of rotation side of described second protuberance be positioned at the partly overlapping position of the described second sense of rotation side of the inner peripheral surface of described second discharge pipe or be positioned at the inner peripheral surface than described second discharge pipe the part of described second sense of rotation side by the position of described first sense of rotation side.

4. pump-unit according to claim 2, is characterized in that,

All rounded cross section in described first discharge pipe and in described second discharge pipe,

When observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance has along the bending circular shape of the inner peripheral surface of described first discharge pipe,

When observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance has along the bending circular shape of the inner peripheral surface of described second discharge pipe.

5. pump-unit according to claim 3, is characterized in that,

All rounded cross section in described first discharge pipe and in described second discharge pipe,

When observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance has along the bending circular shape of the inner peripheral surface of described first discharge pipe,

When observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance has along the bending circular shape of the inner peripheral surface of described second discharge pipe.

6. pump-unit according to claim 4, is characterized in that,

When observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance has the circular shape overlapping with the inner peripheral surface of described first discharge pipe,

When observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance has the circular shape overlapping with the inner peripheral surface of described second discharge pipe.

7. pump-unit according to claim 5, is characterized in that,

When observing from the axial direction of described first discharge pipe, the end of the described second sense of rotation side of described first protuberance has the circular shape overlapping with the inner peripheral surface of described first discharge pipe,

When observing from the axial direction of described second discharge pipe, the end of the described first sense of rotation side of described second protuberance has the circular shape overlapping with the inner peripheral surface of described second discharge pipe.

8. pump-unit according to claim 2, is characterized in that,

All rounded cross section in described first discharge pipe and in described second discharge pipe,

When observing from the axial direction of described first discharge pipe, the linearly extension in end of the described second sense of rotation side of described first protuberance,

When observing from the axial direction of described second discharge pipe, the linearly extension in end of the described first sense of rotation side of described second protuberance.

9. pump-unit according to claim 3, is characterized in that,

All rounded cross section in described first discharge pipe and in described second discharge pipe,

When observing from the axial direction of described first discharge pipe, the linearly extension in end of the described second sense of rotation side of described first protuberance,

When observing from the axial direction of described second discharge pipe, the linearly extension in end of the described first sense of rotation side of described second protuberance.

10. pump-unit according to any one of claim 1 to 9, is characterized in that,

Described first discharge pipe and described second discharge pipe are arranged in parallel,

Described first protuberance and described second protuberance form continuous print protuberance in the circumferential.

11. pump-units according to any one of claim 1 to 9, is characterized in that,

Described pump case configures with described first discharge pipe and described second discharge pipe mode upward.

12. pump-units according to claim 10, is characterized in that,

Described pump case configures with described first discharge pipe and described second discharge pipe mode upward.