KR20180003434A - Water drain pump - Google Patents

Abstract

An objective of the present invention is to facilitate assembly work of a coupling pipe (20) and remove or replace the coupling pipe (20) in a water drain pump for an air conditioner. A horizontal pipe (10) is integrated into a pump chamber case (100), and a coupling pipe (20) is formed as a component separate from the pump chamber case (100) and the horizontal pipe (10). The coupling pipe (20) is fixed on the horizontal pipe (10) by a mechanical coupling means (1). The mechanical coupling means (1) includes a flange unit (11), a first cutting groove (12), a case-type concave unit (13), a convex unit (14), a second cutting groove (15), and a C-shaped fixing ring (16). An O-ring is inserted into a circumferential portion (10b) of the horizontal pipe (10). The convex unit (14) of the coupling pipe (20) is inserted into the case-type concave unit (13) of the horizontal pipe (10). The C-shaped fixing ring (16) is inserted into the first cutting groove (12) of the flange unit (11) of the horizontal pipe (10) and a second cutting groove (15) of the convex unit (14) of the coupling pipe (20).

Description

Drain pump {WATER DRAIN PUMP}

The present invention relates to a drain pump for draining drain water (dew condensed water) accumulated in a drain pan of an indoor unit of an air conditioner, for example.

BACKGROUND ART [0002] Conventionally, as a drain pump for an air conditioner, there is, for example, one disclosed in Japanese Patent Application Laid-Open No. 2016-27249 (Patent Document 1).

In the drain pump of Patent Document 1, a motor section is disposed on a pump section, and an impeller rotating by a motor section is provided in a pump chamber case of the pump section. In addition, the pump chamber case is in the form of a thin lot, and a suction port disposed in the drain pan is formed at the lower end thereof, and a discharge port is formed on the outer circumference of the pump chamber case. By rotating the impeller, the water in the drain pan is sucked from the suction port, and the sucked water is discharged from the discharge port to the outside. In general, a discharge pipe (hose) is connected to the discharge port, and the discharge pipe discharges it to a position away from the air conditioner.

Patent Document 1: JP-A-2016-27249

In the indoor unit of the air conditioner, it is necessary to route the discharge pipe connected to the discharge port of the drain pump above the drain pump in order to discharge the water of the drain pan to a remote place. For this reason, Patent Document 1 has a horizontal pipe integral with the pump room case, and a fitting pipe extending vertically upward from the horizontal pipe.

However, in Patent Document 1, the fitting pipe is fixed to the horizontal pipe by ultrasonic welding. Therefore, the fitting pipe can not be easily removed from the horizontal pipe, for example, maintenance of the drain pump and replacement of the fitting pipe with another type can not be performed. Further, in the case of fixing by ultrasonic welding as in Patent Document 1, there is a limitation in the shape of the fitting pipe because it is necessary to press the horn against the ultrasonic wave. Further, in the ultrasonic welding of Patent Document 1, it is necessary to confirm whether the joint portion between the horizontal pipe and the fitting pipe is reliably sealed, and it takes time to manage the manufacturing process.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a drain pump which facilitates assembling work of a joint pipe and can remove or replace a joint pipe.

The drain pump of claim 1 includes a pump chamber case having a cylindrical suction pipe portion at a lower end and a discharge pipe portion at a side face, and an impeller rotatably installed in the pump chamber case, wherein the impeller is rotated to suck fluid from the suction pipe portion Wherein the discharge pipe portion includes a horizontal pipe which is formed integrally with the pump chamber case and communicates with the pump chamber case, and a fitting pipe which is a separate component from the horizontal pipe, A sealing member is provided at a joining portion of the horizontal pipe and the fitting pipe, and the horizontal pipe and the fitting pipe are fixed to each other by a mechanical coupling means provided on the outer periphery of the joining portion.

According to a second aspect of the present invention, there is provided a drain pump according to the first aspect, wherein the drain pump is provided with a rotation stopper mechanism for preventing relative rotation about the axis of the horizontal pipe of the horizontal pipe and the fitting pipe.

The drain pump according to claim 3 is the drain pump according to claim 1, wherein the fitting pipe communicates with the horizontal pipe from a direction intersecting the axis of the horizontal pipe.

The drain pump according to claim 4 is the drain pump according to claim 2, wherein the fitting pipe communicates with the horizontal pipe from a direction intersecting the axial line.

The drainage pump according to claim 5 is the drainage pump according to any one of claims 1 to 4, wherein the mechanical coupling means comprises a flange portion formed around the axis of the horizontal pipe at one of the horizontal pipe and the fitting pipe, A protrusion formed on the other of the horizontal pipe and the fitting pipe and formed around the axial line; a recess formed in the flange portion and fitted with the protrusion; and a flange portion and a protrusion portion formed on the same circumference on the same circumference around the axial line A first and a second cutting grooves formed in a concave shape and fixed in the first and second cutting grooves with the protrusions fitted in the concave portions such that the first and second cutting grooves are on the same circumference, And is constituted by a member.

The drain pump according to claim 6 is the drain pump according to any one of claims 1 to 4, wherein the mechanical coupling means comprises: a locking claw provided on one of the horizontal pipe and the fitting pipe; And a flange portion provided on the other side and engaged with the retaining hook.

The drain pump according to claim 7 is the drain pump according to claim 2, wherein the mechanical coupling means comprises: a locking claw provided on one of the horizontal pipe and the fitting pipe; and a drain pipe provided on the other of the horizontal pipe and the fitting pipe Wherein the rotation stopping mechanism includes a rib provided on the other of the horizontal pipe and the fitting pipe and the engagement claw, and the engagement claw and the rib are engaged with each other around the axial line So that the engaging claw and the rib are restrained from moving on the circumference.

The drain pump according to claim 8 is the drain pump according to any one of claims 1 to 4, wherein the mechanical coupling means comprises a flange part formed in the horizontal pipe and the fitting pipe, a flange part in the horizontal pipe, And a fixing member for clamping both flange portions from the axial direction in a state in which the flange portion of the pipe is overlapped.

The drain pump according to claim 9 is the drain pump according to any one of claims 1 to 4, wherein the mechanical coupling means is a screw.

According to the drain pump of Claims 1 to 9, since the horizontal pipe and the fitting pipe are fixed by the mechanical coupling means, the fitting operation of the fitting pipe is easy, and the fitting pipe can be removed or replaced.

According to the drain pump of claim 2, in addition to the above effect, the rotation stop mechanism can easily position the direction of the fitting pipe, and the fitting pipe can be rotated during use or the fitting pipe can be removed from the horizontal pipe It can be prevented from moving.

According to the drain pump of Claims 3 and 4, in addition to the above-mentioned effects, since the fitting pipe for connecting the discharge pipe (hose or the like) is directed in a different direction from the horizontally oriented horizontal pipe, And the like can be reduced, and the space inside the indoor unit in which the indoor heat exchanger is installed can be saved.

1 is an external side view of a drain pump according to a first embodiment of the present invention.
2 is a cross-sectional view of a horizontal pipe and a fitting pipe of the drain pump of the first embodiment.
3 is an exploded perspective view of a main part of the drain pump of the first embodiment.
4 is a perspective view of the main part of the drain pump of the first embodiment.
5 is an exploded perspective view of a main portion of a drain pump according to a second embodiment of the present invention.
6 is a perspective view of a main part of the drain pump of the second embodiment.
7 is an exploded perspective view of a main portion of a drain pump according to a third embodiment of the present invention.
8 is a perspective view of the main part of the drain pump of the third embodiment.
9 is an exploded perspective view of a main portion of a drain pump according to a fourth embodiment of the present invention.
10 is a perspective view of the main part of the drain pump of the fourth embodiment.
11 is a perspective view of a main portion of a drain pump of a first modification of the embodiment.
12 is a perspective view of a main portion of a drain pump according to a second modification of the embodiment.

Next, an embodiment of a drain pump of the present invention will be described with reference to the drawings.

Fig. 1 is an external side view of the drain pump of the first embodiment, Fig. 2 is a sectional view of a horizontal pipe and a fitting pipe of the drain pump of the first embodiment, Fig. 3 is an exploded perspective view of a main part of the drain pump of the first embodiment, Is a perspective view of the main part of the drain pump of the first embodiment. In addition, the concept of " up & down " in the following description corresponds to the top and bottom in the drawings of Figs.

As shown in Fig. 1, the drain pump of this embodiment includes a pump chamber case 100 of a thin, cylindrical cylinder type, a cylindrical lid case 200 made of resin, and a motor case 300 made of resin I have. The pump room case 100 has a suction pipe portion (inlet port) 110 disposed in a drain pan provided in an indoor heat exchanger of an air conditioner and a discharge pipe portion (discharge port) 120 to which a discharge pipe . The pump chamber case 100 and the lid case 200 are attached and fixed by snap fitting the outer fitting portion 101 to the lower end of the lid case 200. [

An impeller 130 is installed in the pump chamber case 100 and a motor 310 such as a DC brushless motor is built in the motor case 300. The driving shaft 311 of the motor 310 extends through the inside of the lid case 200 into the pump chamber case 100 and the impeller 130 is fixed to the driving shaft 311. As the impeller 130 rotates by the motor 310, the water in the drain pan rises from the suction pipe portion 110 and the water in the pump chamber case 100 rotates. Water is discharged from the discharge pipe portion 120).

The discharge tube portion 120 is constituted by a horizontal tube 10 communicating with the pump chamber case 100 and having an axis L1 in a horizontal direction and a joint tube 20 having a direction perpendicular to the axial direction L2 . That is, the direction of the axial line L2 of the fitting pipe 20 is a direction intersecting with the axial line L1 of the horizontal pipe 10 (in this case, intersecting at 90 degrees). For example, a discharge pipe (hose or the like) is connected to the fitting pipe 20. 2 and 3) as the "sealing member", a mechanical coupling means 1 for fixing the horizontal pipe 10 and the fitting pipe 20 to each other Respectively.

The pump chamber case 100 and the horizontal pipe 10 are integrally formed as a resin molded part. The horizontal pipe 10 has a passage 10a communicating with the inside of the pump chamber case 100. The passage 10a has a shape with the axis L1 as a rotational center and is formed in a cylindrical ring portion 10b . The fitting pipe 20 is formed as a resin molded part as a separate component from the pump chamber case 100 and the horizontal pipe 10. 2, the fitting pipe 20 has a fitting hole 20a to be fitted in the annular portion 10b of the horizontal tube 10 and a fitting hole 20b around the opening of the fitting hole 20a An annular stepped groove 20b formed therein and a discharge passage 20c communicating with the fitting hole 20b and opened upward.

The mechanical coupling means 1 includes a flange portion 11, a first cut groove 12, a case-like concave portion 13, a block portion 14, a second cut groove 15, a C Shaped retaining ring 16 as shown in Fig. The C-shaped holding ring 16 is an example of a " fixing member fitted in the cut grooves 12 and 15 ". The case-like recess 13 is an example of a "recess", and the block 14 is an example of a "protruding portion".

The flange portion 11 is formed on the pump case 100 side of the annular portion 10b of the horizontal pipe 10 and has a thick and substantially disk-like shape. The first cut groove 12 is formed on the circumference of the flange portion 11 about the axis L1 as a concave shape from the outer periphery. The case-like recessed portion 13 is formed in the flange portion 11 in a concave shape at two positions spaced 180 degrees around the axial line L1. The block portion 14 is formed at two places around the outer side of the stepped groove 20b of the fitting pipe 20 and is shaped to fit into the case-shaped recessed portion 13 of the horizontal pipe 11. [ The second cut groove 15 is formed on the circumference of the block portion 14 about the axis L1 as a concave shape from the outer circumference.

O ring 30 is sandwiched between the stepped groove 20b of the fitting pipe 20 and the annular portion 10b of the horizontal pipe 10 and the annular portion 10b is fitted in the fitting Fitted into the fitting hole (20a) of the pipe (20). The portion of the stepped groove 20b is the " joint portion " of the horizontal pipe 10 and the fitting pipe 20. [ The block portion 14 of the fitting pipe 20 is fitted to the case-like recessed portion 13 of the flange portion 11 of the horizontal pipe 10. The first cutting groove 12 of the flange portion 11 of the horizontal pipe 10 and the second cutting groove 15 of the block portion 14 of the fitting pipe 20 are provided with a C- Is inserted. Thereby, the horizontal tube 10 and the fitting tube 20 are fixed to each other. The C-shaped holding ring 16 is resilient and the C-shaped holding ring 16 is removed from the first cutting groove 12 and the second cutting groove 15, The tube 20 can be easily separated.

The rotation of the horizontal tube 10 and the fitting tube 20 relative to the axis L1 is prevented by fitting the block 14 into the case-like recess 13. That is, in the first embodiment, the block portion 14 and the case-like concave portion 13 constitute a "rotation stopping mechanism". By this " rotation stopping mechanism ", it is possible to easily position the joint pipe 20 in the direction (discharge direction). Also, it is possible to prevent the fitting pipe 20 from rotating during use, and to prevent the fitting pipe 20 from moving away from the horizontal pipe 10. The same block portion as the block portion 14 is formed on the side of the horizontal tube 10 and the flange portion and the case-like concave portion similar to the flange portion 11 and the case- As shown in Fig. The shape of the block portion (protruding portion), the flange portion, and the case-like recessed portion (concave portion) is not limited to the shape of the embodiment, and the block portion (protruding portion) is sandwiched by the case- The shape can be adjusted.

Fig. 5 is an exploded perspective view of the main part of the drain pump of the second embodiment, and Fig. 6 is a perspective view of the main part of the drain pump of the second embodiment. What is different from the first embodiment in the second embodiment is the structure of the mechanical coupling means 2. The other constituent elements are the same as those of the first embodiment. In the following description of the embodiments and the drawings, the same elements as those of the first embodiment are denoted by the same reference numerals as those in Figs. 1 to 4, and a duplicate description thereof is omitted.

In the second embodiment, a mechanical coupling means 2 for fixing the horizontal pipe 10 and the fitting pipe 20 is provided. The mechanical coupling means 2 includes a flange portion 21, (22), and a rib (23). The flange portion 21 is formed on the pump case 100 side of the annular portion 10b of the horizontal pipe 10 and has a thick, substantially disk-like shape. The flange portion 21 has an engagement stepped portion 21a having two flat upper and lower portions. Four hooking claws 22 are formed on the upper and lower sides of the outer periphery of the stepped groove 20b of the fitting pipe 20. The hooking claws 22 are connected to an arm portion extending in parallel with the axis L1 And a claw 22b protruding inward from an end of the arm portion 22a on the pump case 100 side. The ribs 23 are formed in the direction of the axis L1 from the pump case 100 side to the engaging stepped portion 21a on the outer periphery of the horizontal tube 10.

O ring 30 is sandwiched between the stepped groove 20b of the fitting pipe 20 and the annular portion 10b of the horizontal pipe 10 and the annular portion 10b is fitted in the fitting Fitted into the fitting hole (20a) of the pipe (20). The ribs 23 are fitted between the pair of hooking claws 22 and the flange portion 21 of the horizontal tube 10 is inserted between the upper and lower pair of hooking claws 22 (the arm portions 22a) And the hook 22b is caught by the engagement stepped portion 21a. Thereby, the horizontal tube 10 and the fitting tube 20 are fixed to each other. The engagement claw 22 has elasticity and the engagement claw 22 is bent outward and the claw 22b is removed from the engagement step 21a so that the horizontal pipe 10 and the fitting pipe 20 Can be easily separated.

The rib 23 is fitted between the pair of engaging claws 22 so that relative rotation about the axis L1 of the horizontal tube 10 and the fitting tube 20 is prevented. That is, in this second embodiment, the engagement claw 22 and the rib 23 constitute a "rotation stopping mechanism". The effect of this "rotation blocking mechanism" is the same as that of the first embodiment. Even if the same flange portion and ribs as the flange portion 21 and the rib 23 are formed on the side of the fitting pipe 20 and the same engaging hooks as the engaging claws 22 are formed on the side of the horizontal pipe 10 good.

In the above embodiment, the engagement of the ribs between the pair of engagement claws causes the engagement claws and the ribs to come into contact with each other on the circumference around the axial line L1 so that the movement of the engagement claws and the ribs on the circumference is regulated . In such a configuration, for example, a plurality of pairs of engagement claws and ribs, which are in contact with each other, are provided at arbitrary positions on the circumference around the axis L1, and one pair of the engagement claws and the ribs The engaging claws and the ribs may come into contact with each other in a reverse direction on the circumference around the axis L1.

Fig. 7 is an exploded perspective view of the main part of the drain pump of the third embodiment, and Fig. 8 is a perspective view of the main part of the drain pump of the third embodiment. The third embodiment differs from the first embodiment in the structure of the mechanical coupling means 3. The other structures are the same as those of the first embodiment.

In this third embodiment, a mechanical coupling means 3 for fixing the horizontal pipe 10 and the fitting pipe 20 is provided. The mechanical coupling means 3 comprises a first flange portion 31, a block portion 32, a second flange portion 33, a rectangular recess 34 and a ring member 35 have. The first flange portion 31 is formed on the pump case 100 side of the annular portion 10b of the horizontal pipe 10 and has a thick and substantially disk-like shape. The block portion 32 is formed at two positions spaced 180 degrees around the axial line L1 on the end face of the first flange portion 31 on the joint pipe 20 side. The second flange portion 33 is formed on the outer periphery of the stepped groove 20b of the fitting pipe 20 and the rectangular recessed portion 34 is formed concavely in two places in the second flange portion 33 The rectangular concave portion 34 has a shape in which the block portion 32 is fitted. The ring member 35 is made of a metal plate and has two opposing arcuate leaf springs 35a and a connecting portion 35b for connecting the leaf spring 35a. In addition, the leaf spring 35a is provided with a substantially rectangular exit hole 35c. The opposing distance between the long sides of the through holes 35c has a width that matches the thickness of the first flange portion 31 and the second flange portion 33 overlapping each other. The ring member 35 is an example of a " fixing member to be clamped from the axis L1 direction ".

O ring 30 is sandwiched between the stepped groove 20b of the fitting pipe 20 and the annular portion 10b of the horizontal pipe 10 and the annular portion 10b is fitted in the fitting Fitted into the fitting hole (20a) of the pipe (20). The block portion 32 of the horizontal pipe 10 is fitted into the rectangular recessed portion 34 of the second flange portion 33 of the fitting pipe 20 so that the first flange portion 31 and the second flange portion 33, (33). The horizontal pipe 10 and the fitting pipe 20 are respectively fitted between the outer portions of the long sides 35c1 and 35c1 of the release holes 35c of the two leaf springs 35a of the ring member 35 While the first flange portion 31 and the second flange portion 33 are fitted into the through hole 35c. That is, the ring member 35 is clamped so that the first flange portion 31 and the second flange portion (both flange portions) are sandwiched between the long sides 35c1 and 35c1 of the release hole 35c from the direction of the axis L1, Respectively. Thereby, the horizontal tube 10 and the fitting tube 20 are fixed to each other. The ring member 35 has elasticity. By removing the ring member 35, the horizontal pipe 10 and the fitting pipe 20 can be easily separated from each other.

The relative rotation about the axis L1 of the horizontal pipe 10 and the fitting pipe 20 is prevented by fitting the block portion 32 into the rectangular recess 34. [ That is, in the third embodiment, the block portion 32 and the rectangular concave portion 34 constitute a " rotation blocking mechanism ". The effect of this "rotation blocking mechanism" is the same as that of the first embodiment. The same block portion as that of the block portion 32 may be formed on the side of the fitting pipe 20 and the same rectangular concave portion as the rectangular concave portion 34 may be formed on the horizontal pipe 10 side. The shape of the block portion, the flange portion, and the rectangular concave portion is not limited to the shape of the embodiment, but the shape of the block portion, the flange portion, and the rectangular concave portion may be such that the block portion is fitted to the rectangular concave portion.

FIG. 9 is an exploded perspective view of the main part of the drain pump of the fourth embodiment, and FIG. 10 is a perspective view of the main part of the drain pump of the fourth embodiment. The fourth embodiment differs from the first embodiment in the structure of the mechanical coupling means 4. The other structures are the same as those of the first embodiment.

In the fourth embodiment, a mechanical coupling means 4 for fixing the horizontal pipe 10 and the fitting pipe 20 is provided. The mechanical coupling means 4 includes an inner boss portion 41, a screw hole 42, a stopper plate 43, an outer boss portion 44, a screw passage hole 45, a screw 46 ).

The inner boss 41 is formed on the pump case 100 side of the annular portion 10b of the horizontal pipe 10 and has a thick, substantially disk-like shape. The screw holes 42 are formed at two upper and lower portions of the inner boss portion 41. The periphery of the screw hole 42 is a flat surface 42a. The stopper plate 43 is formed closer to the pump case 100 than the inner boss portion 41 and the stopper plate 43 is formed larger in diameter than the inner boss portion 41. The outer boss portion 44 is formed on the outer periphery of the stepped groove 20b of the fitting pipe 20 and has a concave portion to which the inner boss portion 41 is fitted. The screw passing holes 45 are formed at the upper and lower portions of the outer boss portion 44.

O ring 30 is sandwiched between the stepped groove 20b of the fitting pipe 20 and the annular portion 10b of the horizontal pipe 10 and the annular portion 10b is fitted in the fitting Fitted into the fitting hole (20a) of the pipe (20). The inner boss portion 41 of the horizontal tube 10 is fitted into the outer boss portion 44 and the outer boss portion 44 is brought into contact with the stopper plate 43. [ The screw hole 45 and the screw hole 42 are coaxial with each other at the upper and lower portions of the inner boss portion 41 and the outer boss portion 44. [ The horizontal pipe 10 and the fitting pipe 20 are fixed to each other by screwing the screw holes 45 and the screw holes 42 at the two upper and lower positions with the two screws 46. Further, by unscrewing the screw 46, the horizontal pipe 10 and the fitting pipe 20 can be easily separated from each other.

When the inner boss portion 41 is fitted into the outer boss portion 44, the flat portion 42a around the screw hole 42 of the inner boss portion 41 is fitted into the outer boss portion 44 The relative rotation about the axis L1 of the horizontal pipe 10 and the fitting pipe 20 is prevented. That is, in the fourth embodiment, the flat portion of the concave portion of the flat portion 42a of the inner boss portion 41 and the concave portion of the outer boss portion 44 constitute a "rotation blocking mechanism". The effect of this "rotation blocking mechanism" is the same as that of the first embodiment. In this embodiment, the upper and lower portions are fixed by the two screws 46, but the same portion may be screwed at one position or at three or more positions.

As described above, the mechanical coupling means 1, 2, 3 and 4 of the respective embodiments can fix the horizontal pipe 10 and the fitting pipe 20, and also the horizontal pipe 10 and the fitting pipe 20 to be detachable. Therefore, for example, as shown in Figs. 11 and 12, the horizontal pipe 10 can be replaced with another type of fitting pipe having a mechanical coupling means having the same structure as the mechanical coupling means of the horizontal pipe 10 , It can be attached to the horizontal tube 10.

Fig. 11 is a view showing a first modified example of the fitting pipe, and Fig. 12 is a view showing a second modified example of the fitting pipe. The fitting pipe 20 'of the first modification shown in Fig. 11 has a structure in which the discharge passage 20c in the fitting pipe 20 of the first embodiment is oriented in the horizontal direction. That is, the axial line L2 'of the fitting pipe 20' is perpendicular to the axial line L1 of the horizontal pipe 10 and is in the horizontal direction. The fitting pipe 20 "of the second modification shown in Fig. 12 has a structure in which the discharge passage 20c in the fitting pipe 20 of the first embodiment is connected to the passage 10a and the axis L1 of the horizontal pipe 10, The mechanical coupling means 1 constituted together with the horizontal tube 10 is the same as that of the first embodiment. In this way, in the horizontal tube 10, A different type of fitting pipe may be attached to the pipe 10.

Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific structure is not limited to these embodiments, and any design change or the like that does not depart from the gist of the present invention is included in the present invention .

1: mechanical coupling means
2: mechanical coupling means
3: mechanical coupling means
4: mechanical coupling means
10: Horizontal tube
20: Fitting pipe
30: O-ring (seal member)
100: Pump case
110: suction pipe section
120: Discharge tube
130: Impeller
L: Axis

Claims (9)

A pump chamber case having a cylindrical suction pipe portion at its lower end and having a discharge pipe portion at a side face thereof and an impeller rotatably installed in the pump chamber case to rotate the impeller to draw fluid from the suction pipe portion, A drain pump adapted to discharge,
Wherein the discharge pipe portion comprises a horizontal pipe integrally formed with the pump chamber case and communicating with the pump chamber case and a fitting pipe which is a separate component from the horizontal pipe,
Wherein the horizontal pipe and the fitting pipe are fixed to each other by a mechanical coupling means provided on an outer periphery of the joining portion, and a sealing member is provided at a joining portion of the horizontal pipe and the fitting pipe. The drain pump according to claim 1, further comprising a rotation stopping mechanism for preventing relative rotation about the axis of the horizontal pipe and the horizontal pipe of the fitting pipe. The drain pump according to claim 1, wherein the fitting pipe communicates with the horizontal pipe from a direction crossing the axis of the horizontal pipe. The drain pump according to claim 2, wherein the fitting pipe communicates with the horizontal pipe from a direction intersecting with the axis. 5. The apparatus according to any one of claims 1 to 4, wherein the mechanical coupling means comprises: a flange portion formed around the axis of the horizontal tube at one of the horizontal tube and the fitting tube; And a projection formed on the other side of the axis, a recess formed in the flange portion and fitted with the projection, and first and second projections formed concavely from the outer circumference on the same circumference on the flange portion and the projection, And a fixing member which is fitted in the first and second cutting grooves in a state in which the protrusion is fitted in the recess so that the first and second cutting grooves are on the same circumference, Features a drain pump. 5. The apparatus according to any one of claims 1 to 4, wherein the mechanical coupling means comprises: a locking claw provided on one of the horizontal tube and the fitting tube; and a locking projection provided on the other of the horizontal tube and the fitting tube, And a flange portion which is engaged with the flange portion. 3. The apparatus as claimed in claim 2, wherein the mechanical coupling means comprises: a locking claw provided on one of the horizontal tube and the fitting tube; and a flange portion provided on the other of the horizontal tube and the fitting tube, Wherein the rotation stopping mechanism comprises: a rib provided on the other of the horizontal tube and the fitting tube; and the engagement claw, wherein the engagement claw and the rib abut on a circumference around the axis, And the water pump is regulated to move on the circumference. 5. The fuel injector according to any one of claims 1 to 4, wherein the mechanical coupling means comprises: a flange portion formed in the horizontal pipe and the fitting pipe; and a flange portion of the horizontal pipe and the flange portion of the fitting pipe And a fixing member for clamping both the flange portions from the axial direction in a state that the flange portion is in the closed state. The drain pump according to any one of claims 1 to 4, wherein the mechanical coupling means is a screw.

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