JP6468713B2 - Drain pipe connector and drain pipe connection structure - Google Patents

Description

  The present invention relates to a drain pipe connector for connecting a drain pipe extending from a drain water discharge device and a water channel forming member having a drainage channel, and a drain pipe connection structure using the drain pipe connector.

  For example, in an apartment house such as an apartment, a water channel forming member on which a drainage channel is formed is installed on the floor surface of a veranda or the like, and drain water discharged from a drain water discharge device such as an air conditioner is used by using this water channel forming member. Draining is performed in a gutter provided on a veranda or the like. Since the drain water from the drain water discharge device is discharged through the drain pipe extending from the drain water discharge device, a drain pipe connector for connecting the drain pipe and the water channel forming member is required. With respect to such a drain pipe connector, there is known one in which a plurality of drain pipes extending from each of a plurality of drain water discharge devices can be connected to one water channel forming member. Such a multi-port type drain pipe connector is disclosed in, for example, Japanese Patent Application Laid-Open No. 2010-127006 (Patent Document 1).

  In the drain pipe connector disclosed in Patent Document 1, the two connection ports to which the drain pipes [drain hoses 4a and 4b] are connected are both formed upward in the width direction. For this reason, when the extending directions of the two drain tubes are different from each other, at least one of the drain tubes is bent in the vicinity of the drain tube connector so that the extending directions of the two drain tubes are substantially vertical. It is necessary to keep it along. However, in order to ensure the flow of drain water in the drain pipe, it is necessary to ensure a predetermined gradient over the entire extending direction, and it is necessary to ensure such a predetermined gradient while bending the drain pipe. There were cases where it was difficult. On the other hand, if the drain pipe is bent while ensuring a predetermined gradient, there may be inconveniences in construction, such as the arrangement position of one drain water discharge device being restricted.

JP 2010-127006 A

  Therefore, it is desirable to realize a drain pipe connector and a drain pipe connection structure that can appropriately connect drain pipes extending in different directions from each of a plurality of drain water discharge devices to one water channel forming member in a good manner. It is.

The drain pipe connector according to the present invention is:
A drain pipe connector for connecting a drain pipe extending from each of a plurality of drain water discharge devices and a water channel forming member in which a drainage channel is formed,
An upward first connection port to which one of the plurality of drain pipes is connected;
A second connection port provided in a lower side than the first connection port and connected to the other one of the plurality of drain pipes;
Is provided.

  According to this configuration, since the upward first connection port and the lateral second connection port are individually provided, even when the extending directions of the plurality of drain tubes are different from each other, one of them is substantially along the vertical direction. Can be connected to the first connection port, and the other can be connected to the second connection port along the substantially horizontal direction. Since the second connection port is provided below the first connection port, it is possible to avoid interference between the plurality of drain tubes, and it is easy to ensure a predetermined gradient in the drain tube connected to the second connection port. . In addition, since it is not necessary to install the drain water discharge device related to the drain pipe connected to the second connection port more than necessary, there is little inconvenience in construction. Therefore, it is possible to realize a drain pipe connector that can appropriately connect drain pipes extending in different directions from each of the plurality of drain water discharge devices to one water channel forming member.

  Hereinafter, preferred embodiments of the present invention will be described. However, the scope of the present invention is not limited by the preferred embodiments described below.

  As one aspect, a pair of side walls that includes a first extending portion extending substantially in the vertical direction and a second extending portion extending in a direction intersecting with the first extending portion and exhibiting a substantially L shape in a side view And a connecting wall portion that connects the pair of side wall portions, and the first connection port is provided in a space defined by the pair of the first extending portion and the connecting wall portion. It is preferable that the second connection port is provided in the second extending portion.

  According to this configuration, the first connection port is utilized by utilizing a basic configuration aspect of the main body configured to include a pair of side walls that are substantially L-shaped in a side view and a connecting wall that connects them. And the second connection port can be formed easily and appropriately. Further, at least the drain water from the drain pipe connected to the first connection port can be guided to change in the direction along the extending direction of the drainage channel of the water channel forming member in the flow-down process. Therefore, the drain water can be smoothly guided to the drainage channel.

  As one aspect, the second extension port is formed by cutting the weakened part formed in the second extension part so as to at least partially follow the outer shape of the drain pipe to be connected. It is preferable to be configured to appear by removing a part of the part.

  According to this configuration, for example, at the construction site, for each drain pipe connector used there, the second connection port can be easily and appropriately exposed only at a required portion. In this case, it is preferable that a weak part is provided in each of a pair of side wall part (2nd extension part). By doing so, the second connection port is formed only on the side wall portion on the drain water discharge device side according to the positional relationship with the drain water discharge device corresponding to the drain pipe connected to the second connection port. Can be issued. Therefore, it is possible to improve the workability, and compared with the case where the second connection port is provided on each of the pair of side wall portions from the beginning, the unnecessary appearance of the connection port is eliminated and the appearance of the drain pipe connector as a whole is improved. Can be maintained.

  As one aspect, it is preferable that the second connection port is formed by being cut out so as to open at the upper end edge of the second extending portion.

  According to this configuration, the drain pipe connected to the second connection port can be pressed in the vertical direction from the upper opening of the second connection port, and both can be easily connected. In addition, after the connection, the drain tube can be supported from the three directions including the lower side at the second connection port, and the posture can be stabilized.

  As one aspect, it is preferable that the opening width on the upper end side of the second connection port is smaller than the outer diameter of the drain pipe to be connected.

  According to this configuration, it is possible to easily prevent the drain pipe from coming off from the second connection port.

  As one aspect, the outer surface and / or the inner surface of the side wall at the boundary with the second connection port is formed in a tapered shape so that the thickness gradually increases as the distance from the edge of the second connection port increases. It is preferable that

  According to this configuration, for example, when the outer surface of the drain pipe connected to the second connection port is formed in an accordion shape, the initial resistance when pushing the drain pipe from the upper opening of the second connection port is reduced. Can do. Moreover, the engaging force between both can be increased as the drain pipe is pushed. Therefore, the posture after the connection can be further stabilized while further simplifying the connection.

  As one aspect, the plurality of drain water discharge devices include an indoor unit and an outdoor unit of an air conditioner, and a first drain pipe extending substantially vertically from the indoor unit is provided at the first connection port. It is preferable that a second drain pipe connected to the second connection port and extending from the outdoor unit along a substantially horizontal direction is connected to the second connection port.

  When the plurality of drain water discharge devices include the indoor unit and the outdoor unit of the air conditioner as in this configuration, the extending directions of the plurality of drain pipes are often different from each other. That is, in many cases, the first drain pipe extending from the indoor unit extends along a substantially vertical direction, and the second drain pipe extending from the outdoor unit extends along a substantially horizontal direction. In view of this point, the present invention can be suitably applied when a plurality of drain pipes extending from an indoor unit and an outdoor unit of an air conditioner are connected to one water channel forming member.

In this case, the drain pipe connection structure according to the present invention is:
A drain pipe connection structure for connecting a drain pipe extending from each of an indoor unit and an outdoor unit of an air conditioner and a water channel forming member formed with a drainage channel using a drain pipe connector,
A first drain pipe extending substantially along the vertical direction from the indoor unit is connected to an upward first connection port provided in the drain pipe connector,
A second drain pipe extending in a substantially horizontal direction from the outdoor unit is connected to a second side connection port provided below the first connection port in the drain pipe connector. .

  According to this configuration, the first drain pipe extending from the indoor unit of the air conditioner and the second drain pipe extending from the outdoor unit can be appropriately connected to one water channel forming member with good appearance.

Perspective view showing drain drain guide structure Perspective view showing drain pipe connection structure Front view showing drain pipe connection structure Perspective view showing drain pipe connector Side view showing drain pipe connector Front view showing drain pipe fitting Top view showing drain pipe connector Bottom view showing drain pipe connector Side view showing another embodiment of drain pipe connector Side view showing another embodiment of drain pipe connector The perspective view which shows another aspect of a drain pipe connector

  An embodiment of a drain pipe connector according to the present invention will be described with reference to the drawings. The drain pipe connector 1 according to the present embodiment has a drain channel guide member 60 in which drain pipes 51 and 52 extending from each of a plurality of drain water drain devices (50A and 50B) and a drain channel D are formed in a drain drain guide structure. It is a device for connecting to. The drain pipe connector 1 according to this embodiment includes an upward first connection port 21 to which a first drain pipe 51 that is one of a plurality of drain pipes 51 and 52 is connected, and a first connection port 21. Is also provided below, and is characterized in that it includes a second connection port 22 in the lateral direction to which the second drain tube 52, which is the other one of the plurality of drain tubes 51, 52, is connected. Thereby, the drain pipes 51 and 52 extending in different directions from each of the plurality of drain water discharge devices 50 </ b> A and 50 </ b> B can be appropriately connected to the single water channel forming member 60. Hereinafter, the drain pipe connector 1 according to the present embodiment will be described in detail.

  FIG. 1 shows a drain drainage guide structure according to this embodiment. In this embodiment, a drain drainage guide structure in a veranda of an apartment house (an example of a building) such as an apartment will be described as an example. As shown in FIG. 1, a first drain pipe 51 extending from an indoor unit 50 </ b> A of an air conditioner 50 installed indoors and pulled out through the outer wall 71 is arranged in a substantially vertical direction on an outer wall 71 of a building. It is fixed along. A second drain pipe 52 extending from the outdoor unit 50B of the air conditioner 50 installed on the outside (veranda) is fixed to the outer wall 71 along a substantially horizontal direction. The “substantially horizontal direction” with respect to the extending direction of the second drain pipe 52 is a concept representing a direction slightly inclined with respect to the horizontal direction in order to ensure a water gradient while being substantially along the horizontal direction. is there. The respective end portions of the first drain pipe 51 and the second drain pipe 52 are located at the elevation corner portions of the outer wall 71 and the floor surface 72.

  On the floor surface 72 of the veranda, a long water channel forming member 60 in which a linear drainage channel D extending in the longitudinal direction is formed is installed. The water channel forming member 60 is fixed to the floor surface 72 by fixing means such as an adhesive. As shown in FIG. 3, the water channel forming member 60 includes a bottom plate portion 61 installed on the floor surface 72 and a pair of side dam portions 62 provided as “weirs” on both sides in the width direction of the bottom plate portion 61. . A drainage channel D is defined by the bottom plate portion 61 and the pair of side bank portions 62. A concave groove 63 extending along the longitudinal direction is formed at the boundary between the bottom plate portion 61 and each side bank portion 62. As shown in FIG. 1, the water channel forming member 60 has a depth direction (outside wall) of the veranda so that one end thereof faces the end of the drain pipes 51 and 52 and the other end faces a drain groove 73 provided in the veranda. 71 in the front-rear direction, which is also the direction orthogonal to 71).

  According to the drain drainage guide structure according to the present embodiment, drain water (for example, condensed water) discharged from the indoor unit 50A and the outdoor unit 50B of the air conditioner 50 passes through the first drain pipe 51 and the second drain pipe 52, respectively. It is led to the water channel forming member 60 through. Thereafter, the water passes through the drainage channel D in the water channel forming member 60 and is discharged to the drainage groove 73 and a rainwater pipe (not shown) connected to the drainage groove 73. Therefore, the drain water does not spread on the floor 72 of the veranda, and the appearance, environment, and the like in the vicinity of the installation location of the air conditioner 50 can be favorably maintained. In the water channel forming member 60, a lid member that covers the drainage channel D from above may be provided.

  In the drain drainage guide structure as described above, the drain pipe connector 1 includes the drain pipes 51 and 52 extending from the indoor unit 50A and the outdoor unit 50B of the air conditioner 50, and the water channel forming member 60 (drain channel D). Used to connect. As shown in FIGS. 2 and 3, the drain pipe connector 1 according to the present embodiment can connect a plurality of (two in this example) drain pipes 51 and 52 to one water channel forming member 60 at the same time. It is configured. In the present embodiment, the indoor unit 50A and the outdoor unit 50B of the air conditioner 50 correspond to the “drain water discharge device” in the present invention.

  In this specification, the “vertical direction”, “width direction”, and “front / rear direction” are viewed from the side facing the outer wall 71 of the building in the normal use state of the drain pipe connector 1. Represents each direction in the case. That is, the vertical direction coincides with the vertical direction, the width direction coincides with the longitudinal direction of the veranda of the building, and the front-rear direction coincides with the depth direction of the veranda. The “front side” is the near side in a state of facing the outer wall 71 of the building, and the “rear side” is the back side (the outer wall 71 side).

  As shown in FIGS. 2 and 3, the drain pipe connector 1 includes a main body part 10 that is a connection part to the drain pipes 51 and 52 and a leg part 30 that is a connection part to the water channel forming member 60. The main body 10 and the leg 30 are formed integrally. The drain pipe connector 1 can be formed using a general-purpose resin such as polyethylene (PE), polypropylene (PP), polystyrene (PS), and polyvinyl chloride (PVC). Of course, it may be formed using other resin materials, or may be formed using metals or ceramics.

  As shown in FIG. 3, the leg portion 30 is connected to the main body portion 10 to support the main body portion 10 (see also FIG. 5), and is connected to the lower end portion of the support leg 31 to form a water channel forming member. 60 and a seating plate 32 placed on the bottom plate portion 61. Each of the support leg 31 and the seating plate 32 is formed in a plate shape, and these are integrally formed. The support leg 31 is disposed along the vertical direction at the center position in the width direction of the drain pipe connector 1. The seating plate 32 is disposed along the horizontal direction at the lower end of the drain pipe connector 1. Both end portions in the width direction of the seating plate 32 are locking piece portions 33 that are locked in the concave grooves 63 of the water channel forming member 60.

  As shown in FIG. 8, the seating plate 32 is formed in a substantially rectangular shape when viewed from the bottom (viewed from below), and two of the four corners located diagonally to each other are arcuate. It is a rounded round part 34. With the seating plate 32 placed on the bottom plate portion 61 so that the longitudinal direction of the seating plate 32 (the left-right direction in the figure) is along the longitudinal direction of the drainage channel D, the drain pipe connector 1 is placed around the longitudinal center axis. As shown in FIG. 3, the locking piece 33 is locked in the concave groove 63. In this way, the drain pipe connector 1 can be stably connected to the water channel forming member 60.

  As shown in FIG. 4, the main body portion 10 includes a pair of side wall portions 11 that are substantially L-shaped in a side view and a connecting wall portion 17 that connects the pair of side wall portions 11. Each side wall portion 11 is provided with a first extending portion 12 extending substantially in the vertical direction, and provided below the first extending portion 12 so as to be substantially horizontal (in this example, slightly inclined with respect to the horizontal direction). And a second extending portion 15 extending in the direction). As shown in FIG. 5, the second extending portion 15 is slightly inclined so that the second extending portion 15 is gradually positioned downward from the boundary portion with the first extending portion 12 toward the end portion on the opposite side. It is formed to extend. A slit-like cutout portion 14 is formed along the substantially horizontal direction at the boundary between the first extension portion 12 and the second extension portion 15. In this example, it is assumed that the first extending portion 12 and the second extending portion 15 are partitioned by the formation region of the notch portion 14.

  As shown in FIGS. 4 and 5, the connecting wall portion 17 as a whole is bent to form a substantially L shape in a side view while curving in an arc shape so as to connect the pair of side wall portions 11 to each other. ing. The connecting wall portion 17 has an arcuate slope connecting the arcuate back plate portion 18 connecting the back side edges of the pair of first extending portions 12 and the lower end edges of the pair of second extending portions 15. A bottom plate portion 19. The back plate portion 18 and the inclined bottom plate portion 19 are partitioned by the formation region of the notch portion 14. The back plate portion 18 is formed so as to extend in a substantially vertical direction. The inclined bottom plate portion 19 is formed so as to extend in a substantially horizontal direction (in this example, a direction slightly inclined with respect to the horizontal direction). This inclination constitutes a water gradient for guiding drain water flowing from the drain pipes 51 and 52 to the drainage channel D.

  As shown in FIGS. 4 and 7, the main body portion 10 including the pair of side wall portions 11 and the connecting wall portion 17 (back plate portion 18) is formed in a substantially U shape in a top view (as viewed from above). Has been. Moreover, as shown in FIG.4 and FIG.6, the main-body part 10 is formed in the substantially U shape also in front view (state seen from the front side). The main body 10 roughly corresponds to a substantially U-shaped hook-shaped member bent into a substantially L shape.

  As shown in FIG. 4, in this embodiment, the 1st connection port 21 is provided in the space divided by a pair of 1st extension part 12 and the connection wall part 17 (back-plate part 18). The first connection port 21 is configured by a first opening A1 that opens upward in the region (in this example, upward in the vertical direction). A first drain pipe 51 extending substantially along the vertical direction from the indoor unit 50A is connected to the first connection port 21 including the first opening A1 (see FIG. 2). In other words, the drain pipe connector 1 includes the upward first connection port 21 to which the first drain pipe 51 is connected.

  A space defined by the pair of first extending portions 12 and the connecting wall portion 17 (back plate portion 18) is also open toward the front side. That is, a second opening A2 that opens in the front direction is formed between the front edges of the pair of first extending portions 12. The first drain pipe 51 is, for example, pushed from the front side in a state where the lower end portion thereof is located below the upper end edge of the first extending portion 12 (preferably at the position of the notch portion 14 in the vertical direction). The second opening A2 can be connected to the first connection port 21 (see FIG. 2). At that time, the outer peripheral surface of the lower end portion of the first drain pipe 51 is brought into contact with the inside of the pair of first extending portions 12, and the pair of first extending portions 12 is elastically deformed while the second opening A <b> 2. The first extending portion 12 is externally fitted to the first drain pipe 51 in a form that allows the first to pass. The slit-like cutout portion 14 of the side wall portion 11 is provided in order to facilitate elastic deformation of the first extension portion 12.

  A locking portion 13 that can be locked with respect to the first drain pipe 51 connected to the first connection port 21 is provided at the inner end of the first extending portion 12 on the front side. In the present embodiment, the locking portion 13 is configured as a plurality of (two in this example) triangular locking protrusions protruding from the inner surface of the first extending portion 12 at different vertical positions. Yes. By providing such a locking portion 13, the first drain pipe 51 can be prevented from coming off, and the first drain pipe 51 can be stably connected to the first connection port 21. For example, when the first drain pipe 51 is formed in a bellows shape, the engaging portion 13 is fitted in the valley portion, or the first drain pipe 51 is configured by a flexible straight pipe, for example. In the case of a part, it is possible to shift the position in the vertical direction by partially biting into the outer surface.

  As shown in FIG. 4, in the present embodiment, a second connection port 22 is provided in the second extension portion 15. The 2nd connection port 22 is notched and formed so that it may open to the upper end edge 15u of the plate-shaped 2nd extension part 15. As shown in FIG. The second extending portion 15 has a notch-shaped recess 23 formed by partially notching the upper end edge 15u side. In this example, the notch-shaped recess 23 is formed to have a round bottom flask shape. A second drain pipe 52 extending from the outdoor unit 50B along the substantially horizontal direction is connected to the second connection port 22 formed of the notch-shaped recess 23 (see FIG. 2). In other words, the drain pipe connector 1 is provided with the second connection port 22 in the lateral direction (in this example, the direction toward the outside in the width direction along the horizontal direction) to which the second drain pipe 52 is connected. The second connection port 22 is provided below the first connection port 21.

  A third opening A <b> 3 that opens upward is formed in a portion corresponding to the notch-shaped recess 23 in the upper end edge 15 u of the second extending portion 15. The width of the third opening A3 in the front-rear direction (the opening width on the upper end side of the notch-shaped recess 23 along the front-rear direction) is set to be smaller than the outer diameter of the second drain pipe 52. When the second drain pipe 52 is formed in a bellows shape as in the example of FIG. 2, the diameter (peak diameter) at the peak portion is the “outer diameter of the bellows-like second drain tube 52. ". The width of the third opening A3 can be set to be approximately the same as or slightly smaller than the diameter (valley diameter) at the valley of the bellows-like second drain pipe 52, for example. The maximum width of the notch-shaped recess 23 along the front-rear direction is set smaller than the outer diameter of the second drain tube 52.

  In the present embodiment, the second extending portion 15 has a tapered surface 29 that is inclined so as to go outward as it is away from the end edge 22 e of the second connection port 22 on the outer surface side in the boundary portion with the notch-shaped recess 23. (See also FIG. 7). That is, the thickness of the outer surface of the side wall portion 11 (second extending portion 15) at the boundary portion with the notch-shaped recess 23 constituting the second connection port 22 gradually increases as the distance from the end edge 22 e of the second connection port 22 increases. It is formed in a taper shape. In other words, the boundary portion between the second extending portion 15 and the notch-shaped concave portion 23 is formed such that the thickness gradually decreases toward the end edge 22 e of the second connection port 22.

  The second drain pipe 52 passes through the third opening A3 by being pushed in from above, for example, in a state where the distal end portion thereof is located further inside than the inner surface of the second extending portion 15, and passes through the third opening A3. (See FIG. 2). At that time, the trough portion on the tip side of the bellows-like second drain tube 52 is aligned with the position of the third opening A3 of the notch-like recess 23 of the second extending portion 15, and the second drain tube 52 is elastically deformed. The cutout recess 23 is externally fitted to the valley of the second drain pipe 52 in such a form that the second opening A2 is passed.

  At this time, the presence of the tapered surface 29 formed on the outer surface of the second extending portion 15 can reduce the initial resistance when the second drain pipe 52 is pushed in from above. Further, as the second drain pipe 52 is pushed in, the engaging force between the notch-shaped recess 23 and the second drain pipe 52 can be increased. Therefore, the posture of the second drain pipe 52 after the connection can be stabilized while facilitating the connection of the second drain pipe 52 to the second connection port 22. The maximum width of the notch-shaped recess 23 is set smaller than the peak diameter of the bellows-shaped second drain pipe 52, and the width of the third opening A 3 is smaller than the valley diameter of the second drain pipe 52. By setting, it is possible to easily prevent the second drain pipe 52 from coming off from the second connection port 22.

  The second connection port 22 may be configured to be always provided in the drain pipe connector 1 or may be configured to appear only when necessary. In the present embodiment, the latter time required type configuration is adopted, and as shown in FIG. 4, the second connection port 22 is a weakened portion formed in the second extending portion 15 of the side wall portion 11. 25 (refer to FIG. 5) is cut so that a part of the second extending portion 15 is removed to reveal the portion. As shown in FIG. 5, the fragile portion 25 is formed so as to be at least partially along the outer shape of the second drain pipe 52 (in the case of the bellows-like second drain pipe 52, the outer shape of the valley portion thereof). Yes. In this example, the fragile portion 25 is formed so as to extend along the center angle of about 270 ° with respect to the outer shape of the second drain pipe 52.

  The fragile portion 25 is a portion having a lower mechanical strength than other portions in the side wall portion 11 (second extending portion 15). As shown in FIG. 5, in the present embodiment, the slit 26 formed by linearly cutting the second extending portion 15 in a state of penetrating the second extending portion 15 in the thickness direction, and distributed along the extending direction of the slit. The fragile portion 25 is configured by a plurality of (three in this example) holding pieces 27 arranged. In such a configuration, for example, the holding piece 27 is cut using a cutting tool such as a cutter or a nipper, and the portion partitioned by the slit 26 in the second extending portion 15 is removed. The second connection port 22 can be made to appear appropriately. Depending on the strength of the holding piece 27, it is possible to perform cutting and removal by hand of an operator who does not use a cutting tool. Therefore, workability can be improved.

  As can be easily understood from FIG. 4, in this embodiment, the fragile portion 25 is provided in each of the pair of side wall portions 11 (second extending portions 15). And, at the construction site, for each drain pipe connector 1 used there, the specification is such that the second connection port 22 appears only at the required site. That is, according to the positional relationship with the outdoor unit 50B, the second connection port 22 appears only on the side wall portion 11 located on the outdoor unit 50B side. Therefore, it can respond to all the construction sites using the drain pipe connector 1 of a single pattern. Moreover, compared with the case where the 2nd connection port 22 is provided in each of a pair of side wall part 11 (2nd extension part 15) from the beginning, for example, as the whole drain pipe connector 1 without an unnecessary connection port being absent. Can be maintained well (see FIG. 2).

  Using such a drain pipe connector 1, a drain pipe that connects the drain pipes 51 and 52 extending from each of the indoor unit 50 </ b> A and the outdoor unit 50 </ b> B of the air conditioner 50 and the water channel forming member 60 in which the drainage channel D is formed. The connection structure is realized as follows. First, the seating plate 32 of the drain pipe connector 1 is placed on the bottom plate portion 61 of the water channel forming member 60 and rotated around the longitudinal center axis so that the drain pipe connector 1 is attached to the water channel forming member 60. Connecting. In this state, the bent hook-shaped portion by the main body portion 10 of the drain pipe connector 1 is arranged along the longitudinal direction of the drainage channel D.

  In this state, the first drain pipe 51 extending substantially along the vertical direction from the indoor unit 50A is connected to the upward first connection port 21 provided in the drain pipe connector 1. At that time, the first drain pipe 51 is pushed from the front side to pass through the second opening A <b> 2 and connected to the first connection port 21. In addition, a second drain pipe 52 extending in a substantially horizontal direction from the outdoor unit 50B is connected to a second side connection port 22 provided in a lower side than the first connection port 21 in the drain pipe connector 1. To do. At that time, the second drain pipe 52 is pushed in from above to pass through the third opening A3 and connected to the second connection port 22. In the present embodiment, the first drain pipe 51 corresponds to a “first drain pipe” in the present invention, and the second drain pipe 52 corresponds to a “second drain pipe” in the present invention.

  In this state, as shown in FIG. 3, the two drain pipes 51, 51 are viewed from the drain pipe connector 1 in a front view (in this example, viewed from a direction orthogonal to the outer wall 71). Connected from intersecting directions. In the present embodiment, the drain pipes 51 and 51 are connected to the drain pipe connector 1 in a state substantially orthogonal to each other.

  As described above, the drain pipe connector 1 according to the present embodiment is provided with the upward first connection port 21 and the lateral connection port 22 individually. Therefore, both the drain pipes 51 and 52 extending in different directions from the indoor unit 50A and the outdoor unit 50B are not bent in the vicinity of the drain pipe connector 1 (especially the second drain pipe 52). The drain pipe connector 1 can be connected as it is. Therefore, in addition to the second connection port 22 being provided below the first connection port 21, it becomes easy to ensure a predetermined gradient in the second drain pipe 52 extending along the substantially horizontal direction. Of course, a predetermined gradient can be secured in the first drain pipe 51 extending substantially in the vertical direction. In addition, since the second connection port 22 is provided below the first connection port 21, interference between the first drain tube 51 and the second drain tube 52 can be easily avoided.

  Moreover, since it becomes easy to ensure a predetermined gradient in the second drain pipe 52, it is not necessary to install the outdoor unit 50B connected to the second drain pipe 52 more than necessary. Therefore, there are few occurrences of construction inconveniences such as the installation position of the outdoor unit 50B being restricted. Therefore, according to the drain pipe connection structure using the drain pipe connector 1 according to the present embodiment, the drain pipes 51 and 52 extending in different directions from the indoor unit 50A and the outdoor unit 50B are provided as one water channel forming member. Appropriately connected to 60.

[Other Embodiments]
Finally, other embodiments of the drain pipe connector and the drain pipe connection structure according to the present invention will be described. Note that the configurations disclosed in the following embodiments can be applied in combination with the configurations disclosed in other embodiments as long as no contradiction arises.

(1) In the above embodiment, the configuration in which the first connection port 21 (first opening A1) opens upward in the vertical direction has been described as an example. However, the embodiment of the present invention is not limited to this. The direction in which the first connection port 21 opens may be inclined with respect to the vertical direction as long as it has at least an upward advantage. That is, the first connection port 21 may open in a direction inclined at an angle of 45 ° or less in the front-rear and left-right directions with respect to the vertical direction. The upper limit of the tilt angle with respect to the vertical direction may be 30 °, 15 °, 10 °, or the like, for example.

(2) In the above-described embodiment, the configuration in which the second connection port 22 opens sideways along the horizontal direction has been described as an example. However, the embodiment of the present invention is not limited to this. The direction in which the second connection port 22 opens may be inclined with respect to the horizontal direction as long as it is at least laterally dominant. That is, the second connection port 22 may be opened in a direction inclined at an angle of 45 ° or less in the front-rear direction and the upper direction with respect to the horizontal direction. The upper limit of the tilt angle with respect to the horizontal direction may be, for example, 30 °, 15 °, 10 °, and the like.

(3) In the above embodiment, the second connection port 22 is constituted by the notch-shaped recess 23 formed by notching a round bottom flask so as to open to the upper end edge 15u of the second extension portion 15. Explained. However, the embodiment of the present invention is not limited to this. For example, as suggested in FIG. 9, the second connection port 22 is constituted by a notch-shaped recess 23 formed by notching in a U shape so as to open to the upper end edge 15 u of the second extension portion 15. Also good. Alternatively, for example, as suggested in FIG. 10, the second connection port 22 may be configured by a circular through hole formed in the inner region without opening to the upper end edge 15 u of the second extension portion 15. good. In the latter case, the fragile portion 25 for allowing the second connection port 22 to appear is formed along the entire outer periphery of the second drain pipe 52.

(4) In the above embodiment, the example in which the fragile portion 25 for allowing the second connection port 22 to appear is configured by the slit 26 and the three holding pieces 27 has been described. However, the embodiment of the present invention is not limited to this. For example, the number of holding pieces 27 may be appropriately set to 2, 4, 5,... (See also FIGS. 9 and 10). Further, the fragile portion 25 is constituted by, for example, a concave line (thin portion) formed so as to be at least partially along the outer shape of the second drain pipe 52 without penetrating the second extending portion 15 in the thickness direction. May be. Or the weak part 25 may be comprised by the perforation-like notch etc. which were intermittently formed along the external shape of the 2nd drain pipe 52 at least partially, for example.

(5) In the above embodiment, the example in which the second connection port 22 is configured to appear on the drain pipe connector 1 only when necessary has been described. However, the embodiment of the present invention is not limited to this. You may comprise so that the 2nd connection port 22 may always be provided in the drain pipe connector 1. FIG. In this case, the 2nd connection port 22 may be provided in each of a pair of side wall part 11 (2nd extension part 15), and may be provided only in any one. In the latter case, a second connection port 22 having a first pattern provided on the left side wall 11 and a second pattern provided on the right side wall 11 are prepared, and each construction site is prepared. In this case, it is only necessary to select which pattern is used according to the positional relationship with the outdoor unit 50B.

(6) In the above embodiment, the configuration in which the outer surface of the side wall portion 11 (second extending portion 15) at the boundary portion with the second connection port 22 is formed in a tapered shape has been described as an example. However, the embodiment of the present invention is not limited to this. For example, as shown in FIG. 11, the inner surface of the side wall 11 at the boundary with the second connection port 22 may be tapered so that the thickness gradually increases as the distance from the end edge 22 e of the second connection port 22 increases. good. Alternatively, both the outer surface and the inner surface of the side wall portion 11 at the boundary portion with the second connection port 22 may be formed in a tapered shape so that the thickness gradually increases as the distance from the end edge 22e of the second connection port 22 increases. (Not shown).

(7) In the above embodiment, an example in which the locking portion 13 is configured by two triangular locking protrusions that are formed to protrude from the inner surface of the first extending portion 12 at different vertical positions is described. did. However, the embodiment of the present invention is not limited to this. For example, the number of triangular locking protrusions may be one, three, four,. Alternatively, for example, as shown in FIG. 11, a substantially triangular prism-shaped locking portion 13 that is continuous in the vertical direction may be formed so as to protrude from the inner surface of the first extending portion 12.

(8) In the above embodiment, the pair of first extending portions 12 and the connecting wall portion 17 (back plate portion 18) that define the space for forming the first connection port 21 are substantially U-shaped in a top view. The configuration is described as an example. However, the embodiment of the present invention is not limited to this. The pair of first extending portions 12 and the connecting wall portion 17 may be substantially C-shaped, for example, in a top view, or may be U-shaped (angular U-shape).

(9) In the above embodiment, the configuration in which the main body portion 10 (side wall portion 11) is formed to have a substantially L shape in a side view has been described as an example. However, the embodiment of the present invention is not limited to this. For example, the main body portion 10 (side wall portion 11) may have a substantially triangular shape in a side view, a substantially rectangular shape, or the like.

(10) In the above-described embodiment, the second connection port 22 appears only in one of the pair of side wall portions 11 (second extending portion 15), and the second drain pipe is provided only in the one second connection port 22. The configuration in which 52 is connected has been described as an example. However, the embodiment of the present invention is not limited to this. For example, the second connection port 22 may appear on both the pair of side wall portions 11, and the second drain tube 52 and the third drain tube may be connected to both the second connection ports 22. As described above, the present invention is also applied to a drain pipe connection structure in which three drain pipes including the drain pipes 51 and 52 are connected to one drain pipe connector 1 in a substantially T shape in a front view. It is possible.

(11) In the above embodiment, the first drain pipe 51 is pushed in from the front side and connected to the first connection port 21, and then the second drain pipe 52 is pushed in from above and connected to the second connection port 22. Was described as an example. However, the embodiment of the present invention is not limited to this. The first drain pipe 51 may be inserted from the upper side that is the connection direction of the first connection port 21 and connected to the first connection port 21, or the second drain pipe 52 may be connected to the second connection port 22. It may be inserted from the side that is the direction and connected to the second connection port 22. Further, the connection order of the drain pipes 51 and 52 is arbitrary, and the second drain pipe 52 may be connected to the second connection port 22 and then the first drain pipe 51 may be connected to the first connection port 21.

(12) In the above-described embodiment, an example in which the drain pipes 51 and 52 extending from the indoor unit 50A and the outdoor unit 50B of the air conditioner 50 and the water channel forming member 60 are connected using the drain pipe connector 1 will be described. did. However, the embodiment of the present invention is not limited to this. The present invention is not limited to the indoor unit 50 </ b> A and the outdoor unit 50 </ b> B of the air conditioner 50, and the present invention is also applied to a case where a drain pipe extending from a plurality of other drain water discharge devices installed close to each other and the water channel forming member 60 are connected. It is possible to apply.

(13) In the above-described embodiment, the example in which the drain pipe connection tool and the drain pipe connection structure according to the present invention are applied to the drain drainage guide structure in the veranda of the apartment house has been described. However, the scope of application of the present invention is not limited to this. For example, the present invention can also be applied to a drainage guide structure in a shared hallway of an apartment house or a veranda of a detached house (an example of a building).

(14) Regarding other configurations, it should be understood that the embodiments disclosed herein are illustrative in all respects and that the scope of the present invention is not limited thereby. Those skilled in the art will readily understand that modifications can be made as appropriate without departing from the spirit of the present invention. Accordingly, other embodiments modified without departing from the spirit of the present invention are naturally included in the scope of the present invention.

  INDUSTRIAL APPLICATION This invention can be utilized for the drain pipe connector for connecting the drain pipe extended from a drain water discharge apparatus, and the water channel formation member in which the drainage channel was formed.

DESCRIPTION OF SYMBOLS 1 Drain pipe connector 10 Main-body part 11 Side wall part 12 1st extension part 15 2nd extension part 17 Connection wall part 21 1st connection port 22 2nd connection port 25 Fragile part 50 Air conditioner 50A Indoor unit (drain water discharge machine)
50B Outdoor unit (drain water discharge device)
51 First drain pipe (first drain pipe)
52 Second drain pipe (second drain pipe)
60 Drainage channel D Drainage channel

Claims (7)

A drain pipe connector for connecting a drain pipe extending from each of a plurality of drain water discharge devices and a water channel forming member in which a drainage channel is formed,
An upward first connection port to which one of the plurality of drain pipes is connected;
A second connection port provided in a lower side than the first connection port and connected to the other one of the plurality of drain pipes;
A pair of side wall portions each including a first extending portion extending in a substantially vertical direction and a second extending portion extending in a direction intersecting the first extending portion and having a substantially L shape in a side view, and the pair A connecting wall portion that connects the side wall portions of each other, and a main body portion,
The first connection port is provided in a space defined by a pair of the first extension part and the connection wall part,
A drain pipe connector in which the second connection port is provided in the second extending portion. Cutting the fragile portion formed in the second extension portion so that the second connection port at least partially follows the outer shape of the drain pipe to be connected, so that a part of the second extension portion is formed. The drain pipe connector according to claim 1 , wherein the drain pipe connector is configured to appear by removal. The drain pipe connector according to claim 1 or 2 , wherein the second connection port is formed by being cut out so as to open at an upper end edge of the second extending portion. The drain pipe connector according to claim 3 , wherein an opening width on an upper end side of the second connection port is smaller than an outer diameter of the drain pipe to be connected. The external or internal surface or both of the side wall portion at the boundary portion between the second connection port, the second connecting port according to claim 3 or is tapered so as to increase the thickness gradually with increasing distance from the edge of 5. The drain pipe connector according to 4 . The drain pipe connected to the second connection port is a bellows-shaped drain pipe having crests and troughs arranged alternately,
The drain pipe connector according to any one of claims 1 to 5 , wherein a width of a connection portion of the bellows-like drain pipe in the second connection port is smaller than an outer diameter of the peak portion. A drain pipe connection structure for connecting a drain pipe extending from each of an indoor unit and an outdoor unit of an air conditioner and a water channel forming member formed with a drainage channel using a drain pipe connector,
The drain pipe connector includes a first extending portion extending in a substantially vertical direction and a second extending portion extending in a direction intersecting the first extending portion, and a pair having a substantially L shape in a side view. A body portion having a side wall portion and a connecting wall portion connecting the pair of side wall portions,
With respect to an upward first connection port provided in a space defined by the pair of first extension portions and the connection wall portion of the drain pipe connector, a first extension port extending substantially vertically from the indoor unit. 1 drain pipe connected,
A drain pipe formed by connecting a second drain pipe extending in a substantially horizontal direction from the outdoor unit to a second side connection port provided in the second extending portion of the drain pipe connector. Connection structure.

Images