KR101812169B1 - Dishwasher - Google Patents

Abstract

The present invention relates to a dishwasher. The dishwasher according to the present invention comprises a tub having a receiving space for receiving an object to be cleaned, a plurality of jetting units provided on the tub for supplying the washing water to the object to be cleaned, and at least one of the plurality of jetting units And a plurality of flow path switching parts provided in the sump for supplying wash water to at least one of the plurality of supply paths connected to the plurality of spray parts.

Description

Dishwasher {Dishwasher}

The present invention relates to a dishwasher.

The dishwasher is a device for supplying washing water to a cleaning object such as a tableware to perform cleaning. The dishwasher includes a plurality of jetting units for supplying washing water, and the washing water is supplied in various directions by the combination of the jetting units to improve the washing efficiency. However, it has been necessary to increase the size of the apparatus for dispensing the wash water in order to supply the wash water in various combinations or in various directions. However, since the volume of the dishwasher is limited, it is difficult to supply the washing water in various directions by the combination of various jet portions.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a dishwasher capable of supplying wash water in various directions by a simple structure.

It is an object of the present invention to provide a washing machine comprising a tub having a receiving space for receiving an object to be cleaned, a plurality of jetting units provided in the tub for supplying washing water toward the object to be cleaned, And a plurality of flow path switching portions provided in the sump for supplying wash water to at least one of the plurality of supply flow paths connected to the plurality of spraying portions.

Another object of the present invention is to provide a washing machine comprising a tub having a receiving space for receiving an object to be cleaned, a plurality of spraying arms rotatably provided on the tub for supplying washing water to the object to be cleaned, A sump for supplying washing water to at least one of the spray gun and the spray nozzle, a first flow path switching unit provided in the sump for supplying wash water to at least one of the plurality of spray guns, And a second flow path switching portion for supplying washing water to at least one of the nozzles.

As described above, the dishwasher according to the present invention includes a plurality of channel switching portions that move in conjunction with each other or move independently of each other, so that the washing water can be supplied in various directions.

1 is a schematic view showing an internal configuration of a dishwasher according to an embodiment,
2 is a perspective view showing a sump of a dishwasher according to an embodiment,
FIG. 3 is a partial cross-sectional view of FIG. 2,
FIG. 4 is a partially enlarged view showing the flow path switching unit in FIG. 2,
5 to 10 are schematic diagrams showing the connection relationship with the supply passage according to the rotation of the flow path switching portion.

Hereinafter, a dishwasher according to various embodiments of the present invention will be described in detail with reference to the drawings.

1 is a schematic view showing a dishwasher 100 according to an embodiment.

Referring to FIG. 1, the dishwasher 100 includes a cabinet 10 that forms an appearance. The cabinet 10 is provided with a door 12 on its front side so that the door 12 is opened and the object to be cleaned such as tableware is put into the cabinet 10.

The interior of the cabinet 10 firstly includes a tub 20 providing a receiving space 14 for receiving the object to be cleaned. Since the tub 20 serves to determine the capacity for accommodating the object to be cleaned, it is preferable that the tub 20 is provided with a logo even when the volume of the accommodation space 14 is maximized in the cabinet 10.

The tub 20 is provided with racks 32 and 34 for directly receiving objects to be cleaned. The number of racks 32, 34 is not limited and may include an upper rack 32 and a lower rack 34 as shown in the figure.

In addition, the tub 20 may have a plurality of jetting portions for supplying washing water toward the object to be cleaned. The ejection portion may be provided corresponding to the number of racks described above, but may be provided more regardless of the number of racks. In the present embodiment, the jetting unit may include a plurality of spraying arms 42, 44, 46 provided to be movable in the tub 20. That is, the spray guns 42, 44, and 46 are provided to be able to move inside the tub 20, and are rotatably provided inside the tub 20, for example. The minute sandstones 42, 44, 46 may be provided corresponding to the number of racks described above, or more or less. In this embodiment, the dispersing rocks 42, 44, 46 are provided with the uppermost dispersing sand rock 42, the upper part sandstone 44 and the lower part sandstone 46. The uppermost minute sandstone 42 is provided adjacent to the inner ceiling of the tub 20 to supply wash water toward the lower side. The upper portion sandstone 44 is provided to supply wash water toward the upper rack 32 and the lower portion sandstone 46 is provided to supply wash water toward the lower rack 34.

Meanwhile, the dishwasher 100 according to the present embodiment may further include at least one spray nozzle 50 fixed to the tub 20 without movement. Unlike the spray guns 42, 44, and 46, the spray nozzle 50 is fixedly installed inside the tub 20 without movement. In this case, the spray nozzle 50 may be provided to supply wash water to a predetermined area inside the tub 20. [ In other words, the spray nozzle 50 can be provided to intensively spray the washing water toward the predetermined area inside the tub 20. [ By supplying the washing water intensively toward the predetermined area by the injection nozzle 50, it is possible not only to raise the washing effect of the object to be cleaned housed in the predetermined area but also to clean it in a shorter time. The predetermined region may be provided directly inside the tub 20, or may be provided in the racks 32 and 34 described above. For example, the spray nozzle may be provided with a receiving device for receiving the object to be cleaned directly on the inner side of the tub 20 and supplying the washing water to the area provided with the receiving device. In addition, a part of the racks 32 and 34 described above has a separate space for accommodating the object to be cleaned, and is defined as a so-called 'concentrated washing zone', and the washing water can be supplied to the concentrated washing zone by the spray nozzle.

Meanwhile, the dishwasher 100 may include a sump 60 for supplying washing water to at least one of the above-described spraying units. That is, the sump 60 receives the washing water through the water supply line 70 and can supply the washing water to the spraying unit by driving the water supply pump 72. For this purpose, the sump 60 is provided with supply passages 62, 64, 66, 68 connected to the respective spray portions. That is, the spray gun flow paths 62, 64, 66 connected to the spray guns 42, 44, 46 and the spray nozzle flow path 68 connected to the spray nozzle 50 are connected to the sump 60. The minute sandstone flow paths 62, 64, and 66 are provided corresponding to the above-described powder sandstones 42, 44, and 46, respectively. For example, when the uppermost distributive sand rock 42, the upper partial sandstone 44, and the lower partial sandstone 46 are provided, the distributing rock passage 62, 64, A sandstone flow passage 64 and a lower portion sandstone flow passage 66.

In addition, the sump 60 may serve to drain the washed wash water to the outside. That is, the washing water that has been cleaned in the tub 20 is collected by the lower sump 60 and drained to the outside through the drain line 76 by driving the drain pump 74. On the other hand, the wash water drained may contain various foreign substances, and depending on the region or country, it may be prohibited to discard the wash water containing such foreign matter. Accordingly, the sump 60 may have a filter portion 80 for filtering foreign matter. The filter unit 80 will be described in detail in the subsequent FIG.

2 is a perspective view showing the sump 60 in FIG.

Referring to FIG. 2, the sump 60 may have a filter portion 80 for filtering the washing water. Here, the filter unit 80 may filter both the supplied washing water and the washing water drained. That is, the washing water supplied through the water supply line 70 is filtered through the filter unit 80 and then supplied to the spraying unit through the switching chamber 90, which will be described later, by driving the water supply pump 72. In addition, the cleaned washing water drops from the tub 20 to the sump 60 and is collected by the filter unit 80. The washing water filtered in the filter unit 80 is drained through the drain line 76.

As described above, the supply passages 62, 64, 66, and 68 connected to the injection unit are connected to the sump 60, and specifically to the conversion chamber 90 provided in the sump 60. The washing water supplied from the filter unit 80 to the switching chamber 90 is supplied to at least one of the supply passages 62, 64, 66 and 68 in the switching chamber 90 as described above. That is, the passage switching unit is provided in the inside of the switching chamber 90 and the washing water is supplied through the at least one supply passage 62, 64, 66, 68 by the passage switching unit. Specifically, the flow path switching portion is provided rotatably inside the switching chamber 90 with an opening portion. Accordingly, when one of the openings of the flow path switching portion and the supply flow paths 62, 64, 66, and 68 is connected when the flow path switching portion rotates, the washing water is supplied toward the supply flow path through the opening portion. On the other hand, if neither the opening of the flow path switching portion nor the supply flow path is connected, the washing water is not supplied to the supply flow path.

However, the dishwasher 100 according to the present embodiment may include a plurality of channel switching units to supply washing water. Therefore, it becomes possible to supply the washing water in a more various supply mode than in the dishwasher having one flow path switching portion. Here, the supply mode refers to the supply of the wash water by the combination of the spray guns, for example, when two or more spray guns are provided. For example, in the case of two sandstones, upper sandstones and lower sandstones, it is possible to supply wash water to the upper part sandstone, to supply the wash water to the lower part sandstone and to supply the water to the upper and lower part sandstone simultaneously Do. As a result, when a plurality of flow path switching units are provided, it is possible to supply the washing water in a more various supply mode. Hereinafter, the present invention will be described in detail with reference to the drawings.

3 is a partial cross-sectional view showing an internal configuration of the switching chamber 90 in the sump 60. As shown in Fig.

Referring to FIG. 3, a switching chamber 90 is provided at one side of the sump 60. The switching chamber 90 has a connecting passage 82 connected to the filter unit 80 as described above. And the filtered washing water is supplied through the connecting passage 82. [ The switching chamber 90 is connected to a plurality of supply passages 62, 64, 66, 68 connected to a plurality of ejector portions. These supply channels 62, 64, 66 and 68 may be connected to at least one of the predetermined portions, for example, the side, the upper portion, and the lower portion of the switching chamber 90. 3, the supply passages 62, 64, 66 and 68 are connected to the upper and lower portions of the switching chamber 90, but the present invention is not limited thereto.

For example, spray gun flow paths 62, 64, 66 connected to rotatable spray guns 42, 44, 46 can be connected to the upper portion of the switching chamber 90, And an injection nozzle flow path 68 connected to the injection nozzle 50 may be connected. This is merely one example, and it is also possible that the injection nozzle flow path is connected to the upper part of the switching chamber 90 and the spraying flow path is connected to the lower part.

Specifically, the cover 99 may be provided with a cover 99 covering the upper portion of the conversion chamber 90, and may have ejection openings 92, 94, 96 through which the spraying flow passages 62, 64, 66 are connected to the cover 99 . The reason for showing the three jetting openings 92, 94 and 96 in the figure is that the dishwasher having three spray guns, that is, the top spray gun 42, the upper part sandstone 44 and the lower part sandstone 46, I explain it to you. The number of jetting ports can be changed according to the number of minute sandstones 42, 44,

The jetting ports provided in the cover 99 are respectively connected to the uppermost sandstone flow path 62 and the uppermost jetting path 94 connected to the upper part sandstone flow path 64, And a lower jet opening 96 connected thereto. In addition, a lower portion of the switching chamber 90 may have a jet nozzle jetting port 98 to which the jetting nozzle flow channel 68 is connected. As a result, when the washing water in the switching chamber 90 flows into the supply passages 62, 64, 66 and 68 through the jetting openings 92, 94, 96 and 98 described above, Or the spray nozzle 50 is supplied with the washing water. The means for controlling the washing water supplied to the plurality of jetting openings 92, 94, 96 and 98 or the plurality of supply flow channels 62, 64, 66 and 68 and the flow path switching unit 130 are provided. In the present embodiment, a plurality of flow path switching units 130 may be provided as described above. In FIG. 3, the two flow path switching units 130 are illustrated as described below, but the present invention is not limited thereto, and three or more flow path switching units 130 may be provided.

The flow path switching unit 130 is connected to the first flow path switching unit 110 and the first flow path switching unit 110 which supply washing water to at least one of the supply paths 62, , 64, 66, and 68, as shown in FIG.

That is, the first passage switching unit 110 and the second passage switching unit 120 may be configured to supply the washing water through different supply channels. For example, the first flow path switching unit 110 is configured to supply washing water to at least one of the plurality of spray guns 42, 44, and 46 rotatably installed, and the second flow path switching unit 120 And may be configured to supply the washing water toward at least one of the single injection nozzles 50. 3, the first passage switching unit 110 is connected to the upper portion of the switching chamber 90 and the lower portion of the switching chamber 90, And the second flow path switching unit 120 may be provided adjacent to the bottom surface.

4 is a perspective view showing the flow path switching unit 130 except for the cover 99 in FIG.

Referring to FIG. 4, the first passage switching unit 110 and the second passage switching unit 120 are provided along the directions perpendicular to each other within the switching chamber 90. That is, the first flow path switching part 110 is provided in the upper part of the inside of the switching chamber 90 and the second flow path switching part 120 is provided in the lower part.

The first flow path switching unit 110 is formed of a plate having a circular shape and is rotatably installed inside the switching chamber 90. The first flow path switching unit 110 includes a plurality of openings 112 and 114 connected to the plurality of spray gun injection ports 92, 94 and 96. That is, the first flow path switching unit 110 may include a first opening 112 and a second opening 114.

Here, the second opening 114 may be larger than the first opening 112. For example, the second opening 114 may be longer than the first opening 112 in the circumferential direction. This is to supply the wash water by a combination of more dispersed rocks in the case of having a limited plate size. That is, the size of the plate can not be increased beyond a predetermined size due to the limitation of the inner space of the dishwasher. Further, if the opening is increased in correspondence with the number of ejection openings in the plate, the rigidity of the plate can not be guaranteed. Accordingly, the first passage switching unit 110 may have a smaller number of openings than the number of spraying rocks, and the sizes of the openings may be different from each other. At least one of the first opening 112 and the second opening 114 is located in the uppermost jet opening 92, the upper jet opening 94 and the lower jet opening 96 when the first flow path switching portion 110 rotates. The washing water can be supplied to the corresponding spray guns through the openings and the ejection openings.

Likewise, the second flow path switching portion 120 may include a third opening 122. When the second flow path switching unit 120 rotates, when the third opening 122 is connected to the injection nozzle injection port 98, the washing water can be supplied to the corresponding spray gun through the opening and the injection port.

When the plurality of flow path switching parts are provided, the flow path switching parts may be provided so as to be interlocked with each other or rotate in the same phase. For example, in the present embodiment, the second flow path switching portion 120 may be provided to rotate in conjunction with the first flow path switching portion 110. That is, the second flow path switching unit 120 may be provided to rotate in the same phase as the first flow path switching unit 110. For this, the first passage switching unit 110 and the second passage switching unit 120 may be connected to the upper and lower portions of the same rotary shaft 91 (see FIG. 3) to rotate. The rotation shaft is connected to the motor, and the first flow path switching unit 110 and the second flow path switching unit 120 can be rotated in association with each other by driving the motor.

In order to supply the washing water through the appropriate injection ports 92, 94, 96 and 98 while the flow path switching unit 130 rotates, the openings 112, 114 and 122 of the flow path switching unit 130 are connected to any one of the ejection openings 92, 94, 96, 98), all other nozzles must remain blocked. Therefore, when the washing water is supplied, the flow path switching unit 130 should be kept in a state in which it closely adheres to the ejection openings 92, 94, 96 and 98 as much as possible. Therefore, at least one of the first passage switching portion 110 and the second passage switching portion 120 may be provided so as to be movable a predetermined distance toward the switching chamber 90. That is, the first passage switching unit 110 and the second passage switching unit 120 may be provided to be movable a predetermined distance along the rotation axis. In this case, when the washing water flows into the conversion chamber 90, the first flow path switching unit 110 and the second flow path switching unit 120 are connected to the injection ports 92, 94 , 96, 98). The first passage switching unit 110 and the second passage switching unit 120 are brought into close contact with the switching chamber 90 and more precisely the first passage switching unit 110 and the second passage switching unit 120, 94, 96, and 98 of the switching chamber 90. As shown in FIG. Therefore, the washing water is supplied only through the supply passage communicating with the opening portion, and the remaining supply passage is blocked by the passage switching portion, so that the washing water is not supplied.

5 to 10 are schematic views showing the connection relationship with the supply passage according to the rotation of the first flow path switching portion 110. As shown in FIG. Referring to the drawings, the supply relationship of the washing water according to the rotation of the first flow path switching unit 110 will be described. Hereinafter, it is assumed that the first flow path switching unit 110 rotates in the clockwise direction. However, it is of course possible to rotate in the counterclockwise direction, and the case of rotating in the counterclockwise direction in the reverse order of the drawings described below.

5, the first opening portion 112 of the first flow path switching portion 110 communicates with the lower jet opening 96 of the cover 99, and the second opening portion 114 communicates with the uppermost jet opening 96 of the cover 99, (92) and the upper jet opening (94). Thus, the washing water is supplied to both the uppermost dispersing rock 42, the upper part sandstone 44 and the lower part sandstone 46. [

In FIG. 5, when the first flow path switching part 110 rotates clockwise at a predetermined angle to become the state shown in FIG. 6, the second opening 114 communicates with the uppermost jet opening 92. However, the first opening 112 does not communicate with any of the injection openings, and the remaining upper openings 94 and the lower openings 96 remain closed. Therefore, the washing water is supplied only through the uppermost injection port 92 to the uppermost dispersing arm 42.

7, the first opening 112 communicates with the upper jet opening 94, and the second opening 114 (see FIG. 7) ) Does not communicate with any nozzle. Therefore, the washing water is supplied only to the upper partial sandstone 44 through the upper jet opening 94.

The first opening 112 communicates with the uppermost jet opening 92 and the second opening 114 communicates with the lower jet opening 96 when the first flow path switching portion 110 rotates clockwise again to be in the state of FIG. . Thus, the washing water is supplied to the uppermost dispersing and distributing rocks 42 and 46.

In the state of FIG. 8, when the first flow path switching portion 110 rotates clockwise at a predetermined angle to the state of FIG. 9, the second opening portion still maintains a state of communicating with the lower jet opening 96, The nozzle 112 does not communicate with any jetting port. The second opening 114 is still kept in communication with the lower jet opening 96 even if the first flow switching part 110 rotates because the second opening 114 is formed in the first opening 112 in the circumferential direction Because it is longer. Therefore, the washing water is supplied only to the lower partial sandstone 46. [

10, the second opening portion 114 communicates with the upper jet opening 94 and the first opening portion 112 communicates with any jetting port Do not communicate. Therefore, the washing water is supplied only to the upper part sandstone 44. [

5 to FIG. 10 described above, an example of a combination of minute sandstones capable of supplying washing water when three branching rocks (three jetting ports) are provided and two openings are provided in the channel switching portion will be. Therefore, if the number of spray guns (the number of spray nozzles) and the number of openings provided in the flow path switching unit are changed, the combination of spray guns capable of supplying wash water can be controlled.

On the other hand, the second flow path switching unit 120 is also rotatably provided inside the switching chamber 90. In this case, when the second path switching unit 120 rotates in conjunction with the first path switching unit 110 as described above, the first path switching unit 110 and the second path switching unit 120 And can be connected to the upper and lower portions of the same rotary shaft 91 to rotate. The rotation shaft is connected to the motor, and the first flow path switching unit 110 and the second flow path switching unit 120 can be rotated in association with each other by driving the motor.

In the present embodiment, the second flow path switching portion 120 may include one third opening portion 122. When the second flow path switching unit 120 rotates and the third opening 122 communicates with the injection nozzle injection port 98, the washing water can be supplied to the injection nozzle 50 through the injection nozzle injection port 98 have.

When the first flow path switching unit 110 and the second flow path switching unit 120 are rotated in conjunction with each other, the supply of the washing water by the first flow path switching unit 110 and the supply of the cleaning water by the second flow path switching unit 120 The supply mode of the washing water by the washing water can be predetermined. For example, when the wash water is supplied to the uppermost spray arm 42 by the first flow path switching unit 110, the second flow path switching unit 120 may switch the first flow path switching unit 120 to supply the washing water to the spray nozzle 50. [ The arrangement of the first flow path switching part 110 and the second flow path switching part 120 can be determined. In other words, when the first flow path switching portion 110 is in the state of FIG. 6 described above, the third flow path switching portion 120 is opened so that the third opening portion 122 communicates with the injection nozzle injection port 98, The arrangement of the first flow path switching part 110 and the second flow path switching part 120 can be determined.

In the case where the washing water is supplied to the upper part sandstone 44 by the first flow path switching part 110, the second flow path switching part 120 is connected to the injection nozzle 50 In the case where the second flow path switching unit 120 supplies the washing water to the spray nozzle 50 in the case where washing water is supplied or the washing water is supplied to the lower partial sandstone 46 by the first path switching unit 110 Of course it is possible.

On the other hand, the above-described plurality of flow path switching parts are explained as being rotated in the same phase or in conjunction with each other, but the present invention is not limited thereto. For example, the first flow path switching portion and the second flow path switching portion may be provided to rotate independently of each other or in different phases. In this case, although not shown in the drawing, the first flow path switching portion and the second flow path switching portion may be connected to the respective separate rotary shafts. The rotary shaft is also connected to a separate motor so that the first flow path switching portion and the second flow path switching portion can rotate in different phases, respectively, or independently.

The above-described flow path switching unit has been described as being provided with all the rotational shafts in the vertical direction, but is not limited thereto. For example, at least one of the plurality of flow path switching parts may have a rotation axis in a vertical direction, or at least one of the plurality of flow path switching parts may be provided in a horizontal direction, depending on the position of the injection port provided in the switching chamber will be.

10 ... cabinet 20 ... tub
32 ... upper rack 34 ... lower rack
42 ... highest minute sandstone 44 ... upper part sandstone
46 ... lower part sandstone 50 ... injection nozzle
60 ... sump 80 ... filter portion
90 ... Conversion chamber 110 ... First flow path switching section
120 ... second flow path switching portion

Claims (18)

A tub having a receiving space for receiving the object to be cleaned;
A plurality of spraying units provided in the tub to supply wash water to the object to be cleaned;
A sump for supplying washing water to at least one of the plurality of spraying units;
And a plurality of flow path switching parts provided in the sump to supply wash water to at least one of the plurality of supply paths connected to the plurality of spray parts,
The flow-
A first flow path switching portion rotatably mounted on the sump; And
And a second flow path switching part mounted rotatably about the same rotation axis as the first flow path switching part and spaced apart from the first flow path switching part by a predetermined distance,
And the washing water stored in the sump flows through the space between the first flow path switching part and the second flow path switching part. The method according to claim 1,
Further comprising a switching chamber provided in the sump and connected to a plurality of supply passages connected to the plurality of spraying units, respectively, wherein the flow path switching unit is provided in the switching chamber. 3. The method of claim 2,
Wherein the flow path switching unit supplies washing water to at least one of the plurality of supply paths while rotating. The method of claim 3,
Wherein the flow path switching portion has at least one opening selectively communicating with at least one of the supply passage. The method of claim 3,
Wherein the flow path switching unit is provided with a rotation axis in a horizontal direction. The method of claim 3, wherein
Wherein the flow path switching portion is provided with a rotation axis in a vertical direction. The method of claim 3,
Wherein the first flow path switching portion and the second flow path switching portion are rotated in the same phase in association with each other. The method of claim 3,
Wherein the first flow path switching portion and the second flow path switching portion rotate independently of each other. delete The method of claim 3,
Wherein the plurality of jetting units include a plurality of jetting arms provided to be movable in the tub and at least one jetting nozzle fixed to the tub and supplying washing water to a predetermined area of the receiving space. . 11. The method of claim 10,
Wherein the first passage switching unit selectively supplies washing water to at least one of the plurality of spraying arms,
Wherein the second flow path switching portion supplies washing water to at least one of the spray nozzles. 12. The method of claim 11,
Wherein the supply passage connected to the spray gun is connected to the upper portion of the switching chamber and the supply passage connected to the spray nozzle is connected to the lower portion of the switching chamber. 13. The method of claim 12,
Wherein the first flow path switching portion and the second flow path switching portion are provided along the vertical direction inside the switching chamber. 12. The method of claim 11,
Wherein at least one of the first flow path switching portion and the second flow path switching portion is provided so as to be movable a predetermined distance toward the switching chamber. 15. The method of claim 14,
Wherein at least one of the first flow path switching portion and the second flow path switching portion is in close contact with a supply port provided at upper and lower portions of the switching chamber when the washing water flows into the switching chamber. A tub having a receiving space for receiving the object to be cleaned;
A plurality of spraying arms rotatably provided in the tub for supplying washing water to the object to be cleaned from the upper or lower portion of the object to be cleaned;
At least one spray nozzle fixed to the tub to supply wash water to a predetermined area of the accommodation space at the side surface of the object to be cleaned;
A sump for supplying wash water to at least one of the spray gun and the spray nozzle;
A first flow path switching unit provided in the sump to supply wash water to at least one of the plurality of spray guns; And
And a second flow path switching part provided in the sump for supplying washing water to at least one of the spray nozzles. 17. The method of claim 16,
Wherein the first flow path switching portion and the second flow path switching portion supply washing water independently from each other. 17. The method of claim 16,
Wherein the first flow path switching portion and the second flow path switching portion supply cleaning water in cooperation with each other.

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