JPH05130964A - Tableware washing machine - Google Patents

Abstract

PURPOSE:To provide the tableware washing machine capable of washing four corners of a washing tub with rectangular horizontal section. CONSTITUTION:A first arm nozzle 5 is set to rotate freely in the center of the bottom of a washing tub 1 with rectangular horizontal section. A second arm nozzle 7 is set to rotate freely with the rotary shaft of the first arm nozzle 5 deviated by the prescribed distance. The second arm nozzle 7 is provided with at least two jet ports 8a and 8b on both sides of the rotary shaft O, making a line segment 8a.O.8b connecting each jet port and the rotary shaft O to form a triangle. A linking mechanism rotating the second arm nozzle 7 is synchronism with the rotation of the first arm nozzle 5 with the prescribed ratio is provided between arm nozzles.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dishwasher which can automatically wash dishes.

[0002]

2. Description of the Related Art A schematic structure of a conventional dishwasher will be described with reference to FIGS. 1 is a washing tank for accommodating tableware 4, which has a square or rectangular horizontal cross-section.
Reference numeral 2 is a cleaning pump having a discharge port 3. Reference numeral 5 denotes an arm nozzle having a plurality of cleaning water injection ports 6, which is rotatably provided in communication with the discharge port 3 of the cleaning pump 2.

Next, the operation of the arm nozzle 5 and the cleaning water jet port 6 will be described. The washing water pressurized and fed into the arm nozzle 5 by the washing pump 2 is jetted from the washing water jet port 6, and the arm nozzle 5 is rotated by the reaction force of this jet. Therefore, the wash water injection port 6 makes a circular motion following the rotation locus 7, and the wash water injected from this wash the dishes 4 in the washing tank 1.

[0004]

However, in such an arm nozzle structure, the injection rotation locus 7 of the cleaning water sprayed from the cleaning water spray port 6 is a concentric circle as shown in FIG. .. Therefore, with respect to the cleaning tank 1 having a square or rectangular horizontal cross-sectional shape, the triangular area of each of the four corners 9 becomes a blind spot, which is an area where cleaning is difficult.

In order to solve this problem, the inventors have previously proposed a structure of an arm nozzle capable of cleaning diagonal corners of a cleaning tank having a substantially square horizontal cross section. However, in an actual dishwasher, the horizontal cross-sectional shape of the washing tank is often rectangular due to restrictions on the main body shape and the arrangement of parts. In the structure proposed earlier, in the case of the cleaning tank having this rectangular horizontal section,
The problem of cleaning the four corners could not be completely solved.

When the cleaning tank has a rectangular horizontal cross section, as shown in FIG. 9, the outer blind spots of the rotation path of the cleaning water injection port 6 are located at the four corners 9 and the inner walls of both short sides of the cleaning tank 1. 8 also existed, and there was a peculiar problem that, in addition to the four corners 9, it was difficult to clean the inner side wall portions 8 on both short sides.

In view of the above problems, the present invention is to provide an efficient dishwashing technique capable of uniformly washing dishes regardless of the position in the rectangular washing tank. A first object of the present invention is to provide a dishwasher in which the movement trajectory surely passes through the four corners of the washing tank.

It is a second object of the present invention to provide a dishwasher which can eliminate the blind spots in the cleaning tank at the four corners and near the inner walls of both short sides.

A third object of the present invention is to provide a dishwasher which can freely handle even a rectangular washing tank having a relatively large aspect ratio.

[0010]

A first means of the present invention for achieving the first object is to provide a cleaning tank having a rectangular horizontal cross-sectional shape, a cleaning pump, a first arm nozzle communicating with each other, and A second arm nozzle, wherein the first arm nozzle is rotatably provided at a substantially central portion of the bottom surface of the cleaning tank, and the second arm nozzle is provided with a rotation axis center of the first arm nozzle and a required axis. The second arm nozzle is rotatably provided eccentrically by a distance, and at least two injection ports are provided on both sides of the rotation axis of the second arm nozzle, and each injection port and the rotation axis are provided. An imaginary line connecting between the arm nozzles is provided so as to form a triangle, and an interlocking mechanism for synchronously rotating the second arm nozzle at a predetermined ratio with the rotation of the first arm nozzle is provided between the respective arm nozzles. injection In which movement trajectory of the the dishwasher to pass through the four corners of the cleaning tank.

The second means of the present invention for achieving the second object is to provide a cleaning tank having a rectangular horizontal sectional shape, a cleaning pump, a first arm nozzle and a second arm nozzle which communicate with each other. And the first arm nozzle is rotatably provided substantially at the center of the bottom surface of the cleaning tank, and the second arm nozzle is eccentric to the rotation axis of the first arm nozzle by a required distance. The second arm nozzle is rotatably provided, and the second arm nozzle has at least two injection ports on both arms of the rotation shaft, the first injection port and the rotation shaft. Is provided so that a virtual line connecting the two forms a triangle, and at the same time, a second injection port is provided on a virtual line that divides the triangle into two substantially equal parts, and the second arm nozzle rotates the first arm nozzle. And rotation at a predetermined ratio A dishwasher in which an interlocking mechanism as described above is provided between the respective arm nozzles so that the loci of movement of the jet port and the second jet port pass through the four corners of the washing tank and the inner walls of the short sides of the washing tank. It is an opportunity.

A third means of the present invention for achieving the third object is a cleaning tank having a rectangular horizontal sectional shape,
A cleaning pump and a first arm nozzle and a second arm nozzle that communicate with each other are provided, the first arm nozzle is rotatably provided at a substantially central portion of the bottom surface of the cleaning tank, and the second arm nozzle is The first arm nozzle is rotatably provided on one arm of the first arm nozzle so as to be eccentric with respect to the rotation axis of the first arm nozzle, and at least on the other arm of the first arm nozzle. One first injection port is provided so that the diameter of its rotation trajectory is equal to or larger than the inner dimension of the short side of the cleaning tank, and the second arm nozzle has at least two second injection nozzles on both sides of its rotation axis. The jet ports are provided so that virtual lines connecting the jet ports and the rotation axis form a triangle, and the second arm nozzles are interlocked so as to rotate synchronously with the rotation of the first arm nozzles at a predetermined ratio. Mechanism described above A dishwasher provided between the arm nozzles so that the movement loci of the second spray port and the first spray port pass through the four corners of the cleaning tank and the inner walls of the short sides of the cleaning tank. To do.

[0013]

The first means of the present invention operates as follows. The second arm nozzle receives the rotational movement of the first arm nozzle via the interlocking mechanism, and revolves while performing a rotation movement in synchronization with the first arm nozzle. For this reason, at least two injection ports provided in the second arm nozzle draw an elliptical motion locus so as to always pass through diagonal corners of the rectangular cleaning tank. For this reason,
The four corners of the washing tank are no longer blind spots, and the dishes arranged in these four corners can be reliably washed.

The second means of the present invention operates as follows. The second arm nozzle receives the rotational movement of the first arm nozzle via the interlocking mechanism, and revolves while performing a rotation movement in synchronization with the first arm nozzle. Therefore, at least two injection ports provided in the second arm nozzle draw an elliptical motion locus so as to always pass through the diagonal corners of the rectangular cleaning tank. At the same time, the second injection port provided in the second arm nozzle has a long diameter in the long side direction of the rectangular cleaning tank, and draws an elliptical motion locus passing near the inner wall of the short side of the cleaning tank. .. Therefore, in addition to the four corners of the cleaning tank, the inner wall of the short side is not a blind spot.

Further, the third means of the present invention operates as follows. Since the injection port provided in the first arm nozzle draws a rotation locus having a diameter equal to or larger than the inner dimension of the short side of the cleaning tank, the cleaning tank of the cleaning tank has a diameter similar to that of the second means of the present invention. In addition to the four corners, the short side inner wall portion can be made the washable region. In particular, according to the means of the present invention, even a rectangular cleaning tank having a relatively large aspect ratio of the cleaning tank can be dealt with freely and the degree of freedom in design can be increased.

[0016]

【Example】

(Embodiment 1) Hereinafter, an embodiment of the first means of the present invention will be described with reference to FIGS. In the figure, reference numeral 1 is a washing tank having a rectangular horizontal cross-section for accommodating tableware 12. A cleaning pump 2 is provided substantially at the center of the inner bottom surface of the cleaning tank 1. The cleaning pump 2 has a discharge port 3 provided with a nozzle bearing 4 which is fixed in communication with the discharge port 3. Further, the nozzle bearing 4 is provided with a first arm nozzle 5 rotatably. Reference numeral 7 denotes a second arm nozzle provided so as to be eccentric from the rotation axis of the first arm nozzle 5 by a required distance. Water supply port 14 of the second arm nozzle 7
Communicate with the first arm nozzle 5. The second arm nozzle 7 is rotatable with respect to the water supply port 14. Further, the first arm nozzle 5 has at least one injection port 6 for injecting cleaning water obliquely upward. Similarly, the second arm nozzle 7 has at least two injection ports 8a and 8b at both ends of the arm around the rotation axis O. These two injection ports 8a and 8b
Are arranged such that an imaginary line connecting to the rotation axis O is an isosceles triangle having an apex angle α degrees.

A first gear 9 is fixed to the nozzle bearing 4. The first arm nozzle 5 has the fixed shaft 15 of the second gear 10 in a part of its arm. In this way, the second gear 10 makes a planetary rotational movement with respect to the first gear 9 as the first arm nozzle 5 rotates. Further, the third gear 11 is engaged with the second gear 10 and rotates in conjunction with the second gear 10. The fixed shaft O of the third gear 11 also serves as the rotation shaft O of the second arm nozzle 7. The first gear 9, the second gear 10, and the third gear 11 constitute an interlocking mechanism in which the second arm nozzle 7 rotates in synchronization with the rotation of the first arm nozzle 5 at a predetermined ratio. ing. In this embodiment, the pitch circle diameter of the first gear 9 is twice the pitch circle diameter of the second gear 10 and the third gear 11. Therefore, the second arm nozzle 7 rotates at a speed twice as fast as the rotation speed of the first arm nozzle 5 in the direction opposite to the revolution direction in association with the first arm nozzle 5.

The operation of this embodiment will be described below.
The tableware 12 is stored in the tableware basket 13 in the cleaning tank 1, and the user starts the operation. A predetermined amount of cleaning water is supplied into the cleaning tank 1, and then the cleaning pump 2 is actuated to pressurize the cleaning water to be supplied from the discharge port 3 to the first arm nozzle 5 under pressure.
The washing water supplied to the first arm nozzle 5 is jetted obliquely upward from the first jet port 6, and the horizontal component force of this jet reaction force rotates the arm nozzle 5 clockwise and the tableware on the rotation locus. Class 12 is washed. On the other hand, the cleaning water in the first arm nozzle 5 is pressurized and supplied from the water supply port 14 to the second arm nozzle 7, and the second injection port 8a,
It is injected from 8b. At the same time, the second arm nozzle 7
Interlocks with the rotation of the first arm nozzle 5 and performs a planetary motion that revolves while rotating in the counterclockwise direction at a speed twice that of the first arm nozzle 5 via the three gears.

FIG. 4 shows the locus of movement of the jet ports 8a and 8b in the rectangular cleaning tank 1, where 8a-1 is the locus of movement of the second jet port 8a and 8b-1 is the same. 8b shows the locus of movement. O-1 is the second arm nozzle 7
2 is a revolution locus of the rotation axis O of. Hereinafter, the second injection port 8a
The movement loci 8a-1 and 8b-1 of 8b will be described. At any moment during operation, the virtual arm core line A _{1 of} the first arm nozzle 5 is 45 with respect to the upper long side in the cleaning tank 1.
The intersection point where the imaginary line A ₁ at a position forming an angle of degrees and the rotation axis of the second arm nozzle 7 intersects the revolution locus O-1 is O ₁ . The apex angle α of the triangles O ₁ , 8a, 8b is 1
When the angle is less than 80 degrees, the injection port 8a is located on the straight line biased clockwise from the point O ₁ by (180−α) / 2 degrees with respect to the arm core virtual line A. In the arm nozzle configuration having the apex angle α = 180 degrees, the injection port 8a cannot but be placed at the virtual position Q on the virtual line A ₁ . For this reason, with that configuration, it is not possible to form a motion trajectory that passes through the corner of the rectangular cleaning tank. According to this embodiment, the first arm nozzle 5
At the moment when the imaginary line A ₁ of the arm core makes an angle of 45 degrees with respect to an arbitrary long side in the cleaning tank 1, the position of the injection port 8a is such that the apex angle α is a small required angle of less than 180 degrees, For example, 1
If it is set to 50 degrees, it can be brought close to the cleaning tank corner 17 side. That is, at this moment, the position of the injection port 8a becomes the point P ₁ near the corner portion 17. Even at the moment when the first arm nozzle 5 rotates 180 degrees from the above-mentioned position, the positional relationship between the injection ports 8a and P ₁ is point-symmetrical and completely the same.
At the moment when the first arm nozzle 5 rotates clockwise by 45 degrees and the virtual arm axis line A ₀ is positioned perpendicular to the short side wall of the cleaning tank 1, the second arm nozzle 7 becomes the first arm nozzle. It rotates 90 degrees counterclockwise relative to No. 5, and rotates. Therefore, as shown in the drawing, the imaginary line connecting the injection ports 8a and 8b to each other is parallel to the short side of the cleaning tank 1.
When the first arm nozzle 5 further rotates by 45 degrees, the virtual imaginary line A ₂ of the arm core of the first arm nozzle 5 is positioned at an angle of 45 degrees with respect to the lower long side of the cleaning tank 1. Further, the second arm nozzle 7 is further rotated by 90 degrees with respect to the first arm nozzle 5. When the intersection of the arm core phantom line A ₂ and revolution trajectory O-1 at this time is O _2, the position of the injection port 8b, from the point O ₂ to the arm-core imaginary line A ₂ (180-α) / It is located on a straight line biased counterclockwise by an angle of 2 degrees. That is, at this moment, the injection port 8b arranged in line symmetry with the injection port 8a always passes through the point P ₂ near the corner 16. The first arm nozzle 5
However, even at a position rotated 180 degrees further from this position, the positional relationship between the injection port 8b and P ₂ is point-symmetrical and is exactly the same as the above.

By continuing the above-mentioned movement, the locus of movement of the jet port 8a becomes the route shown by 8a-1 and the locus of movement of the jet port 8b becomes the route shown by 8b-1. That is, the loci of motion 8a-1 and 8b-1 are elliptical shapes that intersect with each other. Therefore, the four corners 16 and 17 of the rectangular washing tank 1 are not cleaning blind spots, and the dishes arranged in the vicinity thereof are surely spray-washed.

In this embodiment, the two injection ports 8a and 8a
Although b is arranged so that the imaginary line connecting to the rotation axis O is an isosceles triangle, it is not necessarily limited to an isosceles triangle and may be an isosceles triangle depending on the shape configuration of the washing tank or the dish basket. There is no problem. (Embodiment 2) An embodiment of the second means of the present invention will be described below. This embodiment is a further improvement of the above embodiment. That is, in the above embodiment, when the vertical and horizontal dimension ratio of the rectangular cleaning tank increases, the four corners 16 shown in FIG.
Even if the cleaning can be performed, the cleaning blind spot is generated in the vicinity of the short side inner wall edge portion 18 of the cleaning tank 1.

The structure of this embodiment will be described below with reference to FIGS. In this embodiment, the second arm nozzle 7 is further provided with a second injection port 8c. The second injection port 8c is the rotation axis O of the second arm nozzle 7 and the injection port 8c.
It is provided at a required position on the extension line of the bisector of the apex angle α of the isosceles triangle formed by the virtual line connecting a and 8b. Therefore, in FIG. 6, the injection port 8c exists at a position close to the inner side wall portion 18 of the short side of the cleaning tank 1 at the moment when the first arm nozzle 5 is positioned perpendicular to the short side of the cleaning tank.

The operation of this embodiment will be described below with reference to FIGS.
Will be described with reference to. The basic operation of cleaning, the synchronous rotation operation of the first arm nozzle 5 and the second arm nozzle 7, and the motion locus due to the operation of the injection ports 8a and 8b are the same as those in the above-described embodiment, and therefore will be omitted. FIG. 6 shows the loci of movement of the ejection ports 8a, 8b and the second ejection port 8c. As the first arm nozzle 5 rotates, the second arm nozzle 7 rotates synchronously as in the above-described embodiment. By this synchronous rotation, the injection ports 8a and 8b follow the movement loci 8a-1 and 8b-1 similar to those in the above-described embodiment. Therefore, the four corners 16 and 17 of the rectangular cleaning tank 1 are not cleaning blind spots but become cleaning regions.

The movement of the second injection port 8c will be described below. At any moment during the operation, the virtual arm core line A of the first arm nozzle 5 is 45 with respect to the upper long side in the cleaning tank 1.
At the moment of being at the position forming the angle of degrees, the position of the second injection port 8c is P ₃₁ . When the first arm nozzles 5 rotates further 45 degrees, the position of the second injection port 8c becomes P _30. Further, when the first arm nozzles 5 rotates further 45 degrees, the position of the second injection port 8c becomes P _32. Thus
When the first arm nozzle 5 rotates once, the second injection port 8
c follows an oval motion locus indicated by 8c-1.

Thus, according to this embodiment, in addition to the four corners 16 and 17 of the cleaning tank 1, the short side inner wall portion 18 of the cleaning tank 1 is provided.
Is no longer a blind spot for washing, but becomes a washable area.

(Embodiment 3) Next, an embodiment of the third means of the present invention will be described with reference to FIGS. In the present embodiment, the position of the injection port 6 provided in the first arm nozzle 5 is set so that the radius of gyration is equal to or longer than the inner dimension of the short side of the rectangular cleaning tank 1. Therefore, the injection port 6
The locus of motion of is a circle indicated by 6-1. Also a rectangular cleaning tank 1
Both long side inner walls 19 have a shape protruding outward in an arc shape.

The operation of this embodiment will be described below. The basic operation of cleaning, the synchronous rotation operation of the first arm nozzle 5 and the second arm nozzle 7, and the locus of movement of the injection ports 8a and 8b are the same as those in the first embodiment, and therefore will be omitted. Since the radius of gyration of the injection port 6 is set to be equal to or longer than the inner dimension of the short side of the rectangular cleaning tank 1,
It becomes a circle along the edge of the inner wall 19 of the long side of the cleaning tank indicated by -1. Therefore, the injection port 6 passes through the inner wall edge portion 18 on the short side of the cleaning tank.

That is, if the rectangular cleaning tank 1 has a certain aspect ratio, the radius of gyration of the injection port 6 is almost equal to the inner dimension of the short side of the cleaning tank 1 without adding a new injection port. By setting the height to 18 mm, the inner side wall portion 18 of the short side of the cleaning tank can be used as the washable region. With this configuration, the problem that the dead angle of the jet cleaning generated on the inner wall of the short side of the cleaning tank with the increase in the aspect ratio of the rectangular cleaning tank, which occurs in the first embodiment, is solved.

[0029]

As is apparent from the above embodiments, according to the first means of the present invention, the movement locus of the injection port mainly arranged in the arm nozzle is configured to surely pass through the four corners. Even if the cleaning tank has a rectangular shape, it is possible to provide an efficient dishwasher capable of uniformly cleaning the four corners of the cleaning tank.

According to the second means of the present invention, in addition to the structure of the first means of the present invention, an injection port is provided which forms a motion locus so as to pass through the inner portion of the short side inner wall of the cleaning tank. Thus, in addition to the four corners of the rectangular washing tank, the inner side wall portion of the short side is also set as a washable area, so that the dishwasher can further improve the washing ability in the rectangular washing tank.

Further, according to the third means of the present invention, both of the cleaning tanks are mainly provided by providing the injection port adapted to perform the circular motion with the diameter equal to or more than the short side dimension of the rectangular cleaning tank. Both the short side inner wall portion and the four corners of the cleaning tank can be used as the washable region. In particular, it is possible to provide a dishwasher in which a rectangular washing tank having a relatively large aspect ratio of the washing tank can be freely accommodated and the degree of freedom in design can be increased.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a dishwasher showing an embodiment of a first means of the present invention.

FIG. 2 is a sectional view showing the structure of the arm nozzle.

FIG. 3 is a plan view showing an interlocking mechanism of the arm nozzle.

FIG. 4 is an explanatory view showing a movement trajectory of the arm nozzle.

FIG. 5 is a plan view showing an interlocking mechanism of arm nozzles showing an embodiment of the second means of the present invention.

FIG. 6 is an explanatory view showing a movement trajectory of the arm nozzle.

FIG. 7 is an explanatory view showing a movement trajectory of an arm nozzle in the embodiment of the third means of the present invention.

FIG. 8 is a vertical sectional view of a conventional dishwasher.

FIG. 9 is an explanatory diagram showing a movement trajectory of the arm nozzle.

[Explanation of symbols]

 1 Cleaning Tank 5 First Arm Nozzle 7 Second Arm Nozzle 6.8a / 8b / 8c Injection Port 9/10/11 Gear

Claims (3)

[Claims] 1. A washing tank having a rectangular horizontal cross-sectional shape, a washing pump, and a first arm nozzle and a second arm nozzle that communicate with each other, wherein the first arm nozzle is substantially at the bottom of the washing tank. The second arm nozzle is rotatably provided in the central portion, and the second arm nozzle is rotatably provided on the first arm nozzle while being eccentric from the rotation axis of the first arm nozzle by a required distance. The arm nozzle is provided with at least two injection ports on both sides of its rotation axis such that an imaginary line connecting each injection port and the rotation axis forms a triangle, and the second arm nozzle is A dishwasher in which an interlocking mechanism that rotates synchronously with a rotation of one arm nozzle at a predetermined ratio is provided between the respective arm nozzles so that the locus of motion of the spray port passes through the four corners of the cleaning tank. 2. A washing tank having a rectangular horizontal cross-sectional shape, a washing pump, and a first arm nozzle and a second arm nozzle that communicate with each other, the first arm nozzle being substantially at the bottom of the washing tank. The second arm nozzle is rotatably provided in the central portion, and the second arm nozzle is rotatably provided on the first arm nozzle with a predetermined distance from the rotation axis of the first arm nozzle. The arm nozzle is provided with at least two injection ports on both arms of the rotation shaft such that an imaginary line connecting the first injection ports and the rotation shaft forms a triangle, and at the same time, A second injection port is provided on an imaginary line that divides the triangle into two substantially equal parts, and an interlocking mechanism that causes the second arm nozzle to rotate synchronously with the rotation of the first arm nozzle at a predetermined ratio is provided for each of the arm nozzles. Set in between A dishwasher in which the movement loci of the jet port and the second jet port pass through the four corners of the washing tank and the inner walls of the short sides of the washing tank. 3. A washing tank having a rectangular horizontal cross-sectional shape, a washing pump, and a first arm nozzle and a second arm nozzle that communicate with each other, wherein the first arm nozzle is substantially at the bottom of the washing tank. The second arm nozzle is rotatably provided in the central portion, and the second arm nozzle is rotatably provided on one arm of the first arm nozzle with a predetermined distance from the rotation axis of the first arm nozzle. Further, at least one first injection port is provided on the other arm of the first arm nozzle so that the diameter of the rotation trajectory is equal to or larger than the inner dimension of the short side of the cleaning tank. Is provided with at least two second injection ports on both sides of the rotation axis so that an imaginary line connecting each injection port and the rotation axis forms a triangle, and the second arm nozzle is the first Of the arm nozzle An interlocking mechanism that rotates synchronously with rotation at a predetermined ratio is provided between the respective arm nozzles, and the movement loci of the second injection port and the first injection port are within the four corners of the cleaning tank and the short sides of the cleaning tank. Dishwasher that passes through the wall.