JP6704073B1 - Disposer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a disposer capable of downsizing in a vertical direction. SOLUTION: The disposer 1 of the present invention is a disposer including a garbage throwing port H and a lid 12 detachably attached to the garbage throwing port, and the lid has a cup shape with an open upper side. It also has a cylindrical peripheral wall 12s and a bottom wall 12b that closes the lower open end surface of the peripheral wall, and a peripheral wall hole 12sh that penetrates the peripheral wall in the radial direction is provided at the lower end of the peripheral wall. , Are provided along the circumferential direction. [Selection diagram] Fig. 6

Description

The present invention relates to a disposer for crushing kitchen waste generated in a kitchen or the like.

A conventional disposer generally includes a kitchen throwing port and a lid that is detachably attached to the kitchen throwing port (for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 10-263429

By the way, in recent years, there has been a demand for downsizing of the disposer in the vertical direction from the viewpoint of improving the degree of design freedom around the sink. However, when the size of the disposer in the vertical direction is reduced, for example, the distance from the lower surface of the lid to the lower end of the crushing chamber is shortened, so that other parts positioned on the outer peripheral side of the lower end of the lid and below the lower part of the lid are reduced. Since there is a possibility that the garbage scattered from the crushing chamber to the upper side may easily adhere to the wall surface, it is practically difficult to downsize the disposer in the vertical direction.

An object of the present invention is to provide a disposer that can be downsized in the vertical direction.

The disposer of the present invention is
Kitchen waste input port,
A lid that is detachably attached to the kitchen waste inlet,
Is a disposer with
The lid has a cup shape with an open upper side, and
A cylindrical peripheral wall,
A bottom wall that closes the lower open end surface of the peripheral wall,
Has
A plurality of peripheral wall holes, which penetrate the peripheral wall in the radial direction, are provided in the lower end portion of the peripheral wall along the peripheral direction.

In the disposer of the present invention,
It is preferable that each of the plurality of peripheral wall holes is opened on the lower surface of the bottom wall.

In the disposer of the present invention,
It is preferable that the lid has an axial length L1 of 0.24 to 0.34 times a diameter D1 of the lid.

In the disposer of the present invention,
Further equipped with a cylindrical sink flange attached to the drain of the sink,
The sink flange is
The outer cylinder part,
An inner cylinder part, which is located on the inner peripheral side of the outer cylinder part and defines the kitchen waste inlet,
Has
It is preferable that the lower surface of the bottom wall of the lid is located above the lower end of the inner cylindrical portion of the sink flange in a state where the lid is attached to the kitchen throwing port.

In the disposer of the present invention,
A casing located below the sink flange and partitioning the crushing chamber,
A tubular joint that connects the sink flange and the casing and is made of an elastic material,
The upper band,
Further equipped with,
The joint has an upper mounting portion located on the outer peripheral side of the inner tubular portion of the sink flange,
The upper band is tightening the inner tubular portion of the sink flange and the upper mounting portion of the joint from the outer peripheral side,
It is preferable that the upper band is located on the inner peripheral side of the outer flange portion of the sink flange and at a position overlapping the outer tubular portion in the radial direction.

In the disposer of the present invention,
The upper band has a bolt, and is configured so that the degree of tightening of the upper band can be adjusted by rotating the bolt.
The outer tubular portion of the sink flange has a notch that is open at the lower side while penetrating the outer tubular portion in the radial direction,
It is preferable that the notch is configured so that the tip of the driver inserted through the notch can engage with the head of the bolt.

In the disposer of the present invention,
The axial length from the upper end of the sink flange to the lower end of the outer tubular portion of the sink flange with respect to the axial length L2 from the upper end of the sink flange to the lower end of the inner tubular portion of the sink flange. It is preferable that the ratio L3/L2 of L3 is 0.6 to 0.9.

According to the present invention, it is possible to provide a disposer that can be downsized in the vertical direction.

It is a perspective view showing the disposer concerning one embodiment of the present invention. It is an axial direction sectional view which shows some disposers of FIG. It is a perspective view which shows a mode that a part of disposer of FIG. 1 was seen from the upper side. It is a perspective view which shows the mode which looked at the lid of FIG. 1 from the upper side. It is a perspective view which shows a mode that the lid of FIG. 1 was seen from the lower side. FIG. 4 is an axial cross-sectional perspective view showing a part of the disposer of FIG. 3 together with a cross section taken along the line AA of FIG. 3. It is a side view which shows a mode when a part of disposer of FIG. 1 is seen from the radial outer side of the notch of a sink flange. It is a side view which shows a part of disposer of FIG. 7 in the state which abbreviate|omitted illustration of a lock nut. FIG. 8 is a side view showing how a driver is inserted into the notch of the sink flange in the disposer of FIG. 7.

INDUSTRIAL APPLICABILITY The disposer of the present invention can be suitably applied to any disposer for crushing kitchen waste generated in the kitchen or the like, whether it is for home use or for business use.
Embodiments of a disposer according to the present invention will be described below with reference to the drawings.
The same reference numerals are given to common constituent elements in each drawing.

1 to 3 and 6 to 9 show a disposer 1 according to an embodiment of the present invention. The disposer 1 is attached to the lower side of the sink in the kitchen and grinds garbage (garbage).
First, the overall configuration of the disposer 1 of the present embodiment will be described mainly with reference to FIG.
As shown in FIGS. 1 and 2, the disposer 1 of the present embodiment includes a sink flange 10, a seat packing 11, a lid 12, a lock nut 13, a control panel 14, a casing 15, and an O-ring 16. The rotary blade portion 17, the fixed blade 18, the electric motor 19, the magnet 20, the sensor 21, the joint 22, the band 23, the nut 24, the oil seal 25, and the discharge pipe 26 are provided. ..

In the present specification, the “axial direction” refers to the axial direction of the disposer 1 unless otherwise specified, and the axial direction of the disposer 1 refers to the direction parallel to the central axis O of the disposer 1. The “center axis O” of the disposer 1 is the center axis of the output shaft 19s of the electric motor 19, and thus the rotation axis of the rotary blade portion 17. Further, the “perpendicular direction” refers to a direction perpendicular to the axial direction of the disposer 1. Unless otherwise specified, the “radial direction” and the “circumferential direction” refer to the radial direction and the circumferential direction about the central axis O of the disposer 1, respectively. The terms "upper" and "lower" refer to the upper and lower sides in the vertical direction, respectively.

As shown in FIG. 2, the sink flange 10 is configured to be attached to the drainage port Sh of the sink S. The sink flange 10 includes a tubular outer tubular portion 10o, a tubular inner tubular portion 10i located on the inner circumferential side of the outer tubular portion 10o, and an outer circumference from the upper end of the inner tubular portion 10i to the upper end of the outer tubular portion 10o. And a flange portion 10f that extends to the outer peripheral side. A portion of the flange portion 10f on the outer peripheral side of the outer tubular portion 10o is arranged above the sink S in the vicinity of the drainage port Sh of the sink S.
An annular seat packing 11 is arranged between the sink S and a portion of the flange portion 10f on the outer peripheral side of the upper end of the outer tubular portion 10o. A receiving groove 10fr formed of an annular groove having an open upper side and an inner peripheral side is formed at an inner peripheral side end of the flange 10f. The receiving groove 10fr is configured to receive the flange portion 12f of the lid 12.
The inner peripheral surface of the inner cylindrical portion 10i of the sink flange 10 defines a kitchen throwing port H configured so that the kitchen waste is thrown in.
A male screw 10t is provided on the outer peripheral surface of the outer cylindrical portion 10o of the sink flange 10. On the other hand, the lock nut 13 is formed in an annular shape, and an internal thread 13t is provided on the inner peripheral surface thereof. The lock nut 13 is arranged on the lower side of the sink S and on the outer peripheral side of the outer tubular portion 10o of the sink flange 10, and the female screw 13t of the lock nut 13 is provided on the outer tubular portion 10o of the sink flange 10. It is screwed onto the screw 10t.
Between the lock nut 13 and the sink S, an annular mounting portion 14a for mounting the control panel 14 to the main body of the disposer is arranged.
In this way, the portion of the sink S near the drainage port Sh is sandwiched by the flange portion 10f of the sink flange 10 and the lock nut 13 via the seat packing 11 and the attachment portion 14a.
The control board 14 may be attached to the main body portion of the disposer 1 by a method different from that of the present embodiment, and the attachment portion 14a may not be arranged between the sink S and the lock nut 13.

A lid 12 is removably attached to the garbage input port H defined by the inner peripheral surface of the inner cylindrical portion 10i of the sink flange 10.
The lid 12 is formed in a cup shape with an open upper side and a closed lower side. The lid 12 has a cylindrical (cylindrical) peripheral wall 12s, a bottom wall 12b that closes the lower open end surface of the peripheral wall 12s, a flange portion 12f extending from the upper end of the peripheral wall 12s to the outer peripheral side, and the bottom wall 12b. And a grip portion 12g that is vertically installed and configured to be gripped by the user.
As shown in FIG. 2, a magnet 20 is arranged inside the lid 12 (specifically, inside the grip portion 12g). On the other hand, inside the sink flange 10 (specifically, between the inner tubular portion 10i and the outer tubular portion 10o), a sensor 21 capable of sensing the magnetic force of the magnet 20 is provided. When the lid 12 is rotated to a predetermined rotation position while being attached to the kitchen throw-in port H, the magnet 20 faces the sensor 21, and the sensor 21 senses the magnetic force of the magnet 20. It is supposed to start.
More specifically, in the present example shown in FIG. 3, the display of “OFF” and the display of “ON” are provided at different circumferential positions on the upper surface of the flange portion 10f of the sink flange 10. ing. On the other hand, on the upper surface of the flange portion 12f of the lid 12, a display 12i (in the example of the drawing, a triangular mark) indicating the rotational position of the lid 12 is provided. Then, when the lid 12 is attached to the kitchen throwing port H by the user, the circumferential position of the display 12i of the lid 12 is aligned with the “OFF” circumferential position of the sink flange 10. When the lid 12 is attached to the garbage throwing port H and the lid 12 is rotated by the user until the circumferential position of the display 12i of the lid 12 coincides with the circumferential position of “ON” of the sink flange 10, The electric motor 19 is adapted to start.
However, the lid 12 and the sink flange 10 may be provided with any display different from the display in the example of FIG. Further, when the lid 12 is rotated to the predetermined rotation position, the electric motor 19 may be started by any means different from the magnet 20 and the sensor 21 in the example of FIG.
In the illustrated example, the upper end of the grip portion 12g is located below the upper end of the flange portion 12f, but the upper end of the grip portion 12g is located at the same axial position as the upper end of the flange portion 12f or above the upper end thereof. , May be located.
Further detailed configurations of the sink flange 10 and the lid 12 will be described later.

A casing 15 is provided below the sink flange 10. The casing 15 is divided into upper and lower parts, and includes an upper casing 15u and a lower casing 151 below the upper casing 15u. The upper casing 15u and the lower casing 151 are fastened with bolts. An annular O-ring 16 is provided between the lower end of the upper casing 15u and the upper end of the lower casing 151, thereby maintaining the watertightness between the upper casing 15u and the lower casing 151. There is.
The upper casing 15u has a tubular shape. On the other hand, the lower casing 151 has a cup shape with the lower side closed and the upper side opened. The lower casing 151 has a discharge port 15o in a part of its circumferential direction. A discharge pipe 26 is connected to the discharge port 15o.

The sink flange 10 and the casing 15 are connected by a joint 22. The joint 22 is made of an elastic material (for example, rubber) and has a tubular shape. Specifically, the joint 22 includes an upper mounting portion 22u arranged on the outer peripheral side of a lower portion of the inner cylindrical portion 10i of the sink flange 10 and a lower mounting portion arranged on the outer peripheral side of an upper portion of the upper casing 15u. 22l and an intermediate portion 22m that is located between the upper mounting portion 22u and the lower mounting portion 22l in the axial direction and that connects the upper mounting portion 22u and the lower mounting portion 22l. A portion of the upper casing 15u located on the inner peripheral side of the lower mounting portion 22l of the joint 22 has a substantially constant inner diameter along the axial direction, and on the lower side thereof, the inner diameter of the upper casing 15u is The diameter has been expanded.
The lower end of the inner tubular portion 10i of the sink flange 10 and the upper end of the upper casing 15u are axially separated from each other. In the example of the figure, the intermediate portion 22m has a portion projecting to the inner peripheral side, and the projecting portion is sandwiched between the lower end of the inner cylindrical portion 10i of the sink flange 10 and the upper end of the upper casing 15u. There is. However, the intermediate portion 22m may have a portion protruding to the outer peripheral side instead of or in addition to having the portion protruding to the inner peripheral side. Since the sink flange 10 and the upper casing 15u are connected by the joint 22, it is possible to suppress the vibration generated in the casing 15 during the driving of the electric motor 19 and the vibration of the electric motor 19 from being transmitted to the sink S side. ..

A pair of bands 23 is provided on the outer peripheral side of the joint 22. Of the pair of bands 23, the upper band 23u located on the upper side tightens the inner cylindrical portion 10i of the sink flange 10 and the upper mounting portion 22u of the joint 22 on the outer peripheral side thereof from the outer peripheral side. Watertightness is maintained between the inner cylindrical portion 10i and the upper mounting portion 22u. The lower band 23l located on the lower side of the pair of bands 23 fastens the upper portion of the upper casing 15u and the lower mounting portion 22l of the joint 22 on the outer peripheral side thereof from the outer peripheral side. Thus, the watertightness between the upper casing 15u and the lower mounting portion 22l is maintained.
The band 23 is, for example, a hose band.

An electric motor 19 is provided below the lower casing 151. The output shaft 19s of the electric motor 19 extends above the casing of the electric motor 19 and enters the inside of the casing 15 through a through hole provided in the bottom wall of the lower casing 15l. An oil seal 25 is arranged between the output shaft 19s of the electric motor 19 and the lower casing 151.

The rotary blade portion 17 is arranged on the inner peripheral side of the lower casing 151. The rotary blade portion 17 has a rotary plate 17p, a hammer 17h, and a reinforcing plate 17r.
The rotating plate 17p and the reinforcing plate 17r are fixed to the output shaft 19s of the electric motor 19 with a nut 24. Accordingly, the rotation plate 17p and the reinforcing plate 17r are rotated around the central axis O by the rotation of the output shaft 19s of the electric motor 19.
The reinforcing plate 17r is below the rotating plate 17p and is in contact with the lower surface of the rotating plate 17p. The reinforcing plate 17r has a function of reinforcing the rotating plate 17p.
On the upper surface of the rotating plate 17p, one or a plurality (two in the example of the drawing) of hammers 17h are provided. These hammers 17h are attached to the rotating plate 17p and the reinforcing plate 17r via shafts 17s extending in the axial direction, respectively. In the illustrated example, these two hammers 17h are arranged on the opposite sides of the central axis O. The shaft portion 17s is composed of, for example, a bolt with a seat. In this example, the hammer 17h is rotatable around the shaft portion 17s, and when the rotary plate 17p rotates, the tip 17ht of the hammer 17h faces the outer peripheral side by the centrifugal force acting on the hammer 17h ( As a result, the fixed blade 18 is opposed thereto).
However, the hammer 17h may be fixed so as not to rotate with respect to the rotating plate 17p and the reinforcing plate 17r in a state where the tip 17ht of the hammer 17h faces the outer peripheral side in advance.
Further, the reinforcing plate 17r may not be provided.

A portion of the internal space of the disposer 1 between the garbage input port H and the rotary plate 17p is a crushing chamber RI in which the garbage is crushed. The crushing chamber RI is partitioned by an upper casing 15u, a portion of the lower casing 15l above the rotating plate 17p, and the rotating plate 17p. The rotary blade portion 17 is arranged at the lower end of the crushing chamber RI.
A portion of the internal space of the disposer 1 below the rotary plate 17p is a discharge chamber RO from which garbage is discharged toward the discharge port 15o. The discharge chamber RO is partitioned by the rotating plate 17p and a portion of the lower casing 151 that is below the rotating plate 17p.

A fixed blade 18 is provided on the outer peripheral side of the rotary blade portion 17. The fixed blade 18 has an annular shape, and is sandwiched in the axial direction by the upper casing 15u and the lower casing 15l. The fixed blade 18 is a fixed component that is not rotated when the rotary blade portion 17 rotates.
In the example of the drawing, the fixed blade 18 is arranged on the outer peripheral side of each of the rotary plate 17p, the hammer 17h, and the reinforcing plate 17r (that is, a position overlapping with these in the radial direction). However, the fixed blade 18 should just be arrange|positioned at least in the outer peripheral side of the hammer 17h (namely, the position which overlaps with the hammer 17h in a radial direction).

In the disposer 1 configured as described above, first, the user removes the lid 12, puts the garbage into the garbage input port H, and then attaches the lid 12 to the garbage input port H. The garbage thrown into the garbage throwing port H remains on the rotary plate 17p (and thus in the crushing chamber RI). Then, the user rotates the lid 12 to a predetermined rotation position while flowing water. Thereby, the magnet 20 faces the sensor 21, the sensor 21 senses the magnetic force of the magnet 20, and the electric motor 19 is started. When the electric motor 19 is started, the rotary blade portion 17 is rotated around the central axis O at high speed. Meanwhile, the garbage in the crushing chamber RI is pressed against the fixed blade 18 by the centrifugal force due to the rotation of the rotary plate 17p, finely crushed between the fixed blade 18 and the hammer 17h, and then falls into the discharge chamber RO together with water. And is discharged to the outside through the discharge port 15o and the discharge pipe 26.

In addition, in the present example, the rotary blade portion 17 is of a hammer mill type using a hammer 17h, but the rotary blade portion 17 is not limited to the other crushing method (for example, a chain mill using a chain instead of a hammer). Method).

Hereinafter, the configurations of the sink flange 10 and the lid 12 will be described in more detail mainly with reference to FIGS. 2 to 9. FIG. 3 shows a state in which a part of the disposer 1 of FIG. 1 is viewed from above. FIG. 4 shows the lid 12 of FIG. 1 as viewed from above. FIG. 5 shows a state where the lid 12 of FIG. 1 is viewed from below. FIG. 6 shows a portion of the disposer of FIG. 3 along with an axial cross-section along line AA of FIG. FIG. 7 shows a state of a part of the disposer 1 of FIG. 1 when viewed from the outside in the radial direction of the notch 10r of the sink flange 10. FIG. 8 shows a part of the disposer 1 of FIG. 7 with the lock nut 13 omitted. FIG. 9 shows how the driver D is inserted into the notch 10r of the sink flange 10 of the disposer 1 of FIG.

The disposer 1 of the present embodiment is suitable for downsizing (downsizing) in the vertical direction (axial direction), as described below.
In the disposer 1 of the present embodiment, the length L0 (FIG. 2) in the axial direction from the upper end of the sink flange 10 to the upper surface of the rotating plate 17p with respect to the diameter D0 (FIG. 2) of the flange portion 10f of the sink flange 10 is set. From the viewpoint of downsizing in the vertical direction, the ratio L0/D0 is preferably 0.70 or less, and preferably 0.65 or less. The ratio L0/D0 is preferably 0.60 or more from the viewpoint of crushing performance.
Wear.

As shown in FIGS. 2 and 6, in the state where the lid 12 is attached to the kitchen throwing-in port H, the lower surface of the bottom wall 12b of the lid 12 is located at an axial direction position above the intermediate portion 22m of the joint 22. It is preferable if there is. As a result, the length L1 of the lid 12 in the axial direction is reduced (the lid 12 is made thinner) to reduce the size of the disposer 1 in the vertical direction, and the distance from the lower surface of the lid 12 to the upper end of the rotary plate 17p. Can be suppressed (and thus the volume of the crushing chamber RI can be suppressed), and thus, the reduction of the crushing performance can be suppressed.
From the same viewpoint, as shown in FIGS. 2 and 6, in the state where the lid 12 is attached to the kitchen throw-in port H, the lower surface of the bottom wall 12b of the lid 12 is lower than the lower end of the inner tubular portion 10i of the sink flange 10. Also, it is preferable that they are located at axially spaced positions in the upper direction.
From the same viewpoint, as shown in FIGS. 2 and 6, when the lid 12 is attached to the kitchen throwing port H, the lower surface of the bottom wall 12b of the lid 12 is located at a position overlapping the upper band 23u in the radial direction. It is preferable if there is.
From the same viewpoint, it is preferable that the length L1 of the lid 12 in the axial direction (vertical direction) is short. Specifically, for example, the axial length L1 of the lid 12 is preferably 0.24 to 0.34 times the diameter of the lid 12 (diameter of the flange portion 12f) D1. Further, the axial length L1 of the lid 12 is preferably 30 to 35 mm, for example. Note that the axial length L1 of the lid 12 refers to the axial length from the upper end of the flange portion 12f to the lower surface of the bottom wall 12b without considering the grip portion 12g.

Axial direction from the upper end of the sink flange 10 to the lower end of the outer tubular portion 10o of the sink flange 10 with respect to the axial length L2 (FIG. 2) from the upper end of the sink flange 10 to the lower end of the inner tubular portion 10i of the sink flange 10. The ratio L3/L2 of the length L3 (FIG. 2) is preferably 0.6 to 0.9, and more preferably 0.73 to 0.83. Thereby, the length L3 in the axial direction from the upper end of the sink flange 10 to the lower end of the outer cylinder portion 10o of the sink flange 10 is secured while being sufficient for fitting with the sink S and the lock nut 13, By reducing the axial length L2 from the upper end of 10 to the lower end of the inner cylindrical portion 10i of the sink flange 10, the size of the disposer 1 in the vertical direction is reduced, and at the same time, from the lower surface of the lid 12 to the upper end of the rotating plate 17p. It is possible to suppress the reduction of the distance to (and thus the volume of the crushing chamber RI), and thus to suppress the reduction of the crushing performance.

As shown in FIGS. 2 and 7 to 8, in the present example, the upper band 23u of the pair of bands 23 is on the inner peripheral side of the outer tubular portion 10o of the sink flange 10 and has a diameter equal to that of the outer tubular portion 10o. It is in a position that overlaps in the direction. That is, when the disposer 1 is viewed from the outside in the radial direction (FIGS. 7 and 8), at least a part of the upper band 23u (in the example of the drawing, only the upper part) is the outer cylinder portion 10o of the sink flange 10. I can't see because it's hidden on the inner circumference side. With such a configuration, it is possible to reduce the size of the disposer 1 in the vertical direction as compared with the case where the entire upper band 23u is arranged below the outer cylindrical portion 10o of the sink flange 10.

In addition, in the example shown in FIGS. 7 to 8, each band 23 is formed of a hose band, and more specifically, has a bolt 23b, and the band 23 is rotated by rotating the bolt 23b with a screwdriver. It is configured so that the tightening degree of can be adjusted. The bolt 23b extends parallel to the direction perpendicular to the axis, and extends substantially parallel to the tangential direction at one point on the circumference around the central axis O.
Further, the outer cylindrical portion 10o of the sink flange 10 has a notch 10r which penetrates the outer cylindrical portion 10o in the radial direction and whose lower side is open. The notch 10r is located in the vicinity of the head portion 23h of the bolt 23b of the upper band 23u (for example, at a position that overlaps the head portion 23h in the radial direction, or does not overlap in the radial direction with the head portion 23h, but does not overlap the head portion 23h. On the other hand, it is arranged in a direction adjacent to the head 23h (the left side in FIG. 7), whereby the tip of the driver D inserted through the notch 10r engages with the head 23h. It is configured so that they can be combined (FIG. 9). As a result, even when the upper band 23u is located at the position where it overlaps with the outer tubular portion 10o of the sink flange 10 in the radial direction as in the example of the drawing, the upper band 23u is driven by the driver D when the disposer 1 is assembled or constructed. The tightening degree of 23u can be adjusted.

As shown in FIGS. 2 to 6, a plurality of peripheral wall holes 12sh penetrating the peripheral wall 12s in the radial direction is provided in the lower end of the peripheral wall 12s of the lid 12 along the peripheral direction. That is, each peripheral wall hole 12sh is opened in each of the inner peripheral surface and the outer peripheral surface of the peripheral wall 12s of the lid 12. The outer peripheral surface of the peripheral wall 12s radially faces the inner peripheral surface of the inner cylindrical portion 10i of the sink flange 10, but the peripheral wall holes 12sh are not closed by the inner peripheral surface of the inner cylindrical portion 10i.
With such a configuration, as shown in FIG. 6, the water w flowing from the faucet (not shown) of the sink S enters the inner peripheral side of the peripheral wall 12s from the upper open end surface of the lid 12 and the bottom wall 12b. After hitting the upper surface, it flows outward from the lid from the peripheral wall hole 12sh on the outer peripheral side toward the outside in the radial direction, and then flows downward while being guided by the inner peripheral surface of the inner cylindrical portion 10i of the sink flange 10.
Here, if the vertical dimension of the disposer 1 is made smaller than the conventional size, the distance from the lower surface of the lid 12 to the upper end of the rotary plate 17p is shortened, and the outer peripheral side of the lower end of the lid 12 and The kitchen waste m (FIG. 6) scattered upward from the crushing chamber RI may be easily attached to the wall surfaces of other components located below the same. For example, when the lower surface of the bottom wall 12b of the lid 12 is arranged above the intermediate portion 22m of the joint 22 as in the example of the drawing, the lower surface of the bottom wall 12b of the lid 12 is temporarily placed at the intermediate portion of the joint 22. Compared with the case of arranging in the same axial position as 22m, the lower portion of the intermediate portion 22m of the joint 22 and the inner cylindrical portion 10i of the sink flange 10 is not covered with the lid 12 and is exposed into the crushing chamber RI, Since the kitchen waste m easily enters between the outer peripheral surface of the lid 12 and the inner peripheral surface of the inner cylindrical portion 10i of the sink flange 10, the lower end portion of the lid 12 on the inner peripheral surface of the inner cylindrical portion 10i of the sink flange 10 The upper surface 22ms (FIGS. 2 and 6) of a portion 22mp that protrudes toward the inner peripheral side of the inner cylindrical portion 10i of the sink flange 10 of the portion that faces the inner side of the joint 22 and the lower portion thereof and the intermediate portion 22m of the joint 22 (FIGS. 2 and 6). The kitchen waste m may be particularly likely to adhere to the above.
In that regard, in the present embodiment, since the peripheral wall hole 12sh that penetrates the peripheral wall 12s in the radial direction is provided at the lower end portion of the peripheral wall 12s of the lid 12, while the water w is flowing from the faucet of the sink S, the sink The water w from S enters the inner peripheral side of the peripheral wall 12s of the lid 12, and then flows outward from the peripheral wall hole 12sh in the radial direction to the outside of the lid 12, and then the outer peripheral side of the lower end of the lid 12 and / Or it flows down with kitchen waste m located below it. Thereby, it is possible to effectively prevent the garbage m from adhering to the outer peripheral side of the lower end portion of the lid 12 and/or the lower side thereof while the water w is flown from the sink S during the rotation of the rotary blade portion 17. You can Further, even if the garbage m adheres to the outer peripheral side of the lower end portion of the lid 12 and/or the lower side thereof, the kitchen m can be effectively washed away only by flowing the water w from the sink S.
Further, since a plurality of peripheral wall holes 12sh are provided in the lower end portion of the peripheral wall 12s of the lid 12 along the circumferential direction, the water w from the sink S is radially outward from the plurality of peripheral wall holes 12sh. It can flow radially outward of the lid 12. Thereby, compared with the case where only one peripheral wall hole 12sh is provided, the effect of suppressing the attachment of the garbage m can be obtained more uniformly along the circumferential direction.
Further, since the lid 12 has the peripheral wall hole 12sh, the peripheral wall hole 12sh of the lid 12 is blocked by the water w and water is sealed while the water w is flown from the sink S. Can be effectively suppressed.

The number of the peripheral wall holes 12sh is preferably 10 or more, and more preferably 18 or more, from the viewpoint of obtaining the effect of suppressing the attachment of the garbage m uniformly along the circumferential direction. Further, from the viewpoint of securing an opening area per peripheral wall hole 12sh, the number of peripheral wall holes 12sh is preferably 30 or less, and more preferably 26 or less.
The larger the opening area per peripheral wall hole 12sh is, the higher the effect of suppressing the attachment of the garbage m is. Further, if the opening area of each of the peripheral wall holes 12sh is too small, the flow rate of water passing through the peripheral wall hole 12sh may be reduced, and water may easily accumulate in the sink S. From this point of view, each circumferential wall hole 12sh has a circumferential width (width measured along the circumferential direction) W (FIG. 4) of the opening to the inner circumferential surface of the circumferential wall 12s that is 5 mm or more. It is suitable. On the other hand, if the opening area of each of the peripheral wall holes 12sh is too large, the effect of suppressing the sound from the crushing chamber RI from leaking to the sink S side by water-sealing the peripheral wall holes 12sh may be reduced. .. From such a viewpoint, it is preferable that each peripheral wall hole 12sh has a width W of 10 mm or less in the circumferential direction of the opening to the inner peripheral surface of the peripheral wall 12s.
From the same viewpoint, it is preferable that each peripheral wall hole 12sh has an axial length L4 (FIG. 4) of the opening to the inner peripheral surface of the peripheral wall 12s of 2.5 mm or more, and 5 mm or less. Is preferable.

As shown in FIG. 2, FIG. 5, and FIG. 6, in this example, each peripheral wall hole 12sh is opened not only on the side surface of the bottom wall 12b of the lid 12 but also on the lower surface of the bottom wall 12b. As a result, the water w that has entered the inner peripheral side of the peripheral wall 12s of the lid 12 easily flows not only radially outward but also downward through the peripheral wall hole 12sh, so that the waste m Adhesion can be suppressed.
For example, in the example of the drawing, a portion 22mp of the intermediate portion 22m of the joint 22 that protrudes toward the inner peripheral side of the inner cylindrical portion 10i of the sink flange 10 overlaps the peripheral wall 12s of the lid 12 in the axial direction. Since it is directly below the peripheral wall 12s, the peripheral wall hole 12sh is also open to the lower surface of the bottom wall 12b, so that the inner peripheral portion of the intermediate flange 22m is closer to the inner peripheral side than the inner cylindrical portion 10i of the sink flange 10. Since the flow of the water w toward the upper surface 22ms of the projecting portion 22mp is promoted, the kitchen waste m that tends to adhere thereto can be washed off more effectively.

In the illustrated example, the lid 12 has a plurality of bottom wall holes 12bh penetrating the bottom wall 12b in the axial direction in the bottom wall 12b. As a result, while rotating the rotary blade portion 17 while flowing water into the sink S, water that flows into the inside of the lid 12 and then flows downward through the bottom wall hole 12bh causes the lid 12 to exert a downward force. Since the air continues to be applied, it is possible to prevent the lid 12 from floating upward due to the air that increases in the crushing chamber RI. Further, during this time, the bottom wall hole 12bh of the lid 12 is closed with water and sealed, so that the sound from the crushing chamber RI can be effectively suppressed from leaking to the sink S side.

INDUSTRIAL APPLICABILITY The disposer of the present invention can be suitably applied to any disposer for crushing kitchen waste generated in the kitchen or the like regardless of whether it is for home use or for business use.

DESCRIPTION OF SYMBOLS 1 Disposer 10 Sink flange 10f Flange part 10fr Receiving groove 10o Outer cylinder part 10i Inner cylinder part 10t Male screw 10r Notch 11 Sheet packing 12 Lid 12s Peripheral wall 12sh Peripheral wall hole 12b Bottom wall 12bh Bottom wall hole 12g Grip part 12f Flange part 12i Display 13 lock nut 13t female screw 14 control panel 14a control panel mounting portion 15 casing 15u upper casing 151 l lower casing 15o discharge port 16 O-ring 17 rotary blade portion 17p rotary plate 17r reinforcing plate 17h hammer 17ht hammer tip 17s shaft portion 18 Fixed blade 19 Electric motor 19s Output shaft 20 Magnet 21 Sensor 22 Joint 22u Upper mounting part 22m Intermediate part 22mp Part of intermediate part 22ms projecting to the inner peripheral side from the inner cylinder part of sink flange Of intermediate part of sink flange The upper surface 22l of the portion projecting to the inner peripheral side from the inner cylinder portion 22l Lower mounting portion 23 Band 23u Upper band 23l Lower band 23b Bolt 23h Bolt head 24 Nut 25 Oil seal 26 Discharge pipe D Driver O Disposer central axis S Sink Sh Sink drainage port H Kitchen waste inlet RI Crushing room RO Discharge room m Kitchen waste w Water

Claims (7)

Kitchen waste input port,
A lid that is detachably attached to the kitchen waste inlet,
With a cylindrical sink flange attached to the drain of the sink,
A casing located below the sink flange and partitioning the crushing chamber,
A tubular joint that connects the sink flange and the casing and is made of an elastic material,
The upper band,
Is a disposer with
The lid has a cup shape with an open upper side, and
A cylindrical peripheral wall,
A bottom wall that closes the lower open end surface of the peripheral wall,
Has
In the lower end portion of the peripheral wall, a plurality of peripheral wall holes that penetrate the peripheral wall in the radial direction are provided along the peripheral direction ,
The sink flange is
The outer cylinder part,
An inner cylinder part, which is located on the inner peripheral side of the outer cylinder part and defines the kitchen waste inlet,
Has
The lower surface of the bottom wall of the lid is located above the lower end of the inner tubular portion of the sink flange in a state where the lid is attached to the kitchen throwing port,
The joint has an upper mounting portion located on the outer peripheral side of the inner tubular portion of the sink flange,
The upper band is tightening the inner tubular portion of the sink flange and the upper mounting portion of the joint from the outer peripheral side,
The disposer , wherein a lower surface of the bottom wall of the lid is in a position overlapping with the upper band in a radial direction in a state where the lid is attached to the kitchen throwing port . Kitchen waste input port,
A lid that is detachably attached to the kitchen waste inlet,
With a cylindrical sink flange attached to the drain of the sink,
Is a disposer with
The lid has a cup shape with an open upper side, and
A cylindrical peripheral wall,
A bottom wall that closes the lower open end surface of the peripheral wall,
Has
In the lower end portion of the peripheral wall, a plurality of peripheral wall holes that penetrate the peripheral wall in the radial direction are provided along the peripheral direction,
The sink flange is
The outer cylinder part,
An inner cylinder part, which is located on the inner peripheral side of the outer cylinder part and defines the kitchen waste inlet,
Has
The axial length from the upper end of the sink flange to the lower end of the outer tubular portion of the sink flange with respect to the axial length L2 from the upper end of the sink flange to the lower end of the inner tubular portion of the sink flange. The disposer in which the ratio L3/L2 of L3 is 0.73 to 0.83. The disposer according to claim 1 or 2 , wherein each of the plurality of peripheral wall holes is opened on a lower surface of the bottom wall. The disposer according to any one of claims 1 to 3 , wherein the lid has an axial length L1 of 0.24 to 0.34 times a diameter D1 of the lid. In a state where front Symbol lid is attached to the garbage charging port, the lower surface of the bottom wall of the lid, the lower end of the inner cylinder portion of the sink flange, located on the upper side, according to 2 claims Disposer. A casing located below the sink flange and partitioning the crushing chamber,
A tubular joint that connects the sink flange and the casing and is made of an elastic material,
The upper band,
Further equipped with,
The joint has an upper mounting portion located on the outer peripheral side of the inner tubular portion of the sink flange,
The upper band is tightening the inner tubular portion of the sink flange and the upper mounting portion of the joint from the outer peripheral side,
The upper band is located on the inner peripheral side of the outer cylindrical portion of the sink flange is positioned to overlap the outer cylindrical portion in a radial direction, disposer according to any one of claims 1 to 5. The upper band has a bolt, and is configured so that the degree of tightening of the upper band can be adjusted by rotating the bolt.
The outer tubular portion of the sink flange has a notch that is open at the lower side while penetrating the outer tubular portion in the radial direction,
7. The disposer according to claim 6 , wherein the notch is configured so that a tip of a driver inserted through the notch can engage with a head portion of the bolt.

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