CN213086953U

CN213086953U - Multi-interface pipe assembly for cleaning kitchen waste disposer cavity

Info

Publication number: CN213086953U
Application number: CN202020973481.5U
Authority: CN
Inventors: 范广平; 顾永华; 刘春彪; 郑开辉
Original assignee: Muxun Intelligent Technology Xiamen Co ltd
Current assignee: Muxun Intelligent Technology Xiamen Co ltd
Priority date: 2020-06-01
Filing date: 2020-06-01
Publication date: 2021-04-30
Anticipated expiration: 2030-06-01

Abstract

The utility model belongs to the hardware fitting field, concretely relates to accessory that rubbish from cooking treater used, the utility model discloses a many interface pipe assembly for rinsing rubbish from cooking treater cavity, it is including linking in the body of rubbish from cooking treater bin outlet, the control assembly that makes the body close and the hookup subassembly of hookup body and control assembly, the body includes first pipe fitting, second pipe fitting, the antigravity direction upset along row material direction makes bin outlet and sewer pipe switch-on or the stopper of keeping apart, first sealing washer and prevention first baffle upset. The utility model discloses a many interface pipe subassemblies have the closing function, install in the discharge mouth department of rubbish processor from cooking, make water can be full of the cavity through the first baffle that closes the body, and rivers in the operation drive cavity through crushing unit erode the subassembly in cavity and its cavity and each corner in the cavity, realize the clean washing of cavity, avoid the production of peculiar smell.

Description

Multi-interface pipe assembly for cleaning kitchen waste disposer cavity

Technical Field

The utility model belongs to the hardware fitting field, concretely relates to many interface pipe assembly for rinsing surplus garbage disposer cavity in kitchen.

Background

In the field of small household appliances in kitchens, kitchen waste disposers are generally installed below a water tank of a kitchen, kitchen waste is put into a feed inlet of the kitchen waste disposer through the water tank, and the kitchen waste is smashed in a cavity of the disposer and is brought into a discharge outlet through water flow to be discharged into a sewer pipeline. After long-term use, a large amount of residue particles are often left in the cavity of the garbage disposer, and the residues accumulate and adhere to each corner in the cavity every day. Particularly, the kitchen waste disposer is not used for a period of time due to the fact that people go on a business trip, and peculiar smell emitted from the cavity is more obvious when the kitchen waste disposer is used again. Usually, a maintenance master dismantles the whole kitchen garbage disposer and then cleans the interior of the cavity of the kitchen garbage disposer, and usually a strand of peculiar smell is emitted from the cavity of the disposer at the moment, because the food residue particles after being smashed are attached to the interior of the cavity due to long-term use of the disposer, and the peculiar smell is emitted after long-term accumulation and fermentation. Even if the kitchen garbage disposer is cleaned in a normal running water mode for a long time after each use, a strand of peculiar smell is still emitted from a feeding hole of the disposer, and the peculiar smell is not all from the peculiar smell of a sewer. The peculiar smell in the sewer is isolated by the U-shaped structure between the discharge port of the garbage processor and the sewer pipeline, and the peculiar smell emitted after long-term accumulated food residue particles in the pipeline between the U-shaped structure and the discharge port of the garbage processor are fermented directly enters the cavity of the garbage processor through the discharge port of the garbage processor and is emitted through the feed port of the garbage processor. Because the existing kitchen garbage disposer adopts a constant-flow water mode to crush materials, some garbage is not crushed into fine particles and is brought into a discharge port by water flow to be discharged into a sewer pipeline, and after the garbage is accumulated for a long time, the blockage of the sewer pipeline is inevitable. In order to make the crushed particles smaller and thinner to avoid blocking the pipeline after being discharged, part manufacturers improve the crushing effect by increasing the number of the crushing blades, however, the volume of the garbage disposer is increased by the design scheme, or the space for accommodating materials in the cavity is reduced under the condition of keeping the volume unchanged, and meanwhile, the corners of the materials which can be attached to the cavity are increased.

Disclosure of Invention

An object of the utility model is to provide a many interface tube subassemblies for rinsing surplus garbage disposer cavity in kitchen, need not dismantle surplus garbage disposer's in kitchen cavity can conveniently rinse the cavity and then avoid the rubbish granule to remain for a long time and cause the peculiar smell to give off in the cavity is inside.

Therefore, the utility model provides a many interfaces pipe assembly for rinsing kitchen garbage disposer cavity, including coupling in the body of kitchen garbage disposer bin outlet, the control assembly that makes the body close and the coupling subassembly of coupling body and control assembly, the body includes along the first pipe fitting that the row material direction of kitchen garbage disposer bin outlet set up, set up and keep away from the first baffle that the row material mouth end was used for preventing the anti-gravity direction upset of arranging the material, set up first sealing washer between first pipe fitting and first baffle and be controlled by the telescopic stopper that the control assembly is used for preventing first baffle upset in first pipe fitting, first pipe fitting has the passageway that sets up wherein, and the passageway is with bin outlet and sewer pipe UNICOM.

Another object of the present invention is to provide a kitchen garbage disposal method for discharging kitchen garbage into a sewer pipe after the kitchen garbage is crushed into slurry, so as to avoid the blockage of the sewer pipe due to the larger and thicker garbage particles.

Therefore, the utility model provides a kitchen waste disposal method, it includes that the discharge gate department at kitchen waste disposer sets up the body in order to realize the shutdown function of discharge gate, sends into the material feed inlet of waste disposer, with the material crushing under the state that the body was closed, the first baffle of body after the material crushing along the anti-gravity direction upset of material discharge direction with the material discharge sewer pipe after smashing.

Another object of the present invention is to provide a method for cleaning a kitchen waste disposer, which is used to clean a cavity of the kitchen waste disposer to prevent garbage particles from remaining in the cavity for a long time to cause odor emission.

Therefore, the utility model provides a cleaning method for rinsing surplus garbage disposer cavity's in kitchen multi-interface pipe subassembly, it includes that the discharge outlet department at surplus garbage disposer in kitchen sets up the body in order to realize the closing function of discharge outlet, sends into surplus garbage disposer's in kitchen feed inlet with rivers, makes water full of surplus garbage disposer's in kitchen cavity under the state that the body was closed, and the water in the cavity erodees the cavity under crushing unit moving drive.

Advantageous effects

1. The body is in under the closed condition for water can be full of the cavity, drives rivers in the cavity through crushing unit's operation and erodees the cavity and each corner in the subassembly in its cavity, realizes the clean washing of cavity, avoids the production of peculiar smell.

2. The cavity erodees the back that finishes, and the expansion end of operation control module is in order to relieve the limiting displacement of stopper to first baffle, and in the twinkling of an eye that the stopper was relieved, water rushes open first baffle entering sewer pipe in the twinkling of an eye with the help of the pressure of the water in the cavity, and this strand of rivers that have pressure can be washed the pipeline cleanly, avoids the pipeline to block up.

3. Because first baffle has one section distance with the bin outlet, the length of first pipe fitting promptly, consequently, open first baffle under the state that the cavity is full of to water, water in the first pipe fitting is discharged earlier, can produce under the drainage effect of first pipe fitting after water in the cavity gets into first pipe fitting and revolve the nest, revolve the nest and make water in the cavity can flow in the drive that does not use crushing unit, and then take the cavity drainage pipe way out with each corner flush food particle in the cavity with the ease, revolve the nest and also accelerate the water drainage sewer in the cavity simultaneously.

4. The body is in under the closed condition, makes the material continuously in the cavity by smashing, and lasting smashing makes the granule finer and littleer, and the material can be smashed into the pulpiness, is difficult to block up sewer pipe after discharging.

5. The body is in under the closed condition for water is kept in the cavity, smashes the material again, has improved the utilization ratio of water, has avoided the waste of the working method of smashing material limit drainage below the constant current flow state to the water resource.

6. The opening direction of the first baffle of the body is along the antigravity direction upset of arranging the material direction, and such opening direction is to arranging the material and do not have the sheltering from unimpededly, has solved because of partial high fibre class residue hangs and causes first baffle to close unreliable problem on first baffle.

7. Because stopper and first baffle are the intermittent type formula contact, it is integrative not the continuation hookup, consequently, keep away from first baffle at the stopper after, inclined plane is hugged closely automatically to first baffle under the effect of gravity, need not the manual self-closing that can realize the bin outlet that presses control assembly, keeps the airtight state of bin outlet under the effect of first sealing washer, has avoided the anti-scurring of peculiar smell among the sewer pipe, perhaps sewage reflux, perhaps the invasion of worm.

8. Because first pipe fitting is kept away from to arrange the material mouth end and is adopted the inclined plane design for first baffle can hug closely the first sealing washer on the inclined plane under the action of gravity, thereby keeps the encapsulated situation of bin outlet, has avoided the peculiar smell among the sewer pipe-line to scurry, perhaps sewage reflux, perhaps the invasion of worm.

9. The second pipe fitting sets up third through-hole and fourth through-hole, can dredge because of the leakproofness of third sealing washer reduces and the sewage in the infiltration end cover, avoids the sewage in the end cover to get into the cupboard.

10. Due to the arrangement of the second baffle, other equipment connected with the third pipe fitting is automatically isolated from the sewer pipeline, and further peculiar smell reverse channeling or insect invasion or sewage backflow in the sewer pipeline is avoided.

11. Because set up first baffle, second baffle and end cover, thoroughly stopped the peculiar smell in the sewer pipe and reversed scurrying, sewage reflux and the hidden danger that the worm invaded the kitchen.

12. The closing function that the body set up makes kitchen garbage disposer's cavity can conveniently wash, and the orientation of opening of bin outlet makes kitchen garbage disposer material difficult articulate on the baffle when arranging the material and then avoids the bin outlet to close not firm problem in order to keep the normal use of bin outlet closing function, and the setting on inclined plane makes kitchen garbage disposer baffle self-closing in order isolated sewer pipe when not arranging the material.

Drawings

The invention and its advantages will be better understood in the following description of embodiments given as non-limiting examples with reference to the accompanying drawings, in which:

FIG. 1 is a perspective view of a multi-port tube assembly as disclosed in an exemplary embodiment of the present application being used at a discharge outlet of a kitchen waste disposer;

FIG. 2 is a cross-sectional view of the refuse disposer of FIG. 1 taken along the plane of the axis of the cavity and the axis of the discharge outlet, with the stop block away from the first baffle;

FIG. 3 is a cross-sectional view of the garbage disposer of FIG. 1 taken along a plane in which the axis of the cavity and the axis of the discharge opening lie, wherein the stop block abuts the first baffle;

FIG. 4 is a cross-sectional view of the refuse disposer of FIG. 1, taken along the plane of the axis of the chamber and the axis of the discharge outlet, with the first baffle partially open;

FIG. 5 is a cross-sectional view of the refuse disposer of FIG. 1, taken along the plane of the axis of the chamber and the axis of the discharge outlet, with the first baffle open;

FIG. 6 is a perspective view of the body;

FIG. 7 is a cross-sectional view of the control assembly taken along a central plane parallel to the first ramp;

FIG. 8 is a partially cut-away perspective view of a control assembly according to an exemplary embodiment of the present application;

FIG. 9 is a partially cut-away perspective view of a control assembly according to an exemplary embodiment of the present application;

FIG. 10 is an exploded perspective view of FIG. 6;

FIG. 11 is an exploded perspective view of the linkage assembly and the control assembly;

FIG. 12 is an exploded perspective view of a movable end disclosed in accordance with an exemplary embodiment of the present application;

FIG. 13 is a partial perspective view of a control assembly according to an exemplary embodiment of the present application;

FIG. 14 is a partial perspective view of a control assembly according to an exemplary embodiment of the present disclosure, with a fifth lug positioned within the first runner;

FIG. 15 is a partial perspective view of a control assembly according to an exemplary embodiment of the present disclosure, wherein a fifth lug is located at the interface of the first and second ramps;

FIG. 16 is a partial perspective view of a control assembly according to an exemplary embodiment of the present disclosure, with a fifth lug positioned within the second runner;

FIG. 17 is a perspective view of a first fixed mount according to an exemplary embodiment of the present application;

FIG. 18 is an enlarged view of a portion of FIG. 14 at A;

FIG. 19 is a perspective view of a stop block disclosed in accordance with an exemplary embodiment of the present application;

FIG. 20 is a perspective cross-sectional view of the third tube member;

FIG. 21 is a perspective view of a multi-port tube assembly for cleaning a kitchen waste disposer cavity according to another exemplary embodiment of the present application;

FIG. 22 is a cross-sectional view of the refuse disposer of FIG. 21 taken along the plane of the axis of the cavity and the axis of the discharge outlet with the stop abutting the first and second baffles;

FIG. 23 is a cross-sectional view of the refuse disposer of FIG. 21, taken along the plane of the axis of the chamber and the axis of the discharge outlet, with the first shutter open and the second shutter closed;

FIG. 24 is a cross-sectional view of the refuse disposer of FIG. 21, taken along the plane of the axis of the chamber and the axis of the discharge outlet, with the first baffle closed and the second baffle open;

FIG. 25 is a perspective view of a third tube member;

FIG. 26 is a perspective view of the first tube member;

FIG. 27 is a perspective view of the baffle;

FIG. 28 is an exploded perspective view of the coupling assembly of FIG. 21;

FIG. 29 is a perspective view of a control assembly of another embodiment of the present disclosure, wherein the free end is in a first position;

FIG. 30 is a perspective view of the control assembly of FIG. 29 with the free end in a second position;

FIG. 31 is a cross-sectional view of the control assembly of FIG. 29;

FIG. 32 is a perspective view of the second mount;

FIG. 33 is an enlarged partial view taken at B in FIG. 31;

fig. 34 is an exploded perspective view of the control assembly of fig. 31.

Description of the reference numerals

1. A feed inlet; 2, a discharge opening; an opening and closing assembly;

4. a coupling assembly; 5, a control component; 6, a cavity;

7. a third pipe member; a first pipe member; a second tubular member;

33. a first seal ring; a first baffle plate; a first pin;

36. a limiting block; a fourth seal ring; a first tube nut;

39. a third seal ring; a sixth sealing ring; a second tube nut 310;

311. a first lug; 312. a first groove; 313. a first blind hole;

314. a first through hole; a first stud; 321. a first interface;

322. a second interface; 323, a third interface; a fourth interface;

325. a fifth interface; 326. a sixth interface; 327. a third via;

328. a fourth via hole; 329, a fourth groove; 331. a column;

341. a second lug; 342. a sixth groove; 343, a third blind hole;

361. a vertical plate; 362. a boss; a core portion;

42. fixing a sleeve; an end cap 43; a first fastening sleeve;

45. a second fastening sleeve; a collar; 47, a fifth sealing ring;

51. a first fixed seat; a movable end; 53. a pull rod;

54. a second fixed seat; fastening a nut; 56. a third fastening sleeve;

57. pad 58, response unit; a ninth sealing ring;

512. a third magnet; 513. a first slideway; a second slide way;

515. a seventh lug; 521. a second magnet; a fourth magnet;

523. a fifth lug; a first slot 524; a second slot 525;

526. a third groove; 527, handle; a shaft portion 528;

571. a fourth lug; 581. elastic element; 582, a mandril;

583. a third fixed seat; 584, erecting the wall; 585. a fifth via;

586. a sixth lug; 587. a fourth blind hole; 588. a sixth via;

511. a first magnet; 71. third tube nut; a seventh seal ring;

73. an eighth seal ring; a second stud; a second baffle plate;

76. a second seal ring; 77. a second groove; 78. a second blind hole;

79. a third lug; a second via hole; 711, flange.

Detailed Description

Implementation mode one

Refer to fig. 1 and show that many interfaces pipe assembly applies to kitchen garbage disposer discharge gate department, kitchen garbage disposer includes feed inlet 1, bin outlet 2, sets up cavity 6 between feed inlet 1 and bin outlet 2, sets up the crushing unit who is used for smashing the material in cavity 6, sets up in cavity 6 and is used for driving the drive assembly of crushing unit motion and provides the power input end of drive assembly work outside. The multi-interface pipe assembly is detachably and threadedly arranged at the discharge port 2 of the kitchen garbage disposer, and comprises a body 3 detachably and threadedly coupled to the discharge port 2, a control assembly 5 for causing the body 3 to be closed, and a coupling assembly 4 for coupling the body 3 and the control assembly 5, wherein the coupling assembly 4 is a flexible element for allowing the control assembly 5 to be flexibly mounted on the top surface of the sink for convenient operation of a user. The body 3 is also provided with a plurality of interfaces to allow the pipe coupling of other equipment in the kitchen and the coupling with the sewer pipe.

Set up body 3 through bin outlet 2 and make body 3 close bin outlet 2 through control assembly 5, send into rivers into the feed inlet 1 of rubbish from cooking processor and make water be full of rubbish from cooking processor's cavity 6, the water in the cavity 6 erodees the subassembly in cavity 6 and the cavity 6 and each corner in the cavity 6 under crushing unit moving drive under the state that body 3 was closed, realizes the clean washing of cavity 6, avoids the production of peculiar smell. Therefore, when the multi-interface pipe assembly disclosed by the embodiment is applied to the kitchen waste disposer, an operator can clean the kitchen waste disposer without disassembling the cavity.

Referring to fig. 2, the body 3 includes a first pipe 31 disposed along the discharging direction of the discharging opening 2, a first baffle 34 disposed at the end of the first pipe 31 away from the discharging opening 2 and used for preventing the discharging from turning over in the direction of the counter-gravity, a first sealing ring 33 disposed between the first pipe 31 and the first baffle 34, and a retractable limiting block 36 controlled by the control assembly 5 and used for preventing the first baffle 34 from turning over, the first pipe 31 has a channel disposed therein, and the channel communicates the discharging opening 2 of the kitchen waste disposer with the sewer line. The first pipe 31 and the discharge opening 2 of the kitchen waste disposer are sealed by the sixth sealing ring 30, and the first pipe 31 and the discharge opening 2 are tightly connected by the first pipe nut 38.

Referring to fig. 10, the first pipe member 31 of the body 3 is provided with an inclined surface inclined towards the discharge opening at the end away from the discharge opening 2, a first groove 312 perpendicular to the inclined surface for partially receiving the first sealing ring 33, a first blind hole 313 in interference fit with the first sealing ring 33 is provided perpendicular to the first groove 312, a pair of first lugs 311 is provided perpendicular to the inclined surface in the direction away from the discharge opening 2, and the first lugs 311 are provided with first through holes 314 for clearance fit with the first pins 35 to allow the first pins 35 to rotate relative to the first through holes 314. Because first pipe fitting 31 is kept away from bin outlet 2 end and is adopted the inclined plane design, make first baffle 34 can hug closely first sealing washer 33 on the inclined plane automatically under the action of gravity, thereby automatic keep the encapsulated situation of bin outlet 2, the peculiar smell of having avoided among the sewer pipe is reversed scurries to the kitchen in the garbage disposer, perhaps avoid in the pipeline between U type structure of sewer pipe and the bin outlet 2 long-term accumulational peculiar smell that distributes out behind the fermentation of food waste granule scurries to the kitchen in the garbage disposer, perhaps avoid in the sewage refluence of pipeline flows to the garbage disposer, perhaps the worm in the sewer pipe climbs into in the garbage disposer. Beneficially, because the first baffle 34 is located at a distance from the discharge opening, that is, the length of the first pipe 31, when the first baffle 34 is opened in a state that the cavity is filled with water, the water in the first pipe 31 is discharged first, the water in the cavity 6 can flow without being driven by the crushing assembly due to the rotation of the first pipe 31 under the drainage effect of the first pipe 31 after entering the first pipe 31, and then the food particles flushed from all corners in the cavity 6 are carried out of the cavity 6 and discharged into the sewer pipe, and meanwhile, the rotation of the cavity accelerates the water in the cavity 6 to be discharged into the sewer pipe.

Referring to fig. 10, the first sealing ring 33 has an outer shape corresponding to the first groove 312 disposed on the inclined surface of the first pipe 31 and a column 331 interference-fitted with the first blind hole 313, the first sealing ring 33 is disposed between the inclined surface of the first pipe 31 and the first baffle 34 and partially protrudes out of the inclined surface (as shown in fig. 18), the protruding inclined surface of the first sealing ring 33 can prolong the service life of the body 3, and the protruding portion can be used for counteracting the wear caused by frequent opening and closing of the first baffle 34. The first baffle 34 has a shape corresponding to the inclined plane of the first pipe 31 and a second lug 341 rotatably connected with the first lug 311 arranged on the inclined plane through a first pin 35, and the first lug 311 and the second lug 341 are rotatably connected through the first pin 35 to realize that the first baffle 34 is turned over around the first pin 35, so that the first baffle 34 is automatically attached to the first sealing ring 33 under the action of gravity, and the first baffle 34 is turned over around the first pin 35 in the opposite direction of gravity due to the impulsive force of the material during discharging, so that the opening direction has no obstruction to the discharging, and the problem that the first baffle 34 is unreliable in closing due to the fact that part of high-fiber residues are hung on the first baffle 34 is solved. The stopper 36 is coupled to the coupling assembly 4 and is slidable along the axial direction of the first pipe 31 under the control of the control assembly 5, and the end of the stopper 36 near the discharge opening 2 is used for limiting the overturning of the first baffle 34 so that the first baffle 34 abuts against the first sealing ring 33 to enable the material to be closed inside the cavity 6 of the kitchen waste disposer.

Referring to fig. 3 and 11, the coupling assembly 4 comprises a fixing sleeve 42, a core 41 housed inside the fixing sleeve 42 to slide with respect to the fixing sleeve 42, an end cap 43 screwed to the second pipe element 32, a first fastening sleeve 44 and a second fastening sleeve 45 coaxially penetrating the end cap 43 for fastening the fixing sleeve 42, and a collar 46 screwed to the second fastening sleeve 45 near the end of the discharge opening 2 for sealing. The end cap 43 is fastened to the second pipe 32 by means of a screw coupling, and the end cap 43 is sealed to the second pipe 32 by means of a fifth sealing ring 47. The end of the core 41 of the coupling assembly 4 close to the discharge opening 2 extends through the second pipe member 32 and is firmly coupled with the stop block 36 of the body 3 by means of a threaded coupling, the core 41 is slidable relative to the second pipe member 32, and the collar 46 is coupled hermetically with the second pipe member 32 of the body 3 by means of a third sealing ring 39.

In order to slide the end of the core 41 close to the discharge opening 2 relative to the second tubular member 32, the second tubular member 32 is provided with a central hole coaxially along the end of the core 41, with a flange extending outwards coaxially with the central hole to form a pocket for receiving the collar 46, and a third groove is provided coaxially with the central hole in the pocket for partially receiving the third sealing ring 39. The second fastening sleeve 45 is fastened to the end cover 43 through the threaded connection of the first fastening sleeve 44 and the second fastening sleeve 45, the position of the collar 46 on the second fastening sleeve 45 is adjusted through the threaded connection, and then the collar 46 extrudes the third sealing ring 39, so that the sealing isolation between the inside of the second pipe 32 and the inside of the end cover 43 is realized, and further, the sewage in the second pipe 32 is prevented from entering the inner cavity of the end cover 43 through the gap between the central hole and the core 41.

Referring to fig. 5, in order to avoid the problem that the sewage in the second pipe 32 permeates into the end cover 43 due to the reduction of the tightness of the third sealing ring 39, the second pipe 32 is provided with a third through hole 327 and a fourth through hole 328, the third through hole 327 and the fourth through hole 328 are symmetrically distributed on the upper side and the lower side of the central hole (when the garbage disposer is erected), the third through hole 327 is located on the upper side of the central hole, the fourth through hole 328 is located on the lower side of the central hole, and the fourth through hole 328 is used for dredging the sewage permeating into the inner cavity of the end cover 43 due to the reduction of the tightness of the third sealing ring 39, so as to prevent the sewage. The third through hole 327 is used to keep the air pressure in the end cover 43 consistent with the air pressure in the second pipe 32, so that the sewage permeating into the end cover 43 can be smoothly retained out of the end cover 43 under the action of gravity. Referring to fig. 5, in order to avoid the material from entering the end cover 43 through the third through hole 327 or the fourth through hole 328 during discharging, the end of the limiting block 36 away from the discharge opening 2 is symmetrically provided with a vertical plate 361 radially outward, the second pipe 32 is provided with the third through hole 327 and the fourth through hole 328 near the vertical plate 361, and the radial dimension of the vertical plate 361 is greater than the distance between the third through hole 327 and the fourth through hole 328.

In order to keep the third through hole 327 or the fourth through hole 328 at a certain distance from the vertical plate 361 to maintain the air pressure in the end cap 43 consistent with the air pressure in the

second pipe

32, 2 bosses 362 are symmetrically disposed on the vertical plate 361 of the limiting block 36 and protrude out of the vertical plate 361, as shown in fig. 19, the bosses 362 are disposed at positions staggered from the third through hole 327 or the fourth through hole 328, and the length of the movable end 52 of the control assembly 5 extending out of the first fixing seat 51 can be limited by the bosses 362 abutting against the inner wall of the second pipe.

Referring to fig. 10, the second pipe member 32 is provided with a plurality of ports to allow pipe coupling of equipment in a kitchen and coupling with a sewer pipe, the second pipe member 32 is provided with a first port 321 for receiving a beveled end of the first pipe member 31, an outer circumferential surface of the first port 321 is provided with threads and detachably coupled with the first pipe member 31 by a second pipe nut 310, as shown in fig. 6. The first pipe 31 is coupled to the first port 321 of the second pipe 32 in a sealing manner by the fourth sealing ring 37. The second pipe 32 is provided with a second interface 322 coaxially along the direction of the discharge opening 2 and is coupled with the coupling assembly 4 in a threaded manner, the second pipe 32 is provided with a third interface 323 perpendicular to the direction of the discharge opening 2 and is coupled with a drain opening of other equipment in a threaded manner, the second pipe 32 is provided with a fourth interface 324 coaxially with the third interface 323 along the gravity direction and is coupled with a drain pipe in a threaded manner, the second pipe 32 is provided with a fifth interface 325 obliquely upward (when the garbage disposer is upright) on the side of the second interface 322, the fifth interface 325 is positioned between the second interface 322 and the third interface 323, the second pipe 32 is provided with a sixth interface 326 obliquely upward (when the garbage disposer is upright), the sixth interface 326 is positioned between the second interface 322 and the fourth interface 324, and the fifth interface 325 or the sixth interface 326 can be used for, but is not limited to, being coupled with an overflow pipe of a water tank.

Referring to fig. 7 and 11, the control assembly 5 includes a first fixed seat 51, a movable end 52 coaxially inserted into the first fixed seat 51, a connecting rod 53 coaxially fastened to the movable end 52 and extending in a direction away from the movable end 52, a second fixed seat 54 detachably and coaxially fastened to the first fixed seat 51 at a position away from the movable end 52 in a threaded coupling manner, a fastening nut 55 coaxially disposed on the second fixed seat 54 in a threaded coupling manner for mounting the control assembly 5 in place, and a third fastening sleeve 56 coaxially disposed on the second fixed seat 54 at a position away from the movable end 52 in a threaded coupling manner for fastening the fixing sleeve 42 of the coupling assembly 4 to the control assembly 5. The link 53 has a recess that engages the distal hook portion of the core 41 to effect position control of the first shutter 34 by the free end 52.

Referring to fig. 17, a first slide way 513 is axially disposed on the cylindrical surface of the first fixing seat 51, a second slide way 514 is disposed along the cylindrical surface of the first slide way 513 away from the movable end 52, the second slide way 514 is perpendicular to the first slide way 513, and the first slide way 513 is communicated with the second slide way 514.

Referring to fig. 14 and 15, the movable end 52 has a shaft portion slidably engaged with the first fixed seat 51, the shaft portion extends radially outwardly to form a fifth lug 523, the fifth lug 523 can slide in the first slideway 513 or the second slideway 514, and the movable end 52 enables the movable end 52 to move along the axial direction of the first fixed seat 51 through the sliding connection of the fifth lug 523 and the first slideway 513.

Referring to fig. 16, when the fifth lug 523 slides into the second slide way 514, the movable end 52 can rotate along the axis of the first fixed seat 51 by the sliding connection of the fifth lug 523 and the second slide way 514, and the second slide way 514 limits the axial movement of the movable end 52.

Referring to fig. 8 and 13, the first magnet 511 is embedded in the position of the cylindrical surface of the first fixed seat 51 close to the second slideway 514, the second magnet 521 is embedded in the fifth lug 523 of the movable end 52, and the magnetic poles of the first magnet 511 and the second magnet 521 are opposite, so that when the fifth lug 523 is located at the junction of the first slideway 513 and the second slideway 514, the fifth lug 523 automatically enters the second slideway 514 due to the action of magnetic force to rotate the movable end 52, as shown in the magnetic pole configuration mode shown in fig. 9.

Referring to fig. 17, the first slide 513 and the second slide 514 form an L-shaped slide, the first fixing base 51 is provided with 2L-shaped slides, and the 2L-shaped slides are annularly distributed on the cylindrical surface of the first fixing base 51 at an interval of 180 degrees by using the axis of the first fixing base 51 as a central axis. The double L-shaped rotation holding structure of the first fixing seat 51 keeps the movable end 52 in a pressed state all the time, so that the first baffle of the body 3 can be kept in a closed position all the time, and finally the outlet of the kitchen waste disposer is kept in a closed state all the time.

Referring to fig. 8, the first fixing base 51 is provided with a third magnet 512, and the first magnet 511 and the third magnet 512 are embedded in the first fixing base 51 in a manner of being spaced by 180 degrees in a circular array with the axis of the first fixing base 51 as a central axis. The movable end 52 is provided with 2 fifth lugs 523, and the 2 fifth lugs 523 are distributed in an annular array at an interval of 180 degrees with the axis of the movable end 52 as a central axis, as shown in fig. 12. The fifth lug 523 is provided with a fourth magnet 522, and the second magnet 521 and the fourth magnet 522 are embedded in the fifth lug 523 in a 180-degree annular array mode by taking the axis of the movable end 52 as a central axis; the third magnet 512 and the fourth magnet 522 are arranged with their poles opposite to each other, as shown in the magnetic pole arrangement of fig. 9. Because the magnetic poles are arranged oppositely, the movable end 52 can automatically rotate under the action of magnetic force after being pressed to a certain depth, so that the movable end 52 can be automatically kept in a pressed state, and the action of manually rotating the movable end 52 is omitted.

When the limitation of the limiting block 36 on the first baffle 34 needs to be removed, the movable end 52 is rotated, so that the fifth lug 523 of the movable end 52 enters the first slideway 513 from the second slideway 514, the movable end 52 slides in the direction away from the second slideway 514 under the action of the elastic force of a spring (not shown), and further the connecting rod 53 is driven to move, so that the end of the core 41 of the connecting assembly 4 drives the limiting block 36 to be away from the first baffle 34 of the body 3, and the limitation of the limiting block 36 on the overturning of the first baffle 34 is removed. Therefore, the stopper 36 and the first baffle 34 are in intermittent contact and are not continuously connected into a whole. Keep away from first baffle 34 at stopper 36 after, inclined plane is hugged closely automatically to first baffle 34 under the effect of gravity, need not artificial press control assembly 5 and can realize the self-closing of bin outlet 2, keeps the airtight state of bin outlet 2 under the effect of first sealing washer 33, has avoided the anti-scurring of peculiar smell among the sewer pipe, perhaps sewage reflux, or the invasion of worm.

The multi-interface pipe assembly disclosed by the embodiment can be applied to kitchen waste treatment, so that the kitchen waste processor can crush materials into slurry on the premise of not increasing the number of crushing blades. Specifically, set up body 3 through bin outlet 2 and make the stopper 36 butt first baffle 34 of body 3 thereby make first baffle 34 be in and close the locking state through control assembly 5, send the material into kitchen garbage disposer's feed inlet 1, the material contains water, the material is smashed under the state that body 3 closed, material in kitchen garbage disposer cavity 6 lasts to be smashed by crushing unit promptly, the material granule that can obtain more thin littleer is smashed to continuation nature, consequently, the material can be smashed into the pulpiness under the mixture of water, remove the restriction of stopper 36 to first baffle 34 of body 3 after the material is smashed into the pulpiness, first baffle 34 of body 3 is discharged the pulpiness material into sewer pipe along the antigravity direction upset of row material direction under the impulsive force effect of material. The many interface pipe assembly that this embodiment discloses installs in kitchen garbage disposer's bin outlet can make water remain in cavity 6, smashes the material again, has improved the utilization ratio of water, has avoided the waste of the working method of smashing material limit drainage below the constant current water regime to the water resource.

The closing function of the body 3 is realized by the control assembly 5, specifically, the movable end 52 of the control assembly 5 is pressed, the limit block 36 abuts against the first baffle 34 through the coupling assembly 4, and then the movable end 52 of the control assembly 5 is rotated to limit the movable end 52 at the current position, so that the limit block 36 is kept at the current state abutting against the first baffle 34, and the discharge opening 2 is in the closed locking state.

The opening function of the body 3 is automatically realized after the limiting block 36 is removed, the method is as follows, the movable end 52 of the control component 5 is rotated to remove the axial limitation of the movable end 52, then the movable end 52 of the control component 5 is lifted, the limiting block 36 is far away from the first baffle 34 through the connecting component 4, then the limiting effect of the limiting block 36 on the first baffle 34 is removed, the first baffle 34 keeps the closed state of the discharge opening 2 under the action of gravity, the impact force of the material enables the first baffle 34 to turn over along the antigravity direction of the discharge direction, and as shown in fig. 4 and 5, the material is further discharged into a sewer pipe.

The multi-interface pipe assembly disclosed by the embodiment can be applied to a kitchen waste disposer to clean a cavity of the kitchen waste disposer without disassembling the cavity. Specifically, thereby set up body 3 through bin outlet 2 and make the stopper 36 butt first baffle 34 of body 3 make first baffle 34 be in and close the lock-out state through control assembly 5, send into rivers into kitchen garbage disposer's feed inlet 1 and make water be full of kitchen garbage disposer's cavity 6, water in the cavity 6 erodees under crushing component moving drive under the state that body 3 was closed subassembly 6 and the interior subassembly of cavity 6 and each corner of cavity 6, realize the clean washing of cavity 6, avoid the production of peculiar smell. To improve the cleaning efficiency, a cleaning agent may be added to the water stream. After cavity 6 erodees and finishes, the expansion end 52 of operation control subassembly 5 is in order to remove the limiting displacement of stopper 36 to first baffle 34, and in the twinkling of an eye that stopper 36 was removed, water rushes open first baffle 34 with the help of the pressure of cavity 6 water in the twinkling of an eye and gets into sewer pipe, and this strand of rivers that have pressure can be with the pipeline erode totally, avoid the pipe blockage, and clean pipeline inner wall is difficult for producing the peculiar smell. Because first baffle 34 has a section distance with the bin outlet, the length of first pipe fitting 31 promptly, therefore, open first baffle 34 under the state that the cavity is full of to water, the water in the first pipe fitting 31 is discharged earlier, can produce the nest soon under the drainage effect of first pipe fitting 31 after the water in the cavity 6 gets into first pipe fitting 31, it makes the water in the cavity 6 can flow at the drive that need not crushing unit to revolve the nest, and then take out cavity 6 drainage pipe way with the food granule trend that each corner washed down in the cavity 6, revolve the nest simultaneously and also accelerate the drainage sewer in the cavity 6.

Second embodiment

The second embodiment is optimized and improved on the basis of the technical scheme disclosed in the first embodiment, and a baffle is added on the basis of the first embodiment to isolate the sewer pipeline so as to thoroughly prevent peculiar smell or sewage or bugs in the sewer pipeline from entering the kitchen through other interfaces.

Referring to fig. 21, a multi-interface tube assembly is applied to a discharge port of a kitchen waste processor, the kitchen waste processor comprises a feed port 1, a discharge port 2, a cavity 6 arranged between the feed port 1 and the discharge port 2, a crushing assembly arranged in the cavity 6 and used for crushing materials, a driving assembly arranged outside the cavity 6 and used for driving the crushing assembly to move, and a power input end for providing work for the driving assembly,

the multi-interface pipe assembly is detachably and threadedly arranged at the discharge port 2 of the kitchen garbage disposer, and comprises a body 3 detachably and threadedly coupled to the discharge port 2, a control assembly 5 for causing the body 3 to be closed, and a coupling assembly 4 for coupling the body 3 and the control assembly 5, wherein the coupling assembly 4 is a flexible element for allowing the control assembly 5 to be flexibly mounted on the top surface of the sink for convenient operation of a user. The body 3 is also provided with a plurality of interfaces to allow the pipe coupling of other equipment in the kitchen and the coupling with the sewer pipe.

Set up body 3 through bin outlet 2 and make body 3 close bin outlet 2 through control assembly 5, send into rivers into the feed inlet 1 of rubbish from cooking processor and make water be full of rubbish from cooking processor's cavity 6, the water in the cavity 6 erodees the subassembly in cavity 6 and the cavity 6 and each corner in the cavity 6 under crushing unit moving drive under the state that body 3 was closed, realizes the clean washing of cavity 6, avoids the production of peculiar smell. Therefore, the kitchen waste disposer disclosed by the embodiment can clean the cavity without disassembling the cavity.

Referring to fig. 22, the body 3 includes a first pipe 31, a first baffle 34, a first sealing ring 33, a second pipe 32, a third pipe 7, a second baffle 75, a second sealing ring 76, and a retractable stopper 36 controlled by the control assembly 5 to prevent the first baffle 34 or the second baffle 75 from being turned over. Wherein, first pipe fitting 31 sets up along the row material direction of bin outlet 2, first baffle 34 sets up and keeps away from bin outlet 2 end in first pipe fitting 31 and is used for preventing to arrange the material and the upset of first baffle 34 antigravity direction, first sealing washer 33 sets up between first pipe fitting 31 and first baffle 34, second pipe fitting 32 part cup joints first pipe fitting 31 and keeps away from the bin outlet end, third pipe fitting 7 sets up with a pipe fitting 31 is coaxial, second baffle 75 sets up and is used for preventing to arrange the material and the upset of second baffle 75 antigravity direction near bin outlet 2 end in third pipe fitting 7, second sealing washer 76 sets up between third pipe fitting 7 and second baffle 75. The third pipe fitting 7 and the first pipe fitting 31 are symmetrically arranged about a central plane of the second pipe fitting 32, which is perpendicular to the discharging direction, the second pipe fitting 32 is partially sleeved on the third pipe fitting 7 and close to the discharging opening end, the end part of the limiting block 36 close to the discharging opening 2 is used for limiting the overturning of the first baffle plate 34 to enable the first baffle plate 34 to be tightly attached to the first sealing ring 33 so as to prevent the material from being discharged, and the end part of the limiting block 36 far away from the discharging opening 2 is used for limiting the overturning of the second baffle plate 75 to enable the second baffle plate 75 to be tightly attached to the second sealing ring 76 so as. The first pipe 31, the second pipe 32 and the third pipe 7 each have a passage provided therein, which communicates the discharge opening 2 of the kitchen waste disposer with the sewer line. The first pipe fitting 31 and the discharge port 2 of the kitchen waste disposer are sealed through the sixth sealing ring 30 and are fastened and connected through the first pipe nut 38, the second pipe fitting 32 and the first pipe fitting 31 are sealed through the fourth sealing ring 37 and are fastened and connected through the second pipe nut 310, the second pipe fitting 32 and the third pipe fitting 7 are sealed through the seventh sealing ring 72, and the second pipe fitting 32 and the third pipe fitting 7 are fastened and connected through the third pipe nut 71.

The end of the first tubular member 31 of the body 3 remote from the discharge opening 2 is provided with an inclined surface inclined towards the discharge opening, a first groove 312 arranged perpendicular to the inclined surface for partially receiving the first sealing ring 33, a first blind hole 313 arranged perpendicular to the first groove 312 and in interference fit with the first sealing ring 33, a pair of first lugs 311 arranged perpendicular to the inclined surface in the direction remote from the discharge opening 2, the first lugs 311 being provided with first through holes 314 for clearance fit with the first pins 35 to allow the first pins 35 to rotate relative to the first through holes 314.

Referring to fig. 25, the third pipe member 7 of the body 3 is provided with a slope near the end of the discharge opening 2 and inclining away from the discharge opening, a second groove 77 perpendicular to the slope and provided for partially receiving the second sealing ring 76, a second blind hole 78 perpendicular to the second groove 77 and provided for interference fit with the second sealing ring 76, a pair of third lugs 79 perpendicular to the slope and provided in the direction near the discharge opening 2, the third lugs 79 being provided for clearance fit with the second pin and provided with a second through hole 710 for allowing the second pin to rotate relative to the second through hole 710.

Because first pipe fitting 31 and third pipe fitting 7 all adopt the inclined plane design, make first baffle 34 and second baffle 75 can be respectively automatic hug closely first sealing washer 33 and second sealing washer 76 on the inclined plane under the action of gravity, thereby automatic keep the encapsulated situation of bin outlet 2, peculiar smell among the sewer pipe has been avoided in the anti-rubbish treater of kitchen, or the peculiar smell that gives out after long-term accumulational food waste granule fermentation in the pipeline between U type structure of sewer pipe and the bin outlet 2 is avoided in the anti-rubbish treater of kitchen, or avoid in the sewage refluence of pipeline to the rubbish treater, perhaps the worm in the sewer pipe climbs into the rubbish treater.

Referring to fig. 23 and 27, the coupling assembly 4 comprises a fixing sleeve 42, a core 41 housed inside the fixing sleeve 42 to slide with respect to the fixing sleeve 42, an end cover 43 screwed to the second pipe element 32, a first fastening sleeve 44 and a second fastening sleeve 45 coaxially penetrating the end cover 43 for fastening the fixing sleeve 42, and a collar 46 screwed to the second fastening sleeve 45 near the end of the discharge opening 2 for sealing. The end cap 43 is fastened to the second pipe 32 by means of a screw coupling, and the end cap 43 is sealed to the second pipe 32 by means of a fifth sealing ring 47. The end of the core 41 of the coupling assembly 4 close to the discharge opening 2 extends through the second tubular member 32 and is firmly coupled with the stop 36 of the body 3 by means of a threaded coupling, the core 41 is axially slidable with respect to the second tubular member 32, and the collar 46 is coupled hermetically with the second tubular member 32 of the body 3 by means of a third sealing ring 39.

In order to allow axial sliding of the end of the core 41 close to the discharge opening 2 relative to the second tubular member 32, the second tubular member 32 is provided with a central hole coaxially along the end of the core 41, extending radially inwards coaxially to the central hole to form a flange 711 for receiving the collar 46, as shown in fig. 20. The second fastening sleeve 45 is fastened to the end cover 43 through the threaded connection of the first fastening sleeve 44 and the second fastening sleeve 45, a third groove for partially receiving the third sealing ring 39 is formed in the circumferential surface of the collar inwards in the radial direction, the sealing isolation between the inside of the second pipe 32 and the inside of the end cover 43 is achieved through the sealing fit between the third sealing ring 39 and the inner wall of the second pipe 32, and therefore sewage in the second pipe 32 is prevented from entering the inner cavity of the end cover 43 through the central hole.

Referring to fig. 20, the second pipe member 32 is provided with a plurality of joints to allow pipe coupling of equipment in a kitchen and coupling with a sewer pipe, the second pipe member 32 is provided with a first joint 321 for receiving the beveled end of the first pipe member 31, the outer circumferential surface of the first joint 321 is provided with threads and detachably coupled with the first pipe member 31 through the second pipe nut 310, and the first joint 321 of the first pipe member 31 and the second pipe member 32 is hermetically coupled through the fourth packing 37. The second pipe fitting 32 is coaxially provided with a second interface 322 along the antigravity direction and is connected with the connecting assembly 4 in a threaded connection mode, the second pipe fitting 32 is provided with a third interface 323 for sleeving the inclined end of the third pipe fitting 7, the outer peripheral surface of the third interface 323 is provided with threads and is detachably connected with the third pipe fitting 7 through a third pipe nut 71, and the third pipe fitting 7 is hermetically connected with the third interface 323 of the second pipe fitting 32 through a seventh sealing ring 72. The second pipe member 32 is provided with a fourth port 324 coaxially with the second port 322 in the gravity direction and coupled to the sewer pipe in a screw coupling manner. The first and

third ports

321 and 323 have fourth grooves 329 extending in the axial direction thereof on the respective peripheral surfaces, and the fourth grooves 329 are used to cooperate with the studs of the first and third pipe members 31 and 7 to restrict the rotation of the first and third pipe members 31 and 7, and to serve as positioning when the first and third pipe members 31 and 7 are mounted.

With reference to fig. 25, the third tube member 7 is provided with a coaxial interface for coupling to other kitchen equipment, away from the beveled end, and a quick-connect interface perpendicular to the axial direction for coupling to a gutter overflow. When the two connectors are not used, the peculiar smell, the sewage and the invasion of insects of the sewer pipe can be prevented under the condition that the blank cap is not installed through the automatic closing function of the second baffle plate 75. When the two connectors are connected with water outlet pipes of other equipment, the second baffle 75 overturns along the antigravity direction under the action of the water flow impulsive force so as to discharge water into a sewer pipeline, and as shown in fig. 24, after the water flow is drained, the second baffle 75 automatically closes under the action of gravity. The inclined end of the third pipe fitting 7 is further provided with a second stud 74 extending in the axial direction, and the second stud 74 is used for being matched with the fourth groove of the second pipe fitting 32 to limit the rotation of the third pipe fitting 7 and is used for positioning when the third pipe fitting 7 is installed.

Referring to fig. 26, the bevel end of the first pipe 31 is provided with a first stud 315 extending along the axial direction, and the first stud 315 is used for cooperating with the fourth groove of the second pipe 32 to limit the rotation of the first pipe 31 and for positioning when the first pipe 31 is installed.

Referring to fig. 22, the first barrier 34 and the second barrier 75 are symmetrically disposed on both sides of the stopper 36, the stopper 36 can slide back and forth along the axis of symmetry, and when the stopper 36 abuts against the first barrier 34 or the second barrier 75, the closed state of the first barrier 34 and the second barrier 75 is locked. When the stopper 36 is away from the first shutter 34 or the second shutter 75, the stopper 36 releases the locked state of both, as shown in fig. 23 and 24. In order to improve the locking reliability of the limiting block 36 to the baffle, a fifth groove extending radially inwards is formed in the peripheral surface of the limiting block 36, the fifth groove receives an eighth sealing ring 73, the eighth sealing ring 73 protrudes out of the peripheral surface of the limiting block 36 so that the first baffle 34 and the second baffle 75 are in pressing contact with the eighth sealing ring 73, the limiting block 36 is ensured to have acting force on the first baffle 34 or the second baffle 75 all the time under the action of the elastic force of the eighth sealing ring 73, and then the first baffle 34 or the second baffle 75 is enabled to press the corresponding sealing ring all the time to ensure the reliability of the closing state. The limit block 36 is sleeved with the eighth sealing ring 73, so that the hand feeling of the movable end of the control assembly during pressing operation can be improved, and the pressing process has certain buffering hand feeling. In order to obtain a larger open state of the first shutter 34, an inclined surface inclined toward the first pin 35 is provided in the first shutter 34 near the first pin 35, and the first shutter 34 obtains a larger open state by the inclined surface abutting against the stopper 36. As shown in fig. 23, in which the broken line indicates the maximum open state of the first shutter 34 in the case where no slope is provided. The same thing can make the second shutter 75 obtain a larger opening state.

Third embodiment

Fig. 29 shows another embodiment of the control assembly 5 disclosed in the present application, wherein the control assembly 5 includes a first fixed seat 51, a movable end 52, a response unit 58, a fastening nut 55, a gasket 57, a second fixed seat 54 and a third fixed seat 56, the movable end 52 is inserted into the first fixed seat 51 and can slide axially relative to the first fixed seat 51, the response unit 58 is coaxially fastened to the first fixed seat 51 by a snap, the response unit 58 is used for responding to a moving position of the movable end 52 relative to the first fixed seat 51, the movable end 52 has a first position and a second position, the movable end 52 can be moved from the first position to the second position by pressing the movable end 52, as shown in fig. 30, and the movable end 52 can be moved from the second position to the first position by pulling the movable end 52, as shown in fig. 29. The fastening nut 55 is coaxially arranged on the side of the first fixed seat 51 close to the movable end 52 in a threaded coupling manner, the control assembly 5 is installed at a proper position through the fastening nut 55, in order to improve the fastening effect, a gasket 57 is arranged between the first fixed seat 51 and the fastening nut 55, the material of the gasket 57 is preferably rubber, the second fixed seat is detachably coaxially fastened on the side of the first fixed seat 51 far from the movable end 52 in a threaded coupling manner, a third fastening sleeve 56 is coaxially arranged on the side of the second fixed seat 54 far from the movable end 52 in a threaded coupling manner, and the third fastening sleeve 56 is used for fastening the fixing sleeve 42 of the connecting assembly 4 to the control assembly 5.

Referring to fig. 31, the control assembly 5 further includes a connecting rod 53 and a ninth sealing ring 59, the connecting rod 53 is coaxially fastened to the movable end 52 in a threaded manner and extends away from the movable end 52 to be hooked on the core 41 of the coupling assembly 4, and the fixing sleeve 42 of the coupling assembly 4 is fastened to the control assembly through a third fastening sleeve 56. Therefore, by pressing or pulling the movable end 52, the movable end 52 can move the core 41 of the coupling assembly relative to the fixing sleeve 42, and the stopper 36 in the opening and closing assembly 3, and when the movable end 52 is located at the first position, the stopper 36 is far away from the first baffle 34 or the second baffle 75; when the movable end 52 is in the second position, the stop 36 abuts either the first stop 34 or the second stop 75. In order to prevent the external water from entering the control assembly 5 during the axial sliding of the movable end 52 relative to the first fixed seat 51, a ninth sealing ring 59 is disposed between the movable end 52 and the first fixed seat 51, a part of the ninth sealing ring 59 is embedded into the movable end 52, and the ninth sealing ring 59 is tightly attached to the inner wall of the first fixed seat 51.

Referring to fig. 34, the movable end 52 includes a shaft portion 528 and a handle portion 527, the shaft portion 528 is in clearance fit with the first fixed seat 51 so as to enable the shaft portion 528 to axially slide relative to the first fixed seat 51 and rotate around its own axis, and the handle portion 527 is coaxially disposed at an end portion of the shaft portion 528 away from the first fixed seat so as to be held by an operator. The shaft portion 528 is axially disposed with a third groove 526, a first groove 524, and a second groove 525 in spaced-apart relationship, the second groove 525 being proximal to the shank 527 and the third groove 526 being distal from the shank 527. The first groove 524, the second groove 525, and the third groove 526 extend radially inward, and the ninth seal ring 59 is fitted to the third groove 526.

The response unit 58 includes a third fixing base 583, a push rod 582 and a spring 581, wherein the third fixing base 583 is sleeved on the first fixing base 51 near the movable end 52, and the spring 581 enables the push rod 582 to move relative to the third fixing base 583 to be intermittently clamped into the first groove 524 or the second groove 525 of the movable end 52.

Referring to fig. 32, the third fixing seat 583 is a specific disk structure, two symmetrically-arranged vertical walls 584 axially extend from the side where the disk is matched with the first fixing seat 51, a fifth through hole 585 penetrating through the vertical walls 584 is arranged in the radial direction of the disk, a sixth lug 586 protruding out of the disk is arranged on the side of the disk close to the handle 527, the sixth lug 586 is provided with a fourth blind hole 587, the fourth blind hole 587 extends outwards in the radial direction of the disk, a sixth through hole 588 coaxially penetrating through the disk is coaxially arranged on the disk, and the hole diameter of the sixth through hole 588 is slightly larger than the diameter of the shaft 528 of the movable end 52, so that the movable end 52 can move and rotate relative to the third fixed rotation. The fifth through hole 585 of the vertical wall 584 is configured to receive the seventh protruding lug 515 of the first fixing seat 51, so that the third fixing seat 583 is fixedly coupled to the first fixing seat through the cooperation of the fifth through hole 585 and the seventh protruding lug 515. The seventh protruding lug 515 protrudes radially outward along the circumferential surface of the first fixing seat 51, and the side of the seventh protruding lug 515 close to the movable end 52 is provided with a slope so that the vertical wall 584 of the third fixing seat 583 expands radially when abutting against the seventh protruding lug 515 to facilitate the fifth through hole 585 of the vertical wall 584 to be sleeved in the seventh protruding lug 515.

Referring to fig. 33, the spring 581 is accommodated in the fourth blind hole 587 of the third fixing seat 583, the push rod 582 is partially accommodated in the fourth blind hole 587, the push rod 582 can move axially relative to the fourth blind hole 587, the push rod 582 partially protrudes out of the fourth blind hole, the push rod 582 is clamped into the first groove 524 or the second groove 525 of the shaft portion 528 of the movable end 52 under the action of the spring 581, in order to enable the end portion of the push rod 582 to be clamped into the first groove 524 or the second groove 525 smoothly, the end portion of the push rod 582 is spherical, and the connection portion between the first groove 524 or the second groove 525 and the shaft portion is transited through a circular arc surface, so that the push rod 582 can enter and exit the first groove 524 or the second groove 525 smoothly when the movable end 52 is pressed or pulled. At the instant the end of the plunger 582 slides from the shaft portion into the first groove 524, the plunger 582, under the influence of the spring force, hits the first groove 524 or the second groove 525 to produce a sound, thereby alerting the operator that the active end is currently in the first position or the second position. The ejector rod 582 can keep the movable end 52 at the current position after being clamped into the first groove 524, so that the limiting block 36 in the opening and closing assembly 3 is kept at a position far away from the first baffle 34 or the second baffle 75, and the limiting block is prevented from abutting against the first baffle 34 or the second baffle 75 when the limiting block needs to be in a non-working state due to the fact that the limiting block moves downwards under the action of gravity. The ejector rod 582 can keep the movable end 52 at the current position after being clamped into the second groove 525, so that the limiting block 36 in the opening and closing assembly 3 is kept at the position of abutting against the first baffle 34 or the second baffle 75, and the limiting block 36 is prevented from being displaced due to the fact that the first baffle 34 or the second baffle 75 is pushed open by the pressure of water in the pipeline, and the limiting block 36 loses a limiting function.

Claims

1. A multi-interface tube assembly for cleaning a kitchen waste disposer cavity, the multi-interface tube assembly comprising a body (3) coupled to a kitchen waste disposer discharge outlet (2), a control assembly (5) for causing the body (3) to close, and a coupling assembly (4) for coupling the body (3) and the control assembly (5), the body (3) comprising a first tube (31) disposed along a discharge direction of the kitchen waste disposer discharge outlet (2), a first baffle (34) disposed at an end of the first tube (31) remote from the discharge outlet (2) for preventing reversal of the discharge in a countergravity direction, a first sealing ring (33) disposed between the first tube (31) and the first baffle (34), and a retractable stopper (36) controlled by the control assembly (5) for preventing reversal of the first baffle (34), the first tube (31) having a channel disposed therein, the channel connects the discharge opening (2) with a sewer pipeline.

2. A multi-port tube assembly for cleaning a kitchen waste disposer cavity as defined in claim 1, wherein the first tube (31) of the body (3) is provided with a slope inclined toward the discharge opening (2) away from the end of the discharge opening, a first groove (312) perpendicular to the slope for partially receiving the first sealing ring (33), a first blind hole (313) perpendicular to the first groove (312) for interference fit with the first sealing ring (33), a pair of first lugs (311) perpendicular to the slope in a direction away from the discharge opening (2), the first lugs (311) being provided with first through holes (314) for clearance fit with the first pins (35); the first sealing ring (33) is provided with an appearance corresponding to a first groove (312) arranged on the inclined surface of the first pipe fitting (31) and an upright post (331) in interference fit with the first blind hole (313), and the first sealing ring (33) is arranged between the inclined surface of the first pipe fitting (31) and the first baffle (34) and protrudes out of the inclined surface; the first baffle (34) has an external shape corresponding to the inclined surface of the first pipe (31) and a second lug (341) rotatably coupled with a first lug (311) arranged on the inclined surface through a first pin (35); the limiting block (36) is connected to the connecting assembly (4) and then slides along the axial direction of the first pipe fitting (31) or slides along the gravity direction under the control of the control assembly (5), and the end part, close to the discharge opening (2), of the limiting block (36) is used for limiting the overturning of the first baffle plate (34) so that the first baffle plate (34) is tightly attached to the first sealing ring (33) to prevent the material from being discharged.

3. The multi-interface tube assembly for cleaning the kitchen garbage disposer of claim 2, wherein the body (3) further comprises a second tube (32) partially sleeved on the first tube (31) and far away from the discharge opening end, a third tube (7) coaxially arranged with the first tube (31), a second baffle (75) arranged at the end of the third tube (7) close to the discharge opening (2) and used for preventing the reverse gravity direction of the discharged materials from reversing, and a second sealing ring (76) arranged between the third tube (7) and the second baffle (75), wherein the third tube (7) and the first tube (31) are symmetrically arranged relative to the central plane of the second tube (32) and perpendicular to the discharge direction, the second tube (32) partially sleeved on the third tube (7) and close to the discharge opening end, and the end of the limiting block (36) far away from the discharge opening (2) is used for limiting the reverse of the second baffle (75) to be tightly attached to the second sealing ring (76) so as to prevent the materials from reversing And discharging the materials.

4. The multi-port tube assembly of claim 3 for cleaning a kitchen waste disposer cavity, the connecting assembly (4) is characterized by comprising a fixing sleeve (42), a core part (41) accommodated in the fixing sleeve (42) and sliding relative to the fixing sleeve (42), an end cover (43) in threaded connection with the second pipe (32), a first fastening sleeve (44) and a second fastening sleeve (45) coaxially penetrating through the end cover (43) and used for fastening the fixing sleeve (42), and a collar (46) in threaded connection with the second fastening sleeve (45) and close to the end of the discharge port (2) and used for sealing, wherein the end part, close to the discharge port (2), of the core part (41) of the connecting assembly (4) penetrates through the second pipe (32) and is in fastened connection with a limiting block (36) of the body (3) in a threaded connection mode, and the collar (46) is in sealed connection with the second pipe (32) of the body (3) through a third sealing ring (39).

5. The multi-port tube assembly for cleaning a kitchen waste disposer chamber according to claim 4, wherein the control assembly (5) comprises a first fixing base (51), a movable end (52) coaxially inserted into the first fixing base (51), a response unit (58) coaxially and tightly coupled to the first fixing base (51) for responding to the moving position of the movable end (52), a connecting rod (53) coaxially and tightly coupled to the movable end (52) and extending in a direction away from the movable end (52), a second fixing base (54) detachably and coaxially fastened to the first fixing base (51) away from the movable end (52) in a threaded coupling manner, a fastening nut (55) coaxially disposed on the first fixing base (51) for installing the control assembly (5) in place in a threaded coupling manner, and a fixing sleeve (42) coaxially disposed on the second fixing base (54) away from the movable end (52) in a threaded coupling manner for fastening the coupling assembly (4) In a third fastening sleeve (56) of the control assembly (5), the movable end (52) is provided with a shaft part (528) in sliding fit with the first fixed seat (51), the shaft part (528) is provided with a first groove (524) and a second groove (525) which are separated by a certain distance, the first groove (524) and the second groove (525) extend inwards in the radial direction, and the response unit (58) comprises a third fixed seat (583) sleeved on the first fixed seat (51) and close to the movable end, a mandril (582) which is discontinuously clamped into the first groove (524) or the second groove (525) of the movable end (52), and an elastic element (581) which enables the mandril (582) to move relative to the third fixed seat (583) and is clamped into the first groove (524) or the second groove (525) along the radial direction of the movable end (52).

6. The multi-port tube assembly for cleaning kitchen waste disposer of claim 4, wherein the control assembly (5) comprises a first fixing base (51), a movable end (52) coaxially inserted into the first fixing base (51), a connecting rod (53) coaxially fastened to the movable end (52) and extending away from the movable end (52), a second fixing base (54) detachably fastened to the first fixing base (51) away from the movable end (52) in a threaded manner, a fastening nut (55) coaxially disposed on the second fixing base (54) in a threaded manner for mounting the control assembly (5) in place, and a third fastening sleeve (56) coaxially disposed on the second fixing base (54) away from the movable end (52) in a threaded manner for fastening the fixing sleeve (42) of the coupling assembly (4) to the control assembly (5), a first slide way (513) is axially arranged on the cylindrical surface of the first fixed seat (51), the first slide way (513) is far away from the movable end (52) and extends along the cylindrical surface to form a second slide way (514), the second slide way (514) is vertical to the first slide way (513), and the first slide way (513) is communicated with the second slide way (514); the movable end (52) is provided with a shaft part in sliding fit with the first fixed seat (51), the shaft part radially extends outwards to form a fifth lug (523), the fifth lug (523) can slide in the first slideway (513) or the second slideway (514), the movable end (52) enables the movable end (52) to move along the axial direction of the first fixed seat (51) through the sliding connection of the fifth lug (523) and the first slideway (513), when the fifth lug (523) slides into the second slideway (514), the movable end (52) enables the movable end (52) to rotate around the axis of the first fixed seat (51) through the sliding connection of the fifth lug (523) and the second slideway (514), and the second slideway (514) limits the axial movement of the movable end (52).

7. The multi-interface tube assembly for cleaning the kitchen garbage disposer of claim 6, wherein the first magnet (511) is embedded in the position, close to the second slideway (514), of the cylindrical surface of the first fixing seat (51), the second magnet (521) is embedded in the fifth lug (523) of the movable end (52), and the first magnet (511) and the second magnet (521) are arranged in opposite magnetic poles, so that when the fifth lug (523) is located at the junction of the first slideway (513) and the second slideway (514), the fifth lug (523) enters the second slideway (514) due to the action of magnetic force to enable the movable end (52) to rotate.

8. The multi-interface tube assembly for cleaning the kitchen waste disposer chamber of claim 7, wherein the first slide way (513) and the second slide way (514) form an L-shaped slide way, the first fixing base (51) is provided with 2L-shaped slide ways, and the 2L-shaped slide ways are distributed on the cylindrical surface of the first fixing base (51) in an annular array at 180-degree intervals by taking the axis of the first fixing base (51) as a central axis; the first fixing seat (51) is provided with a third magnet (512), and the first magnet (511) and the third magnet (512) are embedded in the first fixing seat (51) in a mode of taking the axis of the first fixing seat (51) as a central shaft and forming an annular array at an interval of 180 degrees; the movable end (52) is provided with 2 fifth lugs (523), and the 2 fifth lugs (523) are distributed in an annular array at intervals of 180 degrees by taking the axis of the movable end (52) as a central axis; a fourth magnet (522) is arranged on the fifth lug (523), and the second magnet (521) and the fourth magnet (522) are embedded in the fifth lug (523) in a mode of taking the axis of the movable end (52) as a central axis and forming an annular array at an interval of 180 degrees; the third magnet (512) and the fourth magnet (522) are arranged with opposite magnetic poles.

9. A multi-port tube assembly for washing a kitchen waste disposer chamber according to claim 8, characterized in that a cylindrical compression spring is coaxially arranged between the first fixed seat (51) and the movable end (52) and is used to reset the movable end (52) when the fifth lug (523) enters the first slideway (513) from the second slideway (514).

10. The multi-interface tube assembly for cleaning the kitchen waste disposer cavity as claimed in claim 2, wherein the end of the limiting block (36) far away from the discharge opening (2) is symmetrically provided with a vertical plate (361) radially outward, the second tube (32) is provided with a third through hole (327) and a fourth through hole (328) near the vertical plate (361), the third through hole (327) and the fourth through hole (328) are arranged along the radial direction of the vertical plate (361), and the distance between the third through hole (327) and the fourth through hole (328) is smaller than the radial dimension of the vertical plate (361).