阅读说明：本技术 一种厨房垃圾处理器 (Kitchen garbage disposer ) 是由 何秋月 于 2021-07-22 设计创作，主要内容包括：一种厨房垃圾处理器,它涉及厨房垃圾处理设备领域。它包括排水管、垃圾处理主机、进料口、弯头导料管、储料容器,排水管的一端设置在垃圾处理主机的右端,垃圾处理主机的上端设有进料口,且垃圾处理主机的左端通过弯头导料管与储料容器相连通。本发明有益效果为：采用排水机构、碎料机构、拧干机构及储料容器,使其设备在使用时噪音能够有效的控制,噪音小的同时震动也较小,且设备操作简单,可以回收废物,不仅不会堵塞下水道,更能够节约用水。(A kitchen garbage disposer relates to the field of kitchen garbage disposal equipment. The garbage treatment device comprises a drain pipe, a garbage treatment host machine, a feeding hole, an elbow material guide pipe and a material storage container, wherein one end of the drain pipe is arranged at the right end of the garbage treatment host machine, the feeding hole is formed in the upper end of the garbage treatment host machine, and the left end of the garbage treatment host machine is communicated with the material storage container through the elbow material guide pipe. The invention has the beneficial effects that: adopt drainage mechanism, crushed aggregates mechanism, wring out mechanism and storage container, make its equipment noise when using can effectual control, vibrations are also less when the noise is little, and equipment operation is simple, can retrieve the wastes material, not only can not block up the sewer, more can the using water wisely.)

1. A kitchen waste disposer, its characterized in that: the garbage treatment device comprises a drain pipe (1), a garbage treatment host machine (2), a feeding hole (3), an elbow material guide pipe (4) and a material storage container (5), wherein one end of the drain pipe (1) is arranged at the right end of the garbage treatment host machine (2), the feeding hole (3) is arranged at the upper end of the garbage treatment host machine (2), and the left end of the garbage treatment host machine (2) is communicated with the material storage container (5) through the elbow material guide pipe (4); the garbage disposal host machine (2) comprises a supporting base (21), a supporting column (22), a drainage mechanism (23), a second side cover (24), a crushing mechanism (25), a first side cover (26), an upper cover (27), a fourth side plate (28), a wringing mechanism (29), a maintenance door (210), a third side cover (211) and a supporting frame (212), wherein the upper end of the supporting base (21) is connected with the lower end of the supporting frame (212) in a clamping manner, the upper end of the supporting frame (212) is connected with the upper end of the wringing mechanism (29), the left end of the wringing mechanism (29) penetrates through the fourth side plate (28) to be communicated with a storage container (5), the lower end of the crushing mechanism (25) is fixedly connected to the supporting frame (212) through the supporting column (22), one end of the crushing mechanism (25) is connected with the wringing mechanism (29), one end of the drainage mechanism (23) is connected with the crushing mechanism (25) and the wringing mechanism (29), the other end of the drainage mechanism (23) penetrates through a second side cover (24) of the drainage mechanism to be connected with the drainage pipe (1), the upper end of the drainage mechanism (23) is communicated with an upper cover (27), a feeding hole (3) is formed in the upper cover (27), the second side cover (24) is in bolted connection with a first side cover (26) on one side of a fourth side plate (28), the other side of the second side cover is in bolted connection with a third side cover (211), and a maintenance door (210) is arranged on the third side cover (211).

2. A kitchen waste disposer according to claim 1, wherein: the crushing mechanism (25) consists of a large motor (25-1), a first crushing belt wheel (25-2), a crushing synchronous belt (25-3), a transmission shaft (25-4), a second crushing belt wheel (25-5), a crushing bearing (25-6), a large tee joint (25-7), a large screw (25-8), a blade (25-9), a mesh plate (25-10), a material guide pipe (25-11) and a locking nut (25-12), the output end of the large motor (25-1) is connected with the first crushing belt wheel (25-2), the first crushing belt wheel (25-2) is connected with the second crushing belt wheel (25-5) through the crushing synchronous belt (25-3), and the second crushing belt wheel (25-5) is connected with the transmission shaft (25-4), and the transmission shaft (25-4) penetrates through a big tee joint (25-7) of the transmission shaft and is connected with a big screw rod (25-8), one end of the big tee joint (25-7) is provided with a crushed aggregate bearing (25-6), the other end of the big tee joint is provided with a mesh plate (25-10) and a blade (25-9), the crushed aggregate bearing (25-6) is movably connected with the transmission shaft (25-4), the material guide pipe (25-11) is fixedly connected with the right end of the big tee joint (25-7) through a locking nut (25-12), and the material guide pipe (25-11) is connected with the upper end of the wringing mechanism (29).

3. A kitchen waste disposer according to claim 1, wherein: the wringing mechanism (29) consists of a small motor (29-1), a wringing first belt wheel (29-2), a wringing synchronous belt (29-3), a wringing second belt wheel (29-4), a wringing bearing (29-5), a small tee joint (29-6), a small tee joint front cover (29-7), an extrusion cavity (29-8) and a small screw rod (29-9), wherein the output end of the small motor (29-1) is connected with the wringing first belt wheel (29-2), the wringing first belt wheel (29-2) is connected with the wringing second belt wheel (29-4) through the wringing synchronous belt (29-3), the inner end of the wringing second belt wheel (29-4) is connected with the small screw rod (29-9), and the small screw rod (29-9) is arranged inside the small tee joint (29-6), the right end of the inside of the small tee joint (29-6) is provided with a wringing bearing (29-5), the left end of the inside of the small tee joint is stably connected with a front cover (29-7) of the small tee joint, the wringing bearing (29-5) is connected with the right end of the small screw rod (29-9), the left end of the front cover (29-7) of the small tee joint is connected with an elbow material guide pipe (4), and an extrusion cavity (29-8) is arranged between the inside of the front cover (29-7) of the small tee joint and the left end of the small screw rod (29-9).

4. A kitchen waste disposer according to claim 1, wherein: the material storage container (5) is composed of a material stirring motor (5-1), a material storage container cover (5-2), a material storage container feed inlet (5-3), a material storage box (5-4) and a material stirring rod (5-5), wherein the material stirring motor (5-1) is arranged at the right end of the material storage box (5-4), the output end of the material stirring motor (5-1) penetrates through the material storage box (5-4) and is connected with the material stirring rod (5-5), the material storage container cover (5-2) is arranged on the right side of the upper end of the material storage box (5-4), and the left side of the upper end of the material storage box (5-4) is communicated with an elbow guide pipe (4) through the material storage container feed inlet (5-3).

5. A kitchen waste disposer according to claim 1, wherein: an overflow grid (27-1) and an overflow port (27-2) are arranged on the upper cover (27), and the feed inlet (3) is arranged on the upper cover (27).

6. A kitchen waste disposer according to claim 2, wherein: the large tee joint (25-7) comprises a large tee joint feed inlet (25-7 a), a large tee joint smooth arc surface (25-7 b), a large tee joint small hole (25-7 c), a large tee joint water outlet (25-7 d) and a large tee joint chamfer angle (25-7 e), the large tee joint feed inlet (25-7 a) is arranged at the upper end of the large tee joint (25-7), the large tee joint smooth arc surface (25-7 b) is arranged at the lower end of the inner side of the large tee joint (25-7 b), the large tee joint small hole (25-7 c) is arranged on the large tee joint smooth arc surface (25-7 b), the large tee joint water outlet (25-7 d) is arranged at the lower end of the large tee joint (25-7), and the large tee joint chamfer angle (25-7 e) is arranged on one side of the large tee joint small hole (25-7 c).

7. A kitchen waste disposer according to claim 3, wherein: the small tee joint (29-6) comprises a small tee joint feed inlet (29-6 a), a small tee joint small hole (29-6 b), a small tee joint smooth arc surface (29-6 c), a small tee joint water outlet (29-6 d) and a small tee joint chamfer angle (29-6 e), the upper end of the small tee joint (29-6) is provided with the small tee joint feed inlet (29-6 a), the small tee joint (29-6) is connected with the material guide pipe (25-11) through the small tee joint feed inlet (29-6 a), the small tee joint smooth arc surface (29-6 c) is arranged inside the small tee joint (29-6), the small tee joint small hole (29-6 b) is arranged on the small tee joint smooth arc surface (29-6 c), the small tee joint water outlet (29-6 d) is arranged outside the small tee joint (29-6), a small tee bend chamfer angle (29-6 e) is arranged on one side of the small tee bend small hole (29-6 b), the small tee bend front cover (29-7) comprises a front cover small hole (29-7 a), a front cover smooth cambered surface (29-7 b), a front cover water outlet (29-7 c), a front cover discharge hole (29-7 d) and a front cover chamfer angle (29-7 e), a front cover smooth cambered surface (29-7 b) is arranged in the small tee bend front cover (29-7), and the smooth cambered surface (29-7 b) of the front cover is provided with a small front cover hole (29-7 a), the water outlet (29-7 c) of the front cover is arranged at the outer side of the front cover (29-7) of the small tee joint, and is matched with the front cover small hole (29-7 a) correspondingly, and a front cover chamfer angle (29-7 e) is arranged on one side of the front cover small hole (29-7 a).

8. A kitchen waste disposer according to claim 3, wherein: the small screw (29-9) comprises an extrusion section mechanism (29-9 a), an extrusion bulge (29-9 b) and variable-pitch conveying threads (29-9 c), wherein the extrusion section mechanism (29-9 a) is arranged at the left end of the extrusion bulge (29-9 b), and the extrusion section mechanism (29-9 a) and the extrusion bulge (29-9 b) are both provided with the variable-pitch conveying threads (29-9 c).

9. A kitchen waste disposer according to claim 1, wherein: the drainage mechanism (23) comprises a first connecting port (23-1), a second connecting port (23-2), a third connecting port (23-3), a fourth connecting port (23-4) and a water outlet (23-5), the first connecting port (23-1) is connected with the overflow port (27-2), the second connecting port (23-2) is communicated with the big tee joint water outlet (25-7 d), the third connecting port (23-3) is connected with the front cover water outlet (29-7 c), the fourth connecting port (23-4) is communicated with the small tee joint water outlet (29-6 d), and the water outlet (23-5) is connected to the left end of the drainage pipe (1).

10. A kitchen waste disposer according to claim 1, wherein: the wringing mechanism (29) further comprises an elastic stop block (29-a) and an elastic spring (29-b), one end of the elastic spring (29-b) is connected with the elastic stop block (29-a), the other end of the elastic spring is connected with a small tee joint front cover (29-7), and the elastic spring (29-b) is arranged inside the elastic stop block (29-a).

Technical Field

The invention relates to the field of kitchen waste treatment equipment, in particular to a kitchen waste treater.

Background

The kitchen waste refers to waste generated in activities such as daily life, food processing, food service, unit meal supply and the like of residents, and comprises abandoned vegetable leaves, leftovers, fruit peels, eggshells, tea leaves, bones and the like, the main sources of the kitchen waste are household kitchens, restaurants, dining halls, markets and other industries related to food processing, and the kitchen waste contains extremely high water content and organic matters and is easy to rot to generate stink. After proper treatment and processing, the biomass can be converted into new resources, the characteristics of high organic matter content enable the biomass to be used as fertilizer and feed after strict treatment, methane can be generated to be used as fuel or power generation, and the grease part can be used for preparing biofuel.

The kitchen garbage disposer is also called a kitchen garbage disposer, is an upgraded product of a food garbage disposer or a kitchen food garbage disposer, and can widely treat kitchen garbage such as cooked kitchen garbage, leftovers and vegetable leaves including raw kitchen garbage including fruit peels, fish bones, vegetable stalks, egg shells, tea leaves, bones and shells, raw materials and finished products or residues required in household diet. The kitchen waste disposer comprises an anti-corrosion grinding cavity, a full stainless steel grinding hammer, a full stainless steel grinding disc and the like. The high-speed rotating permanent magnet motor is utilized to drive the rotary disc in the grinding cavity, food waste is impacted with each other in a very short time under the action of centrifugal force, and the food waste is ground into fine particles to be discharged out of a pipeline along water flow.

The garbage disposer on the market utilizes the principle of high speed and centrifugal force to grind at present, this kind of principle causes the consequence to be exactly that sound and vibrations are bigger when facing slightly and than harder object, if face than light and fibrous object just can't grind almost, cause and block up the pipeline, be exactly the waste of water resource in addition, need incessantly wash with the running water in whole course of the work, the biggest problem is that rubbish directly flows into the sewer, it has a large amount of rubbish to cause the sewer, bring very big load to the sewage treatment in city, it can produce a large amount of methane also to be exactly the sewer, and arouse the explosion.

Disclosure of Invention

The invention aims to overcome the defects and shortcomings in the prior art, and provides a kitchen waste disposer which adopts a drainage mechanism, a crushing mechanism, a wringing mechanism and a storage container, so that the noise of the kitchen waste disposer can be effectively controlled when the kitchen waste disposer is used, the noise is low, the vibration is small, the kitchen waste disposer is simple to operate, waste can be recycled, a sewer cannot be blocked, and water can be saved.

In order to achieve the purpose, the invention adopts the following technical scheme: a kitchen garbage disposer comprises a drain pipe 1, a garbage disposer 2, a feed inlet 3, an elbow guide pipe 4 and a storage container 5, wherein one end of the drain pipe 1 is arranged at the right end of the garbage disposer 2, the feed inlet 3 is arranged at the upper end of the garbage disposer 2, the left end of the garbage disposer 2 is communicated with the storage container 5 through the elbow guide pipe 4, the garbage disposer 2 comprises a supporting base 21, a supporting column 22, a drainage mechanism 23, a second side cover 24, a crushing mechanism 25, a first side cover 26, an upper cover 27, a fourth side plate 28, a wringing mechanism 29, a maintenance door 210, a third side cover 211 and a supporting frame 212, the upper end of the supporting base 21 is connected with the lower end of the supporting frame 212 in a clamping manner, the upper end of the supporting frame 212 is connected with the upper end of the wringing mechanism 29, the left end of the wringing mechanism 29 penetrates through the fourth side plate 28 and is communicated with the storage container 5, the lower extreme of crushed aggregates mechanism 25 passes through support column 22 fixed connection at support frame 212, and crushed aggregates mechanism 25 one end is connected with wringing mechanism 29, its crushed aggregates mechanism 25 is connected with wringing mechanism 29 to drainage mechanism 23 one end, and the drainage mechanism 23 other end runs through its second side cover 24 and is connected with drain pipe 1, and the upper end and the upper cover 27 of drainage mechanism 23 are linked together, be equipped with feed inlet 3 on the upper cover 27, first side cover 26 of second side cover 24 and fourth curb plate 28 one side bolted connection, opposite side and third side cover 211 bolted connection, be equipped with maintenance door 210 on the third side cover 211.

More specific examples of the present invention include: the crushing mechanism 25 consists of a large motor 25-1, a first crushing belt wheel 25-2, a crushing synchronous belt 25-3, a transmission shaft 25-4, a second crushing belt wheel 25-5, a crushing bearing 25-6, a large tee joint 25-7, a large screw 25-8, a blade 25-9, a mesh plate 25-10, a material guide pipe 25-11 and a locking nut 25-12, wherein the output end of the large motor 25-1 is connected with the first crushing belt wheel 25-2, the first crushing belt wheel 25-2 is connected with the second crushing belt wheel 25-5 through the crushing synchronous belt 25-3, the second crushing belt wheel 25-5 is connected with the transmission shaft 25-4, the transmission shaft 25-4 penetrates through the large tee joint 25-7 to be connected with the large screw 25-8, one end of the large tee joint 25-7 is provided with the crushing bearing 25-6, the other end is provided with a mesh plate 25-10 and a blade 25-9, a crushed aggregate bearing 25-6 is movably connected with a transmission shaft 25-4, the material guide pipe 25-11 is fixedly connected with the right end of the big tee 25-7 through a locking nut 25-12, and the material guide pipe 25-11 is connected with the upper end of a wringing mechanism 29.

More specific examples of the present invention include: the wringing mechanism 29 consists of a small motor 29-1, a wringing first belt wheel 29-2, a wringing synchronous belt 29-3, a wringing second belt wheel 29-4, a wringing bearing 29-5, a small tee joint 29-6, a small tee joint front cover 29-7, an extrusion cavity 29-8 and a small screw 29-9, wherein the output end of the small motor 29-1 is connected with the wringing first belt wheel 29-2, the wringing first belt wheel 29-2 is connected with the wringing second belt wheel 29-4 through the wringing synchronous belt 29-3, the inner end of the wringing second belt wheel 29-4 is connected with the small screw 29-9, the small screw 29-9 is arranged inside the small tee joint 29-6, the wringing bearing 29-5 is arranged at the right end inside the small tee joint 29-6, and the left end is firmly connected with the small tee joint front cover 29-7, and a wringing bearing 29-5 is connected with the right end of the small screw 29-9, the left end of a small tee joint front cover 29-7 is connected with the elbow material guide pipe 4, and an extrusion cavity 29-8 is arranged between the inside of the small tee joint front cover 29-7 and the left end of the small screw 29-9.

More specific examples of the present invention include: the material storage container 5 comprises a material stirring motor 5-1, a material storage container cover 5-2, a material storage container feed inlet 5-3, a material storage box 5-4 and a material stirring rod 5-5, wherein the material stirring motor 5-1 is arranged at the right end of the material storage box 5-4, the output end of the material stirring motor 5-1 penetrates through the material storage box 5-4 and is connected with the material stirring rod 5-5, the material storage container cover 5-2 is arranged on the right side of the upper end of the material storage box 5-4, and the left side of the upper end of the material storage box 5-4 is communicated with an elbow material guide pipe 4 through the material storage container feed inlet 5-3.

More specific examples of the present invention include: the upper cover 27 is provided with an overflow grid 27-1 and an overflow port 27-2, and the feed port 3 is arranged on the upper cover 27.

More specific examples of the present invention include: the large tee 25-7 comprises a large tee feed inlet 25-7a, a large tee smooth arc surface 25-7b, a large tee small hole 25-7c, a large tee water outlet 25-7d and a large tee chamfer angle 25-7e, the upper end of the large tee 25-7 is provided with the large tee feed inlet 25-7a, the lower end of the inner side of the large tee 25-7 is provided with the large tee smooth arc surface 25-7b, the large tee smooth arc surface 25-7b is provided with the large tee small hole 25-7c, the lower end of the large tee 25-7 is provided with the large tee water outlet 25-7d, and one side of the large tee small hole 25-7c is provided with the large tee chamfer angle 25-7 e.

More specific examples of the present invention include: the small tee 29-6 comprises a small tee feed inlet 29-6a, a small tee hole 29-6b, a small tee smooth arc 29-6c, a small tee water outlet 29-6d and a small tee chamfer 29-6e, the upper end of the small tee 29-6 is provided with the small tee feed inlet 29-6a, the small tee 29-6 is connected with the material guide pipe 25-11 through the small tee feed inlet 29-6a, the small tee smooth arc 29-6c is arranged inside the small tee 29-6, the small tee smooth arc 29-6c is provided with the small tee hole 29-6b, the outer side of the small tee 29-6 is provided with the small tee water outlet 29-6d, one side of the small tee hole 29-6b is provided with the small tee chamfer 29-6e, the small tee joint front cover 29-7 comprises a front cover small hole 29-7a, a front cover smooth arc surface 29-7b, a front cover water outlet 29-7c, a front cover discharge hole 29-7d and a front cover chamfer angle 29-7e, the front cover smooth arc surface 29-7b is arranged in the small tee joint front cover 29-7, the front cover smooth arc surface 29-7b is provided with the front cover small hole 29-7a, the front cover water outlet 29-7c is arranged on the outer side of the small tee joint front cover 29-7 and is matched with the front cover small hole 29-7a in a corresponding mode, and the front cover chamfer angle 29-7e is arranged on one side of the front cover small hole 29-7 a.

More specific examples of the present invention include: the small screw 29-9 comprises an extrusion section mechanism 29-9a, an extrusion bulge 29-9b and a variable-pitch conveying thread 29-9c, wherein the extrusion section mechanism 29-9a is arranged at the left end of the extrusion bulge 29-9b, and the variable-pitch conveying thread 29-9c is arranged on each of the extrusion section mechanism 29-9a and the extrusion bulge 29-9 b.

More specific examples of the present invention include: the drainage mechanism 23 comprises a first connecting port 23-1, a second connecting port 23-2, a third connecting port 23-3, a fourth connecting port 23-4 and a water outlet 23-5, the first connecting port 23-1 is connected with the overflow port 27-2, the second connecting port 23-2 is communicated with the big tee water outlet 25-7d, the third connecting port 23-3 is connected with the front cover water outlet 29-7c, the fourth connecting port 23-4 is communicated with the small tee water outlet 29-6d, and the water outlet 23-5 is connected to the left end of the drainage pipe 1.

More specific examples of the present invention include: the wringing mechanism 29 also comprises an elastic stop block 29-a and an elastic spring 29-b, one end of the elastic spring 29-b is connected with the elastic stop block 29-a, the other end is connected with the small tee joint front cover 29-7, and the elastic spring 29-b is arranged inside the elastic stop block 29-a.

The working principle of the invention is as follows: the device can be placed under a water tank to work, or be used independently, but when the device works, firstly, the material enters the big tee 25-7 from the feed inlet 3 of the upper cover 27, the material enters the front end blade 25-9 under the drive of the big screw 25-8, the blade 25-9 cuts the material, the material passes through the holes of the mesh plate 25-10 under the inference action of the big screw 25-8, then enters the small tee 29-6 through the material guide pipe 25-11, the crushed material is pushed forward under the push of the small screw 29-9 after entering the small tee 29-6, the extrusion bulge 29-9b and the variable pitch conveying screw thread 29-9c on the small screw 29-9 become smaller, the conical design is added on the small tee 29-6, which is equal to the forward pushing of the material, the space is smaller and smaller, and the front section of the small tee 29-6 is also provided with an extrusion section mechanism 29-9a, so that materials are accumulated there, under the thrust action of the small screw 29-9, the materials generate an extrusion effect, so that the materials are wrung out, the wrung water flows out along the small tee water outlet 29-6d on the small tee 29-6 and the front cover water outlet 29-7c of the small tee front cover 29-7, wherein if the more optimized drying effect is to be achieved, an elastic stop block 29-a can be added at the material storage port, the elastic stop block 29-a is pushed open when the materials are extruded, the materials come out from the side edge of the elastic stop block 29-a, and the elastic strength of the elastic spring 29-b can be adjusted to adjust the dryness of the materials. The materials are extruded out from a front cover discharge port 29-7d of a front cover 29-7 of a small tee joint, enter a material storage container 5 along an elbow material guide pipe 4, the wrung materials enter a material storage box 5-4, the materials are fully fused with fermentation bacteria under the action of a material stirring rod 5-5, and the fermentation effect is achieved, wherein a plurality of large tee joint small holes 25-7c are formed in a large tee joint water outlet 25-7d, large tee joint chamfer angles 25-7e are arranged below the large tee joint small holes 25-7c, the large tee joint chamfer angles 25-7e are arranged to reduce the resistance of garbage to exit and prevent holes from being blocked, a front cover smooth cambered surface 29-7b is arranged on the upper surface of the large tee joint small holes 25-7c, so that the large screw rods 25-8 can scrape the cambered surface, and the large tee joint small holes 25-7c are also prevented from being blocked, a plurality of small tee small holes 29-6b are arranged in small tee water outlets 29-6d on the small tee 29-6, small tee bevels 29-6e are arranged below the small tee small holes 29-6b and are arranged to reduce the resistance of garbage to exit and prevent the holes from being blocked, the upper surfaces of the small tee small holes 29-6b are small tee smooth arc surfaces 29-6c, so that small screws 29-9 can scrape the small tee smooth arc surfaces 29-6c and also prevent the small tee small holes 29-6b from being blocked, a plurality of front cover small holes 29-7a are arranged in front cover water outlets 29-7c on a small tee front cover 29-7, front cover bevels 29-7e are arranged below the front cover small holes 29-7a, and the front cover bevels 29-7e are arranged to reduce the resistance of garbage to exit, preventing the front cover apertures 29-7a from clogging. The upper surface of the front cover small hole 29-7a is a front cover smooth cambered surface 29-7b, the purpose is that the screw can scrape the cambered surface, and the purpose is also to prevent the front cover small hole 29-7a from being blocked, the small tee 29-6 is arranged similarly to a cone, the inner cavity is smaller as the inner cavity is larger as the outer cavity is larger as the inner cavity is smaller as the outer cavity is smaller as the inner cavity is smaller as the outer cavity is larger as the inner cavity is smaller as the outer cavity is smaller as the inner cavity is larger as the inner cavity is smaller as the inner cavity is larger as the inner cavity is smaller as the outer cavity is smaller as the inner cavity, the inner cavity is smaller as the inner cavity as the outer cavity is smaller as the outer cavity is, the screw threads are arranged at the tail part of the small screw 29-9, namely after the small screw passes through the extrusion section, so that the extruded materials can be conveyed out by keeping conveying force, the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be manufactured independently or integrally according to actual production requirements, and are combined and assembled after being manufactured independently, so that the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be conveniently transported and assembled by manufacturing independently, or can be manufactured integrally, the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be manufactured integrally, and the stability of the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be effectively improved.

After the technical scheme is adopted, the invention has the beneficial effects that: adopt drainage mechanism, crushed aggregates mechanism, wring out mechanism and storage container, make its equipment noise when using can effectual control, vibrations are also less when the noise is little, and equipment operation is simple, can retrieve the wastes material, not only can not block up the sewer, more can the using water wisely.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the corresponding internal structure of fig. 1.

Fig. 3 is a corresponding schematic internal cross-sectional view of fig. 1.

Fig. 4 is an exploded view of the garbage disposal main unit 2 according to the present invention.

Fig. 5 is a schematic cross-sectional view of the crushing mechanism 25 of the present invention.

Fig. 6 is an exploded schematic view of the crushing mechanism 25 of the present invention.

Fig. 7 is a schematic sectional view of the wringing mechanism 29 of the present invention.

FIG. 8 is an exploded view of the wringing mechanism 29 of the present invention

Fig. 9 is a schematic sectional view of the magazine 5 of the present invention.

FIG. 10 is an exploded view of the magazine 5 of the present invention

Fig. 11 is a schematic view of the structure of the drain mechanism 23 in the present invention.

Fig. 12 is a schematic structural view of the upper cover 27 in the present invention.

Fig. 13 is a schematic top view of fig. 12.

FIG. 14 is a schematic view of the structure of the large tee 25-7 of the present invention.

Fig. 15 is a schematic top view of fig. 14.

Fig. 16 is an enlarged schematic view of a portion a in fig. 15.

FIG. 17 is a schematic view of the structure of the small tee 29-6 of the present invention.

Fig. 18 is a left side view of the corresponding structure of fig. 17.

Fig. 19 is an enlarged schematic view of B in fig. 18.

Figure 20 is a schematic structural view of the front cover 29-7 of the tee joint of the present invention.

Fig. 21 is a right-view structural diagram corresponding to fig. 20.

Fig. 22 is an enlarged schematic view of C in fig. 21.

Fig. 23 is a schematic structural view of the small screw 29-9 of the present invention.

FIG. 24 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 25 is a schematic view of the corresponding operating state of fig. 24.

Description of reference numerals: the garbage disposer comprises a drain pipe 1, a garbage disposal host machine 2, a feeding port 3, an elbow guide pipe 4, a storage container 5, a support base 21, a support column 22, a drainage mechanism 23, a second side cover 24, a crushing mechanism 25, a first side cover 26, an upper cover 27, a fourth side plate 28, a wringing mechanism 29, a maintenance door 210, a third side cover 211, a support frame 212, a large motor 25-1, a crushing first belt wheel 25-2, a crushing synchronous belt 25-3, a transmission shaft 25-4, a crushing second belt wheel 25-5, a crushing bearing 25-6, a large tee 25-7, a large screw rod 25-8, a blade 25-9, a mesh plate 25-10, a guide pipe 25-11, a locking nut 25-12, a small motor 29-1, a wringing first belt wheel 29-2, a wringing synchronous belt 29-3, a wringing second belt wheel 29-4, a wringing synchronous belt 29-4, The device comprises a wringing bearing 29-5, a small tee 29-6, a small tee front cover 29-7, an extrusion cavity 29-8, a small screw 29-9, a stirring motor 5-1, a storage container cover 5-2, a storage container feed inlet 5-3, a storage tank 5-4, a stirring rod 5-5, an overflow grid 27-1, an overflow port 27-2, a large tee feed inlet 25-7a, a large tee smooth arc surface 25-7b, a large tee small hole 25-7c, a large tee water outlet 25-7d, a large tee chamfer 25-7e, a small tee feed inlet 29-6a, a small tee small hole 29-6b, a small tee smooth arc surface 29-6c, a small tee water outlet 29-6d, a small tee chamfer 29-6e, a front cover small hole 29-7a, a small screw 29-9, The device comprises a front cover smooth arc surface 29-7b, a front cover water outlet 29-7c, a front cover discharge port 29-7d, a front cover chamfer angle 29-7e, an extrusion section mechanism 29-9a, an extrusion bulge 29-9b, a variable pitch conveying screw 29-9c, a first connecting port 23-1, a second connecting port 23-2, a third connecting port 23-3, a fourth connecting port 23-4, a water outlet 23-5, an elastic stop 29-a and an elastic spring 29-b.

Detailed Description

The first embodiment is as follows: referring to fig. 1 to 23, the technical solution adopted by the present embodiment is: the garbage disposer comprises a drain pipe 1, a garbage disposer 2, a feed inlet 3, an elbow guide pipe 4 and a storage container 5, wherein one end of the drain pipe 1 is arranged at the right end of the garbage disposer 2, the feed inlet 3 is arranged at the upper end of the garbage disposer 2, the left end of the garbage disposer 2 is communicated with the storage container 5 through the elbow guide pipe 4, the garbage disposer 2 comprises a support base 21, a support column 22, a drainage mechanism 23, a second side cover 24, a crushing mechanism 25, a first side cover 26, an upper cover 27, a fourth side plate 28, a wringing mechanism 29, a maintenance door 210, a third side cover 211 and a support frame 212, the upper end of the support base 21 is clamped with the lower end of the support frame 212, the upper end of the support frame 212 is connected with the upper end of the wringing mechanism 29, the left end of the wringing mechanism 29 penetrates through the fourth side plate 28 and is communicated with the storage container 5, the lower end of the crushing mechanism 25 is fixedly connected with the support, one end of the material crushing mechanism 25 is connected with the wringing mechanism 29, one end of the drainage mechanism 23 is connected with the material crushing mechanism 25 and the wringing mechanism 29, the other end of the drainage mechanism 23 penetrates through the second side cover 24 to be connected with the drainage pipe 1, the upper end of the drainage mechanism 23 is communicated with the upper cover 27, the upper cover 27 is provided with the feeding port 3, the second side cover 24 and one side of the fourth side plate 28 are connected with the first side cover 26 through bolts, the other side of the second side cover is connected with the third side cover 211 through bolts, and the third side cover 211 is provided with the maintenance door 210.

The crushing mechanism 25 consists of a large motor 25-1, a first crushing belt wheel 25-2, a crushing synchronous belt 25-3, a transmission shaft 25-4, a second crushing belt wheel 25-5, a crushing bearing 25-6, a large tee joint 25-7, a large screw 25-8, a blade 25-9, a mesh plate 25-10, a material guide pipe 25-11 and a locking nut 25-12, wherein the output end of the large motor 25-1 is connected with the first crushing belt wheel 25-2, the first crushing belt wheel 25-2 is connected with the second crushing belt wheel 25-5 through the crushing synchronous belt 25-3, the second crushing belt wheel 25-5 is connected with the transmission shaft 25-4, the transmission shaft 25-4 penetrates through the large tee joint 25-7 to be connected with the large screw 25-8, one end of the large tee joint 25-7 is provided with the crushing bearing 25-6, a mesh plate 25-10 and a blade 25-9 are arranged at the other end, a crushed aggregate bearing 25-6 is movably connected with a transmission shaft 25-4, a material guide pipe 25-11 is fixedly connected at the right end of a big tee 25-7 through a locking nut 25-12, the material guide pipe 25-11 is connected with the upper end of a wringing mechanism 29, the big tee 25-7 comprises a big tee feed inlet 25-7a, a big tee smooth arc surface 25-7b, a big tee small hole 25-7c, a big tee lower water gap 25-7d and a big tee chamfer angle 25-7e, the upper end of the big tee 25-7 is provided with a big tee feed inlet 25-7a, the lower end of the inner side is provided with a big tee smooth arc surface 25-7b, and the big tee smooth arc surface 25-7b is provided with a big tee small hole 25-7c, the lower end of the big tee 25-7 is provided with a big tee water outlet 25-7d, and one side of the big tee small hole 25-7c is provided with a big tee chamfer angle 25-7 e.

The wringing mechanism 29 consists of a small motor 29-1, a wringing first belt wheel 29-2, a wringing synchronous belt 29-3, a wringing second belt wheel 29-4, a wringing bearing 29-5, a small tee joint 29-6, a small tee joint front cover 29-7, an extrusion cavity 29-8 and a small screw 29-9, wherein the output end of the small motor 29-1 is connected with the wringing first belt wheel 29-2, the wringing first belt wheel 29-2 is connected with the wringing second belt wheel 29-4 through the wringing synchronous belt 29-3, the inner end of the wringing second belt wheel 29-4 is connected with the small screw 29-9, the small screw 29-9 is arranged inside the small tee joint 29-6, the wringing bearing 29-5 is arranged at the right end inside the small tee joint 29-6, and the left end is firmly connected with the small tee joint front cover 29-7, a twist-dry bearing 29-5 is connected with the right end of a small screw 29-9, the left end of a small tee joint front cover 29-7 is connected with an elbow material guide pipe 4, an extrusion cavity 29-8 is arranged between the inside of the small tee joint front cover 29-7 and the left end of the small screw 29-9, the small tee joint 29-6 comprises a small tee joint feed inlet 29-6a, a small tee joint small hole 29-6b, a small tee joint smooth arc surface 29-6c, a small tee joint water outlet 29-6d and a small tee joint chamfer angle 29-6e, a small tee joint feed inlet 29-6a is arranged at the upper end of the small tee joint 29-6, the small tee joint 29-6 is connected with the material guide pipe 25-11 through a small tee joint feed inlet 29-6a, a small tee joint smooth arc surface 29-6c is arranged inside the small tee joint 29-6, a small tee bend small hole 29-6b is arranged on the small tee bend smooth arc surface 29-6c, a small tee bend water outlet 29-6d is arranged on the outer side of the small tee bend 29-6, a small tee bend chamfer angle 29-6e is arranged on one side of the small tee bend small hole 29-6b, the small tee bend front cover 29-7 comprises a front cover small hole 29-7a, a front cover smooth arc surface 29-7b, a front cover water outlet 29-7c, a front cover discharge hole 29-7d and a front cover chamfer angle 29-7e, a front cover smooth arc surface 29-7b is arranged in the small tee bend front cover 29-7, a front cover small hole 29-7a is arranged on the front cover smooth arc surface 29-7b, the front cover water outlet 29-7c is arranged on the outer side of the small tee bend front cover 29-7 and is matched with the front cover small hole 29-7a correspondingly, and a front cover chamfer angle 29-7e is arranged on one side of the front cover small hole 29-7a, the small screw 29-9 comprises an extrusion section mechanism 29-9a, an extrusion bulge 29-9b and a variable pitch conveying thread 29-9c, the extrusion section mechanism 29-9a is arranged at the left end of the extrusion bulge 29-9b, and the variable pitch conveying thread 29-9c is arranged on both the extrusion section mechanism 29-9a and the extrusion bulge 29-9 b.

The storage container 5 comprises a stirring motor 5-1, a storage container cover 5-2, a storage container feed inlet 5-3, a storage box 5-4 and a stirring rod 5-5, wherein the stirring motor 5-1 is arranged at the right end of the storage box 5-4, the output end of the stirring motor 5-1 penetrates through the storage box 5-4 and is connected with the stirring rod 5-5, the storage container cover 5-2 is arranged at the right side of the upper end of the storage box 5-4, the left side of the upper end of the storage box 5-4 is communicated with an elbow material guide pipe 4 through the storage container feed inlet 5-3, an overflow grid 27-1 and an overflow port 27-2 are arranged on the upper cover 27, the feed inlet 3 is arranged on the upper cover 27, and the drainage mechanism 23 comprises a first connecting port 23-1 and a second connecting port 23-2, The three-way water draining device comprises a third connecting port 23-3, a fourth connecting port 23-4 and a water outlet 23-5, wherein the first connecting port 23-1 is connected with an overflow port 27-2, the second connecting port 23-2 is communicated with a big tee water outlet 25-7d, the third connecting port 23-3 is connected with a front cover water outlet 29-7c, the fourth connecting port 23-4 is communicated with a small tee water outlet 29-6d, and the water outlet 23-5 is connected to the left end of a water draining pipe 1.

Example two: referring to fig. 24-25, the wringing mechanism 29 further comprises an elastic stopper 29-a and an elastic spring 29-b, one end of the elastic spring 29-b is connected with the elastic stopper 29-a, the other end is connected with the tee front cover 29-7, and the elastic spring 29-b is arranged inside the elastic stopper 29-a.

The working principle of the invention is as follows: the device can be placed under a water tank to work, or be used independently, but when the device works, firstly, the material enters the big tee 25-7 from the feed inlet 3 of the upper cover 27, the material enters the front end blade 25-9 under the drive of the big screw 25-8, the blade 25-9 cuts the material, the material passes through the holes of the mesh plate 25-10 under the inference action of the big screw 25-8, then enters the small tee 29-6 through the material guide pipe 25-11, the crushed material is pushed forward under the push of the small screw 29-9 after entering the small tee 29-6, the extrusion bulge 29-9b and the variable pitch conveying screw thread 29-9c on the small screw 29-9 become smaller, the conical design is added on the small tee 29-6, which is equal to the forward pushing of the material, the space is smaller and smaller, and the front section of the small tee 29-6 is also provided with an extrusion section mechanism 29-9a, so that materials are accumulated there, under the thrust action of the small screw 29-9, the materials generate an extrusion effect, so that the materials are wrung out, the wrung water flows out along the small tee water outlet 29-6d on the small tee 29-6 and the front cover water outlet 29-7c of the small tee front cover 29-7, wherein if the more optimized drying effect is to be achieved, an elastic stop block 29-a can be added at the material storage port, the elastic stop block 29-a is pushed open when the materials are extruded, the materials come out from the side edge of the elastic stop block 29-a, and the elastic strength of the elastic spring 29-b can be adjusted to adjust the dryness of the materials. The materials are extruded out from a front cover discharge port 29-7d of a front cover 29-7 of a small tee joint, enter a material storage container 5 along an elbow material guide pipe 4, the wrung materials enter a material storage box 5-4, the materials are fully fused with fermentation bacteria under the action of a material stirring rod 5-5, and the fermentation effect is achieved, wherein a plurality of large tee joint small holes 25-7c are formed in a large tee joint water outlet 25-7d, large tee joint chamfer angles 25-7e are arranged below the large tee joint small holes 25-7c, the large tee joint chamfer angles 25-7e are arranged to reduce the resistance of garbage to exit and prevent holes from being blocked, a front cover smooth cambered surface 29-7b is arranged on the upper surface of the large tee joint small holes 25-7c, so that the large screw rods 25-8 can scrape the cambered surface, and the large tee joint small holes 25-7c are also prevented from being blocked, a plurality of small tee small holes 29-6b are arranged in small tee water outlets 29-6d on the small tee 29-6, small tee bevels 29-6e are arranged below the small tee small holes 29-6b and are arranged to reduce the resistance of garbage to exit and prevent the holes from being blocked, the upper surfaces of the small tee small holes 29-6b are small tee smooth arc surfaces 29-6c, so that small screws 29-9 can scrape the small tee smooth arc surfaces 29-6c and also prevent the small tee small holes 29-6b from being blocked, a plurality of front cover small holes 29-7a are arranged in front cover water outlets 29-7c on a small tee front cover 29-7, front cover bevels 29-7e are arranged below the front cover small holes 29-7a, and the front cover bevels 29-7e are arranged to reduce the resistance of garbage to exit, preventing the front cover apertures 29-7a from clogging. The upper surface of the front cover small hole 29-7a is a front cover smooth cambered surface 29-7b, the purpose is that the screw can scrape the cambered surface, and the purpose is also to prevent the front cover small hole 29-7a from being blocked, the small tee 29-6 is arranged similarly to a cone, the inner cavity is smaller as the inner cavity is larger as the outer cavity is larger as the inner cavity is smaller as the outer cavity is smaller as the inner cavity is smaller as the outer cavity is larger as the inner cavity is smaller as the outer cavity is smaller as the inner cavity is larger as the inner cavity is smaller as the inner cavity is larger as the inner cavity is smaller as the outer cavity is smaller as the inner cavity, the inner cavity is smaller as the inner cavity as the outer cavity is smaller as the outer cavity is, the screw threads are arranged at the tail part of the small screw 29-9, namely after the small screw passes through the extrusion section, so that the extruded materials can be conveyed out by keeping conveying force, the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be manufactured independently or integrally according to actual production requirements, and are combined and assembled after being manufactured independently, so that the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be conveniently transported and assembled by manufacturing independently, or can be manufactured integrally, the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be manufactured integrally, and the stability of the second side cover 24, the first side cover 26, the fourth side plate 28, the maintenance door 210 and the third side cover 211 can be effectively improved.

First, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed; secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict; and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention. .

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent substitutions made by those skilled in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention without departing from the spirit and scope of the technical solutions of the present invention.