CN110961428A - Biodegradable garbage disposer - Google Patents

Abstract

The invention provides a biodegradable garbage disposer, which structurally comprises a feed hole, an observation hole, a purified water discharge hole, a shock absorption base, a water purifier, a waste residue degradation device and an automatic quantitative stirrer, wherein the feed hole is arranged above the automatic quantitative stirrer, a screen can slowly move downwards under the action of leftovers and leftovers by arranging the automatic quantitative stirrer, thereby driving the connecting frame to move downwards, causing the limit annular push block to compress the buffer spring, further causing the push rod to move downwards, when the weight on the screen reaches a set value, the push rod is just in contact with a button on the timing switch controller, therefore, the timing switch controller is started, and the rotation of the rotating motor is controlled by the timing switch controller, so that the crushing blade on the rotating shaft rod can crush the leftovers in the rotating shaft rod, the leftovers can be quantitatively crushed, and the waste of electric energy is effectively avoided.

Description

Biodegradable garbage disposer

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a biodegradable garbage disposer.

Background

Along with the development of cities and the continuous improvement of the living standard of people, people have increasingly strengthened awareness on physical health and living environment protection, and desire to have a healthy, clean, environment-friendly and comfortable home living environment. Every family can produce some leftovers more or less after the food and drink every day, generally all handle it through garbage disposer to guarantee that produced leftovers can be in time handled, can not produce the peculiar smell, but prior art has following defect:

the existing garbage disposers need to process the generated leftovers in time, if the leftovers are not processed in time, peculiar smell can be emitted, the amount of the leftovers generated each time is not constant, and if a little leftovers remains, the leftovers need to be stirred and crushed in the same time, so that the waste of electric energy can be caused.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a biodegradable garbage disposer, which solves the problems that the existing garbage disposer needs to treat the generated leftovers in time, if the leftovers are not treated in time, peculiar smell is generated to be emitted, the amount of the leftovers generated each time is not constant, and if a little leftovers are left, the leftovers need to be stirred and crushed in the same time, so that the waste of electric energy is caused.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a biodegradable garbage disposer, its structure includes the feed port, observes hole, purifies water discharge hole, vibration damping mount, water purifier, waste residue degradation ware, automatic quantitative agitator, the feed port is installed in automatic quantitative agitator top, observe the hole embedding and install in waste residue degradation ware side, purify water discharge hole, weld mutually with water purifier, vibration damping mount upper end and water purifier lower extreme fixed connection, waste residue degradation ware upper end is connected with automatic quantitative agitator lower extreme, automatic quantitative agitator includes crushing room, broken mechanism, processing mechanism, one-way feed mechanism, install processing mechanism in the crushing room, crushing mechanism fixed mounting is on processing mechanism, one-way feed mechanism below and crushing room top weld mutually.

Preferably, the crushing mechanism comprises a timing switch controller, a rotating motor, crushing blades and a rotating shaft rod, wherein the timing switch controller is electrically connected with the rotating motor, the rotating motor is mechanically connected with the crushing blades, and the crushing blades are totally provided with six pieces and welded with the rotating shaft rod.

Preferably, the processing mechanism comprises a push rod, an inner cavity, a screening mechanism, a support ring and a buffer spring, the push rod is installed in the inner cavity, the screening mechanism is installed on the support ring, the screening mechanism is welded with the buffer spring, the buffer spring is located on the inner side of the support ring, and the support ring is of a cylindrical rod structure.

Preferably, screening mechanism includes screen cloth, shaft hole, link, spacing annular ejector pad, the inboard fixed connection of screen cloth and link, the screen cloth is the integral structure with the shaft hole, the link welds mutually with spacing annular ejector pad, the screen cloth adopts the stainless steel to make.

Preferably, the one-way feeding mechanism comprises a seal block, a protective soft sleeve, a return spring, a positioning column, a supporting disk, a shell, a flow guide block and a pressing push rod, the seal block is connected with the supporting disk through the protective soft sleeve, the return spring is arranged in the protective soft sleeve, the positioning column penetrates through the center of the seal block, the inner wall of the shell is welded with the outer ring of the flow guide block, and the upper part of the seal block is welded with the lower end of the pressing push rod.

(III) advantageous effects

The invention provides a biodegradable garbage disposer. The method has the following beneficial effects:

the automatic quantitative stirrer is arranged, the screen can slowly move downwards under the action of the leftovers, so that the connecting frame is driven to move downwards, the limit annular push block is enabled to compress the buffer spring, the push rod moves downwards, when the weight on the screen reaches a set value, the push rod is just in contact with the button on the timing switch controller, the timing switch controller is started, the rotating motor is controlled to rotate through the timing switch controller, the crushing blade on the rotating shaft rod is enabled to crush the leftovers in the rotating shaft, the leftovers can be quantitatively crushed, and the waste of electric energy is effectively avoided.

Drawings

FIG. 1 is a schematic structural view of a biodegradable garbage disposer in accordance with the present invention;

FIG. 2 is a front view of the automatic quantitative stirrer according to the present invention;

FIG. 3 is a front view of the crushing mechanism of the present invention;

FIG. 4 is a front view of the processing mechanism of the present invention;

FIG. 5 is a schematic three-dimensional structure of the processing mechanism of the present invention;

FIG. 6 is a side view of the sifting mechanism of the present invention;

FIG. 7 is a side view of the one-way feeding mechanism of the present invention.

In the figure: a feed hole-1, an observation hole-2, a purified water discharge hole-3, a shock absorption base-4, a water purifier-5, a waste residue degradation device-6, an automatic quantitative stirrer-7, a crushing chamber-71, a crushing mechanism-72, a processing mechanism-73, a one-way feed mechanism-74, a timing switch controller-721, a rotating motor-722, a crushing blade-723, a rotating shaft rod-724, a push rod-731, an inner cavity-732, a screening mechanism-733, a support ring-734, a buffer spring-735, a screen-331, a shaft hole-332, a connecting frame-333, a limit annular push block-334, a sealing block-741, a protective soft sleeve-742, a return spring-743, a positioning column-744, a support disc-745, a supporting disc-, Shell-746, deflector block-747, push rod-748.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, an embodiment of the present invention provides a biodegradable garbage disposer, which includes a feed port 1, an observation port 2, a purified water discharge port 3, a vibration-damping base 4, a water purifier 5, a sludge degradation device 6, and an automatic quantitative stirrer 7, wherein the feed port 1 is installed above the automatic quantitative stirrer 7, the observation port 2 is installed at a side end of the sludge degradation device 6 in an embedded manner, the purified water discharge port 3 is welded to the water purifier 5, an upper end of the vibration-damping base 4 is fixedly connected to a lower end of the water purifier 5, an upper end of the sludge degradation device 6 is connected to a lower end of the automatic quantitative stirrer 7, the automatic quantitative stirrer 7 includes a crushing chamber 71, a crushing mechanism 72, a processing mechanism 73, and a one-way feeding mechanism 74, the processing mechanism 73 is installed in the crushing chamber 71, the crushing mechanism 72 is fixedly installed on the processing mechanism 73, the lower part of the one-way feeding mechanism 74 is welded with the upper part of the crushing chamber 71.

The crushing mechanism 72 comprises a timing switch controller 721, a rotating motor 722, crushing blades 723 and a rotating shaft 724, wherein the timing switch controller 721 is electrically connected with the rotating motor 722, the rotating motor 722 is mechanically connected with the crushing blades 723, the crushing blades 723 are provided with six pieces in total and welded with the rotating shaft 724, and when leftovers are crushed, the timing switch controller 721 controls the rotating motor 722 to rotate, so that the crushing blades 723 on the rotating shaft 724 crush the leftovers in the leftovers.

The processing mechanism 73 comprises a push rod 731, an inner cavity 732, a screening mechanism 733, a strut ring 734 and a buffer spring 735, the push rod 731 is arranged in the inner cavity 732, the screening mechanism 733 is arranged on the strut ring 734, the screening mechanism 733 is welded with the buffer spring 735, the buffer spring 735 is positioned on the inner side of the strut ring 734, and the strut ring 734 is in a cylindrical rod structure, so that when the weight in the screening mechanism 733 is continuously increased, the push rod 731 is continuously pushed to move downwards, and the timing switch controller 721 is driven by the push rod 731.

Wherein, screening mechanism 733 includes screen cloth 331, shaft hole 332, link 333, spacing annular ejector pad 334, screen cloth 331 and the inboard fixed connection of link 333, screen cloth 331 is the integral structure with shaft hole 332, link 333 welds mutually with spacing annular ejector pad 334, screen cloth 331 adopts the stainless steel to make, can sieve filterable effect to the residue of top.

The unidirectional feeding mechanism 74 includes a sealing block 741, a protective soft sleeve 742, a return spring 743, a positioning post 744, a supporting disk 745, a casing 746, a flow guiding block 747, and a pressing pushing rod 748, the sealing block 741 is connected with the supporting disk 745 through the protective soft sleeve 742, the return spring 743 is arranged in the protective soft sleeve 742, the positioning post 744 penetrates through the center of the sealing block 741, the inner wall of the casing 746 is welded to the outer ring of the flow guiding block 747, the upper side of the sealing block 741 is welded to the lower end of the pressing pushing rod 748, and once force applied to the pressing pushing rod 748 by external force is removed, the sealing block 741 automatically rebounds to the lower side of the flow guiding block 747 under the action of the return spring 743, so that the internal odor cannot be diffused out.

The specific working process is as follows:

after leftovers are poured from the feeding hole 1, the pushing rod 748 is pushed downwards, the pushing rod 748 drives the sealing block 741 to vertically move downwards on the positioning column 744, so that the sealing block 741 pushes the return spring 743 to contract, the guide hole on the flow guide block 747 is opened, so that leftovers flow into the upper portion of the screen 331, then the sealing block 741 is driven to move upwards by the return spring 743 to seal the guide hole of the flow guide block 747 again by loosening hands, so that smell in the inner portion is not diffused, when the screen 331 receives gravity, the screen 331 slowly moves downwards, so that the connecting frame 333 is driven to move downwards, the limit annular pushing block 334 compresses the buffer spring 735, so that the pushing rod 731 moves downwards, when the weight on the screen 331 reaches a set value, the pushing rod 731 just contacts with the button on the timing switch controller 721, so as to start the timing switch controller 721, the rotation of the rotating motor 722 is controlled by the timing switch controller 721, the rotating shaft 724 is driven by the rotating motor 722 to rotate, so that the crushing blade 723 on the rotating shaft 724 stirs the leftovers in the leftovers, the leftovers in the leftovers can directly fall from the screen 331 into the waste residue degradation device 6 after being crushed, the leftovers can be fermented and decomposed by the waste residue degradation device 6, the leftovers in the leftovers can be filtered to the water purifier 5, and the sewage can be treated by the water purifier 5.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a biodegradable garbage disposer, its structure includes feed port (1), observation hole (2), purified water discharge hole (3), vibration damping mount (4), water purifier (5), waste residue degradation ware (6), automatic quantitative agitator (7), install in automatic quantitative agitator (7) top feed port (1), observe hole (2) embedding and install in waste residue degradation ware (6) side, purified water discharge hole (3), weld mutually with water purifier (5), vibration damping mount (4) upper end and water purifier (5) lower extreme fixed connection, waste residue degradation ware (6) upper end is connected with automatic quantitative agitator (7) lower extreme, its characterized in that:

the automatic quantitative stirrer (7) comprises a crushing chamber (71), a crushing mechanism (72), a processing mechanism (73) and a one-way feeding mechanism (74), wherein the processing mechanism (73) is installed in the crushing chamber (71), the crushing mechanism (72) is fixedly installed on the processing mechanism (73), and the lower part of the one-way feeding mechanism (74) is welded with the upper part of the crushing chamber (71).

2. A biodegradable waste disposer as defined in claim 1, wherein: the crushing mechanism (72) comprises a timing switch controller (721), a rotating motor (722), a crushing blade (723) and a rotating shaft rod (724), wherein the timing switch controller (721) is electrically connected with the rotating motor (722), the rotating motor (722) is mechanically connected with the crushing blade (723), and the crushing blade (723) is welded with the rotating shaft rod (724).

3. A biodegradable waste disposer as defined in claim 1, wherein: the machining mechanism (73) comprises a push rod (731), an inner cavity (732), a screening mechanism (733), a strut ring (734) and a buffer spring (735), the push rod (731) is installed in the inner cavity (732), the screening mechanism (733) is installed on the strut ring (734), the screening mechanism (733) is welded with the buffer spring (735), and the buffer spring (735) is located on the inner side of the strut ring (734).

4. A biodegradable waste disposer as set forth in claim 3, wherein: screening mechanism (733) includes screen cloth (331), shaft hole (332), link (333), spacing annular ejector pad (334), screen cloth (331) and link (333) inboard fixed connection, screen cloth (331) are the integral structure with shaft hole (332), link (333) and spacing annular ejector pad (334) weld mutually.

5. A biodegradable waste disposer as defined in claim 1, wherein: the one-way feeding mechanism (74) comprises a sealing block (741), a protective soft sleeve (742), a return spring (743), a positioning column (744), a supporting disc (745), a shell (746), a flow guide block (747) and a pressing push rod (748), the sealing block (741) is connected with the supporting disc (745) through the protective soft sleeve (742), the return spring (743) is arranged in the protective soft sleeve (742), the positioning column (744) penetrates through the center of the sealing block (741), the inner wall of the shell (746) is welded with the outer ring of the flow guide block (747), and the upper portion of the sealing block (741) is welded with the lower end of the pressing push rod (748).

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