CN110653242A

CN110653242A - Fiber material rapid degradation equipment

Info

Publication number: CN110653242A
Application number: CN201910963860.8A
Authority: CN
Inventors: 周智达
Original assignee: Taizhou Jiaojiang Monte Intelligent Equipment Co Ltd
Current assignee: Taizhou Jiaojiang Monte Intelligent Equipment Co Ltd
Priority date: 2019-10-11
Filing date: 2019-10-11
Publication date: 2020-01-07
Also published as: JP2021062356A

Abstract

The invention discloses a fiber material rapid degradation device which comprises a machine shell, wherein a grinding cavity is arranged at the left end in the machine shell, a mixing cavity is arranged at the lower side of the grinding cavity, a transmission mechanism for providing power for the device is arranged at the right end in the machine shell, a grinding mechanism for grinding fiber materials is arranged in the grinding cavity, a mixing mechanism for stirring the fiber materials and an oxidant together is arranged in the mixing cavity, and a pushing mechanism for pushing the degraded fiber materials out of the device is also arranged in the mixing cavity.

Description

Fiber material rapid degradation equipment

Technical Field

The invention relates to the field of environmental protection, in particular to a fiber material rapid degradation device.

Background

In life, domestic waste which is essentially fiber materials is visible everywhere, and is often plants such as vegetables and fallen leaves left after cooking, and the fiber materials can be thoroughly decomposed generally by the decomposition of fungi.

At present, the fiber material is degraded by a biological method, a chemical method and a physical method, and the degradation rate is low by singly adopting a certain degradation method to degrade the fiber material, so that the fiber material can be degraded only by consuming more time.

Disclosure of Invention

The invention aims to solve the technical problem of providing a fiber material rapid degradation device, overcoming the problems of slow degradation rate, insufficient degradation and the like, and improving the degradation rate and the degradation sufficiency.

The invention is realized by the following technical scheme.

The invention relates to a fiber material rapid degradation device, which comprises a machine shell, wherein a grinding cavity is arranged at the left end in the machine shell, a mixing cavity is arranged at the lower side of the grinding cavity, a transmission mechanism for providing power for a device is arranged at the right end in the machine shell, a grinding mechanism for grinding a fiber material is arranged in the grinding cavity, a mixing mechanism for stirring the fiber material and an oxidant together is arranged in the mixing cavity, and a pushing mechanism for pushing the degraded fiber material out of the device is also arranged in the mixing cavity;

the grinding mechanism comprises a rotating shaft which is rotatably connected with the lower cavity wall of the grinding cavity and the lower end of the rotating shaft extends into the mixing cavity, the upper end of the mixing cavity is provided with a lower grinding disc gear positioned in the grinding cavity, the upper surface of the lower grinding disc gear is uniformly distributed with six inclined lower grooves, the upper end surface of the mixing cavity is fixedly provided with a connecting rod, the connecting rod is connected with an upper grinding disc gear in a sliding way, a rotating cavity with a downward opening is arranged in the upper grinding disc gear, a rotating block capable of rotating in the rotating cavity is arranged in the rotating cavity, the lower end surface of the rotating block is fixedly connected with the upper end surface of the connecting rod, two feed holes which are communicated up and down are arranged in the upper grinding disc gear, the upper cavity wall of the grinding cavity is provided with a feed port communicated with the external space, the lower cavity wall of, the improved mixing device is characterized in that a discharging plate is rotatably arranged on the fixed shaft and connected with the fixed shaft through two torsion springs, one end of a rope is fixed on the upper surface of the discharging plate, an external pipeline is further communicated with the upper cavity wall of the mixing cavity, a pushing plate cavity is arranged in the external pipeline, a movable plate capable of sliding left and right in the cavity is arranged in the pushing plate cavity, a compression spring connected with the left cavity wall of the pushing plate cavity is fixedly arranged on the left end face of the movable plate, and one end of the rope is further connected with the left end face of the movable plate.

Further, drive mechanism is including being located the transmission chamber on grinding chamber right side, the fixed motor that is equipped with of chamber wall on the transmission chamber, the motor upper end is equipped with driving pulley, the last belt that is connected with of driving pulley, transmission chamber left side is equipped with the slave chamber, chamber wall rotates about the slave chamber and is connected with the rotation axis, the rotation axis upper end be equipped with the rotating gear that the gear engagement of mill was connected, the rotation axis lower extreme is equipped with driven pulley, driven pulley passes through the belt with driving pulley connects, external pipeline lower extreme is equipped with rotating gear, the chamber wall still rotates under the grinding chamber and is connected with the dwang, the dwang upper end be equipped with rotating gear with the driven gear that the gear engagement of mill was connected down.

Further, mixing mechanism is including fixed establishing the pivot lower extreme just is located six stirring vane of mixing chamber, the terminal surface is fixed with the inductor under the mixing chamber, the mixing chamber right side is equipped with the lift chamber, the chamber wall is equipped with the response chamber on the lift chamber, the fixed first magnetism piece that is equipped with in response chamber upper end, response chamber lower extreme is equipped with the second magnetism piece that can reciprocate at the intracavity, terminal surface is fixed be equipped with two elastic spring under the second magnetism piece with response chamber wall connection, the terminal surface is fixed and is equipped with the push rod under the second magnetism piece, the push rod lower extreme stretches into the lift intracavity.

Further, the pushing mechanism comprises a sliding gear which is connected with the lower end of the transmission shaft through a key and is positioned in the lifting cavity, the lower end of the transmission shaft is also provided with a ring plate, the upper end face of the ring plate is fixedly provided with two stop blocks, the upper ends of the stop blocks are connected with the lower end face of the sliding gear, the left cavity wall of the mixing cavity is provided with a discharge hole communicated with the external space, the upper cavity wall and the lower cavity wall in the discharge hole are provided with a moving cavity, a baffle plate capable of sliding up and down in the cavity is arranged in the moving cavity, the lower end face of the baffle plate is fixedly provided with an elastic spring and is connected with the lower cavity wall of the moving cavity, the lower end face of the baffle plate is also fixedly connected with a hemp rope, the right cavity wall of the mixing cavity is provided with a moving cavity with a left opening, a push plate capable of sliding left and right in the cavity is arranged in the, the utility model discloses a lifting device, including ejector pad, ejector pad intracavity, lifting chamber, flexible spring, rack, ejector pad intracavity is equipped with the ejector pad that can reciprocate in the intracavity, the ejector pad intracavity be equipped with the ejector pad that can reciprocate at the intracavity, the fixed reset spring that is equipped with of ejector pad lower extreme face with ejector pad chamber lower chamber wall fixed connection, ejector pad right-hand member face fixedly connected with string, lifting chamber right side chamber wall is equipped with the spacing chamber of opening left, spacing intracavity is equipped with can be at intracavity horizontal slip's expanding spring, the fixed stay cord that is equipped with of expanding spring right-hand member face with spacing chamber right side chamber wall fixed connection, expanding spring right-hand member face fixedly connected with.

Further, in the initial state, the sliding gear is located on the upper side of the rack under the action of the two stoppers, and the sliding gear and the rack are in a disengaged state.

The invention has the beneficial effects that: the device simple structure, the simple operation, the device at the during operation at first can carry out the grinding with the fibrous material of treating the degradation, then according to the volume fibrous material that will grind carries out mixing treatment with the oxidant in proportion, can make full use of material carry out the reaction and reduce extravagantly, and the device can be automatic clears up out the device with it after the degradation is accomplished to convenient next use.

Drawings

In order to more clearly illustrate the embodiments of the 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 invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic top view of a stripper plate in full section according to an embodiment of the present invention;

FIG. 5 is a top view of a lower grinding disc gear in full section according to an embodiment of the invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The fiber material rapid degradation device described in conjunction with fig. 1-5 comprises a casing 25, a pulverizing chamber 40 is provided at the left end in the casing 25, a mixing chamber 22 is provided at the lower side of the pulverizing chamber 40, a transmission mechanism 56 for providing power for the device is provided at the right end in the casing 25, a pulverizing mechanism 37 for pulverizing the fiber material is provided in the pulverizing chamber 40, a mixing mechanism 32 for stirring the fiber material and the oxidant is provided in the mixing chamber 22, a pushing mechanism 64 for pushing the degraded fiber material out of the device is further provided in the mixing chamber 22, the pulverizing mechanism 37 includes a rotating shaft 24 rotatably connected to the lower chamber wall of the pulverizing chamber 40, the lower end of the rotating shaft extends into the mixing chamber 22, a lower grinding disc gear 38 located in the pulverizing chamber 40 is provided at the upper end of the mixing chamber 22, six inclined blanking grooves 39 are uniformly distributed on the upper surface of the lower grinding disc gear 38, a connecting rod 44 is fixedly arranged on the upper end face of the mixing cavity 22, an upper millstone gear 41 is connected onto the connecting rod 44 in a sliding manner, a rotating cavity 47 with a downward opening is arranged in the upper millstone gear 41, a rotating block 45 capable of rotating in the cavity is arranged in the rotating cavity 47, the lower end face of the rotating block 45 is fixedly connected with the upper end face of the connecting rod 44, two feeding holes 42 which are communicated up and down are arranged in the upper millstone gear 41, a feeding hole 43 communicated with the external space is arranged on the upper cavity wall of the powder grinding cavity 40, a discharging hole 33 communicated with the mixing cavity 22 is arranged on the lower cavity wall of the powder grinding cavity 40, a fixed shaft 35 is rotatably connected with the front and back cavity walls in the discharging hole 33, a discharging plate 34 is rotatably arranged on the fixed shaft 35, the discharging plate 34 is connected with the fixed shaft 35 through two torsion springs 72, and one end, the upper cavity wall of the mixing cavity 22 is further communicated with an external pipeline 61, a push plate cavity 75 is arranged in the external pipeline 61, a movable plate 76 capable of sliding left and right in the cavity is arranged in the push plate cavity 75, a compression spring 74 connected with the left cavity wall of the push plate cavity 75 is fixedly arranged on the left end face of the movable plate 76, and one end of the rope 36 is further connected to the left end face of the movable plate 76.

Advantageously, the drive mechanism 56 includes a drive chamber 55 located to the right of the grinding chamber 40, the upper cavity wall of the transmission cavity 55 is fixedly provided with a motor 53, the upper end of the motor 53 is provided with a driving belt wheel 57, the driving belt wheel 57 is connected with a belt 77, the left side of the transmission cavity 55 is provided with a driven cavity 59, a rotating shaft 60 is rotatably connected with the upper cavity wall and the lower cavity wall of the driven cavity 59, a rotating gear 52 which is meshed and connected with the upper grinding disc gear 41 is arranged at the upper end of the rotating shaft 60, the lower end of the rotating shaft 60 is provided with a driven pulley 51, the driven pulley 51 is connected with the driving pulley 57 through the belt 77, the lower end of the external pipeline 61 is provided with a rotating gear 50, the lower cavity wall of the powder grinding cavity 40 is also rotatably connected with a rotating rod 48, the upper end of the rotating rod 48 is provided with a driven gear 49 which is in meshed connection with the rotating gear 50 and the lower grinding disc gear 38.

Beneficially, the mixing mechanism 32 includes six stirring blades 23 fixedly arranged at the lower end of the rotating shaft 24 and located in the mixing chamber 22, the lower end face of the mixing chamber 22 is fixedly provided with the inductor 26, the right side of the mixing chamber 22 is provided with the lifting chamber 14, the upper wall of the lifting chamber 14 is provided with the sensing chamber 69, the upper end of the sensing chamber 69 is fixedly provided with the first magnetic block 68, the lower end of the sensing chamber 69 is provided with the second magnetic block 70 capable of moving up and down in the chamber, the lower end face of the second magnetic block 70 is fixedly provided with two elastic springs 67 connected with the lower wall of the sensing chamber 69, the lower end face of the second magnetic block 70 is fixedly provided with the push rod 66, and the lower end of the push rod 66 extends into the lifting chamber 14.

Beneficially, the pushing mechanism 64 includes a sliding gear 16 which is keyed on the lower end of the transmission shaft 54 and is located in the lifting cavity 14, the lower end of the transmission shaft 54 is further provided with an annular plate 15, the upper end face of the annular plate 15 is fixedly provided with two stoppers 13, the upper ends of the stoppers 13 are connected with the lower end face of the sliding gear 16, the left cavity wall of the mixing cavity 22 is provided with a discharge port 31 communicated with the external space, the upper and lower cavity walls of the discharge port 31 are provided with a moving cavity 27, a baffle 30 which can slide up and down in the cavity is arranged in the moving cavity 27, the lower end face of the baffle 30 is fixedly provided with an elastic spring 28 which is connected with the lower cavity wall of the moving cavity 27, the lower end face of the baffle 30 is further fixedly connected with a hemp rope 29, the right cavity wall of the mixing cavity 22 is provided with a moving cavity 65 with an opening to the left, the moving cavity 65 is provided with a push plate 21 which can slide, the lower cavity wall of the motion cavity 65 is provided with a push block cavity 19 with an upward opening, the push block cavity 19 is internally provided with a push block 20 capable of moving up and down in the cavity, the lower end face of the push block 20 is fixedly provided with a reset spring 18 and fixedly connected with the lower cavity wall of the push block cavity 19, the right end face of the push block 20 is fixedly connected with a thin rope 17, the right cavity wall of the lifting cavity 14 is provided with a limit cavity 62 with a leftward opening, the limit cavity 62 is internally provided with an expansion spring 12 capable of sliding left and right in the cavity, the right end face of the expansion spring 12 is fixedly provided with a pull rope 11 and fixedly connected with the right cavity wall of the limit cavity 62, the right end face of the expansion spring 12 is fixedly connected with one end of the thin rope 17, and the front end face.

Advantageously, in the initial state, the sliding gear 16 is located on the upper side of the rack 63 under the action of the two stoppers 13, and the sliding gear 16 is disengaged from the rack 63.

Sequence of mechanical actions of the whole device:

1: the method comprises the steps that a limiting material to be degraded is fed from a feeding hole 43, a motor 53 is started, the motor 53 works to drive a transmission shaft 54 to rotate, so that a driving belt wheel 57 and a sliding gear 16 are driven to rotate, the driving belt wheel 57 rotates to drive a driven belt wheel 51 connected through a belt 77 to rotate, so that a rotating shaft 60 is driven to rotate, so that a rotating gear 52 and a rotating gear 50 on the rotating shaft 60 are driven to rotate, the rotating gear 52 rotates to drive an upper grinding disc gear 41 in meshed connection with the rotating gear 52 to rotate, and the rotating gear 50 rotates to drive a driven gear 49 in meshed connection with the rotating gear 50 to rotate, so that a lower grinding disc gear 38 in meshed;

2: fiber materials to be degraded enter a space between the upper grinding disc gear 41 and the lower grinding disc gear 38 through the feeding hole 42, the upper grinding disc gear 41 and the lower grinding disc gear 38 rotate reversely to grind the fiber materials, the ground fiber materials enter the discharging opening 33 from the discharging groove 39 on the lower grinding disc gear 38 and are accumulated on the upper surface of the discharging opening 33, when the accumulated weight of the fiber materials is enough to push the discharging plate 34 downwards to turn over, the fiber materials on the discharging plate 34 fall into the mixing cavity 22, the rope 36 is tensioned while the discharging plate 34 turns over, so that the movable plate 76 is pulled leftwards through the rope 36, and the oxidant and the Feilin reagent in the external pipeline 61 enter the mixing cavity 22;

3: the lower millstone gear 38 rotates to drive the rotating shaft 24 to rotate, the rotating shaft 24 rotates to drive the six stirring blades 23 to rotate, the ground fiber materials are fully reacted with the oxidant, the fiber materials on the discharging plate 34 are overturned upwards to reset under the action of the torsion spring 72 after being poured, the rope 36 is loosened, and the movable plate 76 loses the tension of the rope 36 and moves rightwards to reset under the action of the compression spring 74;

4: when the oxidant and the fiber material react sufficiently to generate glucose, the reaction color of the glucose and the Fehling reagent changes into brick red, the inductor 26 senses the color change to start working, the first magnetic block 68 and the second magnetic block 70 repel each other in the same polarity, thereby pushing the second magnetic block 70 and the push rod 66 at the lower end surface of the second magnetic block 70 to move downwards, thereby pushing the sliding gear 16 downwards through the push rod 66, the sliding gear 16 is meshed with the rack 63, the sliding gear 16 rotates to drive the rack 63 and the push plate 21 to move leftwards, when the push plate 21 leaves and abuts against the push block 20, the push block 20 moves upwards under the action of the return spring 18, the thin rope 17 on the right end surface of the baffle 30 is loosened, the telescopic spring 12 loses the tension of the thin rope 17 and moves leftwards under the action of the pull rope 11, thereby limiting the sliding gear 16 and preventing the sliding gear 16 from moving upwards and resetting under the action of the stopper 13;

5: the hemp rope 29 is tensioned during the leftward movement of the rack 63, so that the baffle 30 is pulled to move downwards, the rack 63 and the push plate 21 move leftwards to push the degraded fiber material out of the device, after the degraded fiber material is delivered out of the device, the motor 53 is started to rotate reversely, so that the rack 63 is driven to move to the right by the mechanical driving belt, and when the push plate 21 moves again to press the push block 20, the string 17 is tensioned again, therefore, the extension spring 12 is pulled rightwards through the string 17, after the inductor 26 stops working, the first magnetic block 68 and the second magnetic block 70 lose the repulsive force, the second magnetic block 70 moves upwards under the action of the elastic spring 67, the sliding gear 16 loses the extrusion of the push rod 66 and moves upwards under the action of the stop block 13 to reset, the hemp rope 29 is loosened, the baffle 30 moves upwards under the action of the elastic spring 28 to reset, the motor 53 is turned off, and the operation process is completed.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a quick degradation equipment of fiber material, includes the casing, its characterized in that: a grinding cavity is arranged at the left end in the shell, a mixing cavity is arranged at the lower side of the grinding cavity, a transmission mechanism for providing power for the device is arranged at the right end in the shell, a grinding mechanism for grinding fiber materials is arranged in the grinding cavity, a mixing mechanism for stirring the fiber materials and an oxidant together is arranged in the mixing cavity, and a pushing mechanism for pushing the degraded fiber materials out of the device is also arranged in the mixing cavity;

2. The apparatus for the rapid degradation of fiber material according to claim 1, wherein: drive mechanism is including being located the transmission chamber on grinding chamber right side, the fixed motor that is equipped with of chamber wall on the transmission chamber, the motor upper end is equipped with driving pulley, the last belt that is connected with of driving pulley, transmission chamber left side is equipped with the slave chamber, chamber wall rotates about the slave chamber and is connected with the rotation axis, the rotation axis upper end be equipped with the rotary gear that the gear engagement of mill goes up is connected, the rotation axis lower extreme is equipped with driven pulley, driven pulley passes through the belt with driving pulley connects, external pipeline lower extreme is equipped with turning gear, the chamber wall still rotates under the grinding chamber and is connected with the dwang, the dwang upper end be equipped with turning gear with the driven gear that the gear engagement of mill down is connected.

3. The apparatus for the rapid degradation of fiber material according to claim 1, wherein: mixing mechanism establishes including fixed the pivot lower extreme just is located six stirring vane of hybrid chamber, the terminal surface is fixed with the inductor under the hybrid chamber, the hybrid chamber right side is equipped with the lift chamber, the chamber wall is equipped with the response chamber on the lift chamber, the fixed first magnetism piece that is equipped with in response chamber upper end, response chamber lower extreme is equipped with the second magnetism piece that can reciprocate in the intracavity, terminal surface is fixed be equipped with two elastic spring under the second magnetism piece with response chamber wall connection, the terminal surface is fixed and is equipped with the push rod under the second magnetism piece, the push rod lower extreme stretches into the lift intracavity.

4. The apparatus for the rapid degradation of fiber material according to claim 1, wherein: the pushing mechanism comprises a sliding gear which is connected with the lower end of the transmission shaft through a key and is positioned in the lifting cavity, the lower end of the transmission shaft is also provided with an annular plate, the upper end face of the annular plate is fixedly provided with two stop blocks, the upper ends of the stop blocks are connected with the lower end face of the sliding gear, the left cavity wall of the mixing cavity is provided with a discharge port communicated with the external space, the upper cavity wall and the lower cavity wall in the discharge port are provided with a moving cavity, the moving cavity is internally provided with a baffle plate capable of sliding up and down in the cavity, the lower end face of the baffle plate is fixedly provided with an elastic spring and is connected with the lower cavity wall of the moving cavity, the lower end face of the baffle plate is also fixedly connected with a hemp rope, the right cavity wall of the mixing cavity is provided with a moving cavity with a left opening, the moving cavity is internally provided with a push plate capable of sliding, the utility model discloses a lifting device, including ejector pad, ejector pad intracavity, lifting chamber, flexible spring, rack, ejector pad intracavity is equipped with the ejector pad that can reciprocate in the intracavity, the ejector pad intracavity be equipped with the ejector pad that can reciprocate at the intracavity, the fixed reset spring that is equipped with of ejector pad lower extreme face with ejector pad chamber lower chamber wall fixed connection, ejector pad right-hand member face fixedly connected with string, lifting chamber right side chamber wall is equipped with the spacing chamber of opening left, spacing intracavity is equipped with can be at intracavity horizontal slip's expanding spring, the fixed stay cord that is equipped with of expanding spring right-hand member face with spacing chamber right side chamber wall fixed connection, expanding spring right-hand member face fixedly connected with.

5. The apparatus for the rapid degradation of fiber material according to claim 4, wherein: in an initial state, the sliding gear is located on the upper side of the rack under the action of the two stop blocks, and the sliding gear and the rack are in a disengaged state.