JP6784875B1 - Separation and collection of interior garbage and comprehensive use Environmental protection device - Google Patents

Separation and collection of interior garbage and comprehensive use Environmental protection device Download PDF

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JP6784875B1
JP6784875B1 JP2019135711A JP2019135711A JP6784875B1 JP 6784875 B1 JP6784875 B1 JP 6784875B1 JP 2019135711 A JP2019135711 A JP 2019135711A JP 2019135711 A JP2019135711 A JP 2019135711A JP 6784875 B1 JP6784875 B1 JP 6784875B1
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chamber
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dust
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JP2021000615A (en
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練韓奇
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浦江奇露環保科技有限公司
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/60Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a horizontal or inclined axis
    • B01F27/71Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a horizontal or inclined axis with propellers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C4/00Crushing or disintegrating by roller mills
    • B02C4/02Crushing or disintegrating by roller mills with two or more rollers
    • B02C4/08Crushing or disintegrating by roller mills with two or more rollers with co-operating corrugated or toothed crushing-rollers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B03SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03CMAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
    • B03C1/00Magnetic separation
    • B03C1/02Magnetic separation acting directly on the substance being separated
    • B03C1/10Magnetic separation acting directly on the substance being separated with cylindrical material carriers
    • B03C1/12Magnetic separation acting directly on the substance being separated with cylindrical material carriers with magnets moving during operation; with movable pole pieces
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B1/00Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
    • B07B1/28Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B4/00Separating solids from solids by subjecting their mixture to gas currents
    • B07B4/02Separating solids from solids by subjecting their mixture to gas currents while the mixtures fall
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B09DISPOSAL OF SOLID WASTE; RECLAMATION OF CONTAMINATED SOIL
    • B09BDISPOSAL OF SOLID WASTE
    • B09B3/00Destroying solid waste or transforming solid waste into something useful or harmless
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/30Presses specially adapted for particular purposes for baling; Compression boxes therefor
    • B30B9/306Mechanically-driven presses
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/10Waste collection, transportation, transfer or storage, e.g. segregated refuse collecting, electric or hybrid propulsion

Abstract

【課題】本発明は内装ゴミの分別と回収と総合利用環境保護装置を開示した。【解決手段】主体を含み、前記主体の中には上方に開口した選別チャンバが設置され、前記選別チャンバの中には振動機構が設置され、前記振動機構は選別篩を含み、前記選別篩は内装ゴミから沈泥と細かい粉塵ゴミを選別ろ過でき、前記選別チャンバの右側には砕きチャンバが設置され、前記砕きチャンバが前記選別チャンバと連通でき、前記砕きチャンバの中には砕き機構が設置され、本発明は各新たな住宅地又はビルなどに適用され、こういう場所の内装の過程に生じたゴミを選別と回収でき、選別されたゴミは直接回収利用されることができ、ゴミを集めて埋める必要がなく、内装ゴミをむやみに捨てる現象を減少でき、また現段階のゴミ分別の目標とより良く結合されることができる。【選択図】図1PROBLEM TO BE SOLVED: To disclose an interior waste separation and collection and a comprehensive use environment protection device. SOLUTION: A sorting chamber including a main body and opened upward is installed in the main body, a vibration mechanism is installed in the sorting chamber, the vibration mechanism includes a sorting sieve, and the sorting sieve is provided. Sediment and fine dust dust can be sorted and filtered from the interior dust, a crushing chamber is installed on the right side of the sorting chamber, the crushing chamber can communicate with the sorting chamber, and a crushing mechanism is installed in the crushing chamber. , The present invention is applied to each new residential area or building, and the garbage generated in the process of interior decoration of such a place can be sorted and collected, and the sorted garbage can be directly collected and used, and the garbage can be collected. There is no need to bury it, the phenomenon of unnecessarily throwing away interior waste can be reduced, and it can be better combined with the current waste separation target. [Selection diagram] Fig. 1

Description

本発明はゴミ分別技術分野に関わり、具体的には内装ゴミの分別と回収と総合利用環境保護装置である。 The present invention is related to the field of waste separation technology, and specifically, is an interior waste separation and collection and comprehensive use environment protection device.

現在、都市の発展が速くなり、多くの住宅地と新たなビルは出現し、これは所要の内装材料が多くなるということを示し、内装過程に生じたゴミも絶えずに増え、このゴミは集められて収集処理を行い、しかし異なる種類のゴミを分別する良い方法はまだなく、また不法分子も現れ、直接内装ゴミを随所に捨て、現段階にはゴミ分別の意識は次第に重視され、従って一体式の連動装置を開発する必要があり、内装過程に生じたゴミを分別又は回収でき、内装ゴミから異なる種類のゴミを分類して異なる収集を行い、そうしたら効率的に資源の浪費を減少でき、分別収集されたゴミを改めて総合利用できる。 Nowadays, the city is developing faster, more residential areas and new buildings are emerging, which indicates that more interior materials are required, and the amount of garbage generated during the interior process is constantly increasing, and this garbage is collected. There is still no good way to separate different types of garbage, and illegal molecules also appear, throwing away the interior garbage directly everywhere, and at this stage the awareness of garbage separation is becoming more and more important, so one thing. It is necessary to develop a type interlocking device, which can separate or collect the garbage generated in the interior process, classify different types of garbage from the interior garbage and collect them differently, and then efficiently reduce the waste of resources. , The separately collected garbage can be used comprehensively again.

中国特許出願公開第102319675号明細書Chinese Patent Application Publication No. 102319675

本発明は内装ゴミの分別と回収と総合利用環境保護装置を提供し、既存技術にある上記の欠点を解消することを目的とする。 An object of the present invention is to provide an interior waste separation and collection and a comprehensive use environment protection device, and to eliminate the above-mentioned drawbacks in the existing technology.

本発明の実施例の内装ゴミの分別と回収と総合利用環境保護装置は、主体を含み、前記主体の中には上方に開口した第一チャンバが設置され、前記第一チャンバの中には振動機構が設置され、前記振動機構は選別篩を含み、前記選別篩は内装ゴミから沈泥と細かい粉塵ゴミを選別でき、前記第一チャンバの右側には第二チャンバが設置され、前記第二チャンバが前記第一チャンバと連通でき、前記第二チャンバの中には砕き機構が設置され、前記砕き機構は前記振動機構によって選別された大型ゴミを砕くことができ、前記第一チャンバの下側には第三チャンバが設置され、前記第三チャンバと前記第一チャンバとが連通するように設置され、前記第三チャンバと前記第二チャンバとが連通するように設置され、前記第三チャンバの中には磁気選別機構が設置され、前記磁気選別機構は砕かれたゴミに磁気選別処理を行え、ゴミの中から磁性金属を選別でき、前記第二チャンバの右側には第四チャンバが設置され、前記第四チャンバの中には調節機構が設置され、前記調節機構は前記磁気選別機構と前記砕き機構とを制御して調節でき、前記第三チャンバの下側には第五チャンバが設置され、前記第五チャンバと前記第三チャンバとが連通でき、前記第五チャンバの右側には第六チャンバが設置され、前記第六チャンバが前記第五チャンバと連通でき、前記第六チャンバの中には収集機構が設置され、前記収集機構は前記振動機構によってろ過された沈泥と粉塵ゴミとを加湿して貯蔵することができ、また前記砕き機構によって砕かれた後に生じた細かいゴミも加湿して貯蔵し、前記第五チャンバの下側には第七チャンバが設置され、前記第五チャンバと前記第七チャンバとが連通するように設置され、前記第七チャンバの中には圧力かけ機構が設置され、前記圧力かけ機構は残ったゴミを塊状に押し出すことができ、収集することに便利を与える。 The interior dust separation, collection and comprehensive use environment protection device according to the embodiment of the present invention includes a main body, in which a first chamber opened upward is installed in the main body, and vibration occurs in the first chamber. A mechanism is installed, the vibration mechanism includes a sorting sieve, the sorting sieve can sort sediment and fine dust dust from internal dust, and a second chamber is installed on the right side of the first chamber, and the second chamber is installed. Can communicate with the first chamber, a crushing mechanism is installed in the second chamber, and the crushing mechanism can crush large dust selected by the vibration mechanism, and is located below the first chamber. Is installed so that the third chamber and the first chamber communicate with each other, and the third chamber and the second chamber communicate with each other, and the inside of the third chamber is installed. A magnetic sorting mechanism is installed in the machine, and the magnetic sorting mechanism can perform a magnetic sorting process on crushed dust to sort magnetic metal from the dust, and a fourth chamber is installed on the right side of the second chamber. An adjusting mechanism is installed in the fourth chamber, the adjusting mechanism can control and adjust the magnetic sorting mechanism and the crushing mechanism, and a fifth chamber is installed below the third chamber. The fifth chamber and the third chamber can communicate with each other, a sixth chamber is installed on the right side of the fifth chamber, the sixth chamber can communicate with the fifth chamber, and the sixth chamber is inside the sixth chamber. A collection mechanism is installed, and the collection mechanism can humidify and store the sediment filtered by the vibration mechanism and dust dust, and also humidifies the fine dust generated after being crushed by the crushing mechanism. A seventh chamber is installed below the fifth chamber, the fifth chamber and the seventh chamber are installed so as to communicate with each other, and a pressure applying mechanism is installed in the seventh chamber. The pressure-applying mechanism can push out the remaining dust in a lump, which is convenient for collecting.

さらなる技術プランには、前記振動機構は前記選別篩を含み、前記選別篩の中には篩孔が設置され、前記第一チャンバの左側には第八チャンバが設置され、前記第八チャンバと前記第一チャンバとが連通するように設置され、前記第八チャンバの内壁には第一スライダが上下にスライドできるように設置され、前記第一チャンバの右壁には第二スライダが上下にスライドするように設置され、前記第一チャンバの後壁には第一水管が連結され、前記第一水管と外部の水源とが連通しており、前記第一水管が前記第二スライダの下側に位置しており、前記第一水管の左側面にはノズルが固定的に連結され、前記選別篩が前記第二スライダと前記第一スライダと連結され、前記第一スライダの底面と前記第八チャンバの底壁との間にはばねが装着され、前記第八チャンバの左側には第九チャンバが設置され、前記第九チャンバの左壁には第一モーターが固定的に連結され、前記第一モーターの右側には第一モーター軸が動力が伝達できるように設置され、前記第一モーター軸の右方へ伸びている部分が前記第九チャンバの右側内壁を貫通しており、且つ前記第八チャンバの中に伸びており、また前記第一モーター軸の右方へ伸びている部分の右側面には回転盤が固定的に連結されている。 In a further technical plan, the vibration mechanism includes the sorting sieve, a sieve hole is installed in the sorting sieve, an eighth chamber is installed on the left side of the first chamber, and the eighth chamber and the sorting sieve are installed. It is installed so as to communicate with the first chamber, the first slider is installed on the inner wall of the eighth chamber so that it can slide up and down, and the second slider slides up and down on the right wall of the first chamber. The first water pipe is connected to the rear wall of the first chamber, the first water pipe and an external water source are communicated with each other, and the first water pipe is located below the second slider. A nozzle is fixedly connected to the left side surface of the first water pipe, the sorting sieve is connected to the second slider and the first slider, and the bottom surface of the first slider and the eighth chamber. A spring is mounted between the bottom wall and the ninth chamber is installed on the left side of the eighth chamber, and the first motor is fixedly connected to the left wall of the ninth chamber. The first motor shaft is installed on the right side so that power can be transmitted, and the portion extending to the right of the first motor shaft penetrates the right inner wall of the ninth chamber and the eighth chamber. A turntable is fixedly connected to the right side surface of the portion extending to the right of the first motor shaft.

さらなる技術プランには、前記砕き機構は前記第二チャンバの後壁に回転できるように設置された二つの第一回転軸を含み、二つの前記第一回転軸が左右対称的に設置され、前記第一回転軸の外周にはいずれも砕き輪が固定的に連結され、前記砕き輪の外周にはいずれも均等的に配列されている六つの砕きカッターが固定的に連結され、前記第二チャンバの後側には第十チャンバが設置され、二つの前記第一回転軸が後方へ延びている部分が前記第二チャンバの後壁を貫通しており、且つ前記第十チャンバの中に伸び、またが後方へ延びている部分の後側面にはいずれも第一ベルトプーリが固定的に連結され、二つの前記第一ベルトプーリの間には第一ベルトが装着されている。 In a further technical plan, the crushing mechanism includes two first rotating shafts installed so as to be rotatable on the rear wall of the second chamber, and the two first rotating shafts are installed symmetrically. A crushing ring is fixedly connected to the outer periphery of the first rotating shaft, and six crushing cutters, all of which are evenly arranged, are fixedly connected to the outer periphery of the crushing ring. A tenth chamber is installed on the rear side, and a portion where the two first rotation axes extend rearward penetrates the rear wall of the second chamber and extends into the tenth chamber. A first belt pulley is fixedly connected to the rear side surface of the portion extending rearward, and a first belt is mounted between the two first belt pulleys.

さらなる技術プランには、前記磁気選別機構は前記第三チャンバの後壁に回転できるように設置された第二回転軸を含み、前記第二回転軸の外周にはトライアングルが固定的に連結され、前記トライアングルの底面には対称的に設置された三つの磁石が固定的に連結され、前記第二回転軸の後方へ延びている部分が前記第三チャンバの後壁を貫通しており、且つ前記第十チャンバの中に伸び、前記第三チャンバの後壁の中には案内スライド溝が形成されており、前記案内スライド溝と前記第十チャンバとが連通するように設置され、前記案内スライド溝の中にはスライドできるスライド板が左右にスライドできるように設置され、前記スライド板が前記第三チャンバと前記第五チャンバとを連結して又は閉鎖することができる。 In a further technical plan, the magnetic sorting mechanism includes a second rotating shaft rotatably installed on the rear wall of the third chamber, and a triangle is fixedly connected to the outer circumference of the second rotating shaft. Three symmetrically installed magnets are fixedly connected to the bottom surface of the triangle, and a portion extending rearward of the second rotation axis penetrates the rear wall of the third chamber, and the said A guide slide groove is formed in the rear wall of the third chamber extending into the tenth chamber, and the guide slide groove is installed so as to communicate with the tenth chamber. A slideable slide plate is installed inside so that it can slide left and right, and the slide plate can connect or close the third chamber and the fifth chamber.

さらなる技術プランには、前記圧力かけ機構は前記第七チャンバの前後壁に左右にスライドできるように設置された第三スライダを含み、前記第三スライダの左側面には第一ロッドが固定的に連結され、前記第七チャンバと前記第九チャンバとの間には第三回転軸が回転できるように設置され、前記第三回転軸が上下に伸びるように設置され、前記第三回転軸の下方へ延びている部分が前記第七チャンバの中に伸び、また前記第三回転軸の下方へ延びている部分の底面には回転盤が固定的に連結され、前記回転盤には第二ロッドがヒンジで連結され、前記第二ロッドと前記第一ロッドとが互いにヒンジで連結され、前記第九チャンバの左壁には第四回転軸が回転できるように設置され、前記第四回転軸の外周には第一ベベルギヤが固定的に連結され、前記第三回転軸の上方へ延びている部分が前記第九チャンバの中に伸び、また前記第三回転軸の上方へ延びている部分の頂面には第二ベベルギヤが固定的に連結され、前記第二ベベルギヤと前記第一ベベルギヤとが噛み合っており、前記第四回転軸の外周には第二ベルトプーリが固定的に連結され、前記第二ベルトプーリが前記第一ベベルギヤの右側に位置しており、前記第九チャンバの中に位置している前記第一モーター軸の外周には第三ベルトプーリが固定的に連結され、前記第三ベルトプーリと前記第二ベルトプーリとの間には第二ベルトが装着されている。 In a further technical plan, the pressure-applying mechanism includes a third slider installed on the front and rear walls of the seventh chamber so that it can slide left and right, and a first rod is fixedly attached to the left side surface of the third slider. Connected, the third rotation shaft is installed between the seventh chamber and the ninth chamber so as to be rotatable, the third rotation shaft is installed so as to extend vertically, and below the third rotation shaft. A rotating disk extends into the seventh chamber, and a rotating disk is fixedly connected to the bottom surface of the portion extending downward of the third rotating shaft, and a second rod is attached to the rotating disk. The second rod and the first rod are connected by a hinge, and the second rod and the first rod are connected to each other by a hinge, and the fourth rotation shaft is installed on the left wall of the ninth chamber so as to be rotatable, and the outer circumference of the fourth rotation shaft The first bevel gear is fixedly connected to the surface, and the portion extending upward of the third rotating shaft extends into the ninth chamber, and the top surface of the portion extending upward of the third rotating shaft. The second bevel gear is fixedly connected to the second bevel gear, the second bevel gear and the first bevel gear are meshed with each other, and the second belt pulley is fixedly connected to the outer periphery of the fourth rotating shaft. The belt pulley is located on the right side of the first bevel gear, and the third belt pulley is fixedly connected to the outer periphery of the first motor shaft located in the ninth chamber, and the third belt is fixedly connected. A second belt is mounted between the pulley and the second belt pulley.

さらなる技術プランには、前記収集機構は前記第六チャンバの後壁に回転できるように設置された平板を含み、前記平板が前記第六チャンバと前記第五チャンバとを連通して又は閉鎖することができ、前記第六チャンバの後壁には第五回転軸が回転できるように設置され、前記第五回転軸の外周には回転柱が固定的に連結され、前記回転柱の外周には均等的に配列されている六つの軽量撹拌羽根が固定的に連結され、前記第六チャンバの右側には第二水管が連通しており、前記第二水管と外部の水源とが連通しており、前記第四回転軸の右方へ延びている部分が前記第九チャンバの右側内壁を貫通しており、且つ前記第五チャンバの中に伸び、また前記第四回転軸の右方へ延びている部分の右側面にはファンが固定的に連結されている。 In a further technical plan, the collection mechanism includes a flat plate rotatably installed on the rear wall of the sixth chamber, the flat plate communicating with or closing the sixth chamber and the fifth chamber. The fifth rotating shaft is installed on the rear wall of the sixth chamber so that the fifth rotating shaft can rotate, and the rotating pillar is fixedly connected to the outer periphery of the fifth rotating shaft, and is evenly connected to the outer circumference of the rotating pillar. Six lightweight stirring blades arranged in a linear manner are fixedly connected, and a second water pipe communicates with the right side of the sixth chamber, and the second water pipe communicates with an external water source. The portion extending to the right of the fourth rotation axis penetrates the right inner wall of the ninth chamber, extends into the fifth chamber, and extends to the right of the fourth rotation axis. A fan is fixedly connected to the right side of the portion.

さらなる技術プランには、前記調節機構は前記第四チャンバの右側内壁の中に回転できるように設置されたねじ山付きスリーブを含み、前記ねじ山付きスリーブが前記主体の外部まで延びており、また前記ねじ山付きスリーブの右側面にはハンドホイールが固定的に連結され、前記第四チャンバの左側には第十一チャンバが設置され、前記第十一チャンバと前記第四チャンバとが連通するように設置され、前記ねじ山付きスリーブの左方へ延びている部分が前記第四チャンバを貫通しており、且つ前記第十一チャンバの中に伸びており、前記ねじ山付きスリーブが前記第十一チャンバの内壁に回転できるように設置され、前記第十一チャンバの内壁には閉鎖ブロックが左右にスライドできるように設置され、前記閉鎖ブロックが前記第一チャンバと前記第二チャンバとを連通して又は閉鎖することができ、前記閉鎖ブロックの右側面には第一スクリューが固定的に連結され、前記第一スクリューと前記ねじ山付きスリーブとがネジ山によって協働でき、前記第四チャンバの中に位置している前記ねじ山付きスリーブの外周には第三ベベルギヤが固定的に連結され、前記第四チャンバの下側には第十二チャンバが設置され、前記第十二チャンバと前記第十チャンバとが連通するように設置され、前記第十二チャンバと前記第四チャンバとの間の内壁には第六回転軸が回転できるように設置され、前記第六回転軸が上下に伸びるように設置され、前記第六回転軸の上方へ延びている部分が前記第四チャンバの中に伸びており、また前記第六回転軸の上方へ延びている部分の頂面には第四ベベルギヤが固定的に連結され、前記第四ベベルギヤと前記第三ベベルギヤとが噛み合っている。 In a further technical plan, the adjustment mechanism includes a threaded sleeve rotatably installed in the right inner wall of the fourth chamber, the threaded sleeve extending outside the subject, and A hand wheel is fixedly connected to the right side surface of the threaded sleeve, and an eleventh chamber is installed on the left side of the fourth chamber so that the eleventh chamber and the fourth chamber communicate with each other. A portion of the threaded sleeve extending to the left penetrates the fourth chamber and extends into the eleventh chamber, and the threaded sleeve extends to the tenth chamber. It is installed so that it can rotate on the inner wall of one chamber, and the closing block is installed on the inner wall of the eleventh chamber so that it can slide left and right, and the closing block communicates the first chamber and the second chamber. The first screw is fixedly connected to the right side surface of the closing block, and the first screw and the threaded sleeve can cooperate with each other by the threads of the fourth chamber. A third bevel gear is fixedly connected to the outer periphery of the threaded sleeve located inside, and a twelfth chamber is installed below the fourth chamber, and the twelfth chamber and the first chamber are installed. The ten chambers are installed so as to communicate with each other, and the sixth rotation shaft is installed on the inner wall between the twelfth chamber and the fourth chamber so that the sixth rotation shaft can rotate, so that the sixth rotation shaft extends up and down. A fourth bevel gear is installed on the top surface of the portion extending upward of the sixth rotating shaft extending into the fourth chamber, and extending upward of the sixth rotating shaft. It is fixedly connected, and the fourth bevel gear and the third bevel gear are in mesh with each other.

さらなる技術プランには、前記第六回転軸の下方へ延びている部分が前記第十二チャンバの中に伸びており、且つ前記第十二チャンバの底壁と回転できるように連結され、前記第十二チャンバの右壁には固定板がスライドできるように設置され、前記固定板と前記第六回転軸とがネジ山によって協働でき、前記固定板の左側面には第二モーターが固定的に連結され、前記第二モーターの後側面には第二モーター軸が動力が伝達できるように連結され、前記第二モーター軸が前記第十チャンバの中に伸びており、また前記第二モーター軸の後側面には第一ギヤが固定的に連結され、前記第十チャンバの後壁には第七回転軸が回転できるように設置され、前記第七回転軸の外周には第二ギヤが固定的に連結され、前記第二ギヤと前記第一ギヤとが噛み合うことができ、前記スライド板の頂部壁にはラックが固定的に連結され、前記スライド板の頂部壁に固定的に連結されたラックと前記第二ギヤとが噛み合っており、前記第十チャンバの後壁には第八回転軸が回転できるように設置され、前記第八回転軸が前記第七回転軸の上側に位置しており、前記第八回転軸の外周には第三ギヤが固定的に連結され、前記第三ギヤと前記第一ギヤとが噛み合うことができ、前記第八回転軸と、前記第二回転軸と、左側に位置している第一回転軸との間は第三ベルトが互いに装着されている。 In a further technical plan, the downwardly extending portion of the sixth rotation axis extends into the twelfth chamber and is rotatably connected to the bottom wall of the twelfth chamber. A fixing plate is installed on the right wall of the twelve chamber so that it can slide, the fixing plate and the sixth rotating shaft can cooperate with each other by threads, and a second motor is fixed on the left side surface of the fixing plate. The second motor shaft is connected to the rear side surface of the second motor so that power can be transmitted, the second motor shaft extends into the tenth chamber, and the second motor shaft extends into the tenth chamber. The first gear is fixedly connected to the rear side surface, the seventh rotating shaft is installed on the rear wall of the tenth chamber so that the seventh rotating shaft can rotate, and the second gear is fixed on the outer periphery of the seventh rotating shaft. The second gear and the first gear can be meshed with each other, and the rack is fixedly connected to the top wall of the slide plate and fixedly connected to the top wall of the slide plate. The rack and the second gear are engaged with each other, and the eighth rotating shaft is installed on the rear wall of the tenth chamber so that the eighth rotating shaft can rotate, and the eighth rotating shaft is located above the seventh rotating shaft. A third gear is fixedly connected to the outer periphery of the eighth rotating shaft, and the third gear and the first gear can mesh with each other, and the eighth rotating shaft and the second rotating shaft , Third belts are attached to each other with the first rotation shaft located on the left side.

本発明の有益な効果:本発明は各新たな住宅地又はビルなどに適用され、こういう場所の内装の過程に生じたゴミを選別と回収でき、選別されたゴミは直接回収利用されることができ、ゴミを集めて埋める必要がなく、内装ゴミをむやみに捨てる現象を減少でき、また現段階のゴミ分別の目標とより良く結合されることができ、資源の浪費を下げ、振動機構は内装ゴミの中の沈泥と細かいゴミとを選別でき、磁気選別機構は磁性を持つ金属を選別でき、収集機構は沈泥と細かいゴミとを水と混合して固定的に貯蔵することができ、収集することに便利を与え、圧力かけ機構はゴミを塊状に押すことができ、貯蔵空間を省き、砕き機構はゴミを砕くことができ、装置全体は複数のところが連動し、モーターの使用数を減少し、効率的にコストを下げることができる。 Beneficial effect of the present invention: The present invention is applied to each new residential area or building, and can sort and collect the dust generated in the process of interior decoration of such a place, and the sorted dust can be directly collected and used. It can be done, there is no need to collect and bury garbage, the phenomenon of unnecessarily dumping interior garbage can be reduced, it can be better combined with the current garbage separation target, waste of resources is reduced, and the vibration mechanism is interior. The sediment in the garbage and fine dust can be sorted, the magnetic sorting mechanism can sort magnetic metals, and the collection mechanism can mix the sediment and fine dust with water and store them in a fixed manner. Convenient for collecting, the pressure-applying mechanism can push the trash in a lump, save the storage space, the crushing mechanism can crush the trash, the whole device works in multiple places, and the number of motors used It can be reduced and the cost can be reduced efficiently.

下記に図1〜3をあわせて本発明について詳しく説明し、便利に説明するために、下記の方向を以下のように規定する:図1は本発明装置の正面図であり、以下に述べる上下左右前後の方向と図1の自身投影関係の上下左右前後の方向とが一致である。 In order to explain the present invention in detail and conveniently explain the present invention together with FIGS. 1 to 3 below, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and the top and bottom described below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

図1は本発明の内部全体構造略図FIG. 1 is a schematic diagram of the entire internal structure of the present invention. 図2は本発明の中の第十チャンバの構造略図FIG. 2 is a schematic structure of the tenth chamber in the present invention. 図3は本発明の図1の中のAの拡大略図FIG. 3 is an enlarged schematic view of A in FIG. 1 of the present invention.

図1〜3を参照し、本発明の実施例の内装ゴミの分別と回収と総合利用環境保護装置は、主体23を含み、前記主体23の中には上方に開口した第一チャンバ11が設置され、前記第一チャンバ11の中には振動機構101が設置され、前記振動機構101は選別篩12を含み、前記選別篩12は内装ゴミから沈泥と細かい粉塵ゴミを選別でき、前記第一チャンバ11の右側には第二チャンバ60が設置され、前記第二チャンバ60が前記第一チャンバ11と連通でき、前記第二チャンバ60の中には砕き機構106が設置され、前記砕き機構106は前記振動機構101によって選別された大型ゴミを砕くことができ、前記第一チャンバ11の下側には第三チャンバ51が設置され、前記第三チャンバ51と前記第一チャンバ11とが連通するように設置され、前記第三チャンバ51と前記第二チャンバ60とが連通するように設置され、前記第三チャンバ51の中には磁気選別機構102が設置され、前記磁気選別機構102は砕かれたゴミに磁気選別処理を行え、ゴミの中から磁性金属を選別でき、前記第二チャンバ60の右側には第四チャンバ57が設置され、前記第四チャンバ57の中には調節機構105が設置され、前記調節機構105は前記磁気選別機構102と前記砕き機構106とを制御して調節でき、前記第三チャンバ51の下側には第五チャンバ34が設置され、前記第五チャンバ34と前記第三チャンバ51とが連通でき、前記第五チャンバ34の右側には第六チャンバ39が設置され、前記第六チャンバ39が前記第五チャンバ34と連通でき、前記第六チャンバ39の中には収集機構103が設置され、前記収集機構103は前記振動機構101によってろ過された沈泥と粉塵ゴミとを加湿して貯蔵することができ、また前記砕き機構106によって砕かれた後に生じた細かいゴミも加湿して貯蔵し、前記第五チャンバ34の下側には第七チャンバ31が設置され、前記第五チャンバ34と前記第七チャンバ31とが連通するように設置され、前記第七チャンバ31の中には圧力かけ機構104が設置され、前記圧力かけ機構104は残ったゴミを塊状に押し出すことができ、収集することに便利を与える。 With reference to FIGS. 1 to 3, the interior dust separation, collection and comprehensive use environment protection device of the embodiment of the present invention includes the main body 23, and the first chamber 11 opened upward is installed in the main body 23. A vibration mechanism 101 is installed in the first chamber 11, the vibration mechanism 101 includes a sorting sieve 12, and the sorting sieve 12 can sort sediment and fine dust dust from the internal dust. A second chamber 60 is installed on the right side of the chamber 11, the second chamber 60 can communicate with the first chamber 11, a crushing mechanism 106 is installed in the second chamber 60, and the crushing mechanism 106 is Large dust selected by the vibration mechanism 101 can be crushed, and a third chamber 51 is installed below the first chamber 11 so that the third chamber 51 and the first chamber 11 communicate with each other. The third chamber 51 and the second chamber 60 are installed so as to communicate with each other, a magnetic sorting mechanism 102 is installed in the third chamber 51, and the magnetic sorting mechanism 102 is crushed. A magnetic sorting process can be performed on dust, and magnetic metal can be sorted from dust. A fourth chamber 57 is installed on the right side of the second chamber 60, and an adjusting mechanism 105 is installed in the fourth chamber 57. The adjusting mechanism 105 can control and adjust the magnetic sorting mechanism 102 and the crushing mechanism 106, and a fifth chamber 34 is installed below the third chamber 51, and the fifth chamber 34 and the first chamber 34 are installed. A sixth chamber 39 is installed on the right side of the fifth chamber 34 so that the three chambers 51 can communicate with each other, the sixth chamber 39 can communicate with the fifth chamber 34, and collection is performed in the sixth chamber 39. A mechanism 103 is installed, and the collecting mechanism 103 can humidify and store the sediment filtered by the vibration mechanism 101 and the dust dust, and also the fine dust generated after being crushed by the crushing mechanism 106. It is humidified and stored, and a seventh chamber 31 is installed below the fifth chamber 34, and the fifth chamber 34 and the seventh chamber 31 are installed so as to communicate with each other. A pressure applying mechanism 104 is installed inside, and the pressure applying mechanism 104 can push out the remaining dust in a lump, which is convenient for collecting.

また、一つの実施例の中に、前記振動機構101は前記選別篩12を含み、前記選別篩12の中には篩孔78が設置され、前記第一チャンバ11の左側には第八チャンバ13が設置され、前記第八チャンバ13と前記第一チャンバ11とが連通するように設置され、前記第八チャンバ13の内壁には第一スライダ15が上下にスライドできるように設置され、前記第一チャンバ11の右壁には第二スライダ75が上下にスライドするように設置され、前記第一チャンバ11の後壁には第一水管74が連結され、前記第一水管74と外部の水源とが連通しており、前記第一水管74が前記第二スライダ75の下側に位置しており、前記第一水管74の左側面にはノズル76が固定的に連結され、前記選別篩12が前記第二スライダ75と前記第一スライダ15と連結され、前記第一スライダ15の底面と前記第八チャンバ13の底壁との間にはばね16が装着され、前記第八チャンバ13の左側には第九チャンバ77が設置され、前記第九チャンバ77の左壁には第一モーター17が固定的に連結され、前記第一モーター17の右側には第一モーター軸18が動力が伝達できるように設置され、前記第一モーター軸18の右方へ伸びている部分が前記第九チャンバ77の右側内壁を貫通しており、且つ前記第八チャンバ13の中に伸びており、また前記第一モーター軸18の右方へ伸びている部分の右側面には回転盤14が固定的に連結され、前記第一モーター17の回転によって、前記第一モーター軸18が回転でき、更に前記回転盤14を回転させて前記第一スライダ15に圧力をかけ、それによって前記第一スライダ15を下方へスライドさせ、前記ばね16が前記第一スライダ15に振動効果を達させることができ、それによって前記選別篩12が振動効果を持ち、前記ノズル76が水を噴出させてゴミを加湿することができ、収集することに便利を与える。 Further, in one embodiment, the vibration mechanism 101 includes the sorting sieve 12, a sieve hole 78 is installed in the sorting sieve 12, and an eighth chamber 13 is provided on the left side of the first chamber 11. Is installed so that the eighth chamber 13 and the first chamber 11 communicate with each other, and the first slider 15 is installed on the inner wall of the eighth chamber 13 so as to slide up and down. A second slider 75 is installed on the right wall of the chamber 11 so as to slide up and down, a first water pipe 74 is connected to the rear wall of the first chamber 11, and the first water pipe 74 and an external water source are connected to each other. The first water pipe 74 is located below the second slider 75, the nozzle 76 is fixedly connected to the left side surface of the first water pipe 74, and the sorting sieve 12 is connected to the sorting sieve 12. A spring 16 is mounted between the bottom surface of the first slider 15 and the bottom wall of the eighth chamber 13 in connection with the second slider 75 and the first slider 15, and on the left side of the eighth chamber 13. A ninth chamber 77 is installed, a first motor 17 is fixedly connected to the left wall of the ninth chamber 77, and a first motor shaft 18 can transmit power to the right side of the first motor 17. The installed portion extending to the right of the first motor shaft 18 penetrates the right inner wall of the ninth chamber 77 and extends into the eighth chamber 13, and the first motor A turntable 14 is fixedly connected to the right side surface of the portion extending to the right of the shaft 18, and the first motor shaft 18 can be rotated by the rotation of the first motor 17, and the turntable 14 is further connected. Rotate to apply pressure to the first slider 15, thereby sliding the first slider 15 downwards, allowing the spring 16 to exert a vibrating effect on the first slider 15, thereby causing the sorting sieve. 12 has a vibration effect, and the nozzle 76 can eject water to humidify dust, which is convenient for collecting.

また、一つの実施例の中に、前記砕き機構106は前記第二チャンバ60の後壁に回転できるように設置された二つの第一回転軸61を含み、二つの前記第一回転軸61が左右対称的に設置され、前記第一回転軸61の外周にはいずれも砕き輪62が固定的に連結され、前記砕き輪62の外周にはいずれも均等的に配列されている六つの砕きカッター63が固定的に連結され、前記第二チャンバ60の後側には第十チャンバ64が設置され、二つの前記第一回転軸61が後方へ延びている部分が前記第二チャンバ60の後壁を貫通しており、且つ前記第十チャンバ64の中に伸び、また前記第一回転軸61が後方へ延びている部分の後側面にはいずれも第一ベルトプーリ72が固定的に連結され、二つの前記第一ベルトプーリ72の間には第一ベルト73が装着され、前記第一ベルト73の伝動によって、二つの前記第一回転軸61が回転し、更に前記砕き輪62をいずれも回転させ、ゴミを砕く効果を達する。 Further, in one embodiment, the crushing mechanism 106 includes two first rotating shafts 61 installed so as to be rotatable on the rear wall of the second chamber 60, and the two first rotating shafts 61 are included. Six crushing cutters are installed symmetrically, the crushing rings 62 are fixedly connected to the outer periphery of the first rotating shaft 61, and all are evenly arranged on the outer periphery of the crushing ring 62. 63 is fixedly connected, a tenth chamber 64 is installed on the rear side of the second chamber 60, and a portion where the two first rotating shafts 61 extend rearward is the rear wall of the second chamber 60. The first belt pulley 72 is fixedly connected to the rear side surface of the portion that penetrates the tenth chamber 64 and extends into the tenth chamber 64, and the first rotating shaft 61 extends rearward. A first belt 73 is mounted between the two first belt pulleys 72, and the transmission of the first belt 73 causes the two first rotating shafts 61 to rotate, and further rotates the crushing ring 62. It has the effect of crushing dust.

また、一つの実施例の中に、前記磁気選別機構102は前記第三チャンバ51の後壁に回転できるように設置された第二回転軸46を含み、前記第二回転軸46の外周にはトライアングル47が固定的に連結され、前記トライアングル47の底面には対称的に設置された三つの磁石48が固定的に連結され、前記第二回転軸46の後方へ延びている部分が前記第三チャンバ51の後壁を貫通しており、且つ前記第十チャンバ64の中に伸び、前記第三チャンバ51の後壁の中には案内スライド溝41が形成されており、前記案内スライド溝41と前記第十チャンバ64とが連通するように設置され、前記案内スライド溝41の中にはスライドできるスライド板42が左右にスライドできるように設置され、前記スライド板42が前記第三チャンバ51と前記第五チャンバ34とを連結して又は閉鎖することができ、前記第二回転軸46の回転によって、トライアングル47を回転させ、また前記磁石48によって磁気選別効果を達することができる。 Further, in one embodiment, the magnetic sorting mechanism 102 includes a second rotating shaft 46 installed so as to be rotatable on the rear wall of the third chamber 51, and is provided on the outer periphery of the second rotating shaft 46. The triangle 47 is fixedly connected, and three magnets 48 symmetrically installed are fixedly connected to the bottom surface of the triangle 47, and the portion extending rearward of the second rotating shaft 46 is the third. A guide slide groove 41 is formed in the rear wall of the third chamber 51 and penetrates the rear wall of the chamber 51 and extends into the tenth chamber 64. The tenth chamber 64 is installed so as to communicate with each other, and a slide plate 42 that can slide is installed in the guide slide groove 41 so as to slide left and right, and the slide plate 42 is installed between the third chamber 51 and the third chamber 51. The fifth chamber 34 can be connected or closed, the rotation of the second rotating shaft 46 can rotate the triangle 47, and the magnet 48 can achieve the magnetic sorting effect.

また、一つの実施例の中に、前記圧力かけ機構104は前記第七チャンバ31の前後壁に左右にスライドできるように設置された第三スライダ32を含み、前記第三スライダ32の左側面には第一ロッド30が固定的に連結され、前記第七チャンバ31と前記第九チャンバ77との間には第三回転軸26が回転できるように設置され、前記第三回転軸26が上下に伸びるように設置され、前記第三回転軸26の下方へ延びている部分が前記第七チャンバ31の中に伸び、また前記第三回転軸26の下方へ延びている部分の底面には回転盤27が固定的に連結され、前記回転盤27には第二ロッド29がヒンジで連結され、前記第二ロッド29と前記第一ロッド30とが互いにヒンジで連結され、前記第九チャンバ77の左壁には第四回転軸21が回転できるように設置され、前記第四回転軸21の外周には第一ベベルギヤ22が固定的に連結され、前記第三回転軸26の上方へ延びている部分が前記第九チャンバ77の中に伸び、また前記第三回転軸26の上方へ延びている部分の頂面には第二ベベルギヤ25が固定的に連結され、前記第二ベベルギヤ25と前記第一ベベルギヤ22とが噛み合っており、前記第四回転軸21の外周には第二ベルトプーリ24が固定的に連結され、前記第二ベルトプーリ24が前記第一ベベルギヤの右側に位置しており、前記第九チャンバ77の中に位置している前記第一モーター軸18の外周には第三ベルトプーリ19が固定的に連結され、前記第三ベルトプーリ19と前記第二ベルトプーリ24との間には第二ベルト20が装着され、前記第一モーター軸18の回転によって、前記第二ベルト20が伝動でき、それによって前記第四回転軸21が回転し、更に前記第三回転軸26を回転させ、それによって前記第三スライダ32が左右にスライドでき、ゴミを塊状に押す効果を達し、収集することに便利を与える。 Further, in one embodiment, the pressure applying mechanism 104 includes a third slider 32 installed on the front and rear walls of the seventh chamber 31 so as to be slid to the left and right, and is provided on the left side surface of the third slider 32. The first rod 30 is fixedly connected, and the third rotating shaft 26 is installed between the seventh chamber 31 and the ninth chamber 77 so that the third rotating shaft 26 can rotate, and the third rotating shaft 26 moves up and down. A rotating disk is installed so as to extend, a portion extending downward of the third rotating shaft 26 extends into the seventh chamber 31, and a rotating disk extends below the third rotating shaft 26. 27 is fixedly connected, the second rod 29 is connected to the turntable 27 by a hinge, the second rod 29 and the first rod 30 are connected to each other by a hinge, and the left of the ninth chamber 77. The fourth rotating shaft 21 is installed on the wall so that it can rotate, and the first bevel gear 22 is fixedly connected to the outer periphery of the fourth rotating shaft 21 and extends upward of the third rotating shaft 26. A second bevel gear 25 is fixedly connected to the top surface of a portion extending into the ninth chamber 77 and extending upward of the third rotating shaft 26, and the second bevel gear 25 and the first The bevel gear 22 is engaged, the second belt pulley 24 is fixedly connected to the outer periphery of the fourth rotating shaft 21, and the second belt pulley 24 is located on the right side of the first bevel gear. A third belt pulley 19 is fixedly connected to the outer periphery of the first motor shaft 18 located in the ninth chamber 77, and is between the third belt pulley 19 and the second belt pulley 24. The second belt 20 is attached, and the second belt 20 can be transmitted by the rotation of the first motor shaft 18, whereby the fourth rotating shaft 21 is rotated and the third rotating shaft 26 is further rotated. As a result, the third slider 32 can slide left and right, achieving the effect of pushing dust in a lump, which is convenient for collecting.

また、一つの実施例の中に、前記収集機構103は前記第六チャンバ39の後壁に回転できるように設置された平板40を含み、前記平板40が前記第六チャンバ39と前記第五チャンバ34とを連通して又は閉鎖することができ、前記第六チャンバ39の後壁には第五回転軸36が回転できるように設置され、前記第五回転軸36の外周には回転柱37が固定的に連結され、前記回転柱37の外周には均等的に配列されている六つの軽量撹拌羽根38が固定的に連結され、前記第六チャンバ39の右側には第二水管49が連通しており、前記第二水管49と外部の水源とが連通しており、前記第四回転軸21の右方へ延びている部分が前記第九チャンバ77の右側内壁を貫通しており、且つ前記第五チャンバ34の中に伸び、また前記第四回転軸21の右方へ延びている部分の右側面にはファン33が固定的に連結され、前記第四回転軸21の回転によって、前記ファン33が回転でき、前記ファン33の風力は前記平板40を吹き動かし、また沈泥と軽量ゴミとを前記第六チャンバ39の中に吹き込み、前記第二水管49によって前記第六チャンバ39の中に水を入らせ、ゴミを加湿し、収集することに便利を与え、前記ファン33の風力及び前記第二水管49から流れ込んだ水によって前記軽量撹拌羽根38を回転させ、ゴミを軽く撹拌し、再び前記第六チャンバ39を飛び出すことはしない。 Further, in one embodiment, the collecting mechanism 103 includes a flat plate 40 installed so as to be rotatable on the rear wall of the sixth chamber 39, and the flat plate 40 includes the sixth chamber 39 and the fifth chamber. It can communicate with or close with 34, and is installed on the rear wall of the sixth chamber 39 so that the fifth rotating shaft 36 can rotate, and a rotating column 37 is provided on the outer periphery of the fifth rotating shaft 36. Six lightweight stirring blades 38 that are fixedly connected and evenly arranged on the outer circumference of the rotating column 37 are fixedly connected, and a second water pipe 49 communicates with the right side of the sixth chamber 39. The second water pipe 49 and an external water source are in communication with each other, and a portion extending to the right of the fourth rotating shaft 21 penetrates the right inner wall of the ninth chamber 77, and the above. A fan 33 is fixedly connected to the right side surface of a portion extending into the fifth chamber 34 and extending to the right of the fourth rotating shaft 21, and the rotation of the fourth rotating shaft 21 causes the fan to rotate. 33 can rotate, the wind force of the fan 33 blows the flat plate 40, and mud and lightweight dust are blown into the sixth chamber 39, and the second water pipe 49 into the sixth chamber 39. The lightweight stirring blade 38 is rotated by the wind force of the fan 33 and the water flowing from the second water pipe 49 to allow water to enter, humidify the dust, and collect the dust, and the dust is lightly stirred and again. The sixth chamber 39 is not popped out.

また、一つの実施例の中に、前記調節機構105は前記第四チャンバ57の右側内壁の中に回転できるように設置されたねじ山付きスリーブ55を含み、前記ねじ山付きスリーブ55が前記主体23の外部まで延びており、また前記ねじ山付きスリーブ55の右側面にはハンドホイール56が固定的に連結され、前記第四チャンバ57の左側には第十一チャンバ53が設置され、前記第十一チャンバ53と前記第四チャンバ57とが連通するように設置され、前記ねじ山付きスリーブ55の左方へ延びている部分が前記第四チャンバ57を貫通しており、且つ前記第十一チャンバ53の中に伸びており、前記ねじ山付きスリーブ55が前記第十一チャンバ53の内壁に回転できるように設置され、前記第十一チャンバ53の内壁には閉鎖ブロック52が左右にスライドできるように設置され、前記閉鎖ブロック52が前記第一チャンバ11と前記第二チャンバ60とを連通して又は閉鎖することができ、前記閉鎖ブロック52の右側面には第一スクリュー54が固定的に連結され、前記第一スクリュー54と前記ねじ山付きスリーブ55とがネジ山によって協働でき、前記第四チャンバ57の中に位置している前記ねじ山付きスリーブ55の外周には第三ベベルギヤ58が固定的に連結され、前記第四チャンバ57の下側には第十二チャンバ43が設置され、前記第十二チャンバ43と前記第十チャンバ64とが連通するように設置され、前記第十二チャンバ43と前記第四チャンバ57との間の内壁には第六回転軸50が回転できるように設置され、前記第六回転軸50が上下に伸びるように設置され、前記第六回転軸50の上方へ延びている部分が前記第四チャンバ57の中に伸びており、また前記第六回転軸50の上方へ延びている部分の頂面には第四ベベルギヤ59が固定的に連結され、前記第四ベベルギヤ59と前記第三ベベルギヤ58とが噛み合っており、前記ハンドホイール56を手動で回転させることによって、前記ねじ山付きスリーブ55が回転し、それによって前記第一スクリュー54が回転し、更に前記閉鎖ブロック52を左右にスライドさせ、前記ねじ山付きスリーブ55の回転によって前記第六回転軸50が回転できる。 Further, in one embodiment, the adjusting mechanism 105 includes a threaded sleeve 55 installed so as to be rotatable in the right inner wall of the fourth chamber 57, and the threaded sleeve 55 is the main body. A hand wheel 56 is fixedly connected to the right side surface of the threaded sleeve 55 extending to the outside of the 23, and an eleventh chamber 53 is installed on the left side of the fourth chamber 57. The eleventh chamber 53 and the fourth chamber 57 are installed so as to communicate with each other, and a portion extending to the left of the threaded sleeve 55 penetrates the fourth chamber 57 and the eleventh chamber 57. Extending into the chamber 53, the threaded sleeve 55 is installed so that it can rotate on the inner wall of the eleventh chamber 53, and the closing block 52 can slide left and right on the inner wall of the eleventh chamber 53. The closing block 52 can communicate with or close the first chamber 11 and the second chamber 60, and the first screw 54 is fixedly attached to the right side surface of the closing block 52. The first screw 54 and the threaded sleeve 55 can cooperate with each other by a thread, and a third bevel gear 58 is formed on the outer periphery of the threaded sleeve 55 located in the fourth chamber 57. The twelfth chamber 43 is installed under the fourth chamber 57, and the twelfth chamber 43 and the tenth chamber 64 are installed so as to communicate with each other. The sixth rotating shaft 50 is installed on the inner wall between the second chamber 43 and the fourth chamber 57 so as to be rotatable, the sixth rotating shaft 50 is installed so as to extend vertically, and the sixth rotating shaft 50 is installed. A fourth bevel gear 59 is fixedly connected to the top surface of the portion extending upward of the sixth rotating shaft 50, and a portion extending upward of the fourth chamber 57 extends into the fourth chamber 57. The fourth bevel gear 59 and the third bevel gear 58 are meshed with each other, and by manually rotating the hand wheel 56, the threaded sleeve 55 is rotated, whereby the first screw 54 is rotated. Further, the closing block 52 is slid to the left and right, and the sixth rotating shaft 50 can be rotated by the rotation of the threaded sleeve 55.

また、一つの実施例の中に、前記第六回転軸50の下方へ延びている部分が前記第十二チャンバ43の中に伸びており、且つ前記第十二チャンバ43の底壁と回転できるように連結され、前記第十二チャンバ43の右壁には固定板44がスライドできるように設置され、前記固定板44と前記第六回転軸50とがネジ山によって協働でき、前記固定板44の左側面には第二モーター45が固定的に連結され、前記第二モーター45の後側面には第二モーター軸65が動力が伝達できるように連結され、前記第二モーター軸65が前記第十チャンバ64の中に伸びており、また前記第二モーター軸65の後側面には第一ギヤ66が固定的に連結され、前記第十チャンバ64の後壁には第七回転軸67が回転できるように設置され、前記第七回転軸67の外周には第二ギヤ68が固定的に連結され、前記第二ギヤ68と前記第一ギヤ66とが噛み合うことができ、前記スライド板42の頂部壁にはラックが固定的に連結され、前記スライド板42の頂部壁に固定的に連結されたラックと前記第二ギヤ68とが噛み合っており、前記第十チャンバ64の後壁には第八回転軸69が回転できるように設置され、前記第八回転軸69が前記第七回転軸67の上側に位置しており、前記第八回転軸69の外周には第三ギヤ70が固定的に連結され、前記第三ギヤ70と前記第一ギヤ66とが噛み合うことができ、前記第八回転軸69と、前記第二回転軸46と、左側に位置している第一回転軸61との間は第三ベルト71が互いに装着され、前記第六回転軸50の回転によって、前記固定板44が上下にスライドし、それによって前記第二モーター45が上下に移動し、更に前記第一ギヤ66をそれぞれ前記第二ギヤ68又は前記第三ギヤ70と噛み合わせることができ、前記第二ギヤ68が回転して前記スライド板42を左右にスライドさせることができ、前記第三ギヤ70が回転して前記第八回転軸69を回転させることができ、更に第二回転軸46と前記第一回転軸61を回転させることができる。 Further, in one embodiment, a portion extending downward of the sixth rotation shaft 50 extends into the twelfth chamber 43 and can rotate with the bottom wall of the twelfth chamber 43. The fixing plate 44 is slidably installed on the right wall of the twelfth chamber 43 so that the fixing plate 44 and the sixth rotating shaft 50 can cooperate with each other by a screw thread, and the fixing plate 44 can cooperate with each other. The second motor 45 is fixedly connected to the left side surface of the 44, the second motor shaft 65 is connected to the rear side surface of the second motor 45 so that power can be transmitted, and the second motor shaft 65 is said. A first gear 66 is fixedly connected to the rear side surface of the second motor shaft 65, and a seventh rotating shaft 67 is fixedly connected to the rear wall of the tenth chamber 64. It is installed so that it can rotate, and a second gear 68 is fixedly connected to the outer periphery of the seventh rotating shaft 67 so that the second gear 68 and the first gear 66 can mesh with each other, and the slide plate 42 A rack is fixedly connected to the top wall of the slide plate 42, and the rack fixedly connected to the top wall of the slide plate 42 and the second gear 68 are engaged with each other, and the rear wall of the tenth chamber 64 The eighth rotary shaft 69 is installed so as to be rotatable, the eighth rotary shaft 69 is located above the seventh rotary shaft 67, and the third gear 70 is fixed to the outer periphery of the eighth rotary shaft 69. The third gear 70 and the first gear 66 can be meshed with each other, and the eighth rotary shaft 69, the second rotary shaft 46, and the first rotary shaft 61 located on the left side can be engaged with each other. The third belt 71 is attached to each other, and the rotation of the sixth rotation shaft 50 causes the fixing plate 44 to slide up and down, whereby the second motor 45 moves up and down, and further, the first. The gear 66 can be meshed with the second gear 68 or the third gear 70, respectively, the second gear 68 can rotate and the slide plate 42 can be slid left and right, and the third gear 70 The eighth rotating shaft 69 can be rotated to rotate, and the second rotating shaft 46 and the first rotating shaft 61 can be further rotated.

使用の時、第一モーター17を始動し、第一モーター軸18を回転させることができ、それによって回転盤14が回転し、更に前記第一スライダ15を上下に振動させることができ、それによって選別篩12が上下に振動し、第一モーター軸18が回転して第二ベルト20を伝動させ、第四回転軸21を回転させ、それによってファン33が回転し、ファン33によって平板40を開け、第二水管49の中に水を注ぎ、第二モーター45を始動し、スライド板42を右方へ移動させて開け、この時に第一チャンバ11の中にゴミを入れ、ゴミは選別篩12の振動によって沈泥と細かいゴミとを選別し、こういうゴミはファン33によって第六チャンバ39の中に吹き込まれ、軽量撹拌羽根38と水との撹拌作用の下で、ゴミを第六チャンバ39の中に収集されることができ、この時に第二モーター45を逆方向に回転させてスライド板42を閉めてからハンドホイール56を回してねじ山付きスリーブ55を回転連動させ、閉鎖ブロック52を開けることができ、ほかのゴミは第二チャンバ60の中に落ち、ねじ山付きスリーブ55が回転して第六回転軸50を回転させ、更に固定板44を上方へスライドさせることができ、それによって第二モーター45が上方へ移動し、第一ギヤ66と第三ギヤ70とが噛み合い、それによって第二回転軸46と二つの第一回転軸61とが回転し、第一回転軸61が砕かれるゴミを回転させ、第二回転軸46が磁気選別できるゴミを回転させ、完成した後にハンドホイール56を逆方向に回し、第一ギヤ66と第二ギヤ68とを噛み合わせ、また第二モーター45を正方向に回転させ、スライド板42が開けられ、ゴミは第七チャンバ31の中に落ち、第四回転軸21が回転して第三回転軸26を回転させることができ、更に第三スライダ32を左右にスライドさせることができ、それによってゴミを塊状に押しだすことができる。 At the time of use, the first motor 17 can be started and the first motor shaft 18 can be rotated, whereby the turntable 14 can be rotated and the first slider 15 can be further vibrated up and down, thereby. The sorting sieve 12 vibrates up and down, the first motor shaft 18 rotates to transmit the second belt 20, the fourth rotating shaft 21 rotates, thereby rotating the fan 33, and the fan 33 opens the flat plate 40. , Pour water into the second water pipe 49, start the second motor 45, move the slide plate 42 to the right to open it, put dust in the first chamber 11 at this time, and put the dust in the sorting sieve 12 Sediment and fine dust are sorted by the vibration of the fan 33, and such dust is blown into the sixth chamber 39 by the fan 33, and the dust is separated into the sixth chamber 39 under the stirring action of the lightweight stirring blade 38 and water. At this time, the second motor 45 is rotated in the opposite direction to close the slide plate 42, and then the handwheel 56 is rotated to rotate and interlock the threaded sleeve 55 to open the closing block 52. Other debris can fall into the second chamber 60 and the threaded sleeve 55 can rotate to rotate the sixth rotating shaft 50 and further slide the fixing plate 44 upwards. The second motor 45 moves upward, the first gear 66 and the third gear 70 mesh with each other, whereby the second rotating shaft 46 and the two first rotating shafts 61 rotate, and the first rotating shaft 61 is crushed. The dust is rotated, the dust that can be magnetically sorted by the second rotating shaft 46 is rotated, and after completion, the handwheel 56 is rotated in the opposite direction, the first gear 66 and the second gear 68 are engaged, and the second motor is also used . The 45 is rotated in the forward direction, the slide plate 42 is opened, the dust falls into the seventh chamber 31, the fourth rotating shaft 21 is rotated, and the third rotating shaft 26 can be rotated, and the third rotating shaft 26 is further rotated. The slider 32 can be slid left and right, thereby pushing out dust in chunks.

本発明の有益な効果:本発明は各新たな住宅地又はビルなどに適用され、こういう場所の内装の過程に生じたゴミを選別と回収でき、選別されたゴミは直接回収利用されることができ、ゴミを集めて埋める必要がなく、内装ゴミをむやみに捨てる現象を減少でき、また現段階のゴミ分別の目標とより良く結合されることができ、資源の浪費を下げ、振動機構は内装ゴミの中の沈泥と細かいゴミとを選別でき、磁気選別機構は磁性を持つ金属を選別でき、収集機構は沈泥と細かいゴミとを水と混合して固定的に貯蔵することができ、収集することに便利を与え、圧力かけ機構はゴミを塊状に押すことができ、貯蔵空間を省き、砕き機構はゴミを砕くことができ、装置全体は複数のところが連動し、モーターの使用数を減少し、効率的にコストを下げることができる。 Beneficial effect of the present invention: The present invention is applied to each new residential area or building, and can sort and collect the dust generated in the process of interior decoration of such a place, and the sorted dust can be directly collected and used. It can be done, there is no need to collect and bury garbage, the phenomenon of unnecessarily dumping interior garbage can be reduced, it can be better combined with the current garbage separation target, waste of resources is reduced, and the vibration mechanism is interior. The sediment in the garbage and fine dust can be sorted, the magnetic sorting mechanism can sort magnetic metals, and the collection mechanism can mix the sediment and fine dust with water and store them in a fixed manner. Convenient for collecting, the pressure-applying mechanism can push the trash in a lump, save the storage space, the crushing mechanism can crush the trash, the whole device works in multiple places, and the number of motors used It can be reduced and the cost can be reduced efficiently.

当業者は明確できるのは、本出願の総体精神及び構想から離脱しない限り、上記実施例に各種の変型を行うことができる。それらの変型はいずれも本出願の保護範囲中にカバーすべきである。


One of ordinary skill in the art can make various modifications to the above embodiment as long as it does not depart from the general spirit and concept of the present application. All of these variants should be covered within the scope of protection of this application.


Claims (1)

正面視で、主体を含み、前記主体の中には上方に開口した第一チャンバが設置され、前記第一チャンバの中には振動機構が設置され、前記振動機構は選別篩を含み、前記選別篩は内装ゴミから沈泥と細かい粉塵ゴミを選別でき、前記第一チャンバの右側には第二チャンバが設置され、前記第二チャンバが前記第一チャンバと連通でき、前記第二チャンバの中には砕き機構が設置され、前記砕き機構は前記振動機構によって選別された大型ゴミを砕くことができ、前記第一チャンバの下側には第三チャンバが設置され、前記第三チャンバと前記第一チャンバとが連通するように設置され、前記第三チャンバと前記第二チャンバとが連通するように設置され、前記第三チャンバの中には磁気選別機構が設置され、前記磁気選別機構は砕かれたゴミに磁気選別処理を行え、ゴミの中から磁性金属を選別でき、
右側には第四チャンバが設置され、前記第四チャンバの中には調節機構が設置され、前記調節機構は前記磁気選別機構と前記砕き機構とを制御して調節でき、前記第三チャンバの下側には第五チャンバが設置され、前記第五チャンバと前記第三チャンバとが連通でき、前記第五チャンバの右側には第六チャンバが設置され、前記第六チャンバが前記第五チャンバと連通でき、前記第六チャンバの中には収集機構が設置され、前記収集機構は前記振動機構によってろ過された沈泥と粉塵ゴミとを加湿して貯蔵することができ、また前記砕き機構によって砕かれた後に生じた細かいゴミも加湿して貯蔵し、前記第五チャンバの下側には第七チャンバが設置され、前記第五チャンバと前記第七チャンバとが連通するように設置され、前記第七チャンバの中には圧力かけ機構が設置され、前記圧力かけ機構は残ったゴミを塊状に押し出すことができ、収集することに便利を与えることができ、
前記振動機構は前記選別篩を含み、前記選別篩の中には篩孔が設置され、前記第一チャンバの左側には第八チャンバが設置され、前記第八チャンバと前記第一チャンバとが連通するように設置され、前記第八チャンバの内壁には第一スライダが上下にスライドできるように設置され、前記第一チャンバの右壁には第二スライダが上下にスライドするように設置され、前記第一チャンバの後壁には第一水管が連結され、前記第一水管と外部の水源とが連通しており、前記第一水管が前記第二スライダの下側に位置しており、前記第一水管の左側面にはノズルが固定的に連結され、前記選別篩が前記第二スライダと前記第一スライダと連結され、前記第一スライダの底面と前記第八チャンバの底壁との間にはばねが装着され、前記第八チャンバの左側には第九チャンバが設置され、前記第九チャンバの左壁には第一モーターが固定的に連結され、前記第一モーターの右側には第一モーター軸が動力が伝達できるように設置され、前記第一モーター軸の右方へ伸びている部分が前記第九チャンバの右側内壁を貫通しており、且つ前記第八チャンバの中に伸びており、また前記第一モーター軸の右方へ伸びている部分の右側面には回転盤が固定的に連結されており、
前記砕き機構は前記第二チャンバの後壁に回転できるように設置された二つの第一回転軸を含み、二つの前記第一回転軸が左右対称的に設置され、前記第一回転軸の外周にはいずれも砕き輪が固定的に連結され、前記砕き輪の外周にはいずれも均等的に配列されている六つの砕きカッターが固定的に連結され、前記第二チャンバの後側には第十チャンバが設置され、二つの前記第一回転軸が後方へ延びている部分が前記第二チャンバの後壁を貫通しており、且つ前記第十チャンバの中に伸び、またが後方へ延びている部分の後側面にはいずれも第一ベルトプーリが固定的に連結され、二つの前記第一ベルトプーリの間には第一ベルトが装着されており、
前記磁気選別機構は前記第三チャンバの後壁に回転できるように設置された第二回転軸を含み、前記第二回転軸の外周にはトライアングルが固定的に連結され、前記トライアングルの底面には対称的に設置された三つの磁石が固定的に連結され、前記第二回転軸の後方へ延びている部分が前記第三チャンバの後壁を貫通しており、且つ前記第十チャンバの中に伸び、前記第三チャンバの後壁の中には案内スライド溝が形成されており、前記案内スライド溝と前記第十チャンバとが連通するように設置され、前記案内スライド溝の中にはスライドできるスライド板が左右にスライドできるように設置され、前記スライド板が前記第三チャンバと前記第五チャンバとを連結して又は閉鎖することができ、
前記圧力かけ機構は前記第七チャンバの前後壁に左右にスライドできるように設置された第三スライダを含み、前記第三スライダの左側面には第一ロッドが固定的に連結され、前記第七チャンバと前記第九チャンバとの間には第三回転軸が回転できるように設置され、前記第三回転軸が上下に伸びるように設置され、前記第三回転軸の下方へ延びている部分が前記第七チャンバの中に伸び、また前記第三回転軸の下方へ延びている部分の底面には回転盤が固定的に連結され、前記回転盤には第二ロッドがヒンジで連結され、前記第二ロッドと前記第一ロッドとが互いにヒンジで連結され、前記第九チャンバの左壁には第四回転軸が回転できるように設置され、前記第四回転軸の外周には第一ベベルギヤが固定的に連結され、前記第三回転軸の上方へ延びている部分が前記第九チャンバの中に伸び、また前記第三回転軸の上方へ延びている部分の頂面には第二ベベルギヤが固定的に連結され、前記第二ベベルギヤと前記第一ベベルギヤとが噛み合っており、前記第四回転軸の外周には第二ベルトプーリが固定的に連結され、前記第二ベルトプーリが前記第一ベベルギヤの右側に位置しており、前記第九チャンバの中に位置している前記第一モーター軸の外周には第三ベルトプーリが固定的に連結され、前記第三ベルトプーリと前記第二ベルトプーリとの間には第二ベルトが装着されており、
前記収集機構は前記第六チャンバの後壁に回転できるように設置された平板を含み、前記平板が前記第六チャンバと前記第五チャンバとを連通して又は閉鎖することができ、前記第六チャンバの後壁には第五回転軸が回転できるように設置され、前記第五回転軸の外周には回転柱が固定的に連結され、前記回転柱の外周には均等的に配列されている六つの軽量撹拌羽根が固定的に連結され、前記第六チャンバの右側には第二水管が連通しており、前記第二水管と外部の水源とが連通しており、前記第四回転軸の右方へ延びている部分が前記第九チャンバの右側内壁を貫通しており、且つ前記第五チャンバの中に伸び、また前記第四回転軸の右方へ延びている部分の右側面にはファンが固定的に連結されており、
前記調節機構は前記第四チャンバの右側内壁の中に回転できるように設置されたねじ山付きスリーブを含み、前記ねじ山付きスリーブが前記主体の外部まで延びており、また前記ねじ山付きスリーブの右側面にはハンドホイールが固定的に連結され、前記第四チャンバの左側には第十一チャンバが設置され、前記第十一チャンバと前記第四チャンバとが連通するように設置され、前記ねじ山付きスリーブの左方へ延びている部分が前記第四チャンバを貫通しており、且つ前記第十一チャンバの中に伸びており、前記ねじ山付きスリーブが前記第十一チャンバの内壁に回転できるように設置され、前記第十一チャンバの内壁には閉鎖ブロックが左右にスライドできるように設置され、前記閉鎖ブロックが前記第一チャンバと前記第二チャンバとを連通して又は閉鎖することができ、前記閉鎖ブロックの右側面には第一スクリューが固定的に連結され、前記第一スクリューと前記ねじ山付きスリーブとがネジ山によって協働でき、前記第四チャンバの中に位置している前記ねじ山付きスリーブの外周には第三ベベルギヤが固定的に連結され、前記第四チャンバの下側には第十二チャンバが設置され、前記第十二チャンバと前記第十チャンバとが連通するように設置され、前記第十二チャンバと前記第四チャンバとの間の内壁には第六回転軸が回転できるように設置され、前記第六回転軸が上下に伸びるように設置され、前記第六回転軸の上方へ延びている部分が前記第四チャンバの中に伸びており、また前記第六回転軸の上方へ延びている部分の頂面には第四ベベルギヤが固定的に連結され、前記第四ベベルギヤと前記第三ベベルギヤとが噛み合っており、
前記第六回転軸の下方へ延びている部分が前記第十二チャンバの中に伸びており、且つ前記第十二チャンバの底壁と回転できるように連結され、前記第十二チャンバの右壁には固定板がスライドできるように設置され、前記固定板と前記第六回転軸とがネジ山によって協働でき、前記固定板の左側面には第二モーターが固定的に連結され、前記第二モーターの後側面には第二モーター軸が動力が伝達できるように連結され、前記第二モーター軸が前記第十チャンバの中に伸びており、また前記第二モーター軸の後側面には第一ギヤが固定的に連結され、前記第十チャンバの後壁には第七回転軸が回転できるように設置され、前記第七回転軸の外周には第二ギヤが固定的に連結され、前記第二ギヤと前記第一ギヤとが噛み合うことができ、前記スライド板の頂部壁にはラックが固定的に連結され、前記スライド板の頂部壁に固定的に連結されたラックと前記第二ギヤとが噛み合っており、前記第十チャンバの後壁には第八回転軸が回転できるように設置され、前記第八回転軸が前記第七回転軸の上側に位置しており、前記第八回転軸の外周には第三ギヤが固定的に連結され、前記第三ギヤと前記第一ギヤとが噛み合うことができ、前記第八回転軸と、前記第二回転軸と、左側に位置している第一回転軸との間は第三ベルトが互いに装着されており
使用の時、前記第一モーターを始動し、前記第一モーター軸を回転させることができ、それによって前記回転盤が回転し、更に前記第一スライダを上下に振動させることができ、それによって前記選別篩が上下に振動し、前記第一モーター軸が回転して前記第二ベルトを伝動させ、前記第四回転軸を回転させ、それによって前記ファンが回転し、ファンによって前記平板を開け、前記第二水管の中に水を注ぎ、前記第二モーターを始動し、前記スライド板を右方へ移動させて開け、この時に前記第一チャンバの中にゴミを入れ、ゴミは前記選別篩の振動によって沈泥と細かいゴミとを選別し、こういうゴミは前記ファンによって前記第六チャンバの中に吹き込まれ、前記軽量撹拌羽根と水との撹拌作用の下で、ゴミを前記第六チャンバの中に収集されることができ、この時に前記第二モーターを逆方向に回転させて前記スライド板を閉めてから前記ハンドホイールを回して前記ねじ山付きスリーブを回転連動させ、前記閉鎖ブロックを開けることができ、ほかのゴミは前記第二チャンバの中に落ち、前記ねじ山付きスリーブが回転して前記第六回転軸を回転させ、更に前記固定板を上方へスライドさせることができ、それによって前記第二モーターが上方へ移動し、前記第一ギヤと前記第三ギヤとが噛み合い、それによって前記第二回転軸と二つの前記第一回転軸とが回転し、前記第一回転軸が砕かれるゴミを回転させ、前記第二回転軸が磁気選別できるゴミを回転させ、完成した後に前記ハンドホイールを逆方向に回し、前記第一ギヤと前記第二ギヤとを噛み合わせ、また前記第二モーターを正方向に回転させ、前記スライド板が開けられ、ゴミは前記第七チャンバの中に落ち、前記第四回転軸が回転して前記第三回転軸を回転させることができ、更に前記第三スライダを左右にスライドさせることができ、それによってゴミを塊状に押しだすことができることを特徴とする内装ゴミの分別と回収と総合利用環境保護装置。
In front view, the main body is included, a first chamber opened upward is installed in the main body, a vibration mechanism is installed in the first chamber, and the vibration mechanism includes a sorting sieve, and the sorting is performed. The sieve can sort silt and fine dust dust from the internal dust, a second chamber is installed on the right side of the first chamber, the second chamber can communicate with the first chamber, and the inside of the second chamber. A crushing mechanism is installed, the crushing mechanism can crush large dust selected by the vibration mechanism, and a third chamber is installed below the first chamber, and the third chamber and the first chamber are installed. It is installed so as to communicate with the chamber, the third chamber and the second chamber are installed so as to communicate with each other, a magnetic sorting mechanism is installed in the third chamber, and the magnetic sorting mechanism is crushed. Magnetic sorting processing can be performed on the waste, and magnetic metals can be sorted from the dust.
A fourth chamber is installed on the right side, an adjustment mechanism is installed in the fourth chamber, and the adjustment mechanism can control and adjust the magnetic sorting mechanism and the crushing mechanism, and below the third chamber. A fifth chamber is installed on the side so that the fifth chamber and the third chamber can communicate with each other, a sixth chamber is installed on the right side of the fifth chamber, and the sixth chamber communicates with the fifth chamber. A collection mechanism is installed in the sixth chamber, and the collection mechanism can humidify and store the silt and dust filtered by the vibration mechanism, and is crushed by the crushing mechanism. The fine dust generated after the process is also humidified and stored, and a seventh chamber is installed below the fifth chamber, and the fifth chamber and the seventh chamber are installed so as to communicate with each other. A pressure-applying mechanism is installed in the chamber, and the pressure-applying mechanism can push out the remaining dust in a lump, which can be convenient for collecting.
The vibration mechanism includes the sorting sieve, a sieve hole is installed in the sorting sieve, an eighth chamber is installed on the left side of the first chamber, and the eighth chamber and the first chamber communicate with each other. The first slider is installed on the inner wall of the eighth chamber so as to slide up and down, and the second slider is installed on the right wall of the first chamber so as to slide up and down. A first water pipe is connected to the rear wall of the first chamber, the first water pipe and an external water source are communicated with each other, and the first water pipe is located below the second slider. A nozzle is fixedly connected to the left side surface of the water pipe, the sorting sieve is connected to the second slider and the first slider, and between the bottom surface of the first slider and the bottom wall of the eighth chamber. Is fitted with a spring, a ninth chamber is installed on the left side of the eighth chamber, a first motor is fixedly connected to the left wall of the ninth chamber, and a first motor is fixedly connected to the right side of the first motor. The motor shaft is installed so that power can be transmitted, and the portion extending to the right of the first motor shaft penetrates the right inner wall of the ninth chamber and extends into the eighth chamber. In addition, a turntable is fixedly connected to the right side surface of the portion extending to the right of the first motor shaft.
The crushing mechanism includes two first rotating shafts installed so as to be rotatable on the rear wall of the second chamber, and the two first rotating shafts are symmetrically installed to be the outer periphery of the first rotating shaft. A crushing ring is fixedly connected to each of the two, six crushing cutters all of which are evenly arranged are fixedly connected to the outer periphery of the crushing ring, and a second crushing cutter is fixedly connected to the rear side of the second chamber. Ten chambers are installed, and the portion where the two first rotation axes extend rearward penetrates the rear wall of the second chamber, extends into the tenth chamber, and extends rearward. The first belt pulley is fixedly connected to the rear side surface of each of the portions, and the first belt is mounted between the two first belt pulleys.
The magnetic sorting mechanism includes a second rotating shaft installed so as to be rotatable on the rear wall of the third chamber, a triangle is fixedly connected to the outer periphery of the second rotating shaft, and the bottom surface of the triangle is fixedly connected. Three symmetrically installed magnets are fixedly connected, and a portion extending rearward of the second rotation axis penetrates the rear wall of the third chamber and is contained in the tenth chamber. It extends, and a guide slide groove is formed in the rear wall of the third chamber, and the guide slide groove is installed so as to communicate with the tenth chamber, and can slide in the guide slide groove. The slide plate is installed so that it can slide left and right, and the slide plate can connect or close the third chamber and the fifth chamber.
The pressure applying mechanism includes a third slider installed on the front and rear walls of the seventh chamber so as to be slid to the left and right, and a first rod is fixedly connected to the left side surface of the third slider, and the seventh rod is fixedly connected. A portion of the third rotating shaft extending vertically is installed between the chamber and the ninth chamber so that the third rotating shaft can rotate, and a portion extending downward of the third rotating shaft is provided. A rotating disk is fixedly connected to the bottom surface of a portion extending into the seventh chamber and extending downward from the third rotating shaft, and a second rod is connected to the rotating disk by a hinge. The second rod and the first rod are connected to each other by a hinge, installed on the left wall of the ninth chamber so that the fourth rotating shaft can rotate, and a first bevel gear is placed on the outer periphery of the fourth rotating shaft. A second bevel gear is fixedly connected, and a portion extending upward of the third rotating shaft extends into the ninth chamber, and a second bevel gear is provided on the top surface of the portion extending upward of the third rotating shaft. The second bevel gear and the first bevel gear are fixedly connected, the second bevel gear is meshed with the first bevel gear, the second belt pulley is fixedly connected to the outer periphery of the fourth rotating shaft, and the second belt pulley is the first. A third belt pulley is fixedly connected to the outer periphery of the first motor shaft located on the right side of the bevel gear and located in the ninth chamber, and the third belt pulley and the second belt are fixedly connected. A second belt is attached between the pulley and
The collecting mechanism includes a flat plate rotatably installed on the rear wall of the sixth chamber, and the flat plate can communicate with or close the sixth chamber and the fifth chamber, and the sixth. A fifth rotating shaft is installed on the rear wall of the chamber so that it can rotate, and rotating columns are fixedly connected to the outer periphery of the fifth rotating shaft and are evenly arranged on the outer periphery of the rotating column. Six lightweight stirring blades are fixedly connected, a second water pipe communicates with the right side of the sixth chamber, and the second water pipe communicates with an external water source, and the fourth rotating shaft The portion extending to the right penetrates the right inner wall of the ninth chamber, extends into the fifth chamber, and extends to the right of the fourth rotation axis on the right surface of the portion. The fan is fixedly connected and
The adjusting mechanism includes a threaded sleeve installed so as to be rotatable in the right inner wall of the fourth chamber, the threaded sleeve extending to the outside of the main body, and of the threaded sleeve. A hand wheel is fixedly connected to the right side surface, an eleventh chamber is installed on the left side of the fourth chamber, and the eleventh chamber and the fourth chamber are installed so as to communicate with each other. A portion extending to the left of the threaded sleeve penetrates the fourth chamber and extends into the eleventh chamber, and the threaded sleeve rotates to the inner wall of the eleventh chamber. It is installed so that the closing block can slide left and right on the inner wall of the eleventh chamber, and the closing block can communicate with or close the first chamber and the second chamber. The first screw is fixedly connected to the right side surface of the closing block, and the first screw and the threaded sleeve can cooperate with each other by the threads and are located in the fourth chamber. A third bevel gear is fixedly connected to the outer periphery of the threaded sleeve, a twelfth chamber is installed below the fourth chamber, and the twelfth chamber and the tenth chamber communicate with each other. The sixth rotating shaft is installed so as to be rotatable on the inner wall between the twelfth chamber and the fourth chamber, and the sixth rotating shaft is installed so as to extend vertically. A portion extending upward of the six rotating shaft extends into the fourth chamber, and a fourth bevel gear is fixedly connected to the top surface of the portion extending upward of the sixth rotating shaft. The fourth bevel gear and the third bevel gear are in mesh with each other.
A portion extending downward of the sixth rotation axis extends into the twelfth chamber and is rotatably connected to the bottom wall of the twelfth chamber, and is connected to the right wall of the twelfth chamber. The fixing plate is installed so that the fixing plate can slide, the fixing plate and the sixth rotation shaft can cooperate with each other by a screw thread, and a second motor is fixedly connected to the left side surface of the fixing plate, and the first A second motor shaft is connected to the rear surface of the two motors so that power can be transmitted, the second motor shaft extends into the tenth chamber, and a second motor shaft extends to the rear surface of the second motor shaft. One gear is fixedly connected, the seventh rotating shaft is installed on the rear wall of the tenth chamber so as to be rotatable, and the second gear is fixedly connected to the outer periphery of the seventh rotating shaft. The second gear and the first gear can be meshed with each other, the rack is fixedly connected to the top wall of the slide plate, and the rack and the second gear are fixedly connected to the top wall of the slide plate. The eighth rotation shaft is installed on the rear wall of the tenth chamber so that the eighth rotation shaft can rotate, and the eighth rotation shaft is located above the seventh rotation shaft. A third gear is fixedly connected to the outer periphery of the shaft so that the third gear and the first gear can mesh with each other, and are located on the left side of the eighth rotating shaft and the second rotating shaft. Third belts are attached to each other with the first rotating shaft.
At the time of use, the first motor can be started to rotate the first motor shaft, thereby rotating the turntable and further causing the first slider to vibrate up and down, thereby the said. The sorting sieve vibrates up and down, the first motor shaft rotates to transmit the second belt, and the fourth rotation shaft rotates, whereby the fan rotates, the flat plate is opened by the fan, and the flat plate is opened. Water is poured into the second water pipe, the second motor is started, the slide plate is moved to the right to open, and at this time, dust is put into the first chamber, and the dust is vibrated by the sorting sieve. The mud and fine dust are sorted by, and such dust is blown into the sixth chamber by the fan, and the dust is blown into the sixth chamber under the stirring action of the lightweight stirring blade and water. It can be collected, and at this time, the second motor can be rotated in the opposite direction to close the slide plate, and then the handwheel can be rotated to rotate and interlock the threaded sleeve to open the closing block. The other debris can fall into the second chamber and the threaded sleeve can rotate to rotate the sixth axis of rotation and further slide the fixing plate upwards, thereby causing the first. The two motors move upward, and the first gear and the third gear mesh with each other, whereby the second rotating shaft and the two first rotating shafts rotate, and the first rotating shaft is crushed. The second rotation shaft rotates the dust that can be magnetically sorted, and after completion, the handwheel is rotated in the opposite direction to engage the first gear and the second gear, and the second motor is operated. Rotating in the forward direction, the slide plate is opened, dust falls into the seventh chamber, the fourth rotating shaft can rotate to rotate the third rotating shaft, and the third slider. A device for separating and collecting interior trash and comprehensive use environment protection device, which is characterized by being able to slide left and right to push out trash in chunks.
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