JP2019181125A - New style food processing device - Google Patents

New style food processing device Download PDF

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Publication number
JP2019181125A
JP2019181125A JP2018089570A JP2018089570A JP2019181125A JP 2019181125 A JP2019181125 A JP 2019181125A JP 2018089570 A JP2018089570 A JP 2018089570A JP 2018089570 A JP2018089570 A JP 2018089570A JP 2019181125 A JP2019181125 A JP 2019181125A
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Prior art keywords
groove
attached
rotating
shaft
housing
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JP2018089570A
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JP6574960B1 (en
Inventor
邱林新
lin xin Qiu
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Wenzhou Wang Jinhu New Handling Equipment Tech Co Ltd
Wenzhou Wangjinhu New Handling Equipment Technology Co Ltd
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Wenzhou Wang Jinhu New Handling Equipment Tech Co Ltd
Wenzhou Wangjinhu New Handling Equipment Technology Co Ltd
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Priority to CN201810306655.XA priority Critical patent/CN108311021A/en
Priority to CN201810306655.X priority
Application filed by Wenzhou Wang Jinhu New Handling Equipment Tech Co Ltd, Wenzhou Wangjinhu New Handling Equipment Technology Co Ltd filed Critical Wenzhou Wang Jinhu New Handling Equipment Tech Co Ltd
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Classifications

    • 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
    • B01F27/80Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
    • B01F27/90Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with paddles or arms 
    • 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
    • B01F27/05Stirrers
    • B01F27/11Stirrers characterised by the configuration of the stirrers
    • B01F27/19Stirrers with two or more mixing elements mounted in sequence on the same axis
    • B01F27/191Stirrers with two or more mixing elements mounted in sequence on the same axis with similar elements
    • 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
    • B01F27/21Mixers with rotary stirring devices in fixed receptacles; Kneaders characterised by their rotating shafts
    • B01F27/213Mixers with rotary stirring devices in fixed receptacles; Kneaders characterised by their rotating shafts characterised by the connection with the drive
    • 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
    • B01F27/23Mixers with rotary stirring devices in fixed receptacles; Kneaders characterised by the orientation or disposition of the rotor axis
    • B01F27/231Mixers with rotary stirring devices in fixed receptacles; Kneaders characterised by the orientation or disposition of the rotor axis with a variable orientation during mixing operation, e.g. with tiltable rotor axis
    • B01F27/2311Mixers with rotary stirring devices in fixed receptacles; Kneaders characterised by the orientation or disposition of the rotor axis with a variable orientation during mixing operation, e.g. with tiltable rotor axis the orientation of the rotating shaft being adjustable in the interior of the receptacle, e.g. by tilting the stirrer shaft during the mixing
    • 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
    • B01F27/80Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
    • B01F27/84Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with two or more stirrers rotating at different speeds or in opposite directions about the same axis
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F33/00Other mixers; Mixing plants; Combinations of mixers
    • B01F33/50Movable or transportable mixing devices or plants
    • B01F33/501Movable mixing devices, i.e. readily shifted or displaced from one place to another, e.g. portable during use
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/30Driving arrangements; Transmissions; Couplings; Brakes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/71Feed mechanisms
    • B01F35/717Feed mechanisms characterised by the means for feeding the components to the mixer
    • B01F35/7173Feed mechanisms characterised by the means for feeding the components to the mixer using gravity, e.g. from a hopper
    • B01F35/71731Feed mechanisms characterised by the means for feeding the components to the mixer using gravity, e.g. from a hopper using a hopper
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/71Feed mechanisms
    • B01F35/717Feed mechanisms characterised by the means for feeding the components to the mixer
    • B01F35/71805Feed mechanisms characterised by the means for feeding the components to the mixer using valves, gates, orifices or openings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F2101/00Mixing characterised by the nature of the mixed materials or by the application field
    • B01F2101/06Mixing of food ingredients

Abstract

To provide a food product mixing device capable of switching mixture between mixing in a single direction and mixing in both directions, and freely adjusting if necessary.SOLUTION: A raw material and an auxiliary material are put into an irrigation groove 18, then a first electromagnetic valve 16 is closed and a first drive machine 21 is started up, the first drive machine 21 drives and rotates a second sprocket 19 through a third rotary shaft 20, the second sprocket 19 drives and rotates a second rotary shaft 26 through a belt 23, a second rotary shaft 26 drives and rotates the first rotary shaft 28 through a fourth taper wheel 27, and the first rotary shaft 28 drives and rotates a turret 22. Engagement with a semi-conical tooth is switched between a second taper wheel and a first taper wheel for switching a rotary direction of a mixed shaft 13.SELECTED DRAWING: Figure 1

Description

本発明は食品加工技術分野に関し、具体的には新型食品加工装置に関する。 The present invention relates to the field of food processing technology, and specifically to a new type food processing apparatus.

いくつかの肉類食品を加工し生産する時、往々にして食品原料に異なる補材料を加え混ぜて食品の品質を高めるが、しかし伝統的な食品混合装置は撹拌機を使って混ぜて、伝統的な撹拌機の混ぜる方向が単一で、混ぜる効率が低く、混ぜる品質も悪く、食用効果を下げる。 When processing and producing some meat foods, often the food ingredients are mixed with different supplements to improve the quality of the food, but traditional food mixing equipment is mixed using a stirrer The mixing direction of a simple stirrer is low, the mixing efficiency is low, the mixing quality is poor, and the edible effect is lowered.

中国特許出願公開第102481577号明細書Chinese Patent Application Publication No.102481577

上記の技術の不足に対し、本発明は新型食品加工装置を提供した。 In response to the above shortage of technology, the present invention provides a new food processing apparatus.

本発明の新型食品加工装置は支持台に固定的に取り付けられる箱体を含み、前記支持台の四つの角底部に同時にローラーが設置され、前記箱体に空筐体が設置され、前記空筐体の頂壁に第一回転筐体が設置され、前記空筐体の頂壁にまた前記第一回転筐体の左側に位置する灌溝が設置され、前記空筐体の底壁に外部と連結する配給溝が設置され、前記灌溝の底壁に前記容筐体と連結する連結口が設置され、前記第一回転筐体の右側に第二回転筐体が設置され、前記第二回転筐体の上側に左に延びる第三回転筐体が設置され、前記第一回転筐体が前記第三回転筐体の間に相互に連結する転溝が設置され、前記第一回転筐体の底壁に上下に延びる混合軸が回転可能なように取り付けられ、前記混合軸の下端が前記空筐体に伸びて多くの混合ブレードが固定的に取り付けられ、前記転柱の上端が上に伸びて前記転溝に回転可能なように取り付けられ、前記混合軸が前記第一回転筐体に位置し外スプラインが設置され、前記第一回転筐体に上下に対応して前記外スプラインと係合する第一テーパー輪と第二テーパー輪が設置され、前記第一回転筐体の左端壁に第一テーパー輪と第二テーパー輪を駆動し上下に移動可能な回す装置が設置され、前記第一回転筐体と前記第二回転筐体の間に左右に伸びる第一回転軸が回転可能なように取り付けられ、前記第一回転軸の左端が前記第一回転筐体に伸びてタレットが固定的に取り付けられ、前記タレットの左端面に前記第一テーパー輪と前記第二テーパー輪と係合し接続する半円錐歯が固定的に設置され、前記第一回転軸の右端が前記第二回転筐体に伸びて第三テーパー輪が固定的に取り付けられ、前記第三回転筐体と前記第二回転筐体の間に上下に伸びる第二回転軸が回転可能なように取り付けられ、前記第二回転軸の下端が前記第二回転筐体に伸びて前記第三テーパー輪と係合し接続する第四テーパー輪が固定的に取り付けられ、前記第二回転軸の上端が前記第三回転筐体に伸びて第一スプロケットが固定的に取り付けられ、前記転溝の上部に上に伸びる第三回転軸が回転可能なように取り付けられ、前記第三回転軸の上端が前記箱体の頂壁に固定的に取り付けられる第一駆動機と動力が伝達可能なように接続し、前記第一駆動機の外側に護托装置が設置され、前記護托装置がダンパーとヒートシンクを含み、前記第三回転軸に第二スプロケットが固定的に取り付けられ、前記第一スプロケットと第二スプロケットがベルトを通じて動力が伝達可能なように接続し、前記混合軸に上に向かう第一内スプライン溝が設置され、前記第一内スプライン溝にスプライン軸が係合し取り付けられ、前記第三回転軸に下に向かって前記スプライン軸と係合する第二内スプライン溝が設置され、前記転溝の左端壁に分合装置が設置される。 The new food processing apparatus of the present invention includes a box that is fixedly attached to a support base, rollers are simultaneously installed at the four bottoms of the support base, an empty casing is installed in the box, and the empty casing A first rotating housing is installed on the top wall of the body, and a irrigation groove located on the left side of the first rotating housing is installed on the top wall of the empty housing. A distribution groove to be connected is installed, a connection port to be connected to the container housing is installed on the bottom wall of the irrigation groove, a second rotating housing is installed on the right side of the first rotating housing, and the second rotation A third rotating housing extending to the left is installed on the upper side of the housing, a rolling groove for connecting the first rotating housing between the third rotating housing is installed, A mixing shaft extending vertically is attached to the bottom wall so that the mixing shaft can rotate, and a lower end of the mixing shaft extends to the empty casing so that many mixing Is fixedly attached, is attached so that the upper end of the rolling pillar extends upward and can rotate in the rolling groove, the mixing shaft is located in the first rotating housing, and an outer spline is installed. A first taper wheel and a second taper wheel that engage with the outer spline corresponding to the upper and lower sides of the one rotation housing are installed, and the first taper wheel and the second taper wheel are provided on the left end wall of the first rotation housing. A rotating device that can be driven and moved up and down is installed, and a first rotating shaft that extends to the left and right is rotatably mounted between the first rotating housing and the second rotating housing. The left end of the turret is fixedly attached to the first rotating housing, and the left end surface of the turret is fixedly provided with a semi-conical tooth that engages and connects the first tapered ring and the second tapered ring. Installed, the right end of the first rotating shaft is the second rotating housing A third taper ring is fixedly attached to extend, and a second rotary shaft extending vertically between the third rotary housing and the second rotary housing is attached to be rotatable, and the second rotary shaft is attached. A lower end of the second rotating shaft is fixedly attached to a fourth tapered wheel that engages and connects with the third tapered wheel, and an upper end of the second rotating shaft extends to the third rotating housing. The first sprocket is fixedly attached to the upper part of the rolling groove, the third rotating shaft extending upward is rotatably attached, and the upper end of the third rotating shaft is fixed to the top wall of the box. A first driving machine attached to the first driving machine so as to be able to transmit power, a guard device is installed outside the first driving machine, the guard device includes a damper and a heat sink, and the third rotating shaft A second sprocket is fixedly attached to the first sprocket. The rocket and the second sprocket are connected so that power can be transmitted through the belt, a first inner spline groove is installed upward on the mixing shaft, and the spline shaft is engaged and attached to the first inner spline groove, A second inner spline groove that engages with the spline shaft is installed downward on the third rotation shaft, and a coupling device is installed on the left end wall of the rolling groove.

他の技術方案は前記回す装置は前記第一回転溝の左端壁に設置される第一滑走溝と第一滑走溝の上に位置し前記第一回転溝と連結するアリ溝を含み、前記第一滑走溝の上端壁の左側に上に伸びる第二滑走溝が設置され、前記第二滑走溝と前記アリ溝の間に第一連結溝が設置され、前記第一滑走溝に上下に移動できる第一滑走ブロックが取り付けられ、前記第一滑走ブロックに上下に伸びるねじレバーが係合し取り付けられ、前記ねじレバーの下端が前記第一滑走溝の底壁に回転可能なように取り付けられ、上端が前記第一滑走溝の頂壁に固定的に取り付けられる第二駆動機と動力が伝達可能なように接続し、前記第二滑走溝に前記第一滑走ブロックと固定的に接続する滑走棒が固定的に取り付けられ、前記滑走棒の右端面に第一ラックが設置され、前記アリ溝に上下に移動できるアリブロックが取り付けられ、前記アリブロックの左端面に第二ラックが設置され、前記第一連結溝が第四回転軸を通じて前記第一ラックと第二ラックと係合し接続するギアが回転可能なように取り付けられ、前記第一滑走ブロックと前記アリブロックの右端にそれぞれ第一シフトフォークと第二シフトフォークが固定的に取り付けられる。 In another technical solution, the turning device includes a first sliding groove installed on a left end wall of the first rotation groove, a dovetail groove positioned on the first sliding groove and connected to the first rotation groove, A second sliding groove extending upward is installed on the left side of the upper end wall of the first sliding groove, a first connection groove is installed between the second sliding groove and the dovetail groove, and can move up and down in the first sliding groove. A first sliding block is attached, and a screw lever extending vertically is engaged with and attached to the first sliding block, and a lower end of the screw lever is rotatably attached to a bottom wall of the first sliding groove. Is connected to a second driving machine fixedly attached to the top wall of the first sliding groove so that power can be transmitted, and a sliding rod fixedly connected to the first sliding block is connected to the second sliding groove. Fixedly attached, the first rack is installed on the right end surface of the sliding rod A dovetail block that can move up and down is attached to the dovetail groove, a second rack is installed on the left end surface of the dovetail block, and the first connecting groove passes through the fourth rotating shaft, Gears to be engaged and connected are rotatably attached, and a first shift fork and a second shift fork are fixedly attached to the right ends of the first sliding block and the dove block, respectively.

他の技術方案は前記分合装置は前記アリ溝の上端壁に設置され上に延びる第三滑走溝を含み、前記第三滑走溝と前記回転溝の間に相互に連結する第二連結溝が設置され、前記第三滑走溝の中に上下に前記アリブロックと固定的に接続する第二滑走ブロックが固定的に取り付けられ、前記第二連結溝に左右に延びる連結アームがスライド可能なように取り付けられ、前記連結アームの左端が前記第二滑走ブロックと固定的に接続し、右端が前記回転溝に伸びて転セットが固定的に取り付けられ、前記転セットがベアリングを通じて前記スプライン軸に嵌着する。 According to another technical solution, the combining device includes a third sliding groove that is installed on an upper end wall of the dovetail groove and extends upward, and a second connection groove that is connected between the third sliding groove and the rotating groove is provided. A second sliding block fixedly connected to the dovetail in the upper and lower directions is fixedly installed in the third sliding groove so that a connecting arm extending to the left and right can slide in the second connecting groove Attached, the left end of the connecting arm is fixedly connected to the second sliding block, the right end extends into the rotation groove, and the turn set is fixedly attached, and the turn set is fitted to the spline shaft through a bearing. To do.

他の技術方案は前記連結口と排出溝にそれぞれ第一電磁弁と第二電磁弁が取り付けられる。 In another technical solution, a first solenoid valve and a second solenoid valve are attached to the connecting port and the discharge groove, respectively.

他の技術方案は前記空筐体の底壁に前記排出溝と接続する斜面が設置される。 In another technical solution, a slope connecting to the discharge groove is installed on the bottom wall of the empty casing.

他の技術方案は前記ダンパーが前記第一駆動機の上端と下端に設置され前記第一駆動機と固定的に接続し、前記ヒートシンクが前記第一駆動機の前端と後端に設置され前記第一駆動機の殻と固定的に接続し、前記駆動機の上端と下端が前記ダンパーと固定的に接続し、前記第一駆動機の前端と後端にそれぞれ多くの前記ヒートシンクが設置される。 In another technical solution, the dampers are installed at the upper and lower ends of the first driving machine and fixedly connected to the first driving machine, and the heat sinks are installed at the front and rear ends of the first driving machine. One driver is fixedly connected to the shell, the upper and lower ends of the driver are fixedly connected to the damper, and the heat sinks are installed at the front and rear ends of the first driver.

本発明の有益な効果は本発明は初期状態の時に、前記第一滑走ブロックが前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯と噛み合い、前記アリブロックが前記アリ溝の底壁と相殺し、前記スプライン軸が第二内スプライン溝と離脱し、この時に前記第二テーパー輪が前記半円錐歯の回転軌跡に位置し、これにより前記第二テーパー輪が前記タレットが回転する時に前記半円錐歯と噛み合う。 The beneficial effect of the present invention is that when the present invention is in an initial state, the first sliding block cancels the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth, and the dovetail block It cancels off the bottom wall of the dovetail groove, and the spline shaft disengages from the second inner spline groove, and at this time, the second tapered ring is positioned on the rotation trajectory of the semi-conical teeth, whereby the second tapered ring is When the turret rotates, it meshes with the semi-conical teeth.

使用する時に、前記第二電磁弁を閉じて、前記第一電磁弁を開き、その後に前記灌溝に原料と補佐料を入れて、その後に前記第一電磁弁を閉じて前記第一駆動機を起動し、前記第一駆動機が前記第三回転軸を通じて前記第二スプロケットを駆動して回転させ、前記第二スプロケットが前記ベルトを通じて前記第二回転軸を駆動して回転させ、前記第二回転軸が前記第四テーパー輪を通じて前記第一回転軸を駆動して回転させ、前記第一回転軸が前記タレットを駆動して回転させ、前記半円錐歯が前記第二テーパー輪が回転する時に前記第二テーパー輪と離れて前記第一テーパー輪と噛み合い、前記タレットがずっと回転する過程に、前記混合軸を駆動しずっと正反転し、前記混合ブレードが空体の中の原料混合物を混ぜる。 When used, the second electromagnetic valve is closed, the first electromagnetic valve is opened, and then the irrigation groove is filled with raw materials and auxiliary materials, and then the first electromagnetic valve is closed and the first driving machine The first driving machine drives and rotates the second sprocket through the third rotating shaft, the second sprocket drives and rotates the second rotating shaft through the belt, and When the rotating shaft drives and rotates the first rotating shaft through the fourth tapered wheel, the first rotating shaft drives and rotates the turret, and the semiconical tooth rotates when the second tapered wheel rotates. In the process of moving away from the second taper wheel and meshing with the first taper wheel and rotating the turret all the time, the mixing shaft is driven to rotate forward and reverse, and the mixing blade mixes the raw material mixture in the empty body.

単方向に混ぜる時、前記第二駆動機を起動し、前記第二駆動機が前記ねじレバーを通じて前記第一滑走ブロックを駆動し下にスライドし、前記第一滑走ブロックが下にスライドする時に前記第一ダイヤルフォークを通じて前記第二テーパー輪を駆動し下にスライドし前記半円錐歯と離れて、前記第一滑走ブロックが下にスライドする時に前記滑走棒と連動して下にスライドし、前記滑走棒が下にスライドする時に前記ギアを通じて前記アリブロックを駆動し上にスライドし、これにより前記ダイヤルフォークを通じて前記第一テーパー輪を駆動し前記半円錐歯の回転軌跡から離れて、前記半円錐歯が前記第一テーパー輪と前記第二テーパー輪に作用せず、前記アリブロックが上にスライドする時に前記第二滑走ブロックと前記連結アームと連動して上にスライドし、前記連結アームが前記転セットを通じて前記スプライン軸と連動して上にスライドし前記第二内スプライン溝に伸びて、前記第三回転軸が回転する時に前記混合軸を駆動して回転させ単方向に混ぜることを実現する。 When mixing in a single direction, start the second driving machine, the second driving machine drives the first sliding block through the screw lever and slides down, and the first sliding block slides down The second tapered wheel is driven through the first dial fork to slide down and away from the semi-conical teeth, and when the first sliding block slides down, it slides down in conjunction with the sliding rod, and the sliding When the rod slides down, it drives the dovetail through the gear and slides up, thereby driving the first taper wheel through the dial fork and moving away from the rotation trajectory of the half cone. Does not act on the first taper wheel and the second taper wheel, and when the dovetail slides upward, the second sliding block and the connecting arm are connected. Then, the connecting arm slides up in conjunction with the spline shaft through the rolling set and extends into the second inner spline groove, and drives the mixing shaft when the third rotating shaft rotates. And rotate to mix in one direction.

本装置の構造が簡単で、使用が便利で、単方向に混ぜることと双方向に混ぜることを切り替えることができ、必要に応じて自由に調節でき、食品の加工効率と品質を大きく高める。 The structure of this device is simple, convenient to use, can be switched between unidirectional mixing and bidirectional mixing, and can be freely adjusted as necessary, greatly improving the food processing efficiency and quality.

本発明の有益な効果は本発明は初期状態の時に、前記第一滑走ブロックが前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯と噛み合い、前記アリブロックが前記アリ溝の底壁と相殺し、前記スプライン軸が第二内スプライン溝と離脱し、この時に前記第二テーパー輪が前記半円錐歯の回転軌跡に位置し、これにより前記第二テーパー輪が前記タレットが回転する時に前記半円錐歯と噛み合う。 The beneficial effect of the present invention is that when the present invention is in an initial state, the first sliding block cancels the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth, and the dovetail block It cancels off the bottom wall of the dovetail groove, and the spline shaft disengages from the second inner spline groove, and at this time, the second tapered ring is positioned on the rotation trajectory of the semi-conical teeth, whereby the second tapered ring is When the turret rotates, it meshes with the semi-conical teeth.

本発明の実施例また既存の技術の中の技術方案をもっとはっきりと説明するため、下記に実施例また既存の技術の説明の中に使用する必要がある図面に簡単な紹介を行って、一目でわかることは下記の説明の中の図面はただ本発明のいくつかの実施例で、本領域の当業者にとって、創造的な労働を払わないことを前提に、これらの図面に基づいてそのほかの図面を得ることができる。 In order to more clearly describe the technical solutions in the embodiments of the present invention and the existing technology, a brief introduction is given below to the drawings that need to be used in the description of the embodiments and the existing technology. It is understood that the drawings in the following description are just some embodiments of the present invention, and that other persons based on these drawings will be based on the assumption that no creative labor is paid to those skilled in the art. A drawing can be obtained.

図1は本発明の新型食品加工装置の構造概略図である。FIG. 1 is a schematic structural view of a new food processing apparatus of the present invention. 図2は図1の第一回転筐体の拡大構造概略図である。FIG. 2 is an enlarged schematic view of the first rotating housing of FIG. 図3は図2のタレットの左視図である。FIG. 3 is a left view of the turret of FIG. 図4は図1の底面図である。FIG. 4 is a bottom view of FIG.

本明細書に開示した全ての特徴、或いは開示した全ての方法、過程中のステップは、相互に排斥する特徴或いはステップ以外に、いかなる方式で組み合わせることができる。 All features disclosed in this specification or all disclosed methods and steps in the process may be combined in any manner other than mutually exclusive features or steps.

本明細書に開示した全ての特徴は、特別な記述がない限り、そのほかの同等或いは類似する目的を持つ代替的な特徴に取り替えられる。つまり特別な記述がない限り、全ての特徴はただ一連の同等或いは類似する特徴の中の一つの例だけである。 All features disclosed in this specification may be replaced with other alternative features having equivalent or similar purposes unless otherwise specified. That is, unless otherwise noted, all features are just one example in a series of equivalent or similar features.

図1~図4が示すように、本発明の新型食品加工装置は支持台10に固定的に取り付けられる箱体11を含み、前記支持台10の四つの角底部に同時にローラー101が設置され、前記箱体11に空筐体15が設置され、前記空筐体15の頂壁に第一回転筐体57が設置され、前記空筐体15の頂壁にまた前記第一回転筐体57の左側に位置する灌溝18が設置され、前記空筐体15の底壁に外部と連結する配給溝31が設置され、前記灌溝18の底壁に前記容筐体15と連結する連結口17が設置され、前記第一回転筐体57の右側に第二回転筐体29が設置され、前記第二回転筐体29の上側に左に延びる第三回転筐体25が設置され、前記第一回転筐体57が前記第三回転筐体25の間に相互に連結する転溝41が設置され、前記第一回転筐体57の底壁に上下に延びる混合軸13が回転可能なように取り付けられ、前記混合軸13の下端が前記空筐体15に伸びて多くの混合ブレード14が固定的に取り付けられ、前記転柱13の上端が上に伸びて前記転溝41に回転可能なように取り付けられ、前記混合軸13が前記第一回転筐体57に位置し外スプラインが設置され、前記第一回転筐体57に上下に対応して前記外スプラインと係合する第一テーパー輪35と第二テーパー輪56が設置され、前記第一回転筐体57の左端壁に第一テーパー輪35と第二テーパー輪56を駆動し上下に移動可能な回す装置が設置され、前記第一回転筐体57と前記第二回転筐体29の間に左右に伸びる第一回転軸28が回転可能なように取り付けられ、前記第一回転軸28の左端が前記第一回転筐体57に伸びてタレット22が固定的に取り付けられ、前記タレット22の左端面に前記第一テーパー輪35と前記第二テーパー輪56と係合し接続する半円錐歯33が固定的に設置され、前記第一回転軸28の右端が前記第二回転筐体29に伸びて第三テーパー輪30が固定的に取り付けられ、前記第三回転筐体25と前記第二回転筐体29の間に上下に伸びる第二回転軸26が回転可能なように取り付けられ、前記第二回転軸26の下端が前記第二回転筐体29に伸びて前記第三テーパー輪30と係合し接続する第四テーパー輪27が固定的に取り付けられ、前記第二回転軸26の上端が前記第三回転筐体25に伸びて第一スプロケット24が固定的に取り付けられ、前記転溝41の上部に上に伸びる第三回転軸20が回転可能なように取り付けられ、前記第三回転軸20の上端が前記箱体11の頂壁に固定的に取り付けられる第一駆動機21と動力が伝達可能なように接続し、前記第一駆動機21の外側に護托装置が設置され、前記護托装置がダンパー215とヒートシンク216を含み、前記第三回転軸20に第二スプロケット19が固定的に取り付けられ、前記第一スプロケット24と第二スプロケット19がベルト23を通じて動力が伝達可能なように接続し、前記混合軸に上に向かう第一内スプライン溝34が設置され、前記第一内スプライン溝34にスプライン軸36が係合し取り付けられ、前記第三回転軸20に下に向かって前記スプライン軸36と係合する第二内スプライン溝40が設置され、前記転溝41の左端壁に分合装置が設置され、前記分合装置が前記スプライン軸3を駆動し前記第二内スプライン溝40と離合する。 As shown in FIGS. 1 to 4, the new food processing apparatus of the present invention includes a box 11 fixedly attached to a support base 10, and rollers 101 are simultaneously installed on the four corner bottoms of the support base 10, An empty casing 15 is installed in the box 11, a first rotating casing 57 is installed on the top wall of the empty casing 15, and the first rotating casing 57 is also mounted on the top wall of the empty casing 15. The irrigation groove 18 located on the left side is installed, the distribution groove 31 connected to the outside is installed on the bottom wall of the empty casing 15, and the connection port 17 connected to the container casing 15 on the bottom wall of the irrigation groove 18 Is installed, a second rotating casing 29 is installed on the right side of the first rotating casing 57, a third rotating casing 25 is installed on the upper side of the second rotating casing 29, and extends to the left. A rolling groove 41 is provided between the rotary casing 57 and the third rotary casing 25 so that the mixing shaft 13 can be rotated on the bottom wall of the first rotary casing 57 so as to be rotatable. Is The lower end of the mixing shaft 13 extends to the empty casing 15 and a number of mixing blades 14 are fixedly attached. The upper end of the rolling pillar 13 extends upward and is attached to the rolling groove 41 so as to be rotatable. The mixing shaft 13 is positioned on the first rotating casing 57 and an outer spline is installed. The first tapered ring 35 and the second taper 35 engage with the outer spline corresponding to the first rotating casing 57 in the vertical direction. A taper wheel 56 is installed, and a device for driving the first taper wheel 35 and the second taper wheel 56 to rotate up and down is installed on the left end wall of the first rotation housing 57, and the first rotation housing 57 The first rotary shaft 28 extending left and right is rotatably attached between the second rotary housing 29 and the left end of the first rotary shaft 28 extends to the first rotary housing 57 so that the turret 22 The first tapered ring 35 and the second tapered ring 56 are fixedly attached to the left end surface of the turret 22. A semi-conical tooth 33 that engages and connects with the first rotating shaft 28, the right end of the first rotating shaft 28 extends to the second rotating housing 29, and a third tapered ring 30 is fixedly attached. A second rotary shaft 26 extending up and down is rotatably attached between the three rotary housing 25 and the second rotary housing 29, and the lower end of the second rotary shaft 26 is attached to the second rotary housing 29. A fourth taper ring 27 that extends and engages and connects with the third taper ring 30 is fixedly attached, and an upper end of the second rotation shaft 26 extends to the third rotation housing 25 so that the first sprocket 24 A third rotary shaft 20 that is fixedly attached and extends upward on the upper part of the rolling groove 41 is rotatably attached, and an upper end of the third rotary shaft 20 is fixedly attached to the top wall of the box 11. It is connected so that power can be transmitted to the first driving machine 21 to be mounted, and a protective device is installed outside the first driving machine 21, The protective device includes a damper 215 and a heat sink 216, the second sprocket 19 is fixedly attached to the third rotating shaft 20, and the first sprocket 24 and the second sprocket 19 can transmit power through the belt 23. The first inner spline groove 34 facing upward is installed in the mixing shaft, and the spline shaft 36 is engaged with and attached to the first inner spline groove 34, and the third rotation shaft 20 faces downward. A second inner spline groove 40 that engages with the spline shaft 36 is installed, a coupling device is installed on the left end wall of the rolling groove 41, and the coupling device drives the spline shaft 3 to The spline groove 40 is separated.

好ましくは前記回す装置は前記第一回転溝57の左端壁に設置される第一滑走溝53と第一滑走溝53の上に位置し前記第一回転溝57と連結するアリ溝を含み、前記第一滑走溝53の上端壁の左側に上に伸びる第二滑走溝が設置され、前記第二滑走溝と前記アリ溝の間に第一連結溝が設置され、前記第一滑走溝53に上下に移動できる第一滑走ブロック51が取り付けられ、前記第一滑走ブロック51に上下に伸びるねじレバー52が係合し取り付けられ、前記ねじレバー52の下端が前記第一滑走溝53の底壁に回転可能なように取り付けられ、上端が前記第一滑走溝53の頂壁に固定的に取り付けられる第二駆動機50と動力が伝達可能なように接続し、前記第二滑走溝に前記第一滑走ブロック51と固定的に接続する滑走棒46が固定的に取り付けられ、前記滑走棒46の右端面に第一ラックが設置され、前記アリ溝に上下に移動できるアリブロック47が取り付けられ、前記アリブロック47の左端面に第二ラックが設置され、前記第一連結溝が第四回転軸48を通じて前記第一ラックと第二ラックと係合し接続するギア49が回転可能なように取り付けられ、前記第一滑走ブロック51と前記アリブロック47の右端にそれぞれ第一シフトフォーク54と第二シフトフォーク55が固定的に取り付けられ、これにより前記第一シフトフォーク54と第二シフトフォーク55を通じてそれぞれ前記第二テーパー輪56と第一テーパー輪35を回転させて上下にスライドさせる。 Preferably, the rotating device includes a first sliding groove 53 installed on a left end wall of the first rotating groove 57 and a dovetail groove located on the first sliding groove 53 and connected to the first rotating groove 57, A second sliding groove extending upward is provided on the left side of the upper end wall of the first sliding groove 53, and a first connecting groove is provided between the second sliding groove and the dovetail groove. A first sliding block 51 is attached, and a screw lever 52 extending vertically is engaged with and attached to the first sliding block 51, and the lower end of the screw lever 52 rotates to the bottom wall of the first sliding groove 53. Power is connected to a second driving machine 50 that is attached as possible and has an upper end fixedly attached to the top wall of the first sliding groove 53, and the first sliding is connected to the second sliding groove. A sliding rod 46 fixedly connected to the block 51 is fixedly attached, and the right end surface of the sliding rod 46 is fixed. A first rack is installed, an ant block 47 that can move up and down is attached to the dovetail groove, a second rack is installed on the left end surface of the ant block 47, and the first connecting groove is inserted through the fourth rotating shaft 48. A gear 49 that engages and connects with the first rack and the second rack is rotatably mounted, and a first shift fork 54 and a second shift fork 55 are respectively attached to the right ends of the first sliding block 51 and the dove block 47. Are fixedly attached, whereby the second tapered wheel 56 and the first tapered wheel 35 are rotated and slid up and down through the first shift fork 54 and the second shift fork 55, respectively.

好ましくは前記分合装置は前記アリ溝の上端壁に設置され上に延びる第三滑走溝44を含み、前記第三滑走溝44と前記回転溝41の間に相互に連結する第二連結溝42が設置され、前記第三滑走溝44の中に上下に前記アリブロック47と固定的に接続する第二滑走ブロック45が固定的に取り付けられ、前記第二連結溝42に左右に延びる連結アーム43がスライド可能なように取り付けられ、前記連結アーム43の左端が前記第二滑走ブロック45と固定的に接続し、右端が前記回転溝41に伸びて転セット38が固定的に取り付けられ、前記転セット38がベアリングを通じて前記スプライン軸36に嵌着する。 Preferably, the combining device includes a third sliding groove 44 installed on the upper end wall of the dovetail groove and extending upward, and a second connection groove 42 interconnecting between the third sliding groove 44 and the rotation groove 41. The second sliding block 45 fixedly connected to the dovetail 47 is fixedly installed in the third sliding groove 44 and fixedly attached to the second connecting groove 42 in the left and right directions. Are attached so as to be slidable, the left end of the connecting arm 43 is fixedly connected to the second sliding block 45, the right end is extended to the rotating groove 41, and the rolling set 38 is fixedly attached. A set 38 is fitted to the spline shaft 36 through a bearing.

好ましくは前記連結口17と排出溝31にそれぞれ第一電磁弁16と第二電磁弁32が取り付けられ、これによりそれぞれに前記連結溝17と排出溝31の開閉を制御する。 Preferably, a first electromagnetic valve 16 and a second electromagnetic valve 32 are attached to the connection port 17 and the discharge groove 31, respectively, thereby controlling the opening and closing of the connection groove 17 and the discharge groove 31 respectively.

好ましくは前記空筐体15の底壁に前記排出溝31と接続する斜面12が設置され、排出することを便利にする。 Preferably, a slope 12 connected to the discharge groove 31 is installed on the bottom wall of the empty casing 15 to facilitate discharge.

好ましくは、前記ダンパー215が前記第一駆動機21の上端と下端に設置され前記第一駆動機21と固定的に接続し、前記ヒートシンク216が前記第一駆動機21の前端と後端に設置され前記第一駆動機21の殻と固定的に接続し、前記駆動機216の上端と下端が前記ダンパー215と固定的に接続し、前記第一駆動機21の前端と後端にそれぞれ多くの前記ヒートシンク216が設置され、前記ヒートシンク216が前記第一駆動機21が動作する時に発生する熱量を吸収し発散し、前記ダンパー215が前記第一駆動機21が動作する時に発生する振動力を減らして、振動力が大きすぎて本装置の正常な運行を影響することを防ぐ。 Preferably, the damper 215 is installed at the upper and lower ends of the first driving machine 21 and fixedly connected to the first driving machine 21, and the heat sink 216 is installed at the front and rear ends of the first driving machine 21. Fixedly connected to the shell of the first driving device 21, the upper end and the lower end of the driving device 216 are fixedly connected to the damper 215, and the front and rear ends of the first driving device 21 The heat sink 216 is installed, the heat sink 216 absorbs and dissipates the amount of heat generated when the first driving device 21 operates, and the damper 215 reduces vibration force generated when the first driving device 21 operates. Therefore, the vibration force is prevented from being too large to affect the normal operation of the apparatus.

本発明は初期状態の時に、前記第一滑走ブロック51が前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯33と噛み合い、前記アリブロック47が前記アリ溝の底壁と相殺し、前記スプライン軸36が第二内スプライン溝40と離脱し、この時に前記第二テーパー輪35が前記半円錐歯33の回転軌跡に位置し、これにより前記第二テーパー輪35が前記タレット22が180度を回転する時に前記半円錐歯33と噛み合う。 In the present invention, in the initial state, the first sliding block 51 offsets the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth 33, and the dovetail block 47 has the dovetail groove. The spline shaft 36 disengages from the second inner spline groove 40 at the same time as the bottom wall, and at this time, the second tapered ring 35 is positioned on the rotational locus of the half-conical tooth 33, whereby the second tapered ring 35 Meshes with the semi-conical teeth 33 when the turret 22 rotates 180 degrees.

使用する時に、前記第二電磁弁32を閉じて、前記第一電磁弁16を開き、その後に前記灌溝18に原料と補佐料を入れて、その後に前記第一電磁弁16を閉じて前記第一駆動機21を起動し、前記第一駆動機21が前記第三回転軸20を通じて前記第二スプロケット19を駆動して回転させ、前記第二スプロケット19が前記ベルト23を通じて前記第二回転軸26を駆動して回転させ、前記第二回転軸26が前記第四テーパー輪27を通じて前記第一回転軸28を駆動して回転させ、前記第一回転軸28が前記タレット22を駆動して回転させ、前記半円錐歯33が前記第二テーパー輪56が180度を回転する時に前記第二テーパー輪56と離れて前記第一テーパー輪35と噛み合い、前記タレット22がずっと回転する過程に、前記混合軸13を駆動しずっと正反転し、前記混合ブレード14が空体15の中の原料混合物を混ぜる。 When using, close the second solenoid valve 32, open the first solenoid valve 16, then put the raw material and auxiliary material into the irrigation groove 18, and then close the first solenoid valve 16 and the The first driving machine 21 is activated, the first driving machine 21 drives and rotates the second sprocket 19 through the third rotary shaft 20, and the second sprocket 19 passes through the belt 23 and the second rotary shaft. The second rotating shaft 26 drives and rotates the first rotating shaft 28 through the fourth tapered wheel 27, and the first rotating shaft 28 drives the turret 22 and rotates. The half-conical teeth 33 are separated from the second tapered ring 56 when the second tapered ring 56 rotates 180 degrees, and engage with the first tapered ring 35, and the turret 22 is rotated in the process. The mixing shaft 13 is driven to rotate forward and reverse so that the mixing blade 14 is in the empty body 15. Mix a raw material mixture.

単方向に混ぜる時、前記第二駆動機50を起動し、前記第二駆動機50が前記ねじレバー52を通じて前記第一滑走ブロック51を駆動し下にスライドし、前記第一滑走ブロック51が下にスライドする時に前記第一ダイヤルフォーク54を通じて前記第二テーパー輪56を駆動し下にスライドし前記半円錐歯33と離れて、前記第一滑走ブロック51が下にスライドする時に前記滑走棒46と連動して下にスライドし、前記滑走棒46が下にスライドする時に前記ギア49を通じて前記アリブロック47を駆動し上にスライドし、これにより前記ダイヤルフォークを通じて前記第一テーパー輪35を駆動し前記半円錐歯33の回転軌跡から離れて、前記半円錐歯33が前記第一テーパー輪35と前記第二テーパー輪56に作用せず、前記アリブロック47が上にスライドする時に前記第二滑走ブロック45と前記連結アーム43と連動して上にスライドし、前記連結アーム43が前記転セット38を通じて前記スプライン軸36と連動して上にスライドし前記第二内スプライン溝40に伸びて、前記第三回転軸20が回転する時に前記混合軸13を駆動して回転させ単方向に混ぜることを実現する。 When mixing in a single direction, the second driving machine 50 is started, the second driving machine 50 drives the first sliding block 51 through the screw lever 52 and slides down, and the first sliding block 51 moves down. When the first sliding block 51 slides down, the second tapered ring 56 is driven through the first dial fork 54 to slide down and away from the semi-conical teeth 33. When the sliding rod 46 slides down, the dovetail 47 is driven through the gear 49 and slides up, thereby driving the first tapered wheel 35 through the dial fork. Apart from the rotational trajectory of the semiconical tooth 33, the semiconical tooth 33 does not act on the first tapered ring 35 and the second tapered ring 56, and the second sliding block 47 is slid when the dovetail 47 slides upward. 45 and slides up in conjunction with the connecting arm 43, the connecting arm 43 slides up in conjunction with the spline shaft 36 through the rolling set 38 and extends into the second inner spline groove 40, When the third rotating shaft 20 rotates, the mixing shaft 13 is driven to rotate and mixed in a single direction.

本発明の有益な効果は本発明は初期状態の時に、前記第一滑走ブロックが前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯と噛み合い、前記アリブロックが前記アリ溝の底壁と相殺し、前記スプライン軸が第二内スプライン溝と離脱し、この時に前記第二テーパー輪が前記半円錐歯の回転軌跡に位置し、これにより前記第二テーパー輪が前記タレットが回転する時に前記半円錐歯と噛み合う。 The beneficial effect of the present invention is that when the present invention is in an initial state, the first sliding block cancels the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth, and the dovetail block It cancels off the bottom wall of the dovetail groove, and the spline shaft disengages from the second inner spline groove, and at this time, the second tapered ring is positioned on the rotation trajectory of the semi-conical teeth, whereby the second tapered ring is When the turret rotates, it meshes with the semi-conical teeth.

使用する時に、前記第二電磁弁を閉じて、前記第一電磁弁を開き、その後に前記灌溝に原料と補佐料を入れて、その後に前記第一電磁弁を閉じて前記第一駆動機を起動し、前記第一駆動機が前記第三回転軸を通じて前記第二スプロケットを駆動して回転させ、前記第二スプロケットが前記ベルトを通じて前記第二回転軸を駆動して回転させ、前記第二回転軸が前記第四テーパー輪を通じて前記第一回転軸を駆動して回転させ、前記第一回転軸が前記タレットを駆動して回転させ、前記半円錐歯が前記第二テーパー輪が回転する時に前記第二テーパー輪と離れて前記第一テーパー輪と噛み合い、前記タレットがずっと回転する過程に、前記混合軸を駆動しずっと正反転し、前記混合ブレードが空体の中の原料混合物を混ぜる。 When used, the second electromagnetic valve is closed, the first electromagnetic valve is opened, and then the irrigation groove is filled with raw materials and auxiliary materials, and then the first electromagnetic valve is closed and the first driving machine The first driving machine drives and rotates the second sprocket through the third rotating shaft, the second sprocket drives and rotates the second rotating shaft through the belt, and When the rotating shaft drives and rotates the first rotating shaft through the fourth tapered wheel, the first rotating shaft drives and rotates the turret, and the semiconical tooth rotates when the second tapered wheel rotates. In the process of moving away from the second taper wheel and meshing with the first taper wheel and rotating the turret all the time, the mixing shaft is driven to rotate forward and reverse, and the mixing blade mixes the raw material mixture in the empty body.

単方向に混ぜる時、前記第二駆動機を起動し、前記第二駆動機が前記ねじレバーを通じて前記第一滑走ブロックを駆動し下にスライドし、前記第一滑走ブロックが下にスライドする時に前記第一ダイヤルフォークを通じて前記第二テーパー輪を駆動し下にスライドし前記半円錐歯と離れて、前記第一滑走ブロックが下にスライドする時に前記滑走棒と連動して下にスライドし、前記滑走棒が下にスライドする時に前記ギアを通じて前記アリブロックを駆動し上にスライドし、これにより前記ダイヤルフォークを通じて前記第一テーパー輪を駆動し前記半円錐歯の回転軌跡から離れて、前記半円錐歯が前記第一テーパー輪と前記第二テーパー輪に作用せず、前記アリブロックが上にスライドする時に前記第二滑走ブロックと前記連結アームと連動して上にスライドし、前記連結アームが前記転セットを通じて前記スプライン軸と連動して上にスライドし前記第二内スプライン溝に伸びて、前記第三回転軸が回転する時に前記混合軸を駆動して回転させ単方向に混ぜることを実現する。 When mixing in a single direction, start the second driving machine, the second driving machine drives the first sliding block through the screw lever and slides down, and the first sliding block slides down The second tapered wheel is driven through the first dial fork to slide down and away from the semi-conical teeth, and when the first sliding block slides down, it slides down in conjunction with the sliding rod, and the sliding When the rod slides down, it drives the dovetail through the gear and slides up, thereby driving the first taper wheel through the dial fork and moving away from the rotation trajectory of the half cone. Does not act on the first taper wheel and the second taper wheel, and when the dovetail slides upward, the second sliding block and the connecting arm are connected. Then, the connecting arm slides up in conjunction with the spline shaft through the rolling set and extends into the second inner spline groove, and drives the mixing shaft when the third rotating shaft rotates. And rotate to mix in one direction.

本装置の構造が簡単で、使用が便利で、単方向に混ぜることと双方向に混ぜることを切り替えることができ、必要に応じて自由に調節でき、食品の加工効率と品質を大きく高める。 The structure of this device is simple, convenient to use, can be switched between unidirectional mixing and bidirectional mixing, and can be freely adjusted as necessary, greatly improving the food processing efficiency and quality.

以上に本発明の基本原理、主特徴と本発明の長所を表明し説明した。本業界の技術者が了解すべきなのは本発明は上記の実施例の制限を受けなく、上記の実施例と明細書に説明したのは本発明の原理で、本発明の意義と原理から離れないことを前提に本発明に各種の変化と改善があり、これらの変化と改善が本発明の保護範囲にある。本発明の保護範囲は添付の特許請求の範囲と同等内容に画定される。 The basic principle, main features and advantages of the present invention have been described and explained above. It should be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and the specification are the principles of the present invention and do not depart from the significance and principles of the present invention. Therefore, there are various changes and improvements in the present invention, and these changes and improvements are within the protection scope of the present invention. The protection scope of the present invention is defined equivalent to the scope of the appended claims.

本発明は食品加工技術分野に関し、具体的には新型食品加工装置に関する。 The present invention relates to the field of food processing technology, and specifically to a new type food processing apparatus.

いくつかの肉類食品を加工し生産する時、往々にして食品原料に異なる補材料を加え混ぜて食品の品質を高めるが、しかし伝統的な食品混合装置は撹拌機を使って混ぜて、伝統的な撹拌機の混ぜる方向が単一で、混ぜる効率が低く、混ぜる品質も悪く、食用効果を下げる。 When processing and producing some meat foods, often the food ingredients are mixed with different supplements to improve the quality of the food, but traditional food mixing equipment is mixed using a stirrer The mixing direction of a simple stirrer is low, the mixing efficiency is low, the mixing quality is poor, and the edible effect is lowered.

中国特許出願公開第102481577号明細書Chinese Patent Application Publication No.102481577

上記の技術の不足に対し、本発明は新型食品加工装置を提供した。 In response to the above shortage of technology, the present invention provides a new food processing apparatus.

本発明の新型食品加工装置は支持台に固定的に取り付けられる箱体を含み、前記支持台の四つの角底部に同時にローラーが設置され、前記箱体に空筐体が設置され、前記空筐体の頂壁に第一回転筐体が設置され、前記空筐体の頂壁にまた前記第一回転筐体の左側に位置する灌溝が設置され、前記空筐体の底壁に外部と連結する配給溝が設置され、前記灌溝の底壁に前記空筐体と連結する連結口が設置され、前記第一回転筐体の右側に第二回転筐体が設置され、前記第二回転筐体の上側に左に延びる第三回転筐体が設置され、前記第一回転筐体が前記第三回転筐体の間に相互に連結する転溝が設置され、前記第一回転筐体の底壁に上下に延びる混合軸が回転可能なように取り付けられ、前記混合軸の下端が前記空筐体に伸びて多くの混合ブレードが固定的に取り付けられ、前記混合軸の上端が上に伸びて前記転溝に回転可能なように取り付けられ、前記混合軸が前記第一回転筐体に位置し外スプラインが設置され、前記第一回転筐体に上下に対応して前記外スプラインと係合する第一テーパー輪と第二テーパー輪が設置され、前記第一回転筐体の左端壁に第一テーパー輪と第二テーパー輪を駆動し上下に移動可能な回す装置が設置され、前記第一回転筐体と前記第二回転筐体の間に左右に伸びる第一回転軸が回転可能なように取り付けられ、前記第一回転軸の左端が前記第一回転筐体に伸びてタレットが固定的に取り付けられ、前記タレットの左端面に前記第一テーパー輪と前記第二テーパー輪と係合し接続する半円錐歯が固定的に設置され、前記第一回転軸の右端が前記第二回転筐体に伸びて第三テーパー輪が固定的に取り付けられ、前記第三回転筐体と前記第二回転筐体の間に上下に伸びる第二回転軸が回転可能なように取り付けられ、前記第二回転軸の下端が前記第二回転筐体に伸びて前記第三テーパー輪と係合し接続する第四テーパー輪が固定的に取り付けられ、前記第二回転軸の上端が前記第三回転筐体に伸びて第一スプロケットが固定的に取り付けられ、前記転溝の上部に上に伸びる第三回転軸が回転可能なように取り付けられ、前記第三回転軸の上端が前記箱体の頂壁に固定的に取り付けられる第一駆動機と動力が伝達可能なように接続し、前記第一駆動機の外側に護托装置が設置され、前記護托装置がダンパーとヒートシンクを含み、前記第三回転軸に第二スプロケットが固定的に取り付けられ、前記第一スプロケットと第二スプロケットがベルトを通じて動力が伝達可能なように接続し、前記混合軸に上に向かう第一内スプライン溝が設置され、前記第一内スプライン溝にスプライン軸が係合し取り付けられ、前記第三回転軸に下に向かって前記スプライン軸と係合する第二内スプライン溝が設置され、前記転溝の左端壁に分合装置が設置される。 The new food processing apparatus of the present invention includes a box that is fixedly attached to a support base, rollers are simultaneously installed at the four bottoms of the support base, an empty casing is installed in the box, and the empty casing A first rotating housing is installed on the top wall of the body, and a irrigation groove located on the left side of the first rotating housing is installed on the top wall of the empty housing. A distribution groove to be connected is installed, a connection port to be connected to the empty housing is installed on the bottom wall of the irrigation groove, a second rotating housing is installed on the right side of the first rotating housing, and the second rotation A third rotating housing extending to the left is installed on the upper side of the housing, a rolling groove for connecting the first rotating housing between the third rotating housing is installed, A mixing shaft extending vertically is attached to the bottom wall so that the mixing shaft can rotate, and a lower end of the mixing shaft extends to the empty casing so that many mixing There fixedly mounted, the top end of the mixing shaft is extended upward the mounting so as to be rotatable on the rolling grooves, the mixing shaft is located in the first rotating housing outer spline is installed, the first A first taper wheel and a second taper wheel that engage with the outer spline corresponding to the upper and lower sides of the one rotation housing are installed, and the first taper wheel and the second taper wheel are provided on the left end wall of the first rotation housing. A rotating device that can be driven and moved up and down is installed, and a first rotating shaft that extends to the left and right is rotatably mounted between the first rotating housing and the second rotating housing. The left end of the turret is fixedly attached to the first rotating housing, and the left end surface of the turret is fixedly provided with a semi-conical tooth that engages and connects the first tapered ring and the second tapered ring. Installed, the right end of the first rotating shaft is the second rotating housing. A third taper wheel is fixedly attached to the second rotating housing, and a second rotating shaft extending vertically is attached between the third rotating housing and the second rotating housing so that the second rotating shaft is rotatable. A lower end of the shaft extends to the second rotating housing, and a fourth tapered wheel that engages and connects with the third tapered wheel is fixedly attached, and an upper end of the second rotating shaft is attached to the third rotating housing. The first sprocket is fixed and attached to the upper part of the rolling groove so that the third rotating shaft can be rotated. The upper end of the third rotating shaft is fixed to the top wall of the box. A first driving machine attached to the first driving machine so as to be able to transmit power, a guard device is installed outside the first driving machine, the guard device includes a damper and a heat sink, and the third rotating shaft A second sprocket is fixedly attached to the first sprocket. The procket and the second sprocket are connected so that power can be transmitted through the belt, and a first inner spline groove is installed on the mixing shaft, and the spline shaft is engaged with and attached to the first inner spline groove. A second inner spline groove that engages with the spline shaft is installed downward on the third rotation shaft, and a coupling device is installed on the left end wall of the rolling groove.

他の技術方案は前記回す装置は前記第一回転筐体の左端壁に設置される第一滑走溝と第一滑走溝の上に位置し前記第一回転筐体と連結するアリ溝を含み、前記第一滑走溝の上端壁の左側に上に伸びる第二滑走溝が設置され、前記第二滑走溝と前記アリ溝の間に第一連結溝が設置され、前記第一滑走溝に上下に移動できる第一滑走ブロックが取り付けられ、前記第一滑走ブロックに上下に伸びるねじレバーが係合し取り付けられ、前記ねじレバーの下端が前記第一滑走溝の底壁に回転可能なように取り付けられ、上端が前記第一滑走溝の頂壁に固定的に取り付けられる第二駆動機と動力が伝達可能なように接続し、前記第二滑走溝に前記第一滑走ブロックと固定的に接続する滑走棒が固定的に取り付けられ、前記滑走棒の右端面に第一ラックが設置され、前記アリ溝に上下に移動できるアリブロックが取り付けられ、前記アリブロックの左端面に第二ラックが設置され、前記第一連結溝が第四回転軸を通じて前記第一ラックと第二ラックと係合し接続するギアが回転可能なように取り付けられ、前記第一滑走ブロックと前記アリブロックの右端にそれぞれ第一シフトフォークと第二シフトフォークが固定的に取り付けられる。 Other technical solutions the turning device comprises a dovetail groove that connects the first sliding groove and located on the first sliding groove said first rotary body installed in the left end wall of the first rotating body, A second sliding groove extending upward is provided on the left side of the upper end wall of the first sliding groove, a first connection groove is provided between the second sliding groove and the dovetail groove, and the first sliding groove is vertically arranged on the first sliding groove. A movable first sliding block is attached, and a screw lever extending vertically is engaged with and attached to the first sliding block, and a lower end of the screw lever is rotatably attached to a bottom wall of the first sliding groove. The sliding is connected to the second driving machine, the upper end of which is fixedly attached to the top wall of the first sliding groove so that power can be transmitted, and fixedly connected to the first sliding block in the second sliding groove. A rod is fixedly attached, and a first rack is mounted on the right end surface of the sliding rod. The dovetail block is mounted on the dovetail groove, and a second rack is installed on the left end face of the dovetail block. The first connecting groove is connected to the first rack and the second rack through a fourth rotating shaft. Gears that engage and connect with the first shift fork and the second shift fork are fixedly attached to the right ends of the first sliding block and the dove block, respectively.

他の技術方案は前記分合装置は前記アリ溝の上端壁に設置され上に延びる第三滑走溝を含み、前記第三滑走溝と前記転溝の間に相互に連結する第二連結溝が設置され、前記第三滑走溝の中に上下に前記アリブロックと固定的に接続する第二滑走ブロックが固定的に取り付けられ、前記第二連結溝に左右に延びる連結アームがスライド可能なように取り付けられ、前記連結アームの左端が前記第二滑走ブロックと固定的に接続し、右端が前記転溝に伸びて転セットが固定的に取り付けられ、前記転セットがベアリングを通じて前記スプライン軸に嵌着する。 According to another technical solution, the combining device includes a third sliding groove that is installed on an upper end wall of the dovetail groove and extends upward, and a second connection groove that connects the third sliding groove and the rolling groove to each other is provided. A second sliding block fixedly connected to the dovetail in the upper and lower directions is fixedly installed in the third sliding groove so that a connecting arm extending to the left and right can slide in the second connecting groove Attached, the left end of the connecting arm is fixedly connected to the second sliding block, the right end is extended to the rolling groove and the rolling set is fixedly attached, and the rolling set is fitted to the spline shaft through a bearing. To do.

他の技術方案は前記連結口と排出溝にそれぞれ第一電磁弁と第二電磁弁が取り付けられる。 In another technical solution, a first solenoid valve and a second solenoid valve are attached to the connecting port and the discharge groove, respectively.

他の技術方案は前記空筐体の底壁に前記排出溝と接続する斜面が設置される。 In another technical solution, a slope connecting to the discharge groove is installed on the bottom wall of the empty casing.

他の技術方案は前記ダンパーが前記第一駆動機の上端と下端に設置され前記第一駆動機と固定的に接続し、前記ヒートシンクが前記第一駆動機の前端と後端に設置され前記第一駆動機の殻と固定的に接続し、前記駆動機の上端と下端が前記ダンパーと固定的に接続し、前記第一駆動機の前端と後端にそれぞれ多くの前記ヒートシンクが設置される。 In another technical solution, the dampers are installed at the upper and lower ends of the first driving machine and fixedly connected to the first driving machine, and the heat sinks are installed at the front and rear ends of the first driving machine. One driver is fixedly connected to the shell, the upper and lower ends of the driver are fixedly connected to the damper, and the heat sinks are installed at the front and rear ends of the first driver.

本発明の有益な効果は本発明は初期状態の時に、前記第一滑走ブロックが前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯と噛み合い、前記アリブロックが前記アリ溝の底壁と相殺し、前記スプライン軸が第二内スプライン溝と離脱し、この時に前記第二テーパー輪が前記半円錐歯の回転軌跡に位置し、これにより前記第二テーパー輪が前記タレットが回転する時に前記半円錐歯と噛み合う。 The beneficial effect of the present invention is that when the present invention is in an initial state, the first sliding block cancels the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth, and the dovetail block It cancels off the bottom wall of the dovetail groove, and the spline shaft disengages from the second inner spline groove, and at this time, the second tapered ring is positioned on the rotation trajectory of the semi-conical teeth, whereby the second tapered ring is When the turret rotates, it meshes with the semi-conical teeth.

使用する時に、前記第二電磁弁を閉じて、前記第一電磁弁を開き、その後に前記灌溝に原料と補佐料を入れて、その後に前記第一電磁弁を閉じて前記第一駆動機を起動し、前記第一駆動機が前記第三回転軸を通じて前記第二スプロケットを駆動して回転させ、前記第二スプロケットが前記ベルトを通じて前記第二回転軸を駆動して回転させ、前記第二回転軸が前記第四テーパー輪を通じて前記第一回転軸を駆動して回転させ、前記第一回転軸が前記タレットを駆動して回転させ、前記半円錐歯が前記第二テーパー輪が回転する時に前記第二テーパー輪と離れて前記第一テーパー輪と噛み合い、前記タレットがずっと回転する過程に、前記混合軸を駆動しずっと正反転し、前記混合ブレードが空体の中の原料混合物を混ぜる。 When used, the second electromagnetic valve is closed, the first electromagnetic valve is opened, and then the irrigation groove is filled with raw materials and auxiliary materials, and then the first electromagnetic valve is closed and the first driving machine The first driving machine drives and rotates the second sprocket through the third rotating shaft, the second sprocket drives and rotates the second rotating shaft through the belt, and When the rotating shaft drives and rotates the first rotating shaft through the fourth tapered wheel, the first rotating shaft drives and rotates the turret, and the semiconical tooth rotates when the second tapered wheel rotates. In the process of moving away from the second taper wheel and meshing with the first taper wheel and rotating the turret all the time, the mixing shaft is driven to rotate forward and reverse, and the mixing blade mixes the raw material mixture in the empty body.

単方向に混ぜる時、前記第二駆動機を起動し、前記第二駆動機が前記ねじレバーを通じて前記第一滑走ブロックを駆動し下にスライドし、前記第一滑走ブロックが下にスライドする時に前記第一ダイヤルフォークを通じて前記第二テーパー輪を駆動し下にスライドし前記半円錐歯と離れて、前記第一滑走ブロックが下にスライドする時に前記滑走棒と連動して下にスライドし、前記滑走棒が下にスライドする時に前記ギアを通じて前記アリブロックを駆動し上にスライドし、これにより前記ダイヤルフォークを通じて前記第一テーパー輪を駆動し前記半円錐歯の回転軌跡から離れて、前記半円錐歯が前記第一テーパー輪と前記第二テーパー輪に作用せず、前記アリブロックが上にスライドする時に前記第二滑走ブロックと前記連結アームと連動して上にスライドし、前記連結アームが前記転セットを通じて前記スプライン軸と連動して上にスライドし前記第二内スプライン溝に伸びて、前記第三回転軸が回転する時に前記混合軸を駆動して回転させ単方向に混ぜることを実現する。 When mixing in a single direction, start the second driving machine, the second driving machine drives the first sliding block through the screw lever and slides down, and the first sliding block slides down The second tapered wheel is driven through the first dial fork to slide down and away from the semi-conical teeth, and when the first sliding block slides down, it slides down in conjunction with the sliding rod, and the sliding When the rod slides down, it drives the dovetail through the gear and slides up, thereby driving the first taper wheel through the dial fork and moving away from the rotation trajectory of the half cone. Does not act on the first taper wheel and the second taper wheel, and when the dovetail slides upward, the second sliding block and the connecting arm are connected. Then, the connecting arm slides up in conjunction with the spline shaft through the rolling set and extends into the second inner spline groove, and drives the mixing shaft when the third rotating shaft rotates. And rotate to mix in one direction.

本装置の構造が簡単で、使用が便利で、単方向に混ぜることと双方向に混ぜることを切り替えることができ、必要に応じて自由に調節でき、食品の加工効率と品質を大きく高める。 The structure of this device is simple, convenient to use, can be switched between unidirectional mixing and bidirectional mixing, and can be freely adjusted as necessary, greatly improving the food processing efficiency and quality.

本発明の有益な効果は本発明は初期状態の時に、前記第一滑走ブロックが前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯と噛み合い、前記アリブロックが前記アリ溝の底壁と相殺し、前記スプライン軸が第二内スプライン溝と離脱し、この時に前記第二テーパー輪が前記半円錐歯の回転軌跡に位置し、これにより前記第二テーパー輪が前記タレットが回転する時に前記半円錐歯と噛み合う。 The beneficial effect of the present invention is that when the present invention is in an initial state, the first sliding block cancels the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth, and the dovetail block It cancels off the bottom wall of the dovetail groove, and the spline shaft disengages from the second inner spline groove, and at this time, the second tapered ring is positioned on the rotation trajectory of the semi-conical teeth, whereby the second tapered ring is When the turret rotates, it meshes with the semi-conical teeth.

本発明の実施例また既存の技術の中の技術方案をもっとはっきりと説明するため、下記に実施例また既存の技術の説明の中に使用する必要がある図面に簡単な紹介を行って、一目でわかることは下記の説明の中の図面はただ本発明のいくつかの実施例で、本領域の当業者にとって、創造的な労働を払わないことを前提に、これらの図面に基づいてそのほかの図面を得ることができる。 In order to more clearly describe the technical solutions in the embodiments of the present invention and the existing technology, a brief introduction is given below to the drawings that need to be used in the description of the embodiments and the existing technology. It is understood that the drawings in the following description are just some embodiments of the present invention, and that other persons based on these drawings will be based on the assumption that no creative labor is paid to those skilled in the art. A drawing can be obtained.

図1は本発明の新型食品加工装置の構造概略図である。FIG. 1 is a schematic structural view of a new food processing apparatus of the present invention. 図2は図1の第一回転筐体の拡大構造概略図である。FIG. 2 is an enlarged schematic view of the first rotating housing of FIG. 図3は図2のタレットの左視図である。FIG. 3 is a left view of the turret of FIG. 図4は図1の底面図である。FIG. 4 is a bottom view of FIG.

本明細書に開示した全ての特徴、或いは開示した全ての方法、過程中のステップは、相互に排斥する特徴或いはステップ以外に、いかなる方式で組み合わせることができる。 All features disclosed in this specification or all disclosed methods and steps in the process may be combined in any manner other than mutually exclusive features or steps.

本明細書に開示した全ての特徴は、特別な記述がない限り、そのほかの同等或いは類似する目的を持つ代替的な特徴に取り替えられる。つまり特別な記述がない限り、全ての特徴はただ一連の同等或いは類似する特徴の中の一つの例だけである。 All features disclosed in this specification may be replaced with other alternative features having equivalent or similar purposes unless otherwise specified. That is, unless otherwise noted, all features are just one example in a series of equivalent or similar features.

図1~図4が示すように、本発明の新型食品加工装置は支持台10に固定的に取り付けられる箱体11を含み、前記支持台10の四つの角底部に同時にローラー101が設置され、前記箱体11に空筐体15が設置され、前記空筐体15の頂壁に第一回転筐体57が設置され、前記空筐体15の頂壁にまた前記第一回転筐体57の左側に位置する灌溝18が設置され、前記空筐体15の底壁に外部と連結する配給溝31が設置され、前記灌溝18の底壁に前記空筐体15と連結する連結口17が設置され、前記第一回転筐体57の右側に第二回転筐体29が設置され、前記第二回転筐体29の上側に左に延びる第三回転筐体25が設置され、前記第一回転筐体57が前記第三回転筐体25の間に相互に連結する転溝41が設置され、前記第一回転筐体57の底壁に上下に延びる混合軸13が回転可能なように取り付けられ、前記混合軸13の下端が前記空筐体15に伸びて多くの混合ブレード14が固定的に取り付けられ、前記混合軸13の上端が上に伸びて前記転溝41に回転可能なように取り付けられ、前記混合軸13が前記第一回転筐体57に位置し外スプラインが設置され、前記第一回転筐体57に上下に対応して前記外スプラインと係合する第一テーパー輪35と第二テーパー輪56が設置され、前記第一回転筐体57の左端壁に第一テーパー輪35と第二テーパー輪56を駆動し上下に移動可能な回す装置が設置され、前記第一回転筐体57と前記第二回転筐体29の間に左右に伸びる第一回転軸28が回転可能なように取り付けられ、前記第一回転軸28の左端が前記第一回転筐体57に伸びてタレット22が固定的に取り付けられ、前記タレット22の左端面に前記第一テーパー輪35と前記第二テーパー輪56と係合し接続する半円錐歯33が固定的に設置され、前記第一回転軸28の右端が前記第二回転筐体29に伸びて第三テーパー輪30が固定的に取り付けられ、前記第三回転筐体25と前記第二回転筐体29の間に上下に伸びる第二回転軸26が回転可能なように取り付けられ、前記第二回転軸26の下端が前記第二回転筐体29に伸びて前記第三テーパー輪30と係合し接続する第四テーパー輪27が固定的に取り付けられ、前記第二回転軸26の上端が前記第三回転筐体25に伸びて第一スプロケット24が固定的に取り付けられ、前記転溝41の上部に上に伸びる第三回転軸20が回転可能なように取り付けられ、前記第三回転軸20の上端が前記箱体11の頂壁に固定的に取り付けられる第一駆動機21と動力が伝達可能なように接続し、前記第一駆動機21の外側に護托装置が設置され、前記護托装置がダンパー215とヒートシンク216を含み、前記第三回転軸20に第二スプロケット19が固定的に取り付けられ、前記第一スプロケット24と第二スプロケット19がベルト23を通じて動力が伝達可能なように接続し、前記混合軸に上に向かう第一内スプライン溝34が設置され、前記第一内スプライン溝34にスプライン軸36が係合し取り付けられ、前記第三回転軸20に下に向かって前記スプライン軸36と係合する第二内スプライン溝40が設置され、前記転溝41の左端壁に分合装置が設置され、前記分合装置が前記スプライン軸3を駆動し前記第二内スプライン溝40と離合する。 As shown in FIGS. 1 to 4, the new food processing apparatus of the present invention includes a box 11 fixedly attached to a support base 10, and rollers 101 are simultaneously installed on the four corner bottoms of the support base 10, An empty casing 15 is installed in the box 11, a first rotating casing 57 is installed on the top wall of the empty casing 15, and the first rotating casing 57 is also mounted on the top wall of the empty casing 15. An irrigation groove 18 located on the left side is installed, a distribution groove 31 connected to the outside is installed on the bottom wall of the empty casing 15, and a connection port 17 connected to the empty casing 15 on the bottom wall of the irrigation groove 18 Is installed, a second rotating casing 29 is installed on the right side of the first rotating casing 57, a third rotating casing 25 is installed on the upper side of the second rotating casing 29, and extends to the left. A rolling groove 41 is provided between the rotary casing 57 and the third rotary casing 25 so that the mixing shaft 13 can be rotated on the bottom wall of the first rotary casing 57 so as to be rotatable. Is Many mixing blades 14 fixedly attached to the lower end of the mixing shaft 13 extends into the empty housing 15, the upper end is mounted to be rotatable on the Utatemizo 41 extends above the mixing shaft 13 The mixing shaft 13 is positioned on the first rotating casing 57 and an outer spline is installed. The first tapered ring 35 and the second taper 35 engage with the outer spline corresponding to the first rotating casing 57 in the vertical direction. A taper wheel 56 is installed, and a device for driving the first taper wheel 35 and the second taper wheel 56 to rotate up and down is installed on the left end wall of the first rotation housing 57, and the first rotation housing 57 The first rotary shaft 28 extending left and right is rotatably attached between the second rotary housing 29 and the left end of the first rotary shaft 28 extends to the first rotary housing 57 so that the turret 22 The first taper wheel 35 and the second taper are fixedly attached to the left end surface of the turret 22. A semi-conical tooth 33 that engages and connects with 56 is fixedly installed, a right end of the first rotating shaft 28 extends to the second rotating housing 29, and a third tapered ring 30 is fixedly attached, A second rotating shaft 26 extending vertically is attached between the third rotating housing 25 and the second rotating housing 29 so as to be rotatable, and the lower end of the second rotating shaft 26 is connected to the second rotating housing 29. A fourth taper ring 27 is fixedly attached to engage and connect with the third taper ring 30, and the upper end of the second rotation shaft 26 extends to the third rotation housing 25 to extend the first sprocket 24. Is fixedly attached to the upper portion of the rolling groove 41 so that the third rotating shaft 20 extending upward is rotatable, and the upper end of the third rotating shaft 20 is fixed to the top wall of the box 11. Connected so that power can be transmitted to the first drive machine 21 attached to, a protective device is installed outside the first drive machine 21, The protective device includes a damper 215 and a heat sink 216, a second sprocket 19 is fixedly attached to the third rotating shaft 20, and the first sprocket 24 and the second sprocket 19 can transmit power through a belt 23. The first inner spline groove 34 facing upward is installed in the mixing shaft, and the spline shaft 36 is engaged with and attached to the first inner spline groove 34, and the third rotation shaft 20 faces downward. A second inner spline groove 40 that engages with the spline shaft 36 is installed, a coupling device is installed on the left end wall of the rolling groove 41, and the coupling device drives the spline shaft 3 to The spline groove 40 is separated.

好ましくは前記回す装置は前記第一回転筐体57の左端壁に設置される第一滑走溝53と第一滑走溝53の上に位置し前記第一回転筐体57と連結するアリ溝を含み、前記第一滑走溝53の上端壁の左側に上に伸びる第二滑走溝が設置され、前記第二滑走溝と前記アリ溝の間に第一連結溝が設置され、前記第一滑走溝53に上下に移動できる第一滑走ブロック51が取り付けられ、前記第一滑走ブロック51に上下に伸びるねじレバー52が係合し取り付けられ、前記ねじレバー52の下端が前記第一滑走溝53の底壁に回転可能なように取り付けられ、上端が前記第一滑走溝53の頂壁に固定的に取り付けられる第二駆動機50と動力が伝達可能なように接続し、前記第二滑走溝に前記第一滑走ブロック51と固定的に接続する滑走棒46が固定的に取り付けられ、前記滑走棒46の右端面に第一ラックが設置され、前記アリ溝に上下に移動できるアリブロック47が取り付けられ、前記アリブロック47の左端面に第二ラックが設置され、前記第一連結溝が第四回転軸48を通じて前記第一ラックと第二ラックと係合し接続するギア49が回転可能なように取り付けられ、前記第一滑走ブロック51と前記アリブロック47の右端にそれぞれ第一シフトフォーク54と第二シフトフォーク55が固定的に取り付けられ、これにより前記第一シフトフォーク54と第二シフトフォーク55を通じてそれぞれ前記第二テーパー輪56と第一テーパー輪35を回転させて上下にスライドさせる。 Preferably the said turning device comprises a position and dovetail groove to couple with the first rotating body 57 on the first slide groove 53 and the first sliding groove 53 installed in the left end wall of the first rotating body 57 A second sliding groove extending upward on the left side of the upper end wall of the first sliding groove 53, a first connecting groove is installed between the second sliding groove and the dovetail groove, and the first sliding groove 53 A first sliding block 51 that can move up and down is attached, and a screw lever 52 that extends vertically is engaged with and attached to the first sliding block 51, and the lower end of the screw lever 52 is the bottom wall of the first sliding groove 53 And a second drive unit 50 fixedly attached to the top wall of the first sliding groove 53 so as to be able to transmit power, and connected to the second sliding groove. A sliding rod 46 that is fixedly connected to the sliding block 51 is fixedly attached to the right side of the sliding rod 46. A first rack is installed on the surface, and an ant block 47 that can move up and down is attached to the dovetail groove. A second rack is installed on the left end surface of the dove block 47, and the first connecting groove is a fourth rotating shaft 48. A gear 49 that engages and connects with the first rack and the second rack through is rotatably attached, and a first shift fork 54 and a second shift are respectively attached to the right ends of the first sliding block 51 and the dove block 47. A fork 55 is fixedly attached, whereby the second tapered wheel 56 and the first tapered wheel 35 are rotated through the first shift fork 54 and the second shift fork 55, respectively, and slid up and down.

好ましくは前記分合装置は前記アリ溝の上端壁に設置され上に延びる第三滑走溝44を含み、前記第三滑走溝44と前記転溝41の間に相互に連結する第二連結溝42が設置され、前記第三滑走溝44の中に上下に前記アリブロック47と固定的に接続する第二滑走ブロック45が固定的に取り付けられ、前記第二連結溝42に左右に延びる連結アーム43がスライド可能なように取り付けられ、前記連結アーム43の左端が前記第二滑走ブロック45と固定的に接続し、右端が前記転溝41に伸びて転セット38が固定的に取り付けられ、前記転セット38がベアリングを通じて前記スプライン軸36に嵌着する。 Preferably, the combining device includes a third sliding groove 44 installed on the upper end wall of the dovetail groove and extending upward, and a second connection groove 42 interconnecting between the third sliding groove 44 and the rolling groove 41. The second sliding block 45 fixedly connected to the dovetail 47 is fixedly installed in the third sliding groove 44 and fixedly attached to the second connecting groove 42 in the left and right directions. Is attached so as to be slidable, the left end of the connecting arm 43 is fixedly connected to the second sliding block 45, the right end is extended to the rolling groove 41, and the rolling set 38 is fixedly attached. A set 38 is fitted to the spline shaft 36 through a bearing.

好ましくは前記連結口17と排出溝31にそれぞれ第一電磁弁16と第二電磁弁32が取り付けられ、これによりそれぞれに前記連結溝17と排出溝31の開閉を制御する。 Preferably, a first electromagnetic valve 16 and a second electromagnetic valve 32 are attached to the connection port 17 and the discharge groove 31, respectively, thereby controlling the opening and closing of the connection groove 17 and the discharge groove 31 respectively.

好ましくは前記空筐体15の底壁に前記排出溝31と接続する斜面12が設置され、排出することを便利にする。 Preferably, a slope 12 connected to the discharge groove 31 is installed on the bottom wall of the empty casing 15 to facilitate discharge.

好ましくは、前記ダンパー215が前記第一駆動機21の上端と下端に設置され前記第一駆動機21と固定的に接続し、前記ヒートシンク216が前記第一駆動機21の前端と後端に設置され前記第一駆動機21の殻と固定的に接続し、前記駆動機216の上端と下端が前記ダンパー215と固定的に接続し、前記第一駆動機21の前端と後端にそれぞれ多くの前記ヒートシンク216が設置され、前記ヒートシンク216が前記第一駆動機21が動作する時に発生する熱量を吸収し発散し、前記ダンパー215が前記第一駆動機21が動作する時に発生する振動力を減らして、振動力が大きすぎて本装置の正常な運行を影響することを防ぐ。 Preferably, the damper 215 is installed at the upper and lower ends of the first driving machine 21 and fixedly connected to the first driving machine 21, and the heat sink 216 is installed at the front and rear ends of the first driving machine 21. Fixedly connected to the shell of the first driving device 21, the upper end and the lower end of the driving device 216 are fixedly connected to the damper 215, and the front and rear ends of the first driving device 21 The heat sink 216 is installed, the heat sink 216 absorbs and dissipates the amount of heat generated when the first driving device 21 operates, and the damper 215 reduces vibration force generated when the first driving device 21 operates. Therefore, the vibration force is prevented from being too large to affect the normal operation of the apparatus.

本発明は初期状態の時に、前記第一滑走ブロック51が前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯33と噛み合い、前記アリブロック47が前記アリ溝の底壁と相殺し、前記スプライン軸36が第二内スプライン溝40と離脱し、この時に前記第二テーパー輪35が前記半円錐歯33の回転軌跡に位置し、これにより前記第二テーパー輪35が前記タレット22が180度を回転する時に前記半円錐歯33と噛み合う。 In the present invention, in the initial state, the first sliding block 51 offsets the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth 33, and the dovetail block 47 has the dovetail groove. The spline shaft 36 disengages from the second inner spline groove 40 at the same time as the bottom wall, and at this time, the second tapered ring 35 is positioned on the rotational locus of the half-conical tooth 33, whereby the second tapered ring 35 Meshes with the semi-conical teeth 33 when the turret 22 rotates 180 degrees.

使用する時に、前記第二電磁弁32を閉じて、前記第一電磁弁16を開き、その後に前記灌溝18に原料と補佐料を入れて、その後に前記第一電磁弁16を閉じて前記第一駆動機21を起動し、前記第一駆動機21が前記第三回転軸20を通じて前記第二スプロケット19を駆動して回転させ、前記第二スプロケット19が前記ベルト23を通じて前記第二回転軸26を駆動して回転させ、前記第二回転軸26が前記第四テーパー輪27を通じて前記第一回転軸28を駆動して回転させ、前記第一回転軸28が前記タレット22を駆動して回転させ、前記半円錐歯33が前記第二テーパー輪56が180度を回転する時に前記第二テーパー輪56と離れて前記第一テーパー輪35と噛み合い、前記タレット22がずっと回転する過程に、前記混合軸13を駆動しずっと正反転し、前記混合ブレード14が空体15の中の原料混合物を混ぜる。 When using, close the second solenoid valve 32, open the first solenoid valve 16, then put the raw material and auxiliary material into the irrigation groove 18, and then close the first solenoid valve 16 and the The first driving machine 21 is activated, the first driving machine 21 drives and rotates the second sprocket 19 through the third rotary shaft 20, and the second sprocket 19 passes through the belt 23 and the second rotary shaft. The second rotating shaft 26 drives and rotates the first rotating shaft 28 through the fourth tapered wheel 27, and the first rotating shaft 28 drives the turret 22 and rotates. The half-conical teeth 33 are separated from the second tapered ring 56 when the second tapered ring 56 rotates 180 degrees, and engage with the first tapered ring 35, and the turret 22 is rotated in the process. The mixing shaft 13 is driven to rotate forward and reverse so that the mixing blade 14 is in the empty body 15. Mix a raw material mixture.

単方向に混ぜる時、前記第二駆動機50を起動し、前記第二駆動機50が前記ねじレバー52を通じて前記第一滑走ブロック51を駆動し下にスライドし、前記第一滑走ブロック51が下にスライドする時に前記第一ダイヤルフォーク54を通じて前記第二テーパー輪56を駆動し下にスライドし前記半円錐歯33と離れて、前記第一滑走ブロック51が下にスライドする時に前記滑走棒46と連動して下にスライドし、前記滑走棒46が下にスライドする時に前記ギア49を通じて前記アリブロック47を駆動し上にスライドし、これにより前記ダイヤルフォークを通じて前記第一テーパー輪35を駆動し前記半円錐歯33の回転軌跡から離れて、前記半円錐歯33が前記第一テーパー輪35と前記第二テーパー輪56に作用せず、前記アリブロック47が上にスライドする時に前記第二滑走ブロック45と前記連結アーム43と連動して上にスライドし、前記連結アーム43が前記転セット38を通じて前記スプライン軸36と連動して上にスライドし前記第二内スプライン溝40に伸びて、前記第三回転軸20が回転する時に前記混合軸13を駆動して回転させ単方向に混ぜることを実現する。 When mixing in a single direction, the second driving machine 50 is started, the second driving machine 50 drives the first sliding block 51 through the screw lever 52 and slides down, and the first sliding block 51 moves down. When the first sliding block 51 slides down, the second tapered ring 56 is driven through the first dial fork 54 to slide down and away from the semi-conical teeth 33. When the sliding rod 46 slides down, the dovetail 47 is driven through the gear 49 and slides up, thereby driving the first tapered wheel 35 through the dial fork. Apart from the rotational trajectory of the semiconical tooth 33, the semiconical tooth 33 does not act on the first tapered ring 35 and the second tapered ring 56, and the second sliding block 47 is slid when the dovetail 47 slides upward. 45 and slides up in conjunction with the connecting arm 43, the connecting arm 43 slides up in conjunction with the spline shaft 36 through the rolling set 38 and extends into the second inner spline groove 40, When the third rotating shaft 20 rotates, the mixing shaft 13 is driven to rotate and mixed in a single direction.

本発明の有益な効果は本発明は初期状態の時に、前記第一滑走ブロックが前記第一滑走溝の上端壁と相殺し、前記第二テーパー輪が前記半円錐歯と噛み合い、前記アリブロックが前記アリ溝の底壁と相殺し、前記スプライン軸が第二内スプライン溝と離脱し、この時に前記第二テーパー輪が前記半円錐歯の回転軌跡に位置し、これにより前記第二テーパー輪が前記タレットが回転する時に前記半円錐歯と噛み合う。 The beneficial effect of the present invention is that when the present invention is in an initial state, the first sliding block cancels the upper end wall of the first sliding groove, the second tapered ring meshes with the half-conical teeth, and the dovetail block It cancels off the bottom wall of the dovetail groove, and the spline shaft disengages from the second inner spline groove, and at this time, the second tapered ring is positioned on the rotation trajectory of the semi-conical teeth, whereby the second tapered ring is When the turret rotates, it meshes with the semi-conical teeth.

使用する時に、前記第二電磁弁を閉じて、前記第一電磁弁を開き、その後に前記灌溝に原料と補佐料を入れて、その後に前記第一電磁弁を閉じて前記第一駆動機を起動し、前記第一駆動機が前記第三回転軸を通じて前記第二スプロケットを駆動して回転させ、前記第二スプロケットが前記ベルトを通じて前記第二回転軸を駆動して回転させ、前記第二回転軸が前記第四テーパー輪を通じて前記第一回転軸を駆動して回転させ、前記第一回転軸が前記タレットを駆動して回転させ、前記半円錐歯が前記第二テーパー輪が回転する時に前記第二テーパー輪と離れて前記第一テーパー輪と噛み合い、前記タレットがずっと回転する過程に、前記混合軸を駆動しずっと正反転し、前記混合ブレードが空体の中の原料混合物を混ぜる。 When used, the second electromagnetic valve is closed, the first electromagnetic valve is opened, and then the irrigation groove is filled with raw materials and auxiliary materials, and then the first electromagnetic valve is closed and the first driving machine The first driving machine drives and rotates the second sprocket through the third rotating shaft, the second sprocket drives and rotates the second rotating shaft through the belt, and When the rotating shaft drives and rotates the first rotating shaft through the fourth tapered wheel, the first rotating shaft drives and rotates the turret, and the semiconical tooth rotates when the second tapered wheel rotates. In the process of moving away from the second taper wheel and meshing with the first taper wheel and rotating the turret all the time, the mixing shaft is driven to rotate forward and reverse, and the mixing blade mixes the raw material mixture in the empty body.

単方向に混ぜる時、前記第二駆動機を起動し、前記第二駆動機が前記ねじレバーを通じて前記第一滑走ブロックを駆動し下にスライドし、前記第一滑走ブロックが下にスライドする時に前記第一ダイヤルフォークを通じて前記第二テーパー輪を駆動し下にスライドし前記半円錐歯と離れて、前記第一滑走ブロックが下にスライドする時に前記滑走棒と連動して下にスライドし、前記滑走棒が下にスライドする時に前記ギアを通じて前記アリブロックを駆動し上にスライドし、これにより前記ダイヤルフォークを通じて前記第一テーパー輪を駆動し前記半円錐歯の回転軌跡から離れて、前記半円錐歯が前記第一テーパー輪と前記第二テーパー輪に作用せず、前記アリブロックが上にスライドする時に前記第二滑走ブロックと前記連結アームと連動して上にスライドし、前記連結アームが前記転セットを通じて前記スプライン軸と連動して上にスライドし前記第二内スプライン溝に伸びて、前記第三回転軸が回転する時に前記混合軸を駆動して回転させ単方向に混ぜることを実現する。 When mixing in a single direction, start the second driving machine, the second driving machine drives the first sliding block through the screw lever and slides down, and the first sliding block slides down The second tapered wheel is driven through the first dial fork to slide down and away from the semi-conical teeth, and when the first sliding block slides down, it slides down in conjunction with the sliding rod, and the sliding When the rod slides down, it drives the dovetail through the gear and slides up, thereby driving the first taper wheel through the dial fork and moving away from the rotation trajectory of the half cone. Does not act on the first taper wheel and the second taper wheel, and when the dovetail slides upward, the second sliding block and the connecting arm are connected. Then, the connecting arm slides up in conjunction with the spline shaft through the rolling set and extends into the second inner spline groove, and drives the mixing shaft when the third rotating shaft rotates. And rotate to mix in one direction.

本装置の構造が簡単で、使用が便利で、単方向に混ぜることと双方向に混ぜることを切り替えることができ、必要に応じて自由に調節でき、食品の加工効率と品質を大きく高める。 The structure of this device is simple, convenient to use, can be switched between unidirectional mixing and bidirectional mixing, and can be freely adjusted as necessary, greatly improving the food processing efficiency and quality.

以上に本発明の基本原理、主特徴と本発明の長所を表明し説明した。本業界の技術者が了解すべきなのは本発明は上記の実施例の制限を受けなく、上記の実施例と明細書に説明したのは本発明の原理で、本発明の意義と原理から離れないことを前提に本発明に各種の変化と改善があり、これらの変化と改善が本発明の保護範囲にある。本発明の保護範囲は添付の特許請求の範囲と同等内容に画定される。 The basic principle, main features and advantages of the present invention have been described and explained above. It should be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and the specification are the principles of the present invention and do not depart from the significance and principles of the present invention. Therefore, there are various changes and improvements in the present invention, and these changes and improvements are within the protection scope of the present invention. The protection scope of the present invention is defined equivalent to the scope of the appended claims.

Claims (1)

新型食品加工装置であって、支持台に固定的に取り付けられる箱体を含み、前記支持台の四つの角底部に同時にローラーが設置され、前記箱体に空筐体が設置され、前記空筐体の頂壁に第一回転筐体が設置され、前記空筐体の頂壁に前記第一回転筐体の左側に位置する灌溝が設置され、前記空筐体の底壁に外部と連結する配給溝が設置され、前記灌溝の底壁に前記容筐体と連結する連結口が設置され、前記第一回転筐体の右側に第二回転筐体が設置され、前記第二回転筐体の上側に左に延びる第三回転筐体が設置され、前記第一回転筐体が前記第三回転筐体の間に相互に連結する転溝が設置され、前記第一回転筐体の底壁に上下に延びる混合軸が回転可能なように取り付けられ、前記混合軸の下端が前記空筐体に伸びて多くの混合ブレードが固定的に取り付けられ、前記転柱の上端が上に伸びて前記転溝に回転可能なように取り付けられ、前記混合軸が前記第一回転筐体に位置し外スプラインが設置され、前記第一回転筐体に上下に対応して前記外スプラインと係合する第一テーパー輪と第二テーパー輪が設置され、前記第一回転筐体の左端壁に第一テーパー輪と第二テーパー輪を駆動し上下に移動可能な回す装置が設置され、前記第一回転筐体と前記第二回転筐体の間に左右に伸びる第一回転軸が回転可能なように取り付けられ、前記第一回転軸の左端が前記第一回転筐体に伸びてタレットが固定的に取り付けられ、前記タレットの左端面に前記第一テーパー輪と前記第二テーパー輪と係合し接続する半円錐歯が固定的に設置され、前記第一回転軸の右端が前記第二回転筐体に伸びて第三テーパー輪が固定的に取り付けられ、前記第三回転筐体と前記第二回転筐体の間に上下に伸びる第二回転軸が回転可能なように取り付けられ、前記第二回転軸の下端が前記第二回転筐体に伸びて前記第三テーパー輪と係合し接続する第四テーパー輪が固定的に取り付けられ、前記第二回転軸の上端が前記第三回転筐体に伸びて第一スプロケットが固定的に取り付けられ、前記転溝の上部に上に伸びる第三回転軸が回転可能なように取り付けられ、前記第三回転軸の上端が前記箱体の頂壁に固定的に取り付けられる第一駆動機と動力が伝達可能なように接続し、前記第一駆動機の外側に護托装置が設置され、前記護托装置がダンパーとヒートシンクを含み、前記第三回転軸に第二スプロケットが固定的に取り付けられ、前記第一スプロケットと第二スプロケットがベルトを通じて動力が伝達可能なように接続し、前記混合軸に上に向かう第一内スプライン溝が設置され、前記第一内スプライン溝にスプライン軸が係合し取り付けられ、前記第三回転軸に下に向かって前記スプライン軸と係合する第二内スプライン溝が設置され、前記転溝の左端壁に分合装置が設置され、前記回す装置は前記第一回転溝の左端壁に設置される第一滑走溝と第一滑走溝の上に位置し前記第一回転溝と連結するアリ溝を含み、前記第一滑走溝の上端壁の左側に上に伸びる第二滑走溝が設置され、前記第二滑走溝と前記アリ溝の間に第一連結溝が設置され、前記第一滑走溝に上下に移動できる第一滑走ブロックが取り付けられ、前記第一滑走ブロックに上下に伸びるねじレバーが係合し取り付けられ、前記ねじレバーの下端が前記第一滑走溝の底壁に回転可能なように取り付けられ、上端が前記第一滑走溝の頂壁に固定的に取り付けられる第二駆動機と動力が伝達可能なように接続し、前記第二滑走溝に前記第一滑走ブロックと固定的に接続する滑走棒が固定的に取り付けられ、前記滑走棒の右端面に第一ラックが設置され、前記アリ溝に上下に移動できるアリブロックが取り付けられ、前記アリブロックの左端面に第二ラックが設置され、前記第一連結溝が第四回転軸を通じて前記第一ラックと第二ラックと係合し接続するギアが回転可能なように取り付けられ、前記第一滑走ブロックと前記アリブロックの右端にそれぞれ第一シフトフォークと第二シフトフォークが固定的に取り付けられ、前記分合装置は前記アリ溝の上端壁に設置され上に延びる第三滑走溝を含み、前記第三滑走溝と前記回転溝の間に相互に連結する第二連結溝が設置され、前記第三滑走溝の中に上下に前記アリブロックと固定的に接続する第二滑走ブロックが固定的に取り付けられ、前記第二連結溝に左右に延びる連結アームがスライド可能なように取り付けられ、前記連結アームの左端が前記第二滑走ブロックと固定的に接続し、右端が前記回転溝に伸びて転セットが固定的に取り付けられ、前記転セットがベアリングを通じて前記スプライン軸に嵌着し、前記連結口と排出溝にそれぞれ第一電磁弁と第二電磁弁が取り付けられ、前記空筐体の底壁に前記排出溝と接続する斜面が設置され、前記ダンパーが前記第一駆動機の上端と下端に設置され前記第一駆動機と固定的に接続し、前記ヒートシンクが前記第一駆動機の前端と後端に設置され前記第一駆動機の殻と固定的に接続し、前記駆動機の上端と下端が前記ダンパーと固定的に接続し、前記第一駆動機の前端と後端にそれぞれ複数の前記ヒートシンクが設置されることを特徴とする新型食品加工装置。 A new food processing apparatus, comprising a box fixedly attached to a support base, wherein rollers are simultaneously installed at the four corner bottoms of the support base, an empty casing is installed in the box, and the empty casing A first rotating housing is installed on the top wall of the body, an irrigation groove located on the left side of the first rotating housing is installed on the top wall of the empty housing, and connected to the outside on the bottom wall of the empty housing A distribution groove is provided, a connection port is provided on the bottom wall of the irrigation groove to be connected to the container case, a second rotation case is provided on the right side of the first rotation case, and the second rotation case is provided. A third rotating housing extending leftward is installed on the upper side of the body, a rolling groove for connecting the first rotating housing between the third rotating housing is installed, and a bottom of the first rotating housing is installed. A mixing shaft extending vertically is attached to the wall so as to be rotatable, and a lower end of the mixing shaft extends to the empty casing so that many mixing blades are provided. The upper end of the rolling pillar extends upward and is rotatably attached to the rolling groove, the mixing shaft is located in the first rotating housing, and an outer spline is installed. A first taper wheel and a second taper wheel that engage with the outer spline corresponding to the top and bottom of the rotating housing are installed, and the first taper wheel and the second taper wheel are driven on the left end wall of the first rotating housing. And a rotating device that can move up and down is installed, and a first rotating shaft that extends to the left and right is rotatably attached between the first rotating housing and the second rotating housing. A turret is fixedly attached with the left end extending to the first rotating housing, and a semi-conical tooth that engages and connects the first tapered ring and the second tapered ring is fixedly installed on the left end surface of the turret. The right end of the first rotating shaft extends to the second rotating housing. A third taper wheel is fixedly attached, and a second rotating shaft extending vertically between the third rotating housing and the second rotating housing is rotatably attached, and the second rotating shaft A lower end extends to the second rotating casing, and a fourth tapered ring that engages and connects with the third tapered ring is fixedly attached, and an upper end of the second rotating shaft extends to the third rotating casing. A first sprocket is fixedly attached, and a third rotating shaft extending upward is rotatably attached to an upper portion of the rolling groove, and an upper end of the third rotating shaft is fixedly attached to a top wall of the box. A first driving machine to be attached is connected so as to be able to transmit power, a guard device is installed outside the first driving machine, the guard device includes a damper and a heat sink, and the third rotating shaft has a second Two sprockets are fixedly attached and the first sprocket And the second sprocket are connected so that power can be transmitted through the belt, and a first inner spline groove is installed on the mixing shaft, and the spline shaft is engaged with and attached to the first inner spline groove. A second inner spline groove that engages with the spline shaft downward is installed on the third rotating shaft, a coupling device is installed on the left end wall of the rolling groove, and the rotating device is the first rotating groove A second sliding groove located on the left end wall of the first sliding groove and a dovetail groove located on the first sliding groove and connected to the first rotating groove, and extending upward to the left of the upper end wall of the first sliding groove. A sliding groove is installed, a first connecting groove is installed between the second sliding groove and the dovetail groove, a first sliding block that can move up and down is attached to the first sliding groove, and the first sliding block A screw lever extending vertically is engaged and attached, The lower end of the screw lever is rotatably attached to the bottom wall of the first sliding groove, and the upper end of the screw lever is fixedly attached to the top wall of the first sliding groove so that power can be transmitted. A sliding rod fixedly connected to the first sliding block is fixedly attached to the second sliding groove, a first rack is installed on the right end surface of the sliding rod, and the dovetail is vertically A movable dove block is attached, a second rack is installed on the left end surface of the dove block, and the first connecting groove engages with and connects the first rack and the second rack through the fourth rotating shaft. The first shift fork and the second shift fork are fixedly attached to the right ends of the first sliding block and the dove block, respectively, and the combining device is installed on the upper end wall of the dovetail groove. A second connecting groove is provided between the third sliding groove and the rotating groove, and is fixedly fixed to the dovetail up and down in the third sliding groove. A second sliding block to be connected is fixedly attached, and a connecting arm extending to the left and right is slidably attached to the second connecting groove, and a left end of the connecting arm is fixedly connected to the second sliding block. The right end extends into the rotation groove, and a turn set is fixedly attached. The turn set is fitted to the spline shaft through a bearing, and a first solenoid valve and a second solenoid valve are respectively connected to the connection port and the discharge groove. Attached, a slope connecting to the discharge groove is installed on the bottom wall of the empty housing, and the dampers are installed on the upper and lower ends of the first driving machine and fixedly connected to the first driving machine, Heat sink Installed at the front end and the rear end of the first drive machine and fixedly connected to the shell of the first drive machine, the upper end and the lower end of the drive machine are fixedly connected to the damper, the front end of the first drive machine A new type of food processing apparatus, wherein a plurality of the heat sinks are installed at the rear end.
JP2018089570A 2018-04-08 2018-05-07 New food processing equipment Active JP6574960B1 (en)

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CN108905768A (en) * 2018-08-24 2018-11-30 广州臻昊广告有限公司 A kind of novel aqueous Multifunctional printing ink equipment
CN109126532A (en) * 2018-08-24 2019-01-04 广州臻昊广告有限公司 A kind of uniform slurry like material process equipment
CN109107424A (en) * 2018-08-24 2019-01-01 广州臻昊广告有限公司 A kind of water-soluble multifunctional printing ink equipment of improvement
CN109126530A (en) * 2018-08-24 2019-01-04 广州臻昊广告有限公司 A kind of water-soluble multifunctional printing ink equipment
CN112157811B (en) * 2020-09-24 2022-01-11 河源市源隆新型环保建材有限公司 Energy-concerving and environment-protective type building material prevents condensing agitating unit

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