JP2019181679A - Treatment equipment for finished article for machining - Google Patents

Abstract

To provide treatment equipment for a finished article for machining of which a structure is simple, an operation is convenient, a work efficiency is greatly improved by utilization of integration of start-up and storage, and simultaneously, a site area can be greatly reduced.SOLUTION: In this treatment equipment, a housing 100, and a first box 101, which is located in a first housing 111 which is located in the housing and of which an end port is oriented right, are provided, a second housing 112, of which an end port is oriented downward, is located in the first box, a second box 102, of which an end port is oriented downward and passes back and forth, is slidably connected to and engaged with the second housing, and a third housing is located in the second box. A second motor 121 is located on a top part inner wall of the second housing, a screw lever 153 is connected to a bottom end of the second motor so that power can be transmitted, a turbin 131 is located in the third housing, a third replacement shaft 151, which vertically extends, is fixedly connected to the turbin and is rotatably fitted to the second box, and a buff polishing wheel 161 is connected to a lower terminal of the third replacement shaft.SELECTED DRAWING: Figure 1

Description

本発明は工作物加工技術分野に関し、具体的には機械加工用加工品処理設備に関する。 The present invention relates to the field of workpiece processing technology, and more particularly to a machined product processing facility for machining.

いくつかの加工品加工工場でよく加工品の表面をバフ研磨操作し、伝統的な加工品バフ研磨装置は多くの人力を投入する必要があり、その労働強度が強く効率が低く、同時に伝統的な加工品バフ研磨装置が自動的に収納できなく、使用しない状態では敷地面積が大きく、それゆえ伝統的な加工品バフ研磨装置は大きい弊害が存在し、改善する必要がある。 Many processed goods processing plants often buff the surface of processed goods, and traditional processed goods buffing equipment needs to invest a lot of manpower, its labor intensity is strong and inefficient, and at the same time traditional The large processed product buffing apparatus cannot be automatically stored and has a large site area when not in use. Therefore, the traditional processed product buffing apparatus has a great disadvantage and needs to be improved.

中国特許出願公開第103988290号明細書Chinese Patent Application No. 103988290

本発明は解決する必要な技術問題に対して機械加工用加工品処理設備を提供し、それは上記の現在の技術問題を解決できる。 The present invention provides machining processing equipment for machining to the necessary technical problems to be solved, which can solve the above-mentioned current technical problems.

本発明は以下の技術方案を採用して実現する。本発明の機械加工用加工品処理設備はハウジングと前記ハウジングの内部に設置され端口が右に向かう第一容筐体を含み、前記ハウジングの頂部端面に接続レバーを通じて防塵板が固定的に接続され、前記第一容筐体に第一容箱が設置され、前記第一容箱に端口が下に向かう第二容筐体が設置され、前記第二容筐体に端口が下に向かって前後に通り抜ける第二容箱が滑り接続し係合し接続し、前記第二容箱に第三容筐体が設置され、前記第一容筐体の左端内壁に前後に凸ブロックが設置され、前記凸ブロックに前後に延びる第一交換軸が回転可能なように係合し接続され、前記第一交換軸に前記凸ブロックの間に位置する第一円錐形プーリーが固定的に接続し、前記第一容筐体の左端内壁に第一モーターが設置され、前記第一モーターに前記第一円錐形プーリーと係合し接続する第二円錐形プーリーが動力が伝達可能なように接続され、前記第一交換軸の前後末尾に第三円錐形プーリーが固定的に接続し、前記第一容筐体に左右に延びて前後対称に第二交換軸が設置され、前記第二交換軸の左右両端がベアリングを通じて前記ハウジングと回転可能なように係合し接続し、前記第二交換軸の左端に前記第三円錐形プーリーと係合し接続する第四円錐形プーリーが固定的に接続し、前記第二交換軸に前後対称に第一容箱と固定的に接続する第一固定アームと第二固定アームが係合し接続され、前記第二容筐体の頂部内壁に第二モーターが設置され、前記第二モーターの底端に下に延びて前記第二容箱を通り抜けるねじレバーが動力が伝達可能なように接続され、前記第三容筐体に左右対称にタービンが設置され、前記タービンに上下に延びる第三交換軸が固定的に接続し、前記第三交換軸の上端がベアリングを通じて前記第二容箱に回転することができるように取り付けられ、前記第三交換軸の下端末尾にバフ研磨輪が固定的に接続され、前記第三容筐体に左右に延びて前記タービンの後端に位置するウォームが設置され、前記ウォームの左右両端がベアリングを通じて前記第二容箱に回転に取り付けられ、前記ウォームに二つの前記タービンの間に位置する第五円錐形プーリーが固定的に接続され、前記第二容筐体の後端内壁に第三モーターが設置され、前記第三モーターの前端に前記第五円錐形プーリーと係合し接続する第六円錐形プーリーが動力が伝達可能なように接続される。 The present invention is realized by employing the following technical scheme. The machined product processing facility for machining according to the present invention includes a housing and a first housing that is installed inside the housing and has an end opening facing right, and a dust-proof plate is fixedly connected to the top end surface of the housing through a connection lever. The first container is provided with a first container, the first container is provided with a second container whose end is directed downward, and the second container is provided with a front and rear end facing downward. The second container passing through and slidingly connects and engages, the third container is installed in the second container, the convex block is installed on the left inner wall of the first container on the front and rear, A first exchange shaft extending forward and backward is connected to the convex block so as to be rotatable, and a first conical pulley positioned between the convex blocks is fixedly connected to the first exchange shaft, A first motor is installed on the inner wall on the left end of the housing, and the first motor A second conical pulley engaged with and connected to the one conical pulley is connected to transmit power, and a third conical pulley is fixedly connected to the front and rear ends of the first exchange shaft, A second exchange shaft is installed symmetrically in the front-rear direction and is connected to the housing so that the left and right ends of the second exchange shaft can rotate with the housing through bearings. A first fixed arm fixedly connected to the first container box in a longitudinally symmetrical manner with respect to the second exchange shaft; and a fourth conical pulley engaged with and connected to the third conical pulley at the left end. A second fixed arm is engaged and connected, a second motor is installed on the top inner wall of the second volume housing, and a screw lever that extends down to the bottom end of the second motor and passes through the second volume box It is connected so that power can be transmitted, A turbine is installed, and a third exchange shaft extending up and down is fixedly connected to the turbine, and an upper end of the third exchange shaft is attached to the second container box through a bearing. A buffing wheel is fixedly connected to the lower end of the third replacement shaft, and a worm is installed on the third housing to extend from side to side and is positioned at the rear end of the turbine. A fifth conical pulley is fixedly connected to the worm and located between the two turbines, and a third motor is mounted on the inner wall of the rear end of the second volume housing. And a sixth conical pulley that engages and connects with the fifth conical pulley is connected to the front end of the third motor so that power can be transmitted.

好ましい技術方案として前記ハウジングの底端に第四容筐体が設置され、前記第四容筐体に左右対称的に前後に延びる第四交換軸が設置され、前記第四交換軸に前後対称に回転車輪が固定的に接続し、左右対称に二つの前記回転車輪の間にキャタピラーが接続される。 As a preferred technical solution, a fourth housing is installed at the bottom end of the housing, and a fourth exchange shaft extending in the front-rear direction is installed in the fourth housing, and is symmetrical in the front-rear direction with respect to the fourth exchange shaft. A rotating wheel is fixedly connected, and a caterpillar is connected between the two rotating wheels symmetrically.

好ましい技術方案として前記タービンが前記ウォームと噛み合う。 As a preferred technical solution, the turbine meshes with the worm.

好ましい技術方案として前記ねじレバーが前記第二容箱と係合し接続する。 As a preferred technical solution, the screw lever engages and connects with the second container.

本発明の有益な効果は、本発明の設備が初期状態にある時、前記第一容箱が前記第一容筐体の左端に位置し左端表面が前記凸ブロックと接触し、前記第二容箱が前記第二容筐体の頂部に位置し頂部端面が前記第一容箱と接触する。 The beneficial effect of the present invention is that when the equipment of the present invention is in an initial state, the first container is located at the left end of the first container housing, the left end surface is in contact with the convex block, and the second container is A box is located at the top of the second container and the top end surface is in contact with the first container.

使用する時に、前記第一モーターを起動し前記第二交換軸と連動して回転し、前記第一容箱が右に移動し、前記第二固定アームが前記ハウジングと接触する時に、前記第一モーターを制御し動作を停止し、この時に第二モーターを起動しねじレバーと連動して回転し、前記第二容箱が下にスライドし、前記第二容箱の底部が前記第一容箱と接触する時に、前記第五円錐形プーリーが前記第六円錐形プーリーと完全に噛み合って、前記第二モーターを制御し回転を停止し、この時に前記第三モーターを起動し前記バフ研磨輪と連動して回転し、これにより加工品の表面を速くバフ研磨することを実現する。 When used, the first motor is activated and rotated in conjunction with the second exchange shaft, the first container moves to the right, and when the second fixed arm contacts the housing, the first motor The motor is controlled to stop operation. At this time, the second motor is started and rotated in conjunction with the screw lever, the second container box slides down, and the bottom of the second container box is the first container box. The fifth conical pulley fully engages with the sixth conical pulley to control the second motor and stop rotating, at which time the third motor is activated and the buffing wheel and By rotating in conjunction with this, it is possible to quickly buff the surface of the workpiece.

使用が終わった後、前記第三モーターを制御し回転を停止し、前記第二モーターを起動し前記ねじレバーと連動して回転し、前記第二容箱が上にスライドし、前記第二容箱の頂部端面が前記第一容箱と接触する時に、前記第二モーターを制御し回転を停止し、この時に前記第一モーターを起動し前記第二交換軸と連動して回転し、前記第一容箱が左に移動し、前記第一容箱の左部端面が前記凸ブロックと接触する時に、前記第三モーターを制御し回転を停止する。 After use, the third motor is controlled to stop rotation, the second motor is started and rotated in conjunction with the screw lever, the second container slides upward, and the second container When the top end surface of the box comes into contact with the first container, the second motor is controlled to stop the rotation, and at this time, the first motor is started and rotated in conjunction with the second exchange shaft, When the one box moves to the left and the left end surface of the first container contacts the convex block, the third motor is controlled to stop the rotation.

本発明に係る設備の構造が簡単で、操作が便利で、起動と収納を一体化することを使って、作業効率を大きく高めて、同時に敷地面積を大きく減らすことができる。 The structure of the facility according to the present invention is simple, the operation is convenient, and the use of the integrated start-up and storage can greatly increase the work efficiency and at the same time greatly reduce the site area.

本発明の有益な効果は、本発明の設備が初期状態にある時、前記第一容箱が前記第一容筐体の左端に位置し左端表面が前記凸ブロックと接触し、前記第二容箱が前記第二容筐体の頂部に位置し頂部端面が前記第一容箱と接触する。 The beneficial effect of the present invention is that when the equipment of the present invention is in an initial state, the first container is located at the left end of the first container housing, the left end surface is in contact with the convex block, and the second container is A box is located at the top of the second container and the top end surface is in contact with the first container.

使用する時に、前記第一モーターを起動し前記第二交換軸と連動して回転し、前記第一容箱が右に移動し、前記第二固定アームが前記ハウジングと接触する時に、前記第一モーターを制御し動作を停止し、この時に第二モーターを起動しねじレバーと連動して回転し、前記第二容箱が下にスライドし、前記第二容箱の底部が前記第一容箱と接触する時に、前記第五円錐形プーリーが前記第六円錐形プーリーと完全に噛み合って、前記第二モーターを制御し回転を停止し、この時に前記第三モーターを起動し前記バフ研磨輪と連動して回転し、これにより加工品の表面を速くバフ研磨することを実現する。 When used, the first motor is activated and rotated in conjunction with the second exchange shaft, the first container moves to the right, and when the second fixed arm contacts the housing, the first motor The motor is controlled to stop operation. At this time, the second motor is started and rotated in conjunction with the screw lever, the second container box slides down, and the bottom of the second container box is the first container box. The fifth conical pulley fully engages with the sixth conical pulley to control the second motor and stop rotating, at which time the third motor is activated and the buffing wheel and By rotating in conjunction with this, it is possible to quickly buff the surface of the workpiece.

使用が終わった後、前記第三モーターを制御し回転を停止し、前記第二モーターを起動し前記ねじレバーと連動して回転し、前記第二容箱が上にスライドし、前記第二容箱の頂部端面が前記第一容箱と接触する時に、前記第二モーターを制御し回転を停止し、この時に前記第一モーターを起動し前記第二交換軸と連動して回転し、前記第一容箱が左に移動し、前記第一容箱の左部端面が前記凸ブロックと接触する時に、前記第三モーターを制御し回転を停止する。 After use, the third motor is controlled to stop rotation, the second motor is started and rotated in conjunction with the screw lever, the second container slides upward, and the second container When the top end surface of the box comes into contact with the first container, the second motor is controlled to stop the rotation, and at this time, the first motor is started and rotated in conjunction with the second exchange shaft, When the one box moves to the left and the left end surface of the first container contacts the convex block, the third motor is controlled to stop the rotation.

本発明に係る設備の構造が簡単で、操作が便利で、起動と収納を一体化することを使って、作業効率を大きく高めて、同時に敷地面積を大きく減らすことができる。 The structure of the facility according to the present invention is simple, the operation is convenient, and the use of the integrated start-up and storage can greatly increase the work efficiency and at the same time greatly reduce the site area.

図１は本発明の機械加工用加工品処理設備が停止する時の全体構造概略図である。FIG. 1 is a schematic diagram of the entire structure when the machined product processing equipment of the present invention is stopped. 図２は図１の中のA-A方向の断面図である。FIG. 2 is a cross-sectional view in the AA direction in FIG. 図３は本発明の機械加工用加工品処理設備が作業する時の全体構造概略図である。FIG. 3 is a schematic diagram of the overall structure when the machined product processing facility for machining according to the present invention operates. 図４は図１の左視図である。FIG. 4 is a left view of FIG.

説明しやすいため、本発明は以下の具体的な実施例と図面を交え詳しく説明する。 For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and drawings.

図1~4が示すように、本発明の機械加工用加工品処理設備はハウジング100と前記ハウジング100の内部に設置され端口が右に向かう第一容筐体111を含み、前記ハウジング100の頂部端面に接続レバー188を通じて防塵板189が固定的に接続され、前記第一容筐体111に第一容箱101が設置され、前記第一容箱101に端口が下に向かう第二容筐体112が設置され、前記第二容筐体112に端口が下に向かって前後に通り抜ける第二容箱102が滑り接続し係合し接続し、前記第二容箱102に第三容筐体113が設置され、前記第一容筐体111の左端内壁に前後に凸ブロック103が設置され、前記凸ブロック103に前後に延びる第一交換軸155が回転可能なように係合し接続され、前記第一交換軸155に前記凸ブロック103の間に位置する第一円錐形プーリー145が固定的に接続し、前記第一容筐体111の左端内壁に第一モーター123が設置され、前記第一モーター123に前記第一円錐形プーリー145と係合し接続する第二円錐形プーリー144が動力が伝達可能なように接続され、前記第一交換軸155の前後末尾に第三円錐形プーリー143が固定的に接続し、前記第一容筐体111に左右に延びて前後対称に第二交換軸156が設置され、前記第二交換軸156の左右両端がベアリングを通じて前記ハウジング100と回転可能なように係合し接続し、前記第二交換軸の左端に前記第三円錐形プーリー143と係合し接続する第四円錐形プーリー142が固定的に接続し、前記第二交換軸156に前後対称に第一容箱101と固定的に接続する第一固定アーム211と第二固定アーム212が係合し接続され、前記第二容筐体112の頂部内壁に第二モーター121が設置され、前記第二モーター121の底端に下に延びて前記第二容箱102を通り抜けるねじレバー153が動力が伝達可能なように接続され、前記第三容筐体113に左右対称にタービン131が設置され、前記タービン131に上下に延びる第三交換軸151が固定的に接続し、前記第三交換軸151の上端がベアリングを通じて前記第二容箱102に回転することができるように取り付けられ、前記第三交換軸151の下端末尾にバフ研磨輪161が固定的に接続され、前記第三容筐体に左右に延びて前記タービンの後端に位置するウォーム152が設置され、前記ウォーム152の左右両端がベアリングを通じて前記第二容箱102に回転に取り付けられ、前記ウォーム152に二つの前記タービン131の間に位置する第五円錐形プーリー141が固定的に接続され、前記第二容筐体112の後端内壁に第三モーター122が設置され、前記第三モーター122の前端に前記第五円錐形プーリー141と係合し接続する第六円錐形プーリー146が動力が伝達可能なように接続される。 As shown in FIGS. 1 to 4, the machined product processing facility of the present invention includes a housing 100 and a first casing 111 that is installed inside the housing 100 and has an end opening facing right. A dust-proof plate 189 is fixedly connected to the end face through a connection lever 188, the first container box 101 is installed in the first container box 111, and the second container box has an end opening downward toward the first container box 101. 112 is installed, and the second container box 102 whose end port passes through the second container case 112 in the back-and-forth direction is slidably connected and engaged, and the second container box 102 is connected to the third container case 113. A convex block 103 is installed on the left inner wall of the first case 111, and the first exchange shaft 155 extending forward and backward is engaged and connected to the convex block 103 so as to be rotatable, A first conical pulley 145 positioned between the convex blocks 103 is fixedly connected to the first exchange shaft 155, and the first housing A first motor 123 is installed on the left end inner wall of 111, and a second conical pulley 144 that engages and connects with the first conical pulley 145 is connected to the first motor 123 so that power can be transmitted, A third conical pulley 143 is fixedly connected to the front and rear ends of the first exchange shaft 155, and a second exchange shaft 156 is installed symmetrically in the front-rear direction and extends to the left and right of the first casing 111. A fourth conical pulley 142 is engaged with and connected to the housing 100 through a bearing so that the left and right ends of the shaft 156 are rotatable, and is engaged with and connected to the third conical pulley 143 at the left end of the second exchange shaft. Is fixedly connected, and a first fixed arm 211 and a second fixed arm 212 are fixedly connected to the first container 101 in a longitudinally symmetrical manner with respect to the second exchange shaft 156. A second motor 121 is installed on the top inner wall of the housing 112, and the bottom end of the second motor 121 A screw lever 153 extending downward and passing through the second container box 102 is connected so that power can be transmitted, and a turbine 131 is installed symmetrically in the third container case 113 and extends vertically on the turbine 131. The third exchange shaft 151 is fixedly connected, and the upper end of the third exchange shaft 151 is attached so as to be able to rotate to the second container 102 through a bearing. A buffing wheel 161 is fixedly connected, and a worm 152 is installed at the rear end of the turbine extending left and right in the third volume housing. A fifth conical pulley 141 is fixedly connected to the worm 152 and located between the two turbines 131, and is fixedly connected to the worm 152. The third motor is installed A sixth conical pulley 146 engaged with and connected to the fifth conical pulley 141 is connected to the front end of 122 so that power can be transmitted.

好ましくは前記ハウジング100の底端に第四容筐体114が設置され、前記第四容筐体114に左右対称的に前後に延びる第四交換軸154が設置され、前記第四交換軸154に前後対称に回転車輪104が固定的に接続し、左右対称に二つの前記回転車輪104の間にキャタピラー162が接続される。 Preferably, a fourth casing 114 is installed at the bottom end of the housing 100, and a fourth exchange shaft 154 extending in the front-rear direction symmetrically in the left-right direction is installed in the fourth casing 114. A rotating wheel 104 is fixedly connected in a symmetrical manner, and a caterpillar 162 is connected between the two rotating wheels 104 in a symmetrical manner.

好ましくは前記タービン131が前記ウォーム152と噛み合う。 Preferably, the turbine 131 meshes with the worm 152.

好ましくは前記ねじレバー153が前記第二容箱102と係合し接続する。 Preferably, the screw lever 153 is engaged with and connected to the second container box 102.

本発明の設備が初期状態にある時、前記第一容箱101が前記第一容筐体111の左端に位置し左端表面が前記凸ブロック103と接触し、前記第二容箱102が前記第二容筐体112の頂部に位置し頂部端面が前記第一容箱101と接触する。 When the equipment of the present invention is in the initial state, the first container 101 is located at the left end of the first container 111, the left end surface is in contact with the convex block 103, and the second container 102 is the first container The top end surface of the two-case housing 112 is in contact with the first container box 101.

使用する時に、前記第一モーター123を起動し前記第二交換軸156と連動して回転し、前記第一容箱101が右に移動し、前記第二固定アーム212が前記ハウジング100と接触する時に、前記第一モーター123を制御し動作を停止し、この時に第二モーター121を起動しねじレバー153と連動して回転し、前記第二容箱102が下にスライドし、前記第二容箱102の底部が前記第一容箱101と接触する時に、前記第五円錐形プーリー141が前記第六円錐形プーリー146と完全に噛み合って、前記第二モーター121を制御し回転を停止し、この時に前記第三モーター122を起動し前記バフ研磨輪161と連動して回転し、これにより加工品の表面を速くバフ研磨することを実現する。 In use, the first motor 123 is started and rotated in conjunction with the second exchange shaft 156, the first container 101 moves to the right, and the second fixed arm 212 contacts the housing 100. Sometimes, the first motor 123 is controlled to stop the operation, and at this time, the second motor 121 is started and rotated in conjunction with the screw lever 153, so that the second container 102 slides down, and the second container When the bottom of the box 102 comes into contact with the first container 101, the fifth conical pulley 141 is completely meshed with the sixth conical pulley 146 to control the second motor 121 and stop rotating. At this time, the third motor 122 is started and rotated in conjunction with the buffing wheel 161, thereby realizing a fast buffing of the surface of the workpiece.

使用が終わった後、前記第三モーター122を制御し回転を停止し、前記第二モーター121を起動し前記ねじレバー153と連動して回転し、前記第二容箱102が上にスライドし、前記第二容箱102の頂部端面が前記第一容箱101と接触する時に、前記第二モーター12１を制御し回転を停止し、この時に前記第一モーター123を起動し前記第二交換軸156と連動して回転し、前記第一容箱101が左に移動し、前記第一容箱101の左部端面が前記凸ブロック103と接触する時に、前記第三モーター122を制御し回転を停止する。 After the use is finished, the third motor 122 is controlled to stop rotating, the second motor 121 is started and rotated in conjunction with the screw lever 153, and the second container box 102 slides up, When the top end surface of the second container 102 comes into contact with the first container 101, the second motor 121 is controlled to stop the rotation, and at this time, the first motor 123 is activated to start the second exchange shaft 156. When the first container 101 moves to the left and the left end surface of the first container 101 contacts the convex block 103, the third motor 122 is controlled to stop the rotation. To do.

以上に述べたのはただ本発明の具体的な実施方式で、しかし本発明の保護範囲はこれに限らない。全部の創造的な労働を通じなく思いついた変化と取替は本発明の保護範囲にカバーされる。それゆえ本発明の保護範囲は特許請求の範囲が限定する保護範囲を基準とする。 What has been described above is merely a specific implementation method of the present invention, but the protection scope of the present invention is not limited thereto. Changes and replacements that have been conceived not through all creative labor are covered by the protection scope of the present invention. Therefore, the protection scope of the present invention is based on the protection scope defined by the claims.

好ましい技術方案として前記ハウジングの底端に第四容筐体が設置され、前記第四容筐体に左右対称的に前後に延びる第四交換軸が設置され、前記第四交換軸に前後対称に回転車輪が固定的に接続し、左右対称に二つの前記回転車輪の間に履帯が接続される。 As a preferred technical solution, a fourth housing is installed at the bottom end of the housing, and a fourth exchange shaft extending in the front-rear direction is installed in the fourth housing, and is symmetrical in the front-rear direction with respect to the fourth exchange shaft. A rotating wheel is fixedly connected, and a crawler track is connected between the two rotating wheels symmetrically.

好ましくは前記ハウジング100の底端に第四容筐体114が設置され、前記第四容筐体114に左右対称的に前後に延びる第四交換軸154が設置され、前記第四交換軸154に前後対称に回転車輪104が固定的に接続し、左右対称に二つの前記回転車輪104の間に履帯162が接続される。 Preferably, a fourth casing 114 is installed at the bottom end of the housing 100, and a fourth exchange shaft 154 extending in the front-rear direction symmetrically in the left-right direction is installed in the fourth casing 114. A rotating wheel 104 is fixedly connected in a longitudinally symmetrical manner, and a crawler belt 162 is connected between the two rotating wheels 104 in a laterally symmetrical manner.

本発明は以下の技術方案を採用して実現する。本発明の機械加工用加工品処理設備はハウジングと前記ハウジングの内部に設置され端口が右に向かう第一容筐体を含み、前記ハウジングの頂部端面に接続レバーを通じて防塵板が固定的に接続され、前記第一容筐体に第一容箱が設置され、前記第一容箱に端口が下に向かう第二容筐体が設置され、前記第二容筐体に端口が下に向かって前後に通り抜ける第二容箱が滑り接続し係合し接続し、前記第二容箱に第三容筐体が設置され、前記第一容筐体の左端内壁に前後に凸ブロックが設置され、前記凸ブロックに前後に延びる第一交換軸が回転可能なように係合し接続され、前記第一交換軸に前記凸ブロックの間に位置する第一円錐形プーリーが固定的に接続し、前記第一容筐体の左端内壁に第一モーターが設置され、前記第一モーターに前記第一円錐形プーリーと係合し接続する第二円錐形プーリーが動力が伝達可能なように接続され、前記第一交換軸の前後末尾に第三円錐形プーリーが固定的に接続し、前記第一容筐体に左右に延びて前後対称に第二交換軸が設置され、前記第二交換軸の左右両端がベアリングを通じて前記ハウジングと回転可能なように係合し接続し、前記第二交換軸の左端に前記第三円錐形プーリーと係合し接続する第四円錐形プーリーが固定的に接続し、前記第二交換軸に前後対称に第一容箱と固定的に接続する第一固定アームと第二固定アームが係合し接続され、前記第二容筐体の頂部内壁に第二モーターが設置され、前記の第二モーターの底端には下に延びて前記の第二容箱を通り抜ける且つ前記の第二容箱とねじ係合しているねじレバーが動力し接続され、前記第三容筐体に左右対称にタービンが設置され、前記タービンに上下に延びる第三交換軸が固定的に接続し、前記第三交換軸の上端がベアリングを通じて前記第二容箱に回転することができるように取り付けられ、前記第三交換軸の下端末尾にバフ研磨輪が固定的に接続され、前記第三容筐体に左右に延びて前記タービンの後端に位置するウォームが設置され、前記ウォームの左右両端がベアリングを通じて前記第二容箱に回転に取り付けられ、前記ウォームに二つの前記タービンの間に位置する第五円錐形プーリーが固定的に接続され、前記第二容筐体の後端内壁に第三モーターが設置され、前記の第三モーターの前端には前記の第五円錐形プーリーが下へスライドする時にそれと係合し接続する第六円錐形プーリーが動力し接続される。 The present invention is realized by employing the following technical scheme. The machined product processing facility for machining according to the present invention includes a housing and a first housing that is installed inside the housing and has an end opening facing right, and a dust-proof plate is fixedly connected to the top end surface of the housing through a connection lever. The first container is provided with a first container, the first container is provided with a second container whose end is directed downward, and the second container is provided with a front and rear end facing downward. The second container passing through and slidingly connects and engages, the third container is installed in the second container, the convex block is installed on the left inner wall of the first container on the front and rear, A first exchange shaft extending forward and backward is connected to the convex block so as to be rotatable, and a first conical pulley positioned between the convex blocks is fixedly connected to the first exchange shaft, A first motor is installed on the inner wall at the left end of the housing, and the first motor A second conical pulley engaged with and connected to the one conical pulley is connected to transmit power, and a third conical pulley is fixedly connected to the front and rear ends of the first exchange shaft, A second exchange shaft is installed symmetrically in the front-rear direction and is connected to the housing so that the left and right ends of the second exchange shaft can rotate with the housing through bearings. A first fixed arm fixedly connected to the first container box in a longitudinally symmetrical manner with respect to the second exchange shaft; and a fourth conical pulley engaged with and connected to the third conical pulley at the left end. A second fixed arm is engaged and connected, a second motor is installed on the top inner wall of the second housing, and extends downward through the second container to the bottom end of the second motor. In addition, the screw lever engaged with the second container box is powered and connected. Is, symmetrically to the third volume housing the turbine is installed, a third exchange axis extending vertically to the turbine is connected fixedly, to the second volume box upper end of the third exchange shaft through bearings A buffing wheel is fixedly connected to the lower end of the lower end of the third exchange shaft, and a worm located at the rear end of the turbine extends left and right to the third housing. The left and right ends of the worm are rotationally attached to the second container through bearings, and a fifth conical pulley located between the two turbines is fixedly connected to the worm, and the second container A third motor is installed on the inner wall of the rear end of the housing, and a sixth conical pulley is engaged with and engaged with the front end of the third motor when the fifth conical pulley slides down. Connected Re that.

図1~4が示すように、本発明の機械加工用加工品処理設備はハウジング100と前記ハウジング100の内部に設置され端口が右に向かう第一容筐体111を含み、前記ハウジング100の頂部端面に接続レバー188を通じて防塵板189が固定的に接続され、前記第一容筐体111に第一容箱101が設置され、前記第一容箱101に端口が下に向かう第二容筐体112が設置され、前記第二容筐体112に端口が下に向かって前後に通り抜ける第二容箱102が滑り接続し係合し接続し、前記第二容箱102に第三容筐体113が設置され、前記第一容筐体111の左端内壁に前後に凸ブロック103が設置され、前記凸ブロック103に前後に延びる第一交換軸155が回転可能なように係合し接続され、前記第一交換軸155に前記凸ブロック103の間に位置する第一円錐形プーリー145が固定的に接続し、前記第一容筐体111の左端内壁に第一モーター123が設置され、前記第一モーター123に前記第一円錐形プーリー145と係合し接続する第二円錐形プーリー144が動力が伝達可能なように接続され、前記第一交換軸155の前後末尾に第三円錐形プーリー143が固定的に接続し、前記第一容筐体111に左右に延びて前後対称に第二交換軸156が設置され、前記第二交換軸156の左右両端がベアリングを通じて前記ハウジング100と回転可能なように係合し接続し、前記第二交換軸の左端に前記第三円錐形プーリー143と係合し接続する第四円錐形プーリー142が固定的に接続し、前記第二交換軸156に前後対称に第一容箱101と固定的に接続する第一固定アーム211と第二固定アーム212が係合し接続され、前記第二容筐体112の頂部内壁に第二モーター121が設置され、前記の第二モーター121の底端には下に延びて前記の第二容箱102を通り抜ける且つ前記の第二容箱102とねじ係合しているねじレバー153が動力し接続され、前記第三容筐体113に左右対称にタービン131が設置され、前記タービン131に上下に延びる第三交換軸151が固定的に接続し、前記第三交換軸151の上端がベアリングを通じて前記第二容箱102に回転することができるように取り付けられ、前記第三交換軸151の下端末尾にバフ研磨輪161が固定的に接続され、前記第三容筐体に左右に延びて前記タービンの後端に位置するウォーム152が設置され、前記ウォーム152の左右両端がベアリングを通じて前記第二容箱102に回転に取り付けられ、前記ウォーム152に二つの前記タービン131の間に位置する第五円錐形プーリー141が固定的に接続され、前記第二容筐体112の後端内壁に第三モーター122が設置され、前記の第三モーター122の前端には前記の第五円錐形プーリー141が下へスライドする時にそれと係合し接続する第六円錐形プーリー146が動力し接続される。 As shown in FIGS. 1 to 4, the machined product processing facility of the present invention includes a housing 100 and a first casing 111 that is installed inside the housing 100 and has an end opening facing right. A dust-proof plate 189 is fixedly connected to the end face through a connection lever 188, the first container box 101 is installed in the first container box 111, and the second container box has an end opening downward toward the first container box 101. 112 is installed, and the second container box 102 whose end port passes through the second container case 112 in the back-and-forth direction is slidably connected and engaged, and the second container box 102 is connected to the third container case 113. A convex block 103 is installed on the left inner wall of the first case 111, and the first exchange shaft 155 extending forward and backward is engaged and connected to the convex block 103 so as to be rotatable, A first conical pulley 145 located between the convex blocks 103 is fixedly connected to the first exchange shaft 155, and the first housing A first motor 123 is installed on the left end inner wall of 111, and a second conical pulley 144 that engages and connects with the first conical pulley 145 is connected to the first motor 123 so that power can be transmitted, A third conical pulley 143 is fixedly connected to the front and rear ends of the first exchange shaft 155, and a second exchange shaft 156 is installed symmetrically in the front-rear direction and extends to the left and right of the first casing 111. A fourth conical pulley 142 is engaged with and connected to the housing 100 through a bearing so that the left and right ends of the shaft 156 are rotatable, and is engaged with and connected to the third conical pulley 143 at the left end of the second exchange shaft. Is fixedly connected, and a first fixed arm 211 and a second fixed arm 212 are fixedly connected to the first container 101 in a longitudinally symmetrical manner with respect to the second exchange shaft 156. second motor 121 is installed on the top inner wall of the housing 112, the bottom of the second motor 121 Screw lever 153 which engages threaded engagement with the second volume box 102 and the passing through the second volume box 102 of the extending down is to power connected to, symmetrically to the third Yokatamitai 113 A turbine 131 is installed, and a third exchange shaft 151 extending vertically is fixedly connected to the turbine 131 so that the upper end of the third exchange shaft 151 can rotate to the second container 102 through a bearing. Attached, a buffing wheel 161 is fixedly connected to the lower end of the lower end of the third exchange shaft 151, and a worm 152 extending from the left and right of the third volume housing and positioned at the rear end of the turbine is installed. The left and right ends of the worm 152 are rotatably attached to the second container 102 through bearings, and a fifth conical pulley 141 located between the two turbines 131 is fixedly connected to the worm 152, and the second A third motor 122 is mounted on the inner wall of the rear end of the housing 112. There is provided, on the front end of the third motor 122 Ru sixth conical pulley 146 is to power connection therewith engages connected when the fifth conical pulley 141 of the slides downward.

好ましい技術方案として前記ウォームギヤが前記ウォームと噛み合う。 As a preferred technical solution, the worm gear meshes with the worm.

好ましくは前記ウォームギヤ131が前記ウォーム152と噛み合う。 Preferably, the worm gear 131 meshes with the worm 152.

Claims (1)

機械加工用加工品処理設備であって、ハウジングと前記ハウジングの内部に設置され端口が右に向かう第一容筐体を含み、前記ハウジングの頂部端面に接続レバーを通じて防塵板が固定的に接続され、前記第一容筐体に第一容箱が設置され、前記第一容箱に端口が下に向かう第二容筐体が設置され、前記第二容筐体に端口が下に向かって前後に通り抜ける第二容箱が滑り接続し係合し接続し、前記第二容箱に第三容筐体が設置され、前記第一容筐体の左端内壁に前後に凸ブロックが設置され、前記凸ブロックに前後に延びる第一交換軸が回転可能なように係合し接続され、前記第一交換軸に前記凸ブロックの間に位置する第一円錐形プーリーが固定的に接続し、前記第一容筐体の左端内壁に第一モーターが設置され、前記第一モーターに前記第一円錐形プーリーと係合し接続する第二円錐形プーリーが動力が伝達可能なように接続され、前記第一交換軸の前後末尾に第三円錐形プーリーが固定的に接続し、前記第一容筐体に左右に延びて前後対称に第二交換軸が設置され、前記第二交換軸の左右両端がベアリングを通じて前記ハウジングと回転可能なように係合し接続し、前記第二交換軸の左端に前記第三円錐形プーリーと係合し接続する第四円錐形プーリーが固定的に接続し、前記第二交換軸に前後対称に第一容箱と固定的に接続する第一固定アームと第二固定アームが係合し接続され、前記第二容筐体の頂部内壁に第二モーターが設置され、前記第二モーターの底端に下に延びて前記第二容箱を通り抜けるねじレバーが動力が伝達可能なように接続され、前記第三容筐体に左右対称にタービンが設置され、前記タービンに上下に延びる第三交換軸が固定的に接続し、前記第三交換軸の上端がベアリングを通じて前記第二容箱に回転することができるように取り付けられ、前記第三交換軸の下端末尾にバフ研磨輪が固定的に接続され、前記第三容筐体に左右に延びて前記タービンの後端に位置するウォームが設置され、前記ウォームの左右両端がベアリングを通じて前記第二容箱に回転に取り付けられ、前記ウォームに二つの前記タービンの間に位置する第五円錐形プーリーが固定的に接続され、前記第二容筐体の後端内壁に第三モーターが設置され、前記第三モーターの前端に前記第五円錐形プーリーと係合し接続する第六円錐形プーリーが動力が伝達可能なように接続され、前記ハウジングの底端に第四容筐体が設置され、前記第四容筐体に左右対称的に前後に延びる第四交換軸が設置され、前記第四交換軸に前後対称に回転車輪が固定的に接続し、左右対称に二つの前記回転車輪の間にキャタピラーが接続され、前記タービンが前記ウォームと噛み合い、前記ねじレバーが前記第二容箱と係合し接続することを特徴とする機械加工用加工品処理設備。 A machined processing equipment for machining, which includes a housing and a first housing which is installed inside the housing and has an end opening facing right, and a dustproof plate is fixedly connected to a top end surface of the housing through a connection lever. The first container is provided with a first container, the first container is provided with a second container whose end is directed downward, and the second container is provided with a front and rear end facing downward. The second container passing through and slidingly connects and engages, the third container is installed in the second container, the convex block is installed on the left inner wall of the first container on the front and rear, A first exchange shaft extending forward and backward is connected to the convex block so as to be rotatable, and a first conical pulley positioned between the convex blocks is fixedly connected to the first exchange shaft, A first motor is installed on the inner wall on the left end of the housing, and the first motor A second conical pulley engaged with and connected to the one conical pulley is connected to transmit power, and a third conical pulley is fixedly connected to the front and rear ends of the first exchange shaft, A second exchange shaft is installed symmetrically in the front-rear direction and is connected to the housing so that the left and right ends of the second exchange shaft can rotate with the housing through bearings. A first fixed arm fixedly connected to the first container box in a longitudinally symmetrical manner with respect to the second exchange shaft; and a fourth conical pulley engaged with and connected to the third conical pulley at the left end. A second fixed arm is engaged and connected, a second motor is installed on the top inner wall of the second volume housing, and a screw lever that extends down to the bottom end of the second motor and passes through the second volume box It is connected so that power can be transmitted, A turbine is installed, and a third exchange shaft extending up and down is fixedly connected to the turbine, and an upper end of the third exchange shaft is attached to the second container box through a bearing. A buffing wheel is fixedly connected to the lower end of the third replacement shaft, and a worm is installed on the third housing to extend from side to side and is positioned at the rear end of the turbine. A fifth conical pulley is fixedly connected to the worm and located between the two turbines, and a third motor is mounted on the inner wall of the rear end of the second volume housing. And a sixth conical pulley engaged with and connected to the fifth conical pulley at the front end of the third motor is connected so as to be able to transmit power, and a fourth casing is formed at the bottom end of the housing. Installed A fourth exchange shaft extending symmetrically in the front-rear direction is installed in the fourth casing, and a rotating wheel is fixedly connected to the fourth exchange shaft in a front-rear symmetry, and the two rotational wheels symmetrically Caterpillar is connected between them, the turbine meshes with the worm, and the screw lever engages and connects with the second container.