JP2019196297A - Technical device for preparing superfine powder for pottery - Google Patents
Technical device for preparing superfine powder for pottery Download PDFInfo
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- JP2019196297A JP2019196297A JP2018118358A JP2018118358A JP2019196297A JP 2019196297 A JP2019196297 A JP 2019196297A JP 2018118358 A JP2018118358 A JP 2018118358A JP 2018118358 A JP2018118358 A JP 2018118358A JP 2019196297 A JP2019196297 A JP 2019196297A
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- 239000000843 powder Substances 0.000 title claims abstract description 17
- 238000005498 polishing Methods 0.000 claims description 71
- 239000002994 raw material Substances 0.000 claims description 17
- 238000004891 communication Methods 0.000 claims description 12
- 239000000919 ceramic Substances 0.000 claims description 11
- 238000002360 preparation method Methods 0.000 claims description 8
- 238000005516 engineering process Methods 0.000 claims description 5
- 238000003780 insertion Methods 0.000 claims description 4
- 230000037431 insertion Effects 0.000 claims description 4
- 229910052571 earthenware Inorganic materials 0.000 claims description 2
- 238000004519 manufacturing process Methods 0.000 description 3
- 238000012545 processing Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 229910010293 ceramic material Inorganic materials 0.000 description 1
- 238000011161 development Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000007775 late Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000001052 transient effect Effects 0.000 description 1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C19/00—Other disintegrating devices or methods
- B02C19/20—Disintegrating by grating
Abstract
Description
本発明は陶器の設備技術分野に関し、具体的には、陶器の超微細粉末準備技術設備及びその使い方に関する。 TECHNICAL FIELD The present invention relates to the technical field of pottery equipment, and more specifically, to a technical equipment for preparing ultra-fine powder of pottery and its usage.
科学技術の高速な発展に従って、陶磁器材料の性能と品質に対する要求が益々高くなり、それによって部分の陶磁器が新型の特殊効能を備える材料に促進される。陶磁器粉末は電子陶磁器の準備過程中に欠けないものであり、原材料の粉末になる品質も後期の効能陶磁器の作製の品質に影響を与えるため、専用の設備で生産中に需要する原材料を粉末に研磨しなければならない。つまり、効能陶磁器粉末を準備する設備がとっても需要なものである。伝統的な陶磁器粉末準備設備は構造が複雑で、加工のコストが高いため、企業の維持コストが高く、中小型企業の生産需要を満足できない。しかも、一般的な研磨装置が研磨した粉末はあまり精細でなく、次の作動には進めなく、時間と人力を浪費し、労働効率を下げ、不必要の生産コストを生じる。 With the rapid development of science and technology, the demands on the performance and quality of ceramic materials are increasing, which promotes some ceramics to materials with new special effects. Ceramic powders are indispensable during the preparation process of electronic ceramics, and the quality of raw material powders also affects the quality of the production of late-effect ceramics. Must be polished. In other words, facilities for preparing high-performance ceramic powder are in great demand. Traditional ceramic powder preparation equipment has a complicated structure and high processing cost, so the maintenance cost of the enterprise is high and the production demand of small and medium enterprises cannot be satisfied. Moreover, the powder polished by a general polishing apparatus is not very fine and does not proceed to the next operation, wastes time and manpower, lowers work efficiency, and generates unnecessary production costs.
本発明の目的は上記の背景技術に提出された問題を解決するための陶器の超微細粉末準備技術設備及びその使い方を提供することにある。 It is an object of the present invention to provide an ultra-fine powder preparation technology facility for pottery and a method for using the same to solve the problems submitted to the background art described above.
本発明の陶器の超微細粉末準備技術設備は、主機体を含み、前記主機体の内に第一筐体が設置され、前記第一筐体の内底部に回転台が回転し係合し接続され、前記回転台の底部の端面に沈み溝が設置され、前記沈み溝の内壁にリングギヤが固定に周設され、前記沈み溝の内に前記リングギヤと動力で係合し接続する駆動歯車が設置され、前記駆動歯車の底部端が第一電機と動力で係合し接続し、前記第一電機の外表面が前記第一筐体の内定壁に固定に嵌入し、前記回転台の頂部に傾斜ガイド台が固定に設置され、前記第一筐体の左側の前記主機体に上に伸びる第二筐体が設置され、前記第二筐体と前記第一筐体の間に第一通し口が連通し設置され、前記第一筐体の内に螺旋部品が回転し係合し接続され、前記第一筐体の上側の前記主機体の内に第一供給筐体が設置され、前記第一供給筐体と前記第一筐体の間に研磨管が連通し設置され、前記第二筐体の頂部の伸長末端と前記第一供給筐体の間に傾斜通り管が連通し設置され、前記第一筐体の右側の前記種機体の内に第二供給筐体が設置され、前記第二供給筐体と前記第一筐体の間に第二通り口が連通し設置され、前記第二供給筐体の下側の前記主機体の内に円錐形研磨筐体が連通し設置され、前記主機体の右側の端面に左に伸びる嵌入溝が設置され、前記嵌入溝が前記円錐形研磨筐体の下側にあり、前記円錐形研磨筐体と前記嵌入溝の間に排出口が連通し設置され、前記第一供給筐体の上側の前記主機体の内に左右に伸びる駆動筐体が設置され、前記駆動筐体の左側の伸長末端が前記第二筐体の頂部と相対し、前記駆動筐体の右側の伸長末端が前記第二供給筐体の頂部と相対し、前記研磨管の内に初期研磨部品が過渡的に係合し接続され、前記円錐形研磨筐体の内に円錐形研磨部品が過渡的に係合し接続され、前記駆動筐体の内にそれぞれ前記螺旋部品、前記初期研磨部品及び前記円錐形研磨部品と動力で係合し接続する駆動執行構造が設置され、前記主機体の底部の周りに移動部品がそれぞれ設置され、前記移動部品が頂部の末端が前記主機体の底部の端面と固定に係合し接続する支持脚及び前記支持脚の底部の端面に回転し係合し接続される移動ローラーを含み、前記移動ローラーによって移動や運搬に便利を与える。 The ultra-fine powder preparation technical equipment for earthenware of the present invention includes a main body, a first housing is installed in the main body, and a turntable rotates and connects to the inner bottom of the first housing. A sink groove is provided on the end surface of the bottom of the turntable, a ring gear is fixedly provided on the inner wall of the sink groove, and a driving gear is provided in the sink groove to engage and connect with the ring gear by power. The bottom end of the drive gear is engaged and connected to the first electric machine by power, the outer surface of the first electric machine is fixedly fitted to the inner wall of the first housing, and is inclined to the top of the turntable A guide base is fixedly installed, a second casing extending upward is installed on the main body on the left side of the first casing, and a first through hole is provided between the second casing and the first casing. The spiral component is rotated and engaged and connected in the first casing, and the main body on the upper side of the first casing is connected. A first supply housing is installed, and a polishing tube is installed in communication between the first supply housing and the first housing, and an extended end of the top of the second housing and the first supply housing An inclined street tube is installed in communication, a second supply housing is installed in the seed aircraft on the right side of the first housing, and a second supply housing is installed between the second supply housing and the first housing. Two passages are installed in communication, a conical polishing housing is installed in communication with the main body on the lower side of the second supply housing, and a fitting groove extending to the left is formed on the right end surface of the main device. Installed, the insertion groove is on the lower side of the conical polishing housing, and a discharge port is installed between the conical polishing housing and the insertion groove, and the upper side of the first supply housing A drive housing extending in the left-right direction is installed in the main body, and an extended end on the left side of the drive housing is opposed to the top of the second housing, and the right side of the drive housing An elongated end is opposed to the top of the second supply housing, an initial polishing component is transiently engaged and connected in the polishing tube, and a conical polishing component is transient in the conical polishing housing And a drive execution structure that engages and connects with the spiral component, the initial polishing component, and the conical polishing component, respectively, in the drive housing, and is installed at the bottom of the main body. Moving parts are respectively installed around the supporting parts, and the moving parts are fixedly engaged with and connected to the end face of the bottom of the main body and the end face of the bottom of the supporting leg. A moving roller is provided, and the moving roller provides convenience for movement and transportation.
更の技術プランとして、前記初期研磨部品が頂部から前記第一供給筐体に挿入する球形部及び前記球形部の底部の円柱形部からなる。 As a further technical plan, the initial polishing component includes a spherical portion inserted into the first supply housing from the top and a cylindrical portion at the bottom of the spherical portion.
更の技術プランとして、前記駆動執行構造が前記駆動筐体の内に左右に伸びて設置される第一回転軸及び前記第一回転軸の右側の末端と動力で接続する第二電機を含み、前記第一回転軸の左側の伸長末端が前記駆動筐体の左側の内壁と回転し係合し接続し、前記第二電機の外表面が前記駆動筐体の右側の内壁に固定に嵌入し、前記第二筐体と前記駆動筐体の部分に上下に伸びる第二回転軸が回転し係合し接続され、前記第二回転軸の頂部の伸長末端に前記駆動筐体に挿入する第一段車が動力で固定に設置され、前記第二回転軸の底部の伸長末端が前記第二筐体に挿入するかつ前記螺旋部品の頂部の末端と固定に係合し接続し、前記第一供給筐体と前記駆動筐体の間の部分に上下に伸びる第三回転軸が回転し係合し接続され、前記第三回転軸の頂部の伸長末端に前記駆動筐体に挿入する第二段車が動力で固定に設置され、前記第三回転軸の底部の伸長末端が前記第一供給筐体に挿入するかつ前記初期研磨部品の頂部の末端と固定に接続し、前記第二供給筐体と前記駆動筐体の間の部分に第四回転軸が回転し係合し接続され、前記第三回転軸の頂部の伸長末端に前記駆動筐体に挿入する第三段車が固定に設置され、前記第三回転軸の底部の伸長末端が前記第二供給筐体の下側の前記円錐形研磨筐体に挿入するかつ前記円錐形研磨部品の頂部の末端と固定に係合し接続し、前記第一回転軸にそれぞれ前記第一段車、第二段車及び第三段車と動力で係合し接続する第四段車が固定に設置される。 As a further technical plan, the drive execution structure includes a first rotating shaft installed extending left and right in the drive housing and a second electric machine connected by power to the right end of the first rotating shaft, The left extension end of the first rotating shaft rotates and engages with the left inner wall of the drive housing, and the outer surface of the second electric machine is fixedly fitted to the right inner wall of the drive housing, A first rotating shaft that is rotated and engaged with and connected to the second casing and the drive casing is inserted into the driving casing at the extended end of the top of the second rotating shaft. A vehicle is fixedly mounted by power, and an extended end of the bottom of the second rotating shaft is inserted into the second casing and fixedly engaged with and connected to a top end of the spiral component; A third rotating shaft extending vertically is engaged with and connected to a portion between the body and the drive housing, and the third rotating shaft A second stage wheel to be inserted into the drive housing at the extended end of the portion is fixed by power, the extended end of the bottom of the third rotating shaft is inserted into the first supply housing, and the initial polishing component The top end is fixedly connected to the end, the fourth rotating shaft is rotated and engaged with the portion between the second supply housing and the drive housing, and the third rotating shaft is connected to the extended end of the top of the top. A third step wheel to be inserted into the drive housing is fixedly installed, and an extended end of the bottom of the third rotating shaft is inserted into the conical polishing housing below the second supply housing; and the conical shape A fourth stage car that is fixedly engaged with and connected to the top end of the abrasive part, and that is engaged and connected to the first rotating shaft, the first stage car, the second stage car, and the third stage car, respectively. Installed fixed.
本発明の有益効果は:本発明は構造が簡単で、操作が便利で、第二電機によって第一回転軸を回転させ、第一回転軸によって第四段車を回転させ、その上で第四段車によって第一段車、第二段車及び第三段車をそれぞれ同時に回転させ、この時に、第一段車によって第二回転軸及び第二回転軸の底部の螺旋部品を回転させ、同時に、第二段車によって第三回転軸及び第三回転軸の底部の初期研磨部品を回転させ、この時に、螺旋部品によって第二筐体の内の原料を傾斜通り管に移動させ、それから原料が傾斜通り管を通して第一供給筐体に滑り込み、この時に、初期研磨部品によって初回の研磨作動を初め、それから原料が初期研磨部品と研磨管の間に隙間を通して第一筐体に落ち、同時に、傾斜ガイド台のガイドで第一通り口に着いてから再び第二筐体に進入し、その上で何度となく研磨作動を繰り返し、初回研磨が終わった時に、第一電機によって駆動歯車を回転させ、駆動歯車によってリングギヤ、回転台及び傾斜ガイド台を回転させ、第二通り口が最大限度に第一筐体と連通したら、同時に、傾斜ガイド台と第一通り台を完全に密閉接続状態にさせ、それから、継続して第二電機を回転させ、螺旋部品によって第二筐体の内の原料を傾斜通り管に移動させ、それから原料が傾斜通り管を通して第一供給筐体に滑り込み、そして研磨管を通して第一筐体に落ち、それから傾斜ガイド台のガイドで第二供給筐体に滑り込み、この時に、第三段車によって第四段車及び第四段車の底部の円錐形研磨部品を第二回の精細な研磨作動を進めさせ、これにより一回以上の初期研磨作動を自動にコントロールし、研磨効率を大きく高め、回転台によって傾斜ガイド台の回転調節作動を行い、その上で二次研磨の停止や起動作動を実現し、同時に、円錐形研磨部品によって二次精細研磨作動を行い、ひいては研磨効率や品質を高める。 The beneficial effects of the present invention are as follows: the present invention is simple in structure, convenient to operate, the first rotating shaft is rotated by the second electric machine, the fourth wheel is rotated by the first rotating shaft, and then the fourth The first car, the second car, and the third car are simultaneously rotated by the car, and at this time, the spiral parts at the bottom of the second and second rotary shafts are rotated by the first car, and at the same time The second stage wheel rotates the third rotating shaft and the initial polishing component at the bottom of the third rotating shaft, and at this time, the spiral member moves the raw material in the second housing to the inclined street pipe, and then the raw material is Sliding into the first supply housing through the inclined pipe, at this time, the initial polishing operation is started by the initial polishing component, and then the raw material falls into the first housing through the gap between the initial polishing component and the polishing tube, and at the same time the inclination After getting to the first street with the guide on the guide stand Then, the polishing operation is repeated several times on the second housing, and when the first polishing is finished, the drive gear is rotated by the first electric machine, and the ring gear, the rotary table and the tilt guide table are rotated by the drive gear. When the second passage opening is in communication with the first housing to the maximum extent, at the same time, the tilt guide stand and the first passage stand are brought into a completely sealed connection state, and then the second electric machine is continuously rotated, The spiral part moves the raw material in the second housing into the inclined street tube, then the raw material slides through the inclined street tube into the first supply housing and falls through the polishing tube into the first housing, and then on the inclined guide stand. The guide is slid into the second supply housing, and at this time, the third stage car drives the fourth stage car and the conical abrasive part at the bottom of the fourth stage car for the second time. Initial polishing operation more than once To control the movement, greatly increase the polishing efficiency, and the rotation adjustment operation of the tilt guide table by the rotary table, and then stop and start the secondary polishing, and at the same time secondary fine polishing by the conical polishing parts Operates, and thus improves polishing efficiency and quality.
下記に図1〜2を合わせて本発明について詳しく説明する。 The present invention will be described in detail with reference to FIGS.
図1〜2を参照し、本発明の実施例の陶器の超微細粉末準備技術設備は、主機体6を含み、前記主機体6の内に第一筐体61が設置され、前記第一筐体61の内底部に回転台611が回転し係合し接続され、前記回転台611の底部の端面に沈み溝612が設置され、前記沈み溝612の内壁にリングギヤ613が固定に周設され、前記沈み溝612の内に前記リングギヤ613と動力で係合し接続する駆動歯車615が設置され、前記駆動歯車615の底部端が第一電機614と動力で係合し接続し、前記第一電機614の外表面が前記第一筐体61の内定壁に固定に嵌入し、前記回転台611の頂部に傾斜ガイド台616が固定に設置され、前記第一筐体61の左側の前記主機体6に上に伸びる第二筐体62が設置され、前記第二筐体62と前記第一筐体61の間に第一通し口617が連通し設置され、前記第一筐体61の内に螺旋部品621が回転し係合し接続され、前記第一筐体61の上側の前記主機体6の内に第一供給筐体63が設置され、前記第一供給筐体63と前記第一筐体61の間に研磨管64が連通し設置され、前記第二筐体62の頂部の伸長末端と前記第一供給筐体63の間に傾斜通り管633が連通し設置され、前記第一筐体61の右側の前記種機体6の内に第二供給筐体65が設置され、前記第二供給筐体65と前記第一筐体61の間に第二通り口619が連通し設置され、前記第二供給筐体65の下側の前記主機体6の内に円錐形研磨筐体66が連通し設置され、前記主機体6の右側の端面に左に伸びる嵌入溝67が設置され、前記嵌入溝67が前記円錐形研磨筐体66の下側にあり、前記円錐形研磨筐体66と前記嵌入溝67の間に排出口671が連通し設置され、前記第一供給筐体63の上側の前記主機体6の内に左右に伸びる駆動筐体68が設置され、前記駆動筐体68の左側の伸長末端が前記第二筐体62の頂部と相対し、前記駆動筐体68の右側の伸長末端が前記第二供給筐体65の頂部と相対し、前記研磨管64の内に初期研磨部品641が過渡的に係合し接続され、前記円錐形研磨筐体66の内に円錐形研磨部品661が過渡的に係合し接続され、前記駆動筐体68の内にそれぞれ前記螺旋部品621、前記初期研磨部品641及び前記円錐形研磨部品661と動力で係合し接続する駆動執行構造が設置され、前記主機体6の底部の周りに移動部品7がそれぞれ設置され、前記移動部品7が頂部の末端が前記主機体6の底部の端面と固定に係合し接続する支持脚71及び前記支持脚71の底部の端面に回転し係合し接続される移動ローラー72を含み、前記移動ローラー72によって移動や運搬に便利を与える。
1-2, the ceramic ultrafine powder preparation technical equipment of the embodiment of the present invention includes a main body 6, in which a
有益なまた例を示すように、前記初期研磨部品641が頂部から前記第一供給筐体63に挿入する球形部及び前記球形部の底部の円柱形部からなり、これにより原料の落ちるスピードを高め、同時に、初期研磨効率を大きく高める。 As a useful example, the initial polishing component 641 is composed of a spherical part inserted into the first supply housing 63 from the top and a cylindrical part at the bottom of the spherical part, thereby increasing the speed at which the raw material falls. At the same time, the initial polishing efficiency is greatly increased.
有益なまた例を示すように、前記駆動執行構造が前記駆動筐体68の内に左右に伸びて設置される第一回転軸681及び前記第一回転軸681の右側の末端と動力で接続する第二電機683を含み、前記第一回転軸681の左側の伸長末端が前記駆動筐体68の左側の内壁と回転し係合し接続し、前記第二電機683の外表面が前記駆動筐体68の右側の内壁に固定に嵌入し、前記第二筐体62と前記駆動筐体68の部分に上下に伸びる第二回転軸622が回転し係合し接続され、前記第二回転軸622の頂部の伸長末端に前記駆動筐体68に挿入する第一段車623が動力で固定に設置され、前記第二回転軸622の底部の伸長末端が前記第二筐体62に挿入するかつ前記螺旋部品621の頂部の末端と固定に係合し接続し、前記第一供給筐体63と前記駆動筐体68の間の部分に上下に伸びる第三回転軸631が回転し係合し接続され、前記第三回転軸631の頂部の伸長末端に前記駆動筐体68に挿入する第二段車632が動力で固定に設置され、前記第三回転軸631の底部の伸長末端が前記第一供給筐体63に挿入するかつ前記初期研磨部品641の頂部の末端と固定に接続し、前記第二供給筐体65と前記駆動筐体68の間の部分に第四回転軸651が回転し係合し接続され、前記第三回転軸651の頂部の伸長末端に前記駆動筐体68に挿入する第三段車652が固定に設置され、前記第三回転軸651の底部の伸長末端が前記第二供給筐体65の下側の前記円錐形研磨筐体66に挿入するかつ前記円錐形研磨部品661の頂部の末端と固定に係合し接続し、前記第一回転軸681にそれぞれ前記第一段車623、第二段車632及び第三段車652と動力で係合し接続する第四段車682が固定に設置され、これにより自動に駆動作動をコントロールし、陶器の粉末の加工効率と品質を大きく高める。
As a useful example, the drive execution structure is connected to the first
初期状態の時に、第一通り口617を第一筐体61と最大限度に連通する状態にさせ、同時に、第二通り口619を完全に密閉状態にさせる。
In the initial state, the
陶器の粉末を加工する時に、第二電機683によって第一回転軸681を回転させ、第一回転軸681によって第四段車682を回転させ、その上で第四段車682によって第一段車623、第二段車632及び第三段車652をそれぞれ同時に回転させ、この時に、第一段車623によって第二回転軸622及び第二回転軸622の底部の螺旋部品621を回転させ、同時に、第二段車632によって第三回転軸631及び第三回転軸631の底部の初期研磨部品641を回転させ、この時に、螺旋部品621によって第二筐体62の内の原料を傾斜通り管633に移動させ、それから原料が傾斜通り管633を通して第一供給筐体63に滑り込み、この時に、初期研磨部品641によって初回の研磨作動を初め、それから原料が初期研磨部品641と研磨管64の間に隙間を通して第一筐体61に落ち、同時に、傾斜ガイド台616のガイドで第一通り口617に着いてから再び第二筐体62に進入し、その上で何度となく研磨作動を繰り返し、初回研磨が終わった時に、第一電機614によって駆動歯車615を回転させ、駆動歯車615によってリングギヤ613、回転台611及び傾斜ガイド台616を回転させ、第二通り口619が最大限度に第一筐体61と連通したら、同時に、傾斜ガイド台616と第一通り台617を完全に密閉接続状態にさせ、それから、継続して第二電機683を回転させ、螺旋部品621によって第二筐体62の内の原料を傾斜通り管633に移動させ、それから原料が傾斜通り管633を通して第一供給筐体63に滑り込み、そして研磨管64を通して第一筐体61に落ち、それから傾斜ガイド台616のガイドで第二供給筐体65に滑り込み、この時に、第三段車652によって第四段車651及び第四段車651の底部の円錐形研磨部品661を第二回の精細な研磨作動を進めさせる。
When processing ceramic powder, the second electric machine 683 rotates the first rotating
本分野の技術者が明確できるのは、本発明の総体精神や発想から離脱しない場合で、以上の実施例に各種な変形ができ、それらの変形がすべて本発明の保護範囲にある。本発明の保護方案は本発明の権利要求書を標準とすべきである。 An engineer in this field can clarify the case where it does not depart from the general spirit and idea of the present invention. Various modifications can be made to the above-described embodiments, and these modifications are all within the protection scope of the present invention. The protection scheme of the present invention should be based on the rights claim of the present invention.
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CN112338196A (en) * | 2020-11-24 | 2021-02-09 | 铜山县丰华工贸有限公司 | Preparation method of manganese agent based on aluminum alloy smelting |
CN113858387A (en) * | 2021-08-26 | 2021-12-31 | 甘雅 | Ceramic manufacturing machine with purification and recovery functions |
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CN112338196A (en) * | 2020-11-24 | 2021-02-09 | 铜山县丰华工贸有限公司 | Preparation method of manganese agent based on aluminum alloy smelting |
CN113858387A (en) * | 2021-08-26 | 2021-12-31 | 甘雅 | Ceramic manufacturing machine with purification and recovery functions |
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