JP3226552U - Pretreatment equipment for sludge sample analysis - Google Patents
Pretreatment equipment for sludge sample analysis Download PDFInfo
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- JP3226552U JP3226552U JP2020000488U JP2020000488U JP3226552U JP 3226552 U JP3226552 U JP 3226552U JP 2020000488 U JP2020000488 U JP 2020000488U JP 2020000488 U JP2020000488 U JP 2020000488U JP 3226552 U JP3226552 U JP 3226552U
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- 239000010802 sludge Substances 0.000 title claims abstract description 74
- 238000005070 sampling Methods 0.000 claims abstract description 19
- 239000010865 sewage Substances 0.000 claims abstract description 16
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 8
- 230000004807 localization Effects 0.000 claims description 42
- 210000000988 bone and bone Anatomy 0.000 claims description 21
- 238000005553 drilling Methods 0.000 claims description 19
- 239000000428 dust Substances 0.000 claims description 18
- 238000006243 chemical reaction Methods 0.000 claims description 8
- 238000004080 punching Methods 0.000 claims description 8
- 239000000463 material Substances 0.000 claims description 4
- 230000007246 mechanism Effects 0.000 claims description 3
- 239000002351 wastewater Substances 0.000 abstract description 26
- WABPQHHGFIMREM-UHFFFAOYSA-N lead(0) Chemical compound [Pb] WABPQHHGFIMREM-UHFFFAOYSA-N 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 abstract 1
- 238000001035 drying Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 239000012535 impurity Substances 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 230000015271 coagulation Effects 0.000 description 1
- 238000005345 coagulation Methods 0.000 description 1
- 230000001010 compromised effect Effects 0.000 description 1
- 230000018044 dehydration Effects 0.000 description 1
- 238000006297 dehydration reaction Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 239000000284 extract Substances 0.000 description 1
- 238000001125 extrusion Methods 0.000 description 1
- 230000036541 health Effects 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 239000013049 sediment Substances 0.000 description 1
- 238000004062 sedimentation Methods 0.000 description 1
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/286—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q involving mechanical work, e.g. chopping, disintegrating, compacting, homogenising
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/02—Devices for withdrawing samples
- G01N1/10—Devices for withdrawing samples in the liquid or fluent state
- G01N1/14—Suction devices, e.g. pumps; Ejector devices
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/44—Sample treatment involving radiation, e.g. heat
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/286—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q involving mechanical work, e.g. chopping, disintegrating, compacting, homogenising
- G01N2001/2873—Cutting or cleaving
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- Physics & Mathematics (AREA)
- Health & Medical Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- Biochemistry (AREA)
- General Health & Medical Sciences (AREA)
- General Physics & Mathematics (AREA)
- Immunology (AREA)
- Pathology (AREA)
- Hydrology & Water Resources (AREA)
- Sampling And Sample Adjustment (AREA)
Abstract
【課題】汚泥サンプル分析の前処理装置の構造が斬新で合理的で、作業精度が高く、適用範囲が広い汚泥サンプル分析の前処理装置を提供する。【解決手段】汚泥サンプル分析の前処理装置は、汚泥ポンプ1、コントローラー2、押出機3、乾燥機4、ミクロトーム5、サンプル採取装置6、作業台7、汚水プール8、汚水管9、汚水ポンプ10を含む。その特徴として、汚泥ポンプ1の一端は外部の汚泥プールと連接し、別一端は管路を通り押出機3と連通する。押出機3の一端は汚水管9、汚水ポンプ10と汚水プール8に連通し、押し出した水を汚水プール8の中に排水し、別一端は乾燥機4と連通する。乾燥機4の別一端はミクロトーム5に連接し、ミクロトーム5右側にはサンプル採取装置6を設置する。コントローラー2と汚泥ポンプ1、押出機3、乾燥機4、ミクロトーム5、サンプル採取装置6、汚水ポンプ10はリード線で連接する。【選択図】図1PROBLEM TO BE SOLVED: To provide a pretreatment device for sludge sample analysis, which has a novel and rational structure of sludge sample analysis, has high working accuracy, and has a wide range of application. SOLUTION: A pretreatment device for sludge sample analysis is a sludge pump 1, a controller 2, an extruder 3, a dryer 4, a microtome 5, a sampling device 6, a workbench 7, a wastewater pool 8, a wastewater pipe 9, a wastewater pump. Including 10. As its characteristic, one end of the sludge pump 1 is connected to an external sludge pool, and the other end is connected to an extruder 3 through a pipe line. One end of the extruder 3 communicates with the wastewater pipe 9, the wastewater pump 10 and the wastewater pool 8, the pushed water is drained into the wastewater pool 8, and the other end communicates with the dryer 4. The other end of the drier 4 is connected to the microtome 5, and a sampling device 6 is installed on the right side of the microtome 5. The controller 2, the sludge pump 1, the extruder 3, the dryer 4, the microtome 5, the sampling device 6, and the sewage pump 10 are connected by a lead wire. [Selection diagram] Figure 1
Description
本考案は、汚泥サンプル分析の前処理装置に関するもので、環境保護設備領域に属し、汚泥サンプル分析の前処理装置に係る。 The present invention relates to a pretreatment device for sludge sample analysis, which belongs to the area of environmental protection equipment and relates to a pretreatment device for sludge sample analysis.
汚泥には様々な凝集成分が混入しており、沈殿後の含水量が多い泥漿沈殿サンプルに対し、分析を行う場合、先ず脱水、乾燥、スライスの過程を実施しなければならない。 When sludge is mixed with various coagulation components, and a sludge sediment sample having a large water content after sedimentation is analyzed, first, dehydration, drying and slicing processes must be performed.
しかしながら、現在の技術において、汚泥の脱水、乾燥は含水量が多く、押出装置の出水率は低く、乾燥物のサンプル採取装置は作業時に大量の屑、粉塵と不純物が発生し、微小の粉塵、屑粒を人が吸い込むと、作業者の健康を犯す危険がある。更に大量の屑、不純物の清掃は複雑で面倒である。またミクロトームの切断角度は調整できない。同時に既存のサンプル採取装置は定位精度が低く、コンピュータ制御の誤差が大きい。またサンプル採取装置の効率が低く、物品に対する要求が高く、廃棄率が高く、コストも高くなるため、新しい技術に依り上述の問題を改善する必要がある。 However, in the current technology, sludge dewatering and drying have a high water content, the extrusion device has a low water output rate, and the dry material sampling device generates a large amount of dust, dust and impurities during operation, resulting in minute dust, If a person inhales the dust particles, there is a risk that the worker's health will be compromised. Furthermore, cleaning a large amount of dust and impurities is complicated and troublesome. Also, the cutting angle of the microtome cannot be adjusted. At the same time, existing sampling devices have low localization accuracy and large computer control error. Also, the efficiency of sampling devices is low, the demands on the goods are high, the disposal rate is high, and the cost is high, so it is necessary to remedy the above-mentioned problems by new technologies.
本考案は汚泥サンプル分析の前処理装置を提供する。汚泥サンプル分析の前処理装置は汚泥ポンプ、コントローラー、押出機、乾燥機、ミクロトーム、サンプル採取装置、作業台、汚水プール、汚水管、汚水ポンプを含む。
汚泥ポンプの一端は外部の汚泥プールと連通し、別一端は管路を通過して押出機と連通する。
押出機の一端は汚水管、汚水ポンプと汚水プールに連通し、押し出した水を汚水プールの中に排水し、別一端は乾燥機と連通する。
乾燥機の別一端はミクロトームに連通し、ミクロトーム右側にはサンプル採取装置を設置する。
作業台の上部にはコントローラーを設置し、コントローラーと汚泥ポンプ、押出機、乾燥機、ミクロトーム、サンプル採取装置、汚水ポンプはリード線で連接される。
作業台の下部には汚水プールを設置する。
The present invention provides a pretreatment device for sludge sample analysis. Pretreatment equipment for sludge sample analysis includes a sludge pump, controller, extruder, dryer, microtome, sampling device, workbench, wastewater pool, wastewater pipe, wastewater pump.
One end of the sludge pump communicates with an external sludge pool, and the other end communicates with an extruder through a pipeline.
One end of the extruder communicates with a waste water pipe, a waste water pump and a waste water pool, drains the extruded water into the waste water pool, and the other end communicates with a dryer.
The other end of the dryer is connected to the microtome, and a sampling device is installed on the right side of the microtome.
A controller is installed above the workbench, and the controller is connected to the sludge pump, extruder, dryer, microtome, sampling device, and sewage pump by a lead wire.
A sewage pool will be installed under the workbench.
さらに、該サンプル採取装置はサンプル採取器台、サンプル採取器、穿孔機、角度調節部材、横移動駆動装置、縦移動駆動装置を含む。
底部に位置するサンプル採取器台に位置し、その上部にはサンプル採取器を設置し、サンプル採取器上部には穿孔機を設置し、穿孔機上部において、角度調節部材、横移動駆動装置、縦移動駆動装置の順に設置する。
そのうち横移動駆動装置は縦移動駆動装置、角度調節部材、穿孔機を伴いレールに沿って水平移動する。
縦移動駆動装置は角度調節部材、穿孔機を伴い上下移動する。
角度調節部材は穿孔機の穿孔角度を制御する。
角度調節部材は一対の円弧形デザインである。
Further, the sample collecting device includes a sample collecting table, a sample collecting device, a perforator, an angle adjusting member, a lateral movement driving device, and a vertical movement driving device.
It is located on the sample collector base located at the bottom, the sample collector is installed on the upper part of the sample collector, and the perforator is installed on the upper part of the sample concentrator. Install the mobile drive units in this order.
Among them, the lateral movement driving device horizontally moves along the rail with the vertical movement driving device, the angle adjusting member, and the punching machine.
The vertical movement driving device moves up and down together with the angle adjusting member and the punch.
The angle adjusting member controls the drilling angle of the drilling machine.
The angle adjusting member has a pair of arc-shaped designs.
さらに、該穿孔機は、昇降機、定位部材、電動穿孔機、穿孔ドリル、吸込みファン、吸込みファンフレーム、定位孔を含む。
該昇降機は垂直移動するように設計され、その下部には角度調節部材を設置し、且つ表面には多数個の定位孔を穿設する。
定位部材の一端は定位孔の内部に挿入し、別一端は電動穿孔機と固定連接する。
電動穿孔機は下部の穿孔ドリルと嵌合快速機構によって連接する。
穿孔ドリルの一側には吸込みファンを設置し、吸込みファンフレームによって電動穿孔機としっかりと連接する。
吸込みファンの一端は穿孔ドリルに近く、別一端は外部の導管と連接する。
Further, the perforator includes an elevator, a localization member, an electric perforator, a perforation drill, a suction fan, a suction fan frame, and a localization hole.
The elevator is designed to move vertically, an angle adjusting member is installed on the lower part of the elevator, and a large number of localization holes are formed on the surface.
One end of the localization member is inserted into the localization hole, and the other end is fixedly connected to the electric drilling machine.
The electric drilling machine is connected to the drilling drill at the bottom by a quick fitting mechanism.
A suction fan is installed on one side of the drill, and the suction fan frame firmly connects with the electric drill.
One end of the suction fan is close to the drill and the other end connects to an external conduit.
さらに、該定位部材は、拡張柱、水平杆、回動機、停止機、戻りバネ、中心柱、ブレーキ柱、ガイドレール、支持傘を含む。
中央に位置する中心柱は垂直に設計され、拡張柱は中心柱外部に接続し、拡張柱は中心柱の腰部に位置し、拡張柱は縦方向に四分の一の円弧板が四個に分けられ、各円弧板は上下二本の水平杆とその四方に位置するブレーキ柱と連接される。
同時にブレーキ柱の上下両端は戻りバネで中心柱と連接される。
該四本のガイドレールは、放射状等の角度で排列する。
定位部材の筐体弾性構造において、定位部材の筐体外部に回動機を設け、回動機を回転させることで、ブレーキ柱がガイドレールに沿って放射状に拡がり、定位部材の筐体を弾力で押す。
定位部材の一側には停止機を設ける。
拡張柱の下部には傘型構造の支持傘を設け、回動機がブレーキ柱を駆動させて支持傘が放射状に開くのを実現する。
Furthermore, the localization member includes an extension column, a horizontal rod, a turning device, a stop device, a return spring, a center column, a brake column, a guide rail, and a support umbrella.
The central pillar located in the center is designed vertically, the expansion pillar is connected to the outside of the center pillar, the expansion pillar is located at the waist of the center pillar, and the expansion pillar has four quarter-arc plates in the vertical direction. Each arc plate is connected to the upper and lower horizontal rods and the brake columns located on the four sides thereof.
At the same time, the upper and lower ends of the brake column are connected to the center column by return springs.
The four guide rails are arranged at radial angles.
In the elastic structure of the casing of the localization member, a rotating machine is provided outside the casing of the localization member, and by rotating the rotating machine, the brake columns spread radially along the guide rails and push the casing of the localization member elastically. ..
A stop machine is installed on one side of the localization member.
A support umbrella having an umbrella-type structure is provided below the extension pillar, and the rotating machine drives the brake pillar to allow the support umbrella to open radially.
さらに、該支持傘は、傾斜骨、水平骨、支持傘筐体を含む。
最上部に位置する支持傘筐体は錐体構造で、弾力で拡がる材質であり、展開後底部の直径は定位孔より大きい。
支持傘筐体は下部の傾斜骨と連接し、一定の傾斜角度を備えた傾斜骨の最上部を二十本一点で集めて相互に連結し、その底部を同数の水平骨でそれぞれ連結し、水平骨の別一端は拡張柱と連接する。
Further, the support umbrella includes a tilted bone, a horizontal bone, and a support umbrella housing.
The supporting umbrella housing located at the top has a cone structure and is made of a material that expands elastically, and the diameter of the bottom part after deployment is larger than that of the localization hole.
The support umbrella housing is connected to the lower tilted bones, the uppermost parts of the tilted bones with a certain tilt angle are collected at twenty one points and connected to each other, and the bottoms thereof are connected to each other by the same number of horizontal bones, The other end of the horizontal bone is connected to the extension column.
さらに、該サンプル採取器は、作業エリア、挟持板滑路、滑動槽、挟持板、挟持盤、手動駆動機、駆動軸、粉屑回収箱を含む。
サンプル採取器の一端に位置する手動駆動機は駆動軸を回転させ、挟持板を挟持板滑路に沿って左右に移動させる。
挟持板の下部には滑動槽を設けて、その両者を固定連接し、滑動槽は挟持板滑路上でスライドする。
挟持板の数は二つであり、二つの挟持板は相対運動する。
そのうちの一つの挟持板には挟持盤を設ける。
サンプル採取器の一側には粉屑回収箱を設け、粉屑回収箱はホースで吸込みファンと連通する。
Further, the sampler includes a work area, a sandwich plate slide, a sliding tank, a sandwich plate, a sandwich plate, a manual drive, a drive shaft, and a dust collection box.
A manual drive located at one end of the sampler rotates the drive shaft to move the sandwich plate left and right along the sandwich plate slide.
A sliding tank is provided at the lower part of the sandwiching plate, both are fixedly connected, and the sliding tank slides on the sandwiching plate slideway.
The number of holding plates is two, and the two holding plates move relative to each other.
A sandwich plate is provided on one of the sandwich plates.
A dust collecting box is provided on one side of the sampler, and the dust collecting box is connected by a hose to the suction fan.
さらに、該挟持盤は、水平転換駆動軸、ターンギア、汚泥丸形片槽、ターンテーブル、垂直駆動軸、ターンテーブル起立軸、汚泥丸形片掛合杆を含む。
一側に位置する水平転換駆動軸はターンギアの歯と咬合して連接し、ターンギアとターンテーブルの歯が咬合して連接する。
ターンテーブルの盤面上には六個の汚泥丸形片槽を設け、ターンテーブル起立軸を中心軸として等角度で配置する。
汚泥丸形片槽の表面一側には汚泥丸形片掛合杆を設ける。
ターンテーブル起立軸の下部はターンテーブルと固定連接する。
ターンテーブル起立軸の上部は垂直駆動軸の歯と咬合して連接する。
Further, the sandwiching plate includes a horizontal conversion drive shaft, a turn gear, a sludge round shape tank, a turntable, a vertical drive axis, a turntable standing shaft, and a sludge round shape hanging rod.
The horizontal conversion drive shaft located on one side is in articulated contact with the teeth of the turn gear, and the turn gear and the teeth of the turntable are in articulated contact.
Six sludge round shaped tanks are provided on the turntable board surface and are arranged at an equal angle with the turntable standing axis as the central axis.
A sludge round single hanging rod is provided on one side of the surface of the sludge round single tank.
The lower part of the turntable standing shaft is fixedly connected to the turntable.
The upper part of the turntable standing shaft is articulated and connected with the teeth of the vertical drive shaft.
さらに、該前処理装置の作業方法は、以下のステップを含む。
ステップ1として、汚泥サンプル分析の前処理装置を使用するとき、コントローラーで汚泥ポンプを稼働させ含水汚泥を押出機に送る。押し出し作用によって、作られた汚水は汚水管、汚水ポンプを通じて汚水プールの中に進入する。
脱水後の丸形汚泥を乾燥機に入れて乾燥させる。
乾燥後の丸形汚泥をミクロトームに入れて丸形片にスライスし、汚泥丸形片はサンプル採取装置で穿孔してサンプルを採取する。
ステップ2として、サンプル採取装置を使用するとき、サンプル採取器が汚泥丸形片を挟持し、横移動駆動装置、縦移動駆動装置で穿孔機と汚泥丸形片間の距離を調整する。
次に角度調節部材で穿孔機と汚泥丸形片間の夾角を調整する。
ステップ3として、穿孔機を使用するとき、昇降機の上下移動で穿孔ドリルと汚泥丸形片之間の距離を調整する。
コントローラーで電動穿孔機を稼働させて穿孔ドリルを回転させ、汚泥丸形片に対して穿孔し、サンプルを採取操作する。
同時に定位部材を異なる定位孔に挿入して穿孔ドリルの傾斜角度を調整するのに用いる。
吸込みファンフレームは吸込みファン角度を調整し、コントローラーで吸込みファンを稼働させ穿孔ドリルの作業時に発生する粉屑を吸入する。
ステップ4として、定位部材を使用するとき、手動で定位部材を定位孔の中に挿入し、回動機を回転し、機械でブレーキ柱を稼働しガイドレールに沿って四方に広げ、定位孔としっかり結合させる。
すでに定位孔に挿入した支持傘は定位孔の別の外側において、拡張柱を下向きに広げ、更に定位孔に留める。
反対に、回動機を逆に回すと、戻りバネがブレーキ柱を収縮させ、更に支持傘を縮ませ、定位孔の制限を解除し、手動で定位部材を定位孔から抜き出し、角度を調整するのに用いる。
ステップ5について、支持傘を使用するとき、拡張柱が水平骨を押して径方向に広げ、傾斜骨の底端を広げ、支持傘を定位孔外の別一側で留める。
ステップ6について、サンプル採取器を使用するとき、作業者が手動駆動機で左右二つの挟持板を相対して移動させ、挟持盤をきつく挟持し、同時に挟持盤を制御して穿孔ドリルに合わせるのを実現する。
粉屑回収箱はホース、吸込みファンを通じて穿孔で発生した粉屑を箱内に回収する。
ステップ7について、挟持盤を使用するとき、外部設備が垂直駆動軸を動かし、ターンテーブル起立軸で穿孔ドリルの微調整と対象間の距離を調整するためにターンテーブルの上下移動を実現する。
外部設備が水平転換駆動軸を動かし、ターンギアでターンテーブルの水平回転を実現する。
汚泥丸形片槽の内部に汚泥丸形片を入れ、汚泥丸形片掛合杆によって固定され、ターンテーブルが水平回転して穿孔ドリルが六個の汚泥丸形片槽中の対象に対してそれぞれ処理することを実現する。
Further, the working method of the pretreatment apparatus includes the following steps.
As step 1, when using the pretreatment device for sludge sample analysis, the controller operates the sludge pump to send the water-containing sludge to the extruder. By the pushing action, the produced wastewater enters the wastewater pool through the wastewater pipe and the wastewater pump.
The dehydrated round sludge is put in a drier and dried.
The dried round sludge is put into a microtome and sliced into round pieces, and the sludge round pieces are perforated by a sample collecting device to collect a sample.
In step 2, when the sample collecting device is used, the sample collecting device holds the sludge round pieces, and the lateral movement driving device and the vertical movement driving device adjust the distance between the perforator and the sludge round pieces.
Next, the included angle between the perforator and the sludge round piece is adjusted by the angle adjusting member.
In step 3, when using the punch, the distance between the drill and the sludge round piece is adjusted by moving the elevator up and down.
The electric perforator is operated by the controller to rotate the perforation drill, perforate the sludge round pieces, and collect the sample.
At the same time, the orienting member is inserted into different orienting holes to adjust the tilt angle of the drill.
The suction fan frame adjusts the suction fan angle, and the controller operates the suction fan to suck in the dust generated during the drilling work.
As step 4, when using the localization member, manually insert the localization member into the localization hole, rotate the rotating machine, operate the brake column with the machine, and spread it in all directions along the guide rail to firmly secure the localization hole. To combine.
The support umbrella, already inserted in the stereotaxic hole, spreads the expansion column downwards on the outside of the stereotaxic hole and locks it in the stereotaxic hole.
On the contrary, when the turning machine is turned in the opposite direction, the return spring contracts the brake column, further contracts the support umbrella, releases the restriction of the localization hole, manually extracts the localization member from the localization hole, and adjusts the angle. Used for.
Regarding step 5, when using the support umbrella, the expansion column pushes the horizontal bones to spread them radially, widens the bottom end of the tilted bone, and holds the support umbrella on another side outside the stereotaxic hole.
About step 6, when using the sampler, the operator moves the two right and left clamping plates relative to each other by the manual drive machine to clamp the clamping plate tightly, and at the same time, control the clamping plate to match the drilling drill. To realize.
The dust collecting box collects the dust generated by the perforation into the box through a hose and a suction fan.
Regarding step 7, when using the sandwiching board, the external equipment moves the vertical drive shaft to realize the fine adjustment of the drill and the vertical movement of the turntable to adjust the distance between the objects on the turntable upright shaft.
External equipment moves the horizontal conversion drive shaft, and the turn gear realizes horizontal rotation of the turntable.
Put the sludge round piece inside the sludge round piece tank and fix it with the sludge round piece hanging rod, the turntable rotates horizontally and the drilling drill is for each of the six sludge round piece tanks. Realize processing.
本考案の汚泥サンプル分析の前処理装置は、汚泥サンプル分析の前処理装置の構造が斬新で合理的であり、作業精度が高く、適用範囲が広いという利点がある。 The sludge sample analysis pretreatment device of the present invention has the advantages that the structure of the sludge sample analysis pretreatment device is novel and rational, the working accuracy is high, and the application range is wide.
以下に図式と実施例を挙げ、本考案に提供する汚泥サンプル分析の前処理装置について更に説明する。 The pretreatment device for sludge sample analysis provided in the present invention will be further described below with reference to the drawings and examples.
図1は本考案の汚泥サンプル分析の前処理装置を示す図である。汚泥サンプル分析の前処理装置は汚泥ポンプ1、コントローラー2、押出機3、乾燥機4、ミクロトーム5、サンプル採取装置6、作業台7、汚水プール8、汚水管9、汚水ポンプ10を含む。
汚泥ポンプ1の一端は外部の汚泥プールと連接し、別一端は管路を通り押出機3と連通する。
押出機3の一端は汚水管9、汚水ポンプ10と汚水プール8に連通し、押圧した水を汚水プール8の中に排水し、別一端は乾燥機4と連通する。
乾燥機4の別一端はミクロトーム5に連接し、ミクロトーム5右側にはサンプル採取装置6を設置する。
作業台7の上部にはコントローラー2を設置し、コントローラー2と汚泥ポンプ1、押出機3、乾燥機4、ミクロトーム5、サンプル採取装置6、汚水ポンプ10はリード線で連接する。
作業台7の下部には汚水プール8を設置する。
FIG. 1 is a view showing a pretreatment device for sludge sample analysis according to the present invention. The pretreatment device for sludge sample analysis includes a sludge pump 1, a controller 2, an extruder 3, a dryer 4, a microtome 5, a sampling device 6, a workbench 7, a wastewater pool 8, a wastewater pipe 9, and a wastewater pump 10.
One end of the sludge pump 1 is connected to an external sludge pool, and the other end is connected to the extruder 3 through a pipe line.
One end of the extruder 3 communicates with the wastewater pipe 9, the wastewater pump 10 and the wastewater pool 8, drains the pressed water into the wastewater pool 8, and the other end communicates with the dryer 4.
The other end of the drier 4 is connected to the microtome 5, and a sampling device 6 is installed on the right side of the microtome 5.
A controller 2 is installed above the workbench 7, and the controller 2, the sludge pump 1, the extruder 3, the dryer 4, the microtome 5, the sampling device 6, and the wastewater pump 10 are connected by a lead wire.
A sewage pool 8 is installed below the workbench 7.
図2は本考案中サンプル採取装置を示す図である。該サンプル採取装置6は、サンプル採取器台6−1、サンプル採取器6−2、穿孔機6−3、角度調節部材6−4、横移動駆動装置6−5、縦移動駆動装置6−6を含む。
底部に位置するサンプル採取器台6−1は、その上部にサンプル採取器6−2を設置し、サンプル採取器6−2の上部には穿孔機6−3を設置し、穿孔機6−3の上部には角度調節部材6−4、横移動駆動装置6−5、縦移動駆動装置6−6の順に設置する。
そのうち横移動駆動装置6−5は縦移動駆動装置6−6、角度調節部材6−4、穿孔機6−3を伴いレールに沿って水平移動する。
縦移動駆動装置6−6は角度調節部材6−4、穿孔機6−3を伴い上下移動する。
角度調節部材6−4は穿孔機6−3の穿孔角度を制御する。
角度調節部材6−4は一対の円弧形デザインである。
FIG. 2 is a view showing a sampling device in the present invention. The sample collecting device 6 includes a sample collecting device base 6-1, a sample collecting device 6-2, a puncher 6-3, an angle adjusting member 6-4, a lateral movement driving device 6-5, and a vertical movement driving device 6-6. including.
The sampler base 6-1 located at the bottom has a sampler 6-2 installed on the upper part thereof, a perforator 6-3 installed on the upper part of the sampler 6-2, and a perforator 6-3. The angle adjusting member 6-4, the lateral movement driving device 6-5, and the vertical movement driving device 6-6 are installed in this order on the upper part of the.
The lateral movement driving device 6-5, along with the vertical movement driving device 6-6, the angle adjusting member 6-4, and the punching machine 6-3, horizontally moves along the rail.
The vertical movement drive device 6-6 moves up and down together with the angle adjusting member 6-4 and the punching machine 6-3.
The angle adjusting member 6-4 controls the drilling angle of the drilling machine 6-3.
The angle adjusting member 6-4 has a pair of arc-shaped designs.
図3は本考案における穿孔機6−3を示す図である。該穿孔機6−3は昇降機6−3−1、定位部材6−3−2、電動穿孔機6−3−3、穿孔ドリル6−3−4、吸込みファン6−3−5、吸込みファンフレーム6−3−6、定位孔6−3−7を含む。
該昇降機6−3−1は垂直移動するように設計され、その下部には角度調節部材6−4を設置し、且つ表面には多数個の定位孔6−3−7を穿設する。
定位部材6−3−2の一端は定位孔6−3−7の内部に挿入し、別一端は電動穿孔機6−3−3と固定連接する。
電動穿孔機6−3−3は下部の穿孔ドリル6−3−4と嵌合快速機構によって連接する。
穿孔ドリル6−3−4の一側には吸込みファン6−3−5を設置し、吸込みファンフレーム6−3−6によって電動穿孔機6−3−3としっかりと連接する。
吸込みファン6−3−5の一端は穿孔ドリル6−3−4に近く、別一端は外部の導管と連接する。
FIG. 3 is a view showing a punching machine 6-3 according to the present invention. The perforator 6-3 is an elevator 6-3-1, a localization member 6-3-2, an electric perforator 6-3-3, a perforation drill 6-3-4, a suction fan 6-3-5, a suction fan frame. 6-3-6, including stereotaxic holes 6-3-7.
The elevator 6-3-1 is designed to move vertically, an angle adjusting member 6-4 is installed in the lower part thereof, and a large number of localization holes 6-3-7 are formed in the surface thereof.
One end of the localization member 6-3-2 is inserted into the localization hole 6-3-7, and the other end is fixedly connected to the electric perforator 6-3-3.
The electric perforator 6-3-3 is connected to the lower perforation drill 6-3-4 by a quick fitting mechanism.
A suction fan 6-3-5 is installed on one side of the perforation drill 6-3-4, and is firmly connected to the electric perforator 6-3-3 by the suction fan frame 6-3-6.
One end of the suction fan 6-3-5 is close to the drill 6-3-4, and the other end is connected to an external conduit.
図4は本考案における定位部材6−3−2を示す図である。該定位部材6−3−2は、拡張柱6−3−2−1、水平杆6−3−2−2、回動機6−3−2−3、停止機6−3−2−4、戻りバネ6−3−2−5、中心柱6−3−2−6、ブレーキ柱6−3−2−7、ガイドレール6−3−2−8、支持傘6−3−2−9を含む。
中央に位置する中心柱6−3−2−6は垂直に設計され、拡張柱6−3−2−1は中心柱6−3−2−6外部に接続し、拡張柱6−3−2−1は中心柱6−3−2−6の腰部に位置する。拡張柱6−3−2−1は縦方向に四分の一の円弧板が四個に分けられ、各円弧板は上下二本の水平杆6−3−2−2とその四方に位置するブレーキ柱6−3−2−7と連接される。
同時にブレーキ柱6−3−2−7の上下両端は戻りバネ6−3−2−5で中心柱6−3−2−6と連接される。
該四本のガイドレール6−3−2−8は、放射状等の角度で排列する。
定位部材6−3−2の筐体弾性構造は、定位部材6−3−2の筐体外部に回動機6−3−2−3を設け、回動機6−3−2−3を回転させることで、ブレーキ柱6−3−2−7がガイドレール6−3−2−8に沿って放射状に拡がり、定位部材6−3−2の筐体を弾力で押す。
定位部材6−3−2一側には停止機6−3−2−4を設ける。
拡張柱6−3−2−1の下部には傘型構造の支持傘6−3−2−9を設け、回動機6−3−2−3がブレーキ柱6−3−2−7を駆動させて支持傘6−3−2−9が放射状に開くのを実現する。
FIG. 4 is a view showing the localization member 6-3-2 in the present invention. The localization member 6-3-2 includes an expansion column 6-3-2-1, a horizontal rod 6-3-2-2, a turning machine 6-3-2-3, a stop machine 6-3-2-4, The return spring 6-3-2-5, the center pillar 6-3-2-6, the brake pillar 6-3-2-7, the guide rail 6-3-2-8, and the support umbrella 6-3-2-9. Including.
The central pillar 6-3-2-6 located in the center is designed vertically, and the expansion pillar 6-3-2-1 connects to the outside of the central pillar 6-3-2-6, and the expansion pillar 6-3-2. -1 is located on the waist of the central column 6-3-2-6. The extension column 6-3-2-1 is divided into four quarter-circular arc plates in the vertical direction, and each arc plate is located on the upper and lower horizontal rods 6-3--2-2 and its four sides. It is connected to the brake column 6-3-2-7.
At the same time, the upper and lower ends of the brake column 6-3-2-7 are connected to the central column 6-3-2-6 by return springs 6-3-2-5.
The four guide rails 6-3-2-8 are arranged at radial angles.
The casing elastic structure of the localization member 6-3-2 is provided with a rotating machine 6-3-2-3 outside the casing of the localization member 6-3-2 and rotates the rotating machine 6-3-2-3. As a result, the brake columns 6-3-2-7 spread radially along the guide rails 6-3-2-8, and push the housing of the localization member 6-3-2 elastically.
A stop machine 6-3-2-4 is provided on one side of the localization member 6-3-2.
A support umbrella 6-3-2-9 having an umbrella structure is provided below the extension pillar 6-3-2-1, and the rotating machine 6-3-2-3 drives the brake pillar 6-3-2-7. This allows the support umbrella 6-3-2-9 to open radially.
図5は本考案における支持傘6−3−2−9を示す図である。該支持傘6−3−2−9は、傾斜骨6−3−2−9−1、水平骨6−3−2−9−2、支持傘筐体6−3−2−9−3を含む。
最上部に位置する支持傘筐体6−3−2−9−3は錐体構造で、弾力で拡がる材質であり、展開後底部の直径は定位孔6−3−7より大きい。
支持傘筐体6−3−2−9−3は下部の傾斜骨6−3−2−9−1と連接し、一定の傾斜角度を備えた傾斜骨6−3−2−9−1の最上部を二十本一点で集めて相互に連結し、その底部を同数の水平骨6−3−2−9−2でそれぞれ連結し、水平骨6−3−2−9−2の別一端は拡張柱6−3−2−1と連接する。
FIG. 5 is a view showing a supporting umbrella 6-3-2-9 according to the present invention. The support umbrella 6-3-2-9 includes a tilted bone 6-3-2-9-1, a horizontal bone 6-3-2-9-2, and a support umbrella housing 6-3-2-9-3. Including.
The supporting umbrella housing 6-3-2-9-3 located at the uppermost portion has a cone structure and is a material that expands elastically, and the diameter of the bottom portion after deployment is larger than that of the localization holes 6-3-7.
The supporting umbrella housing 6-3-2-9-3 is connected to the lower slanted bone 6-3-2-9-1 and has a constant slanted angle. The uppermost part is collected at 20 points and connected to each other, and the bottom parts thereof are connected to each other by the same number of horizontal bones 6-3-2-9-2, and the other end of the horizontal bones 6-3-2-9-2 is connected. Is connected to the expansion column 6-3-2-1.
図6は本考案におけるサンプル採取器6−2を示す図である。該サンプル採取器6−2は、作業エリア6−2−1、挟持板滑路6−2−2、滑動槽6−2−3、挟持板6−2−4、挟持盤6−2−5、手動駆動機6−2−6、駆動軸6−2−7、粉屑回収箱6−2−8を含む。
サンプル採取器6−2の一端に位置する手動駆動機6−2−6は駆動軸6−2−7を回転させ、挟持板6−2−4を挟持板滑路6−2−2に沿って左右に移動させる。
挟持板6−2−4の下部には滑動槽6−2−3を設けて、その両者を固定連接し、滑動槽6−2−3は挟持板滑路6−2−2上でスライドする。
挟持板6−2−4の数は二つであり、二つの挟持板6−2−4は相対運動する。
そのうちの一つの挟持板6−2−4には挟持盤6−2−5を設ける。
サンプル採取器6−2の一側には粉屑回収箱6−2−8を設け、粉屑回収箱6−2−8はホースで吸込みファン6−3−5と連通する。
FIG. 6 is a view showing a sampler 6-2 in the present invention. The sample collector 6-2 includes a work area 6-2-1, a sandwich plate slideway 6-2-2, a sliding tank 6-2-3, a sandwich plate 6-2-4, and a sandwich plate 6-2-5. , A manual drive machine 6-2-6, a drive shaft 6-2-7, and a dust collection box 6-2-8.
The manual driver 6-2-6 located at one end of the sampler 6-2 rotates the drive shaft 6-2-7 to move the holding plate 6-2-4 along the holding plate slideway 6-2-2. To move left and right.
A sliding tank 6-2-3 is provided below the sandwiching plate 6-2-4, and both are fixedly connected, and the sliding tank 6-2-3 slides on the sandwiching plate slideway 6-2-2. ..
The number of the sandwiching plates 6-2-4 is two, and the two sandwiching plates 6-2-4 relatively move.
A sandwiching plate 6-2-5 is provided on one of the sandwiching plates 6-2-4.
A dust collecting box 6-2-8 is provided on one side of the sampler 6-2, and the dust collecting box 6-2-8 is connected to the suction fan 6-3-5 by a hose.
図7は本考案における挟持盤6−2−5を示す図である。該挟持盤6−2−5は、水平転換駆動軸6−2−5−1、ターンギア6−2−5−2、汚泥丸形片槽6−2−5−3、ターンテーブル6−2−5−4、垂直駆動軸6−2−5−5、ターンテーブル起立軸6−2−5−6、汚泥丸形片掛合杆6−2−5−7を含む。
一側に位置する水平転換駆動軸6−2−5−1はターンギア6−2−5−2の歯と咬合して連接し、ターンギア6−2−5−2はターンテーブル6−2−5−4の歯と咬合して連接する。
ターンテーブル6−2−5−4の盤面上には六個の汚泥丸形片槽6−2−5−3を設け、ターンテーブル起立軸6−2−5−6を中心軸として等角度で配置する。
汚泥丸形片槽6−2−5−3の表面一側には汚泥丸形片掛合杆6−2−5−7を設ける。
ターンテーブル起立軸6−2−5−6の下部はターンテーブル6−2−5−4と固定連接する。
ターンテーブル起立軸6−2−5−6の上部は垂直駆動軸6−2−5−5の歯と咬合して連接する。
FIG. 7 is a view showing a holding plate 6-2-5 according to the present invention. The sandwiching board 6-2-5 includes a horizontal conversion drive shaft 6-2-5-1, a turn gear 6-2-5-2, a sludge round shape tank 6-2-5-3, and a turntable 6-2-. 5-4, a vertical drive shaft 6-2-5-5, a turntable upright shaft 6-2-5-6, and a sludge round shaped hanging rod 6-2-5-7.
The horizontal conversion drive shaft 6-2-5-1 located on one side is engaged with the teeth of the turn gear 6-2-5-2 to be connected, and the turn gear 6-2-5-2 is connected to the turntable 6-2-5. -4 bite and connect with teeth.
On the board surface of the turntable 6-2-5-4, six sludge round shape tanks 6-2-5-3 are provided, and the turntable standing shaft 6-2-5-6 is used as a central axis at an equal angle. Deploy.
A sludge round shape hanging rod 6-2-5-7 is provided on one surface of the sludge round shape tank 6-2-5-3.
The lower part of the turntable standing shaft 6-2-5-6 is fixedly connected to the turntable 6-2-5-4.
The upper part of the turntable standing shaft 6-2-5-6 is in articulated contact with the teeth of the vertical drive shaft 6-2-5-5.
1 汚泥ポンプ
2 コントローラー
3 押出機
4 乾燥機
5 ミクロトーム
6 サンプル採取装置
6−1 サンプル採取器台
6−2 サンプル採取器
6−2−1 作業エリア
6−2−2 挟持板滑路
6−2−3 滑動槽
6−2−4 挟持板
6−2−5 挟持盤
6−2−5−1 水平転換駆動軸
6−2−5−2 ターンギア
6−2−5−3 汚泥丸形片槽
6−2−5−4 ターンテーブル
6−2−5−5 垂直駆動軸
6−2−5−6 ターンテーブル起立軸
6−2−5−7 汚泥丸形片掛合杆
6−2−6 手動駆動機
6−2−7 駆動軸
6−2−8 粉屑回収箱
6−3 穿孔機
6−3−1 昇降機
6−3−2 定位部材
6−3−2−1 拡張柱
6−3−2−2 水平杆
6−3−2−3 回動機
6−3−2−4 停止機
6−3−2−5 戻りバネ
6−3−2−6 中心柱
6−3−2−7 ブレーキ柱
6−3−2−8 ガイドレール
6−3−2−9 支持傘
6−3−2−9−1傾斜骨
6−3−2−9−2水平骨
6−3−2−9−3支持傘筐体
6−3−3 電動穿孔機
6−3−4 穿孔ドリル
6−3−5 吸込みファン
6−3−6 吸込みファンフレーム
6−3−7 定位孔
6−4 角度調節部材
6−5 横移動駆動装置
6−6 縦移動駆動装置
7 作業台
8 汚水プール
9 汚水管
10 汚水ポンプ
1 Sludge Pump 2 Controller 3 Extruder 4 Dryer 5 Microtome 6 Sample Sampling Device 6-1 Sample Sampling Platform 6-2 Sample Sampling Device 6-2-1 Working Area 6-2-2 Clamping Plate Runway 6-2- 3 Sliding tank 6-2-4 Clamping plate 6-2-5 Clamping board 6-2-5-1 Horizontal conversion drive shaft 6-2-5-2 Turn gear 6-2-5-3 Sludge round shape single tank 6- 2-5-4 Turntable 6-2-5-5 Vertical drive shaft 6-2-5-6 Turntable standing shaft 6-2-5-7 Sludge round shape single hanging rod 6-2-6 Manual drive 6 -2-7 Drive shaft 6-2-8 Dust collection box 6-3 Perforator 6-3-1 Elevator 6-3-2 Positioning member 6-3-2-1 Expansion column 6-3-2-2 Horizontal Rod 6-3-2-3 Rotating machine 6-3-2-4 Stopping machine 6-3-2-5 Return spring 6-3-2-6 Center column 6-3-2-7 Brake column 6-3- 2-8 Guide rail 6-3-2-9 Support umbrella 6-3-2-9-1 Inclined bone 6-3-2-9-2 Horizontal bone 6-3-2-9-3 Support umbrella housing 6 -3-3 Electric drilling machine 6-3-4 Drilling drill 6-3-5 Suction fan 6-3-6 Suction fan frame 6-3-7 Positioning hole 6-4 Angle adjusting member 6-5 Lateral movement drive device 6 -6 Vertical movement drive device 7 Working table 8 Sewage pool 9 Sewage pipe 10 Sewage pump
Claims (7)
汚泥ポンプの一端は外部の汚泥プールと連接し、別一端は管路を通り押出機と連通し、
押出機の一端は汚水管、汚水ポンプと汚水プールに連通し、押し出した水を汚水プールの中に排水し、別一端は乾燥機と連通し、
乾燥機の別一端はミクロトームに連接し、ミクロトーム右側にはサンプル採取装置を設置し、
作業台の上部にはコントローラーを設置し、コントローラーと汚泥ポンプ、押出機、乾燥機、ミクロトーム、サンプル採取装置、汚水ポンプはリード線で連接し、
作業台の下部に汚水プールを設けることを特徴とする汚泥サンプル分析の前処理装置。 In a pretreatment device for sludge sample analysis composed of a sludge pump, controller, extruder, dryer, microtome, sampling device, workbench, sewage pool, sewage pipe, sewage pump,
One end of the sludge pump is connected to an external sludge pool, and the other end is connected to an extruder through a pipeline.
One end of the extruder communicates with the sewage pipe, sewage pump and sewage pool, drains the extruded water into the sewage pool, and the other end communicates with the dryer.
The other end of the dryer is connected to the microtome, and a sampling device is installed on the right side of the microtome.
A controller is installed on the top of the workbench, and the controller is connected to the sludge pump, extruder, dryer, microtome, sampling device, and sewage pump with lead wires.
A pretreatment device for sludge sample analysis, characterized by having a sewage pool under the workbench.
底部に位置するサンプル採取器台は、その上部にサンプル採取器を設置し、サンプル採取器の上部には穿孔機を設置し、穿孔機の上部には角度調節部材、横移動駆動装置、縦移動駆動装置の順に設置し、
そのうち横移動駆動装置は縦移動駆動装置、角度調節部材、穿孔機を伴いレールに沿って水平移動し、
縦移動駆動装置は角度調節部材、穿孔機を伴い上下移動し、
角度調節部材は穿孔機の穿孔角度を制御し、
角度調節部材は一対の円弧形デザインであることを特徴とする請求項1記載の汚泥サンプル分析の前処理装置。 The sample collecting device includes a sample collecting table, a sample collecting device, a punching machine, an angle adjusting member, a lateral movement driving device, and a vertical movement driving device,
The sampler base located at the bottom has a sampler installed on top of it, a perforator installed on top of the sampler, and an angle adjustment member, a lateral movement drive device, and vertical movement on top of the perforator. Install in the order of the drive,
Among them, the horizontal movement drive device moves horizontally along the rail with the vertical movement drive device, the angle adjusting member, and the punching machine,
The vertical movement drive device moves up and down together with the angle adjusting member and the punch,
The angle adjusting member controls the drilling angle of the drilling machine,
The sludge sample analysis pretreatment device according to claim 1, wherein the angle adjusting member has a pair of arc-shaped designs.
前記昇降機は垂直移動するように設計され、その下部には角度調節部材を設置し、且つ表面には多数個の定位孔を穿設し、
定位部材の一端は定位孔の内部に挿入し、別一端は電動穿孔機と固定連接し、
電動穿孔機は下部の穿孔ドリルと嵌合快速機構によって連接し、
穿孔ドリルの一側には吸込みファンを設置し、吸込みファンフレームによって電動穿孔機としっかりと連接し、
吸込みファンの一端は穿孔ドリルに近く、別一端は外部の導管と連接することを特徴とする請求項2記載の汚泥サンプル分析の前処理装置。 The punching machine includes an elevator, a localization member, an electric drilling machine, a drill, a suction fan, a suction fan frame, and a localization hole,
The elevator is designed to move vertically, an angle adjusting member is installed in the lower part of the elevator, and a large number of localization holes are formed on the surface of the elevator.
One end of the localization member is inserted inside the localization hole, and the other end is fixedly connected to the electric drilling machine,
The electric drilling machine is connected with the drilling drill at the bottom by the quick fitting mechanism,
A suction fan is installed on one side of the drill, and the suction fan frame firmly connects with the electric drilling machine.
The pretreatment device for sludge sample analysis according to claim 2, wherein one end of the suction fan is close to the drill and the other end is connected to an external conduit.
中央に位置する中心柱は垂直に設計され、拡張柱は中心柱外部に接続し、拡張柱は中心柱の腰部に位置し、拡張柱は縦方向に四分の一の円弧板が四個に分けられ、各円弧板は上下二本の水平杆とその四方に位置するブレーキ柱と連接され、
同時にブレーキ柱の上下両端は戻りバネで中心柱と連接され、
前記四本のガイドレールは、放射状等の角度で排列し、
定位部材の筐体弾性構造において、定位部材の筐体外部に回動機を設け、回動機を回転させることで、ブレーキ柱がガイドレールに沿って放射状に拡がり、定位部材の筐体を弾力で押し、
定位部材の一側には停止機を設け、
拡張柱の下部には傘型構造の支持傘を設け、回動機がブレーキ柱を駆動させて支持傘が放射状に開くのを実現することを特徴とする請求項3記載の汚泥サンプル分析の前処理装置。 The localization member includes an extension column, a horizontal rod, a turning device, a stop device, a return spring, a center column, a brake column, a guide rail, and a support umbrella.
The central pillar located in the center is designed vertically, the expansion pillar is connected to the outside of the center pillar, the expansion pillar is located at the waist of the center pillar, and the expansion pillar has four quarter-arc plates in the vertical direction. Separated from each other, each arc plate is connected to the upper and lower horizontal rods and the brake columns located on the four sides,
At the same time, the upper and lower ends of the brake column are connected to the center column by return springs,
The four guide rails are arranged at radial angles,
In the elastic structure of the body of the localization member, a rotating machine is provided outside the body of the localization member, and by rotating the rotating machine, the brake columns spread radially along the guide rails and push the body of the localization member elastically. ,
A stop machine is provided on one side of the localization member,
The pretreatment for sludge sample analysis according to claim 3, wherein a support umbrella having an umbrella-type structure is provided at a lower portion of the extension pillar, and the rotating machine drives the brake pillar to realize the radial opening of the support umbrella. apparatus.
最上部に位置する支持傘筐体は錐体構造で、弾力で拡がる材質であり、展開後底部の直径は定位孔より大きく、
支持傘筐体は下部の傾斜骨と連接し、一定の傾斜角度を備えた傾斜骨の最上部を二十本一点で集めて相互に連結し、その底部を同数の水平骨でそれぞれ連結し、水平骨の別一端は拡張柱と連接することを特徴とする請求項4記載の汚泥サンプル分析の前処理装置。 The support umbrella includes a tilted bone, a horizontal bone, and a support umbrella housing,
The supporting umbrella housing located at the top is a cone structure and is a material that expands elastically, and the diameter of the bottom part after deployment is larger than the localization hole,
The support umbrella housing is connected to the lower tilted bones, the uppermost parts of the tilted bones with a certain tilt angle are collected at twenty one points and connected to each other, and the bottoms thereof are connected to each other by the same number of horizontal bones, The pretreatment device for sludge sample analysis according to claim 4, wherein the other end of the horizontal bone is connected to the expansion column.
サンプル採取器の一端に位置する手動駆動機は駆動軸を回転させ、挟持板を挟持板滑路に沿って左右に移動させ、
挟持板の下部には滑動槽を設けて、その両者を固定連接し、滑動槽は挟持板滑路上でスライドし、
挟持板の数は二つであり、二つの挟持板は相対運動し、
そのうちの一つの挟持板には挟持盤を設け、
サンプル採取器の一側には粉屑回収箱を設け、粉屑回収箱はホースで吸込みファンと連通することを特徴とする請求項5記載の汚泥サンプル分析の前処理装置。 The sampler includes a work area, a sandwich plate slideway, a sliding tank, a sandwich plate, a sandwich plate, a manual drive machine, a drive shaft, and a dust collection box,
A manual drive located at one end of the sampler rotates the drive shaft to move the clamp plate left and right along the clamp plate slide,
A sliding tank is provided at the bottom of the holding plate, both are fixedly connected, and the sliding tank slides on the holding plate slideway.
The number of clamping plates is two, the two clamping plates move relative to each other,
A sandwich plate is provided on one of the sandwich plates,
The pretreatment device for sludge sample analysis according to claim 5, wherein a dust collecting box is provided on one side of the sample collector, and the dust collecting box is connected to a fan by a hose.
一側に位置する水平転換駆動軸はターンギアの歯が咬合して連接し、ターンギアとターンテーブルの歯が咬合して連接し、
ターンテーブルの盤面上には六個の汚泥丸形片槽を設け、ターンテーブル起立軸を中心軸として等角度で配置し、
汚泥丸形片槽の表面一側には汚泥丸形片掛合杆を設け、
ターンテーブル起立軸の下部はターンテーブルと固定連接し、
ターンテーブル起立軸の上部は垂直駆動軸の歯と咬合して連接することを特徴とする請求項6記載の汚泥サンプル分析の前処理装置。 The sandwiching plate includes a horizontal conversion drive shaft, a turn gear, a sludge round single tank, a turntable, a vertical drive shaft, a turntable standing shaft, and a sludge round single hanging rod.
The horizontal conversion drive shaft located on one side is in contact with the teeth of the turn gear, and the teeth of the turn gear and the teeth are in contact with each other.
On the board surface of the turntable, six sludge round shaped tanks were installed, arranged at an equal angle with the turntable standing axis as the central axis,
On one side of the surface of the sludge round single tank, a sludge round single hanging rod is provided,
The lower part of the turntable standing shaft is fixedly connected to the turntable,
The pretreatment device for sludge sample analysis according to claim 6, wherein the upper part of the turntable upright shaft is engaged with the teeth of the vertical drive shaft so as to be connected thereto.
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CN201910968311.XA CN110658041A (en) | 2019-10-12 | 2019-10-12 | Sludge sample analysis platform pretreatment device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112304702A (en) * | 2020-10-19 | 2021-02-02 | 四川清和科技有限公司 | Surface layer sediment sampling device |
CN116839986A (en) * | 2023-08-02 | 2023-10-03 | 山东省煤田地质局第四勘探队 | River mud collection sampling device |
CN117074123A (en) * | 2023-07-12 | 2023-11-17 | 自然资源部第二海洋研究所 | Full-automatic columnar mud sample divider |
-
2019
- 2019-10-12 CN CN201910968311.XA patent/CN110658041A/en not_active Withdrawn
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2020
- 2020-02-14 JP JP2020000488U patent/JP3226552U/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112304702A (en) * | 2020-10-19 | 2021-02-02 | 四川清和科技有限公司 | Surface layer sediment sampling device |
CN112304702B (en) * | 2020-10-19 | 2023-08-08 | 四川清和科技有限公司 | Surface layer bottom mud sampling device |
CN117074123A (en) * | 2023-07-12 | 2023-11-17 | 自然资源部第二海洋研究所 | Full-automatic columnar mud sample divider |
CN117074123B (en) * | 2023-07-12 | 2024-03-26 | 自然资源部第二海洋研究所 | Full-automatic columnar mud sample divider |
CN116839986A (en) * | 2023-08-02 | 2023-10-03 | 山东省煤田地质局第四勘探队 | River mud collection sampling device |
CN116839986B (en) * | 2023-08-02 | 2024-03-19 | 山东省煤田地质局第四勘探队 | River mud collection sampling device |
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