CN109252669A - Finger pressing device in a kind of building engineering construction device - Google Patents

Finger pressing device in a kind of building engineering construction device Download PDF

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Publication number
CN109252669A
CN109252669A CN201811170955.6A CN201811170955A CN109252669A CN 109252669 A CN109252669 A CN 109252669A CN 201811170955 A CN201811170955 A CN 201811170955A CN 109252669 A CN109252669 A CN 109252669A
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CN
China
Prior art keywords
dredge
mobile jib
gear
regulating
funnel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201811170955.6A
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Chinese (zh)
Inventor
陈晶晶
崔蓬勃
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Jiangsu Institute of Architectural Technology
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Jiangsu Institute of Architectural Technology
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Filing date
Publication date
Application filed by Jiangsu Institute of Architectural Technology filed Critical Jiangsu Institute of Architectural Technology
Priority to CN201811170955.6A priority Critical patent/CN109252669A/en
Publication of CN109252669A publication Critical patent/CN109252669A/en
Pending legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G21/00Preparing, conveying, or working-up building materials or building elements in situ; Other devices or measures for constructional work
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D29/00Other filters with filtering elements stationary during filtration, e.g. pressure or suction filters, or filtering elements therefor
    • B01D29/11Other filters with filtering elements stationary during filtration, e.g. pressure or suction filters, or filtering elements therefor with bag, cage, hose, tube, sleeve or like filtering elements
    • B01D29/31Self-supporting filtering elements
    • B01D29/35Self-supporting filtering elements arranged for outward flow filtration
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D35/00Other filtering devices; Auxiliary devices for filtration; Filter housing constructions
    • B01D35/02Filters adapted for location in special places, e.g. pipe-lines, pumps, stop-cocks
    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08GMACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
    • C08G79/00Macromolecular compounds obtained by reactions forming a linkage containing atoms other than silicon, sulfur, nitrogen, oxygen, and carbon with or without the latter elements in the main chain of the macromolecule
    • C08G79/02Macromolecular compounds obtained by reactions forming a linkage containing atoms other than silicon, sulfur, nitrogen, oxygen, and carbon with or without the latter elements in the main chain of the macromolecule a linkage containing phosphorus
    • C08G79/04Phosphorus linked to oxygen or to oxygen and carbon
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B15/00Cleaning or keeping clear the surface of open water; Apparatus therefor
    • E02B15/04Devices for cleaning or keeping clear the surface of open water from oil or like floating materials by separating or removing these materials
    • E02B15/10Devices for removing the material from the surface

Abstract

The invention discloses finger pressing devices in a kind of building engineering construction device, and wherein finger pressing device includes: spring fixed pedestal, pressing device shell, pressing device spring, pressing device spring stability column, inverted u-shaped plate;The inverted u-shaped plate is located at collar lock and nails on portion, and inverted u-shaped plate is fixedly connected with finger axis at the top of regulating mechanism;The spring fixed pedestal is set to inverted u-shaped plate top, and spring fixed pedestal bottom is fixedly connected with inverted u-shaped plate, and spring fixed pedestal top is fixedly connected with pressing device spring;The pressing device spring upper end is fixedly connected with finger spiral handspike;The pressing device spring stability column is arranged in pressing device spring inner and diameter is less than the diameter of pressing device spring.The apparatus structure is rationally compact, and application cost is low, facilitates adjusting;The device is practical, can securely, rapidly play fixed effect, and different constructing devices can be fixed, and applicability is high.

Description

Finger pressing device in a kind of building engineering construction device
Technical field
The invention belongs to machinery equipment field, and in particular to finger pressing device in a kind of building engineering construction device.
Background technique
In current Building Construction, it usually needs constructing device is fixed using pressing device.Currently, Most of pressing device generally used is pressing plate, and pressing plate generally comprises the T shape screw rod of setting on the table, is sleeved on T shape Flat pressing plate on screw rod, and it is set in the clamp nut on T shape screw rod and being located above pressing plate.In use, will One end of pressing plate is pressed on the upper surface for the exemplar being also positioned on workbench, pad plus and exemplar below the other end of pressing plate Contour cushion block finally screws clamp nut and compresses pressing plate.The pressing device of such structure adds due to needing to pad when in use With the mutually level cushion block of exemplar, but common cushion block is often difficult to meet the needs of different height exemplar, therefore applicability It is low;And pressing plate is to realize compression positioning by face contact by the bottom surface of one end and the upper surface of exemplar when in use, Thus it needs to increase the clamp load torque of clamp nut to meet the positioning requirements of exemplar, and is non-smooth table in exemplar upper surface Loosening is easy to produce when face;In addition, the clamp load torque to clamp nut is excessive, and is easy to cause T shape screw rod to be broken, to reduce The use reliability of pressing plate.Therefore, design finger pressing device in a kind of novel building engineering construction device have it is very careless Justice.
Summary of the invention
In order to solve the above-mentioned technical problem, the present invention relates to finger pressing device in a kind of building engineering construction device, Floater dragging device 9-6 and clean water chamber 9-5 is equipped with inside the pretreatment pool bracket 9-4 of middle pretreatment pool 9, and floating material is salvaged Equipment 9-6 is located at the top clean water chamber 9-5, and pretreatment pool bracket 9-4 is fixedly connected with clean water chamber 9-5, pretreatment pool bracket 9-4's Quantity is 4, parallel between adjacent pretreatment pool bracket 9-4 and be fixedly connected by horizontal truss;The floating material salvaging is set Standby jacking system 9-2 is located at pretreatment pool bracket 9-4 inner wall upper end and the two is fixedly connected, floater dragging device jacking system The side 9-2 is slidably connected with floater dragging device 9-6.
Further, this section is the explanation to heretofore described floater dragging device jacking system 9-2.The floating The gas bleeder valve 9-2-2 of object marine salvage equipment jacking system 9-2 is located between lifting air pump 9-2-1 and air flue 9-2-3, gas bleeder valve 9-2- 2 one end and lifting air pump 9-2-1 perforation connect, and the gas bleeder valve 9-2-2 other end and air flue 9-2-3 perforation connect;The lifting air Pump 9-2-1 is connect by conducting wire with Central Control Center 8;The other end of the air flue 9-2-3 with high-pressure chamber 9-2-4 is seamless passes through It is logical;Piston 9-2-5 and elevating lever 9-2-6 is equipped with inside the high-pressure chamber 9-2-4, high-pressure chamber's 9-2-4 outer wall lower end is equipped with Limit for height air valve 9-2-7, high-pressure chamber 9-2-4 are hollow cylindrical structure.
Further, this section is the explanation to heretofore described clean water chamber 9-5 structure.The clear water of the clean water chamber 9-5 The gentle drop net 9-5-4 of aerofoil profile dispersion plate 9-5-2, rectangular slow drop plate 9-5-3 is equipped with inside the frame 9-5-1 of room;The clean water chamber frame Frame 9-5-1 is hollow cylinder structure;The aerofoil profile dispersion plate 9-5-2 be located at the rectangular slow drop top plate 9-5-3 and with rectangular slow drop Plate 9-5-3 is 3 in different shaft staggered distributions, the quantity of aerofoil profile dispersion plate 9-5-2, aerofoil profile dispersion plate 9-5-2 horizontal parallel row It arranges and both ends is fixedly connected with the inner wall of clean water chamber 9-5, adjacent aerofoil dispersion plate 9-5-2 is in be equally spaced;The slow drop nets 9- The distance of 5-4 positioned at the rectangular slow drop lower part plate 9-5-3 and between the two is 13cm~18cm.
Further, this section is the explanation to heretofore described floater dragging device 9-6 structure.The floating material is beaten The salvaging motor 9-6-1 of fishing equipment 9-6 is located at the upper end floater dragging device 9-6 and collateral with floater dragging device 9-6 mono- Frame is fixedly connected, and the one end for salvaging motor 9-6-1, which is equipped with, salvages cam 9-6-2, is salvaged motor 9-6-1 and is salvaged cam 9-6-2 Transmission connection;Salvaging cam 9-6-2 periphery upper end, which is equipped with, salvages drive rod 9-6-3, salvages cam 9-6-2 and salvages and drives One end of lever 9-6-3 is not rotatablely connected coaxially, and the diameter for salvaging cam 9-6-2 is 5cm~10cm;The salvaging drive rod 9- The quantity of 6-3 is 2, and adjacent salvaging drive rod 9-6-3 rotates coaxially connection;The salvaging crankshaft 9-6-5 is beaten positioned at floating material The lower part of equipment 9-6 bracket is fished out, crankshaft 9-6-5 is salvaged and is connect by fixed hinge with marine salvage equipment 9-6 bracket, salvage crankshaft 9- The quantity of 6-5 is 2, and parallel and horizontal distance is 40cm~60cm between adjacent salvaging crankshaft 9-6-5.
Further, this section is the explanation to heretofore described steel wire slack adjuster 9-6-6 structure.The steel wire The steel wire guide wheel 9-6-6-1 of slack adjuster 9-6-6 is located at the entire middle and lower part steel wire slack adjuster 9-6-6, wherein It salvages steel wire 9-6-6-2 to penetrate from steel wire guide wheel 9-6-6-1 lower central, and is wrapped in steel wire hoop, steel wire guide wheel 9- 6-6-1 axis top be successively arranged regulating device cooling system 9-6-6-3, regulating device motor 9-6-6-4 and regulating device from Clutch 9-6-6-5, steel wire guide wheel 9-6-6-1 are the hollow structure of bottom end opening;The regulating device cooling system 9-6-6-3 It is rotatablely connected with steel wire guide wheel 9-6-6-1 axis upper end, regulating device cooling system 9-6-6-3 and steel wire guide wheel 9-6-6- The distance of 1 bottom is 5cm~10cm.
Further, this section is the explanation to heretofore described pretreatment pool secondary treatment system 9-8 structure.It is described pre- The dredge 9-8-5 waist upper end of processing pond secondary treatment system 9-8 is equipped with secondary treatment system water inlet pipe 9-8-6, dredge 9-8-5 and secondary treatment system water inlet pipe 9-8-6 is vertically through the tubule and U-tube 9-8-3 of the one end dredge 9-8-5 lower part One end socket, dredge 9-8-5 is by tubule and U-tube 9-8-3 vertically through dredge 9-8-5 is arranged horizontally and both ends Closed cylindrical hollow structure.
Further, this section is the explanation to heretofore described dredge 9-8-5 structure.The dredge 9-8-5's Dredge mandril 9-8-5-6 is located inside dredge 9-8-5, one end of dredge mandril 9-8-5-6 and mandril top receiving apparatus 9- The other end of 8-5-5 connection, dredge mandril 9-8-5-6 is connect with dredge piston 9-8-5-3;The mandril top receiving apparatus 9- 8-5-5 is located at the one end entire dredge 9-8-5, and mandril top receiving apparatus 9-8-5-5 is fixedly connected with dredge 9-8-5;It is described The diameter of dredge piston 9-8-5-3 is less than the diameter of dredge cavity 9-8-5-2;Dredge water inlet 9-8-5-4 In mono- upper lateral part of dredge 9-8-5, dredge water inlet 9-8-5-4 and dredge cavity 9-8-5-2 vertically through.
Further, this section is the explanation to heretofore described dredge piston 9-8-5-3 structure.The dredge is living The dredge air inlet 9-8-5-3-5 of plug 9-8-5-3 is located at entire dredge piston 9-8-5-3 device one end, dredge air inlet Mouth 9-8-5-3-5 and dredge mandril 9-8-5-6 outer wall are penetrated through by bracket to be connected and forms channel;The dredge inner blower 9-8-5-3-4 is set to inside entire dredge piston 9-8-5-3 device, and the quantity of dredge inner blower 9-8-5-3-4 is 2, Adjacent dredge inner blower 9-8-5-3-4 passes through rotation axis connection;The dredge air outlet 9-8-5-3-2 is located at adjacent dredging Between device inner blower 9-8-5-3-4, and penetrated through before and after dredge air inlet 9-8-5-3-5 and dredge air outlet 9-8-5-3-2, The quantity of dredge air outlet 9-8-5-3-2 is 4, and adjacent dredge air outlet 9-8-5-3-2 is isodistantly spaced distribution.
Further, this section is the explanation to heretofore described mandril top receiving apparatus 9-8-5-5 structure.The mandril top The mandril screw thread 9-8-5-5-1 of receiving apparatus 9-8-5-5 is attached to dredge mandril 9-8-5-6 outer wall surface and the fixed company of the two It connects, mandril screw thread 9-8-5-5-1 upper and lower side is symmetrically arranged with concave driving gear 9-8-5-5-4, drive shaft 9-8-5-5-5, gear Spacing adjusting block 9-8-5-5-2 and goring push spring 9-8-5-5-6;The concave driving gear 9-8-5-5-4 is located at gear spacing Inside adjusting block 9-8-5-5-2, concave driving gear 9-8-5-5-4 is connect with drive shaft 9-8-5-5-5 Driven by Coaxial, concave master Moving gear 9-8-5-5-4 is connected with mandril screw thread 9-8-5-5-1;The drive shaft 9-8-5-5-5 and external motor are driven Connection, external motor are connected by conducting wire and the control of Central Control Center 8.
Further, this section is to finger pressing device structure in a kind of heretofore described building engineering construction device Explanation.The supporting steel frame 1 of the device is slidably connected at 2 outer wall surface of hydraulic oil blending tank, be equipped on the inside of supporting steel frame 1 guide groove, Sliding rail, sliding rail motor, sliding rail motor are connect with 8 polygon control survey of Central Control Center, and 1 quantity of supporting steel frame is 3 groups, every group of support Horizontal sextant angle is 120 ° between steelframe 1;2 upper surface of hydraulic oil blending tank is equipped with upper pressure sealing cover 3, the top pressure 3 top the center point of power sealing cover is equipped with connection and cranks arm 4, and the connection is cranked arm 4 to be rotatablely connected with upper pressure sealing cover 3;It is described 5 one end of upper pressure sealing cover telescopic oil cylinder and connection are cranked arm 4 connections, the connection of 5 other end of upper pressure sealing cover telescopic oil cylinder 2 outer wall surface of hydraulic oil blending tank.
Further, this section is the explanation to heretofore described 1 structure of supporting steel frame.The bracket of the supporting steel frame 1 Motor 1-1 is located at 1 side of supporting steel frame, and carriage motor 1-1 is connected by conducting wire and the control of Central Control Center 8, carriage motor The side of 1-1 is equipped with transmission system 1-2, the two transmission connection;The transmission system 1-2 is located at the top support 1-8, transmission system 1-2 it is vertical with support 1-8 and between the two at a distance from be 5cm~10cm, the both ends of transmission system 1-2 are disposed with support gear 1- 6, and roll and connect with support gear 1-6;The other end of the support gear 1-6 is located at bracket slideway 1-4 and L-type support 1-7 Between, the quantity of support gear 1-6 is 2, and the distance between adjacent stent gear 1-6 is 15cm~25cm.
Further, this section is the explanation to heretofore described 2 structure of hydraulic oil blending tank.The hydraulic oil blending tank 2 homogeneous mixing bunker 2-1 is the cylinder double layer jacket structure of a wall thickness 2mm~50mm, and heat transfer medium, heat transfer are full of inside collet Medium is connected to by pipeline with heat transfer medium pump, and liquid separation filter funnel 2-2, the liquid separation filter are equipped with inside homogeneous mixing bunker 2-1 Net funnel 2-2 is located at the homogeneous mixing bunker 2-1 waist position 25mm~55mm on the upper side, and liquid separation filter funnel 2-2 shape is in bowl-shape knot Structure is independently rotated along central axis, and revolving speed adjustable extent is between 20~250 revs/min, and the densely covered uniform small pores in surface, point Liquid filter funnel 2-2 opening is up big and down small.
Further, this section is the explanation to heretofore described liquid separation filter funnel 2-2 structure.The liquid separation strainer leakage The funnel rack gear 2-2-2 of bucket 2-2 structure is located at the top liquid separation filter funnel 2-2, funnel rack gear 2-2-2 for diameter 90cm~ Circular configuration between 130cm, funnel rack gear 2-2-2 are fixedly welded with liquid separation filter funnel 2-2;The funnel gear 2-2-3 It is arranged in the funnel side rack gear 2-2-2 and engages connection with funnel rack gear 2-2-2, the quantity of funnel gear 2-2-3 is 2, often A funnel gear 2-2-3 level engagement connection;The funnel motor 2-2-4 is located at the top funnel gear 2-2-3, and the two is fixed to be connected It connects, funnel motor 2-2-4 is connect with Central Control Center 8 by conducting wire.
Further, this section is the explanation to heretofore described side-wall hole 2-2-1 structure.The side-wall hole 2-2- 1 duct 2-2-1-7 with a thickness of 20mm~30mm;The air door 2-2-1-9 is located inside the 2-2-1-7 of duct, air door 2-2- The quantity of 1-9 is 2, and the distance between each air door 2-2-1-9 is 15mm~25mm, is equipped between adjacent air door 2-2-1-9 Pressing spring 2-2-1-8;The pressing spring 2-2-1-8 and air door 2-2-1-9 is fixedly welded, and the quantity of pressing spring 2-2-1-8 is many In 6, each pressing spring 2-2-1-8 is isodistantly spaced distribution, and pressing spring 2-2-1-8 is stainless steel material;The air door bracket 2- One end of 2-1-10 is fixedly connected with air door 2-2-1-9, the other end and adjusting board mount 2-2-1-5 of air door bracket 2-2-1-10 It is fixedly welded, and using rack shaft 2-2-1-12 as rotary shaft swing;The rotary shaft rack 2-2-1-6 is located at air door bracket The side 2-2-1-10 upper end, rotary shaft rack 2-2-1-6 and rack shaft 2-2-1-12 are rotatablely connected;The adjusting board mount 2-2- 1-5 is located at the air door side bracket 2-2-1-10 lower end and is 60 °~75 ° with the fixed angle of air door bracket 2-2-1-10.
Further, this section is the explanation to heretofore described counterweight hook 2-2-1-1 structure.The counterweight links up with 2- The counterweight mobile jib 2-2-1-1-3 of 2-1-1 is located inside mobile jib lantern ring 2-2-1-1-2, counterweight mobile jib 2-2-1-1-3 and mobile jib lantern ring The center 2-2-1-1-2 is vertically and mobile jib lantern ring 2-2-1-1-2, counterweight mobile jib 2-2- are stretched out in one end of counterweight mobile jib 2-2-1-1-3 1-1-3 is cylindrical structure closed at both ends;The mobile jib lantern ring 2-2-1-1-2 is equipped with lantern ring regulating mechanism 2-2-1-1-4 With lantern ring pinning 2-2-1-1-5, the diameter of mobile jib lantern ring 2-2-1-1-2 stretches between 15cm~25cm;The lantern ring is adjusted Mechanism 2-2-1-1-4 is attached to mobile jib lantern ring 2-2-1-1-2 outer wall side, and mobile jib lantern ring 2-2-1-1-2 is equipped with slave interrupt interface herein, Its slave interrupt interface both ends is fixedly connected with the both ends lantern ring regulating mechanism 2-2-1-1-4 respectively.
Further, this section is the explanation to heretofore described counterweight mobile jib 2-2-1-1-3 structure.The counterweight mobile jib The counterweight mobile jib water inlet pipe 2-2-1-1-3-3 of 2-2-1-1-3 is set on the right side of counterweight mobile jib shell 2-2-1-1-3-4, counterweight mobile jib The lower end of water inlet pipe 2-2-1-1-3-3 is disposed with counterweight mobile jib outlet pipe 2-2-1-1-3-2;The mobile jib removes water separator 2-2- 1-1-3-1 is located inside counterweight mobile jib shell 2-2-1-1-3-4, and mobile jib goes one end and the counterweight of water separator 2-2-1-1-3-1 Mobile jib water inlet pipe 2-2-1-1-3-3 perforation connection, mobile jib remove the other end and counterweight mobile jib shell of water separator 2-2-1-1-3-1 Cooling outlet pipe 2-2-1-1-3-6 inside 2-2-1-1-3-4 penetrates through connection.
Further, this section is the explanation to heretofore described pinning regulating mechanism 2-2-1-1-6 structure.The pinning Regulating mechanism 2-2-1-1-6 includes: finger axis 2-2-1-1-6-1, finger pressing device 2-2-1-1-6- at the top of regulating mechanism 2, finger spiral handspike 2-2-1-1-6-3, spiral handspike stablize casing 2-2-1-1-6-4, push rod rotation button 2-2-1-1-6-5; Finger axis 2-2-1-1-6-1 is lantern ring pinning 2-2-1-1-5 central axis, finger at the top of regulating mechanism at the top of the regulating mechanism Axis 2-2-1-1-6-1 is rotated coaxially with lantern ring pinning 2-2-1-1-5 and is connect;The finger pressing device 2-2-1-1-6-2 is set In the top lantern ring pinning 2-2-1-1-5, finger pressing device 2-2-1-1-6-2 and regulating mechanism top finger axis 2-2-1-1- 6-1 is fixedly connected.
Further, this section is the explanation to heretofore described finger pressing device 2-2-1-1-6-2 structure.The tooth The inverted u-shaped plate 2-2-1-1-6-2-5 of nail pressing device 2-2-1-1-6-2 is located at the top lantern ring pinning 2-2-1-1-5, is inverted U Template 2-2-1-1-6-2-5 is fixedly connected with finger axis 2-2-1-1-6-1 at the top of regulating mechanism;The spring fixed pedestal 2- 2-1-1-6-2-1 is set to the top inverted u-shaped plate 2-2-1-1-6-2-5, the spring bottom fixed pedestal 2-2-1-1-6-2-1 and inversion U-shaped board 2-2-1-1-6-2-5 is fixedly connected, the spring top fixed pedestal 2-2-1-1-6-2-1 and pressing device spring 2-2-1- 1-6-2-3 is fixedly connected;The upper end pressing device spring 2-2-1-1-6-2-3 and finger spiral handspike 2-2-1-1-6-3 are solid Fixed connection.
Further, this section is the explanation to heretofore described stirring collet 2-2-6 structure.The stirring collet 2-2- 6 coolant liquid inlet pipe 2-2-6-2 is located at stirring collet 2-2-6 inner lower, and the coolant liquid side inlet pipe 2-2-6-2 passes through stirring bottom Support 2-2-6 outer wall is connected to external cooling tank, and the coolant liquid other side inlet pipe 2-2-6-2 and coolant liquid standpipe 2-2-6-4 are penetrated through Connection, the diameter of coolant liquid inlet pipe 2-2-6-2 are 40mm~60mm;The lower part coolant liquid standpipe 2-2-6-4 is equipped with retaining axis 2-2-6-3 is held, coolant liquid standpipe 2-2-6-4 is rotated coaxially with retaining bearing 2-2-6-3 together with its external column and connect;It is described Coolant liquid standpipe 2-2-6-4 is located inside column, and coolant liquid standpipe 2-2-6-4 diameter is less than column diameter, is formed between the two Return flow line 2-2-6-6;The coolant liquid top standpipe 2-2-6-4 is equipped with coolant liquid relief hole 2-2-6-5, coolant liquid standpipe 2-2-6- 4 be the hollow structure of upper end closed.
Further, this section is the explanation to heretofore described homogeneous system 2-4 structure.The homogeneous system 2-4's Homogeneous driving motor 2-4-1 is connect with 8 polygon control survey of Central Control Center, and homogeneous driving motor 2-4-1 output end is equipped with speed change Gear train assembly is equipped with inside equipment 2-4-2, the gear shift device 2-4-2;One end of the homogeneous axis 2-4-3, which connects, to be become Driven gear center inside fast equipment 2-4-2, the homogeneous surface axis 2-4-3 are equipped with speed probe, and speed probe is in The connection of 8 polygon control survey of control centre is entreated, the homogeneous axis 2-4-3 other end is connected with closed type thrust bearing 2-4-4.
Further, this section is the explanation to heretofore described 7 structure of low pressure sealing cover telescopic oil cylinder.Under described The oil cylinder casing 7-1 of portion's pressure seal lid telescopic oil cylinder 7 is hollow structure, and the upper end is equipped with telescopic rod 7-5, the two socket;Institute Telescopic rod 7-5 outer wall is stated equipped with fixed sleeving 7-4, the two is fixedly connected;The outer wall of the fixed sleeving 7-4 is unfolded equipped with fin Bar 7-6, the two are connected by deployment rod fixing axle 7-7 hinge;The quantity of the fin deployment rod 7-6 is 6, adjacent fin Angularly horizontal between deployment rod 7-6 to distribute, horizontal sextant angle is 60 degree between adjacent fins deployment rod 7-6.
Further, the high speed homogenization impeller 2-4-5 is made of high molecular material, by mass percentage content meter, group It is as follows at ingredient:
Methyl ester derivative 30%~65%, thiophosphate analog derivative 25%~60%, mixed aid are 1%~5%, crosslinking agent For 1%~5%, O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 15%~45%, (T-4)-bis- (two sulphur of diethyl For carbamic acid-S, S') zinc 2%~15%;
The alkyl that R carbon atom number in the methyl ester derivative molecular structure is 1~8.
Further, the group thiophosphate derivative molecular formula: C10H15O3PS2;Molecular weight: 278.343.
Further, the mixed aid is oxysilane substance, the molecular formula of included molecular structure are as follows: C16H20O2Si。
Further, the crosslinking agent is phosphordithiic acid diisopropyl ester sodium, isopentyl and isopropyl) phosphorodithioate Any one in zinc salt, tetraphenyl (bisphenol-A) bisphosphate.
Further, the preparation method of high speed homogenization impeller 2-4-5 comprising the steps of:
Step 1: the ultrapure water 22%~32% that conductivity is 1.25 μ of μ S/cm~3.15 S/cm, starting reaction are added in a kettle Blender in kettle, revolving speed are 125rpm~375rpm, start heat pump, reactor temperature is made to rise to 75 DEG C~185 DEG C;According to Secondary methylate ester derivative 30%~65%, mixed aid are 1%~5%, stirring to being completely dissolved, adjust pH value be 5.5~ 8.5, thiophosphate analog derivative 25%~60% is added, agitator speed is adjusted to 255rpm~315rpm, temperature is 90 DEG C ~395 DEG C;
Step 2: O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 15%~45%, (T-4)-bis- (diethyls is added Base aminodithioformic acid-S, S') zinc 2%~15% be uniformly mixed;
Step 3: it is 1~5% that crosslinking agent, which is added, and agitator speed is 75rpm~235rpm, and temperature is 90 DEG C~265 DEG C, is kept This state 5~25 hours, discharging, entering molding press can be prepared by high speed homogenization impeller 2-4-5.
Finger pressing device in a kind of building engineering construction device disclosed in the invention patent, the advantage is that: the device Structurally reasonable compact, application cost is low, and facilitates adjusting and disassembly;The device practicability and functionality are stronger, can securely, fastly Fixed effect is played fastly, greatlys save labor intensity, is improved labor efficiency;In addition, the device can be to different constructions Device is fixed, and applicability is high.
Detailed description of the invention
Fig. 1 is heretofore described 9 structural schematic diagram of pretreatment pool.
Fig. 2 is heretofore described floater dragging device jacking system 9-2 structural schematic diagram.
Fig. 3 is heretofore described clean water chamber 9-5 structural schematic diagram.
Fig. 4 is heretofore described floater dragging device 9-6 structural schematic diagram.
Fig. 5 is heretofore described steel wire slack adjuster 9-6-6 structural schematic diagram.
Fig. 6 is heretofore described pretreatment pool secondary treatment system 9-8 structural schematic diagram.
Fig. 7 is heretofore described dredge 9-8-5 structural schematic diagram.
Fig. 8 is heretofore described dredge piston 9-8-5-3 structural schematic diagram.
Fig. 9 is heretofore described mandril top receiving apparatus 9-8-5-5 structural schematic diagram.
Figure 10 is finger pressing device schematic diagram in a kind of heretofore described building engineering construction device.
Figure 11 is heretofore described 1 schematic diagram of supporting steel frame.
Figure 12 is heretofore described 2 schematic diagram of hydraulic oil blending tank.
Figure 13 is heretofore described liquid separation filter funnel 2-2 structural schematic diagram.
Figure 14 is heretofore described side-wall hole 2-2-1 structural schematic diagram.
Figure 15 is heretofore described counterweight hook 2-2-1-1 structural schematic diagram.
Figure 16 is heretofore described counterweight mobile jib 2-2-1-1-3 structural schematic diagram.
Figure 17 is heretofore described pinning regulating mechanism 2-2-1-1-6 structural schematic diagram.
Figure 18 is heretofore described finger pressing device 2-2-1-1-6-2 structural schematic diagram.
Figure 19 is heretofore described stirring collet 2-2-6 structural schematic diagram.
Figure 20 is heretofore described homogeneous system 2-4 structural schematic diagram.
Figure 21 is heretofore described 7 schematic diagram of low pressure sealing cover telescopic oil cylinder.
Figure 22 is O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate accounting to improving uniformity rate Influence relationship.
Specific embodiment
With reference to the accompanying drawings and examples to finger pressing device in a kind of building engineering construction device provided by the invention It is further described.
As shown in Figure 1, being heretofore described 9 structural schematic diagram of pretreatment pool.As seen from the figure, the clean water chamber 9-5 Bottom be equipped with tapered bed mud collecting tank 9-3, clean water chamber 9-5 and tapered bed mud collecting tank 9-3 surrounding seamless welding simultaneously penetrate through, clearly The side of water chamber 9-5 and pretreatment pool secondary treatment system 9-8 are penetrated through, and clean water chamber 9-5 is hollow rectangular parallelepiped structure;The cone The lower end of type bed mud collecting tank 9-3 is disposed with bed mud delivery pipe 9-1, and the two penetrates through;The pretreatment tank water inlet pipe 9-7 is located at 9 top of pretreatment pool.
As shown in Fig. 2, being heretofore described floater dragging device jacking system 9-2 structural schematic diagram.From figure Out, the piston 9-2-5 is slidably connected with high-pressure chamber 9-2-4 inner wall, and the diameter of piston 9-2-5 is 3cm~5cm;The liter Drop bar 9-2-6 is located at piston lower portion and the two connects, and the diameter of elevating lever 9-2-6 is less than the diameter of high-pressure chamber 9-2-4;It is described Limit for height air valve 9-2-7 and high-pressure chamber 9-2-4 perforation connects.
As shown in figure 3, being heretofore described clean water chamber 9-5 structural schematic diagram.As seen from the figure, the rectangular slow drop plate The quantity of 9-5-3 is 4, and rectangular slow drop plate 9-5-3 horizontal parallel arranges and both ends are fixedly connected with the inner wall of clean water chamber 9-5, For the slow drop plate 9-5-3 of adjacent prismatic in being equally spaced, the distance between slow drop plate 9-5-3 of adjacent prismatic is 5cm~10cm;It is described to overflow Head piece 9-5-6 is arranged in the upper end clean water chamber frame 9-5-1, and overflow port 9-5-6 passes through clean water chamber frame 9-5-1 and bed mud delivery pipe 9-1 perforation;The COD sensor 9-5-5 is arranged in clean water chamber 9-5 inner wall side, and COD sensor 9-5-5 is by conducting wire in Entreat the control connection of control centre 8.
As shown in figure 4, being heretofore described floater dragging device 9-6 structural schematic diagram.As seen from the figure, described to beat Fishing crank arm 9-6-4 one end and salvage crankshaft 9-6-5 rotation connection, the number that the 9-6-4 that cranks arm is salvaged on crankshaft 9-6-5 is salvaged in every side Amount is 11;The salvaging drive rod 9-6-3 salvages 9-6-4 rotation of cranking arm by salvaging crankshaft 9-6-5 drive;The salvaging is bent Connection is fixed by the bracket between arm 9-6-4 every two, and the adjacent salvaging salvaged on crankshaft 9-6-5 cranks arm 9-6-4 by beating Fish out steel wire 9-6-7 connection;The steel wire slack adjuster 9-6-6 is located at four endpoints of floater dragging device 9-6 bracket, The quantity of steel wire slack adjuster 9-6-6 is 4, and steel wire slack adjuster 9-6-6 is connect with steel wire 9-6-7 is salvaged.
As shown in figure 5, being heretofore described steel wire slack adjuster 9-6-6 structural schematic diagram.As seen from the figure, institute It states regulating device motor 9-6-6-4 to be fixedly connected with steel wire guide wheel 9-6-6-1 axis, the top regulating device motor 9-6-6-4 It is connect with regulating device clutch 9-6-6-5, regulating device motor 9-6-6-4 is connected by conducting wire and the control of Central Control Center 8 It connects;The regulating device clutch 9-6-6-5 is located at the top of entire steel wire slack adjuster 9-6-6;The steel wire hoop with Steel wire guide wheel 9-6-6-1 axis is fixedly connected.
As shown in fig. 6, being heretofore described pretreatment pool secondary treatment system 9-8 structural schematic diagram.As seen from the figure, The bottom the U-tube 9-8-3 is equipped with secondary sediment hutch 9-8-2 and the two perforation connection, the U-tube 9-8-3 other end and two The seamless perforation of secondary processing system outlet pipe 9-8-4;The bottom of the secondary sediment hutch 9-8-2 and secondary sediment delivery pipe 9- 8-1 perforation connection, secondary sediment hutch 9-8-2 are the hollow-sphere structures of diameter 10cm~15cm.
As shown in fig. 7, being heretofore described dredge 9-8-5 structural schematic diagram.As seen from the figure, the dredge goes out Mouth of a river 9-8-5-7 is located at another side lower part of dredge 9-8-5, and dredge water outlet 9-8-5-7 and dredge cavity 9-8-5-2 hang down Straight perforation, the dredge bottom end water outlet 9-8-5-7 are equipped with valve;The dredge mud mouth 9-8-5-1 is located at dredge cavity The side 9-8-5-2 and the seamless perforation of the two, the dredge outer end mud mouth 9-8-5-1 are equipped with valve.
As shown in figure 8, being heretofore described dredge piston 9-8-5-3 structural schematic diagram.As seen from the figure, the work Plug cylinder ring 9-8-5-3-1 is fixedly connected on entire dredge piston 9-8-5-3 device outer wall surface, piston cylinder ring 9-8-5-3-1 Quantity be no less than 2, the diameter of piston cylinder ring 9-8-5-3-1 is 5cm~10cm;9-8-5-3-3, the piston pushing tow bolt In the entire dredge piston 9-8-5-3 device other end and the two is fixedly connected.
As shown in figure 9, being heretofore described mandril top receiving apparatus 9-8-5-5 structural schematic diagram.As seen from the figure, described Rate of tension regulation cock 9-8-5-5-3 is vertically positioned between two gear spacing adjusting block 9-8-5-5-2, rate of tension regulation cock 9-8- The quantity of 5-5-3 is 4, is connected between adjacent gear spacing adjusting block 9-8-5-5-2 by rate of tension regulation cock 9-8-5-5-3 It connects;The goring push spring 9-8-5-5-6 is arranged at gear spacing adjusting block 9-8-5-5-2 top center, goring push spring 9-8- 5-5-6 is fixedly connected with gear spacing adjusting block 9-8-5-5-2.
It as shown in Figure 10, is finger pressing device schematic diagram in a kind of heretofore described building engineering construction device.From Find out in figure, the low pressure sealing cover 6 is located at 2 lower surface of hydraulic oil blending tank;The flexible oil of the low pressure sealing cover 7 one end of cylinder is cranked arm by connection and 4 is connect with low pressure sealing cover 6,7 other end of low pressure sealing cover telescopic oil cylinder connection liquid 2 outer wall surface of pressure oil blending tank;The Central Control Center 8 is located at 1 side level ground of supporting steel frame.
It as shown in figure 11, is heretofore described 1 schematic diagram of supporting steel frame.As seen from the figure, 1-4, the bracket slideway In the side transmission system 1-2, bracket slideway 1-4 and vertical rack gear 1-5 are parallel and the two is fixedly connected with support 1-8, bracket cunning Road 1-4 is equipped with L-type support 1-7, and bracket slideway 1-4 is slidably connected with L-type support 1-7;The bracket end 1-3 is arranged in L The type top bracket 1-7 front end, bracket end 1-3 are fixedly connected with 2 outer wall of hydraulic oil blending tank;The vertical rack gear 1-5 and branch Frame gear 1-6 engagement connection.
It as shown in figure 12, is heretofore described 2 schematic diagram of hydraulic oil blending tank.As seen from the figure, the liquid-adding device 2-3 is above homogeneous mixing bunker 2-1 side wall insertion liquid separation filter funnel 2-2, and liquid-adding device 2-3 is in tilted layout, liquid-adding device 2-3 With horizontal direction angle between 10 °~32 °, liquid-adding device 2-3 is connected to fluid filling pump, and fluid filling pump is led with Central Control Center 8 Line traffic control connection;The homogeneous system 2-4 is located at below liquid separation filter funnel 2-2, and homogeneous system 2-4 quantity is 2 groups;It is described equal Matter degree detector 2-5 is located at homogeneous mixing bunker 2-1 inner wall surface, homogeneity detector 2-5 and 8 polygon control survey of Central Control Center Connection;The liquid-adding device 2-3 and pretreatment pool secondary treatment system 9-8 is penetrated through.
It as shown in figure 13, is heretofore described liquid separation filter funnel 2-2 structural schematic diagram.As seen from the figure, the leakage Bucket paddle 2-2-5 is arranged in inside liquid separation filter funnel 2-2, and the funnel top paddle 2-2-5 is diameter 45cm~65cm's Circular configuration, the funnel top paddle 2-2-5 it is parallel with funnel rack gear 2-2-2 and between the two at a distance from be 15cm~25cm, The funnel lower part paddle 2-2-5 is cylindrical hollow configuration, the generally fixed device of funnel paddle 2-2-5, funnel paddle 2-2-5 and external motor are drivingly connected;The stirring collet 2-2-6 is located at liquid separation filter funnel 2-2 inner bottom, stirs collet 2-2-6 and the lower part funnel paddle 2-2-5 are coaxially connected, and stirring is at a distance from the top collet 2-2-6 and funnel paddle 2-2-5 50cm~80cm;The side-wall hole 2-2-1 is located at liquid separation filter funnel 2-2 outer wall, and side-wall hole 2-2-1 is equidistantly distributed, The quantity of side-wall hole 2-2-1 is no less than 16.
It as shown in figure 14, is heretofore described side-wall hole 2-2-1 structural schematic diagram.As seen from the figure, the adjusting Plate 2-2-1-3, which is arranged in, adjusts the lower part board mount 2-2-1-5, and adjustable plate 2-2-1-3 is equipped with regulating tank 2-2-1-4, adjustable pendulum Arm 2-2-1-2 and counterweight adjusting knob 2-2-1-11, adjustable plate 2-2-1-3 and adjusting board mount 2-2-1-5 pass through regulating tank 2- 2-1-4 connection;The regulating tank 2-2-1-4 is the different hollow structure of shape size, and quantity is no less than 7;The adjustable pendulum Arm 2-2-1-2 is located at the lower part adjustable plate 2-2-1-3, and the bottom end adjustable swing arm 2-2-1-2 is equipped with counterweight and links up with 2-2-1-1, adjustable pendulum Arm 2-2-1-2 is realized by counterweight adjusting knob 2-2-1-11 to be risen and declines;The counterweight adjusting knob 2-2-1-11 arrangement It is rotatablely connected in side on adjustable plate 2-2-1-3 and with adjustable plate 2-2-1-3;Counterweight hook 2-2-1-1 diameter be 5mm~ 8mm。
It as shown in figure 15, is heretofore described counterweight hook 2-2-1-1 structural schematic diagram.As seen from the figure, the set The both ends ring regulating mechanism 2-2-1-1-4 are bolted;The lantern ring pinning 2-2-1-1-5 and mobile jib lantern ring 2-2-1-1-2 Circumference is vertical and is fixedly connected, and the quantity of lantern ring pinning 2-2-1-1-5 is 3, and adjacent lantern ring pinning 2-2-1-1-5 is with main rod strap The center of circle ring 2-2-1-1-2 is that center axis equidistantly distributes, and the angle between adjacent lantern ring pinning 2-2-1-1-5 is 120 °;It is described Pinning regulating mechanism 2-2-1-1-6 is located at the top lantern ring pinning 2-2-1-1-5, and threads turn connects between the two;The counterweight Counterweight 2-2-1-1-1 is located at the counterweight hook bottom 2-2-1-1, and weights 2-2-1-1-1 passes through strut and mobile jib lantern ring 2-2- 1-1-2 is fixedly connected.
It as shown in figure 16, is heretofore described counterweight mobile jib 2-2-1-1-3 structural schematic diagram.As seen from the figure, described Cooling return pipe 2-2-1-1-3-5 is around in cooling outlet pipe 2-2-1-1-3-6 outer wall and the two is fixedly connected, and cool down return pipe 2- 2-1-1-3-5 and counterweight mobile jib outlet pipe 2-2-1-1-3-2 perforation connects;The mobile jib end water tank 2-2-1-1-3-7 arrangement On the left of counterweight mobile jib shell 2-2-1-1-3-4, mobile jib end water tank 2-2-1-1-3-7 respectively with cooling outlet pipe 2-2-1-1- 3-6, cooling return pipe 2-2-1-1-3-5 perforation connection.
It as shown in figure 17, is heretofore described pinning regulating mechanism 2-2-1-1-6 structural schematic diagram.As seen from the figure, The finger spiral handspike 2-2-1-1-6-3 is arranged in the top finger pressing device 2-2-1-1-6-2, finger spiral handspike 2-2- 1-1-6-3 is fixedly connected with finger pressing device 2-2-1-1-6-2, is enclosed with spiral shell outside finger spiral handspike 2-2-1-1-6-3 It revolves push rod and stablizes casing 2-2-1-1-6-4;The push rod rotation button 2-2-1-1-6-5 is fixedly connected on finger spiral handspike 2-2- The top 1-1-6-3.
It as shown in figure 18, is heretofore described finger pressing device 2-2-1-1-6-2 structural schematic diagram.From figure Out, the pressing device spring stability column 2-2-1-1-6-2-4 is arranged in inside pressing device spring 2-2-1-1-6-2-3, pressure The diameter of tight device spring stability column 2-2-1-1-6-2-4 is less than the diameter of pressing device spring 2-2-1-1-6-2-3;The pressure Tight device housing 2-2-1-1-6-2-2 is entire finger pressing device 2-2-1-1-6-2 external hollow structure, inverted u-shaped plate 2- 2-1-1-6-2-5, spring fixed pedestal 2-2-1-1-6-2-1, pressing device spring 2-2-1-1-6-2-3 and pressing device spring Stability column 2-2-1-1-6-2-4 is respectively positioned on inside pressing device shell 2-2-1-1-6-2-2.
It as shown in figure 19, is heretofore described stirring collet 2-2-6 structural schematic diagram.As seen from the figure, the cooling The quantity of liquid relief hole 2-2-6-5 is 6, and multiple coolant liquid relief hole 2-2-6-5 are isodistantly spaced distribution;The retaining bearing 2- 2-6-3 is located at stirring collet 2-2-6 inner upper end, and the retaining bottom bearing 2-2-6-3 is at a distance from the stirring bottom collet 2-2-6 15cm~25cm, the retaining lower end bearing 2-2-6-3 are equipped with coolant liquid recycling bins 2-2-6-1;The coolant liquid recycling bins 2-2-6-1 It is penetrated through with return flow line 2-2-6-6, coolant liquid recycling bins 2-2-6-1 bottom side is disposed with coolant liquid outlet pipe 2-2-6-7;It is described Coolant liquid outlet pipe 2-2-6-7 is gone out by stirring collet 2-2-6 outer wall and the seamless perforation of coolant liquid recycling bins 2-2-6-1, coolant liquid The diameter of pipe 2-2-6-7 is between 20mm~30mm.
It as shown in figure 20, is heretofore described homogeneous system 2-4 structural schematic diagram.As seen from the figure, the high speed is equal Matter impeller 2-4-5 is located at homogeneous axis 2-4-3 external diameter surface, and high speed homogenization impeller 2-4-5 quantity is no less than 10 groups, every group of high speed It is independently pivoted between homogeneous impeller 2-4-5, and independent control with speed probe links, every group of high speed homogenization impeller 2-4- 5 revolving speed adjustable extents are spaced substantially equidistant, adjacent two between 20~5000 revs/min between every group of high speed homogenization impeller 2-4-5 For group high speed homogenization impeller 2-4-5 spacing between 5mm~12mm, high speed homogenization impeller 2-4-5 shape is in ratchet-like structure.
It as shown in figure 21, is heretofore described 7 schematic diagram of low pressure sealing cover telescopic oil cylinder.As seen from the figure, institute The periphery that oil cylinder fin 7-3 is located at telescopic rod 7-5 is stated, top and fin deployment rod 7-6 are hinged, and bottom end passes through fin lower shaft 7-2 and oil cylinder casing 7-1 are hinged, and the quantity of oil cylinder fin 7-3 is 6, and the material of oil cylinder fin 7-3 is thin plate stainless steel Matter, oil cylinder fin 7-3 realize tight and the expansion to telescopic rod 7-5 using fin lower shaft 7-2 as rotary shaft;The fin bottom Axis 7-2 is fixed on the top of oil cylinder casing 7-1.
Following embodiment further illustrates the contents of the present invention, and as high speed homogenization impeller 2-4-5, it is weight of the invention Component is wanted, due to its presence, increases the service life of integral device, it is played for the safety of integral device, even running Key effect.For this purpose, by it is following be embodiment, further verify the component of the present invention, what is shown is higher than The physical characteristic of other related patents.
Embodiment 1
High speed homogenization impeller 2-4-5 of the present invention, and content meter by mass percentage are manufactured according to the following steps:
Step 1: the ultrapure water 22% that conductivity is 1.25 μ S/cm is added in a kettle, starts blender in reaction kettle, revolving speed For 125rpm, starts heat pump, reactor temperature is made to rise to 75 DEG C;Successively methylate ester derivative 30%, mixed aid It is 1%, to being completely dissolved, adjusting pH value is 5.5 for stirring, and thiophosphate analog derivative 25% is added, agitator speed is adjusted to 255rpm, temperature are 90 DEG C;
Step 2: O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 15%~45%, (T-4)-bis- (diethyls is added Base aminodithioformic acid-S, S') zinc 2% be uniformly mixed;
Step 3: it is 1% that crosslinking agent, which is added, agitator speed 75rpm, and temperature is 90 DEG C, keeps this state 5 hours, discharges, enters Molding press can be prepared by high speed homogenization impeller 2-4-5.
Embodiment 2
High speed homogenization impeller 2-4-5 of the present invention, and content meter by mass percentage are manufactured according to the following steps:
Step 1: the ultrapure water 32% that conductivity is 3.15 μ S/cm is added in a kettle, starts blender in reaction kettle, revolving speed For 375rpm, starts heat pump, reactor temperature is made to rise to 185 DEG C;Successively methylate ester derivative 65%, mixing helps Agent is 5%, and to being completely dissolved, adjusting pH value is 8.5 for stirring, thiophosphate analog derivative 60% is added, by agitator speed tune To 315rpm, temperature is 395 DEG C;
Step 2: O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 45%, (T-4)-bis- (two sulphur of diethyl are added For carbamic acid-S, S') zinc 15% be uniformly mixed;
Step 3: it is 5% that crosslinking agent, which is added, agitator speed 235rpm, and temperature is 265 DEG C, keeps this state 25 hours, out Material, entering molding press can be prepared by high speed homogenization impeller 2-4-5.
Embodiment 3
High speed homogenization impeller 2-4-5 of the present invention, and content meter by mass percentage are manufactured according to the following steps:
Step 1: the ultrapure water 29% that conductivity is 1.315 μ S/cm is added in a kettle, starts blender in reaction kettle, revolving speed For 178rpm, starts heat pump, reactor temperature is made to rise to 85 DEG C;Successively methylate ester derivative 39%, mixed aid It is 4%, to being completely dissolved, adjusting pH value is 5.8 for stirring, and thiophosphate analog derivative 40% is added, agitator speed is adjusted to 300rpm, temperature are 90 DEG C;
Step 2: O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 40%, (T-4)-bis- (two sulphur of diethyl are added For carbamic acid-S, S') zinc 10% be uniformly mixed;
Step 3: it is 3% that crosslinking agent, which is added, agitator speed 90rpm, and temperature is 91 DEG C, keeps this state 8 hours, discharges, enters Molding press can be prepared by high speed homogenization impeller 2-4-5.
Reference examples
Reference examples are that the high speed homogenization impeller of certain commercially available brand is used for the service condition of oil product mixing assorting room.
Embodiment 4
High speed homogenization impeller described in high speed homogenization impeller 2-4-5 and reference examples that Examples 1 to 3 prepares is used for oil product The service condition of mixed process compares, and with volume resistivity, oil from spend, reduce sticky rate, mixture homogeneity promoted Rate is that technical indicator is counted, and the results are shown in Table 1:
Table 1 is items of the high speed homogenization impeller described in Examples 1 to 3 and reference examples for the service condition of oil product mixed process The comparing result of parameter, as seen from Table 1, high speed homogenization impeller 2-4-5 of the present invention, volume resistivity, oil are from degree, drop Low sticky rate, mixture homogeneity enhancing rate are above the product of prior art production.
In addition, being O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate accounting to uniform as shown in figure 22 Degree promotes the influence relational graph of rate.Find out in figure, as the important component of high speed homogenization impeller 2-4-5 material, incorporation Play the role of vital to enhancing product performance, mixes its ingredient in terms of improving uniformity rate substantially better than existing production Product.

Claims (10)

1. finger pressing device in a kind of building engineering construction device, wherein pretreatment pool (9) includes: bed mud delivery pipe (9-1), Floater dragging device jacking system (9-2), tapered bed mud collecting tank (9-3), pretreatment pool bracket (9-4), clean water chamber (9- 5), floater dragging device (9-6), pretreatment pool water inlet pipe (9-7), pretreatment pool secondary treatment system (9-8);Its feature exists In equipped with floater dragging device (9-6) and clean water chamber (9-5) inside the pretreatment tank bracket (9-4), and floating material is salvaged Equipment (9-6) is located at the top clean water chamber (9-5), and pretreatment pool bracket (9-4) is fixedly connected with clean water chamber (9-5), pretreatment pool The quantity of bracket (9-4) is 4, parallel between adjacent pretreatment pool bracket (9-4) and be fixedly connected by horizontal truss;It is described Floater dragging device jacking system (9-2) is located at pretreatment pool bracket (9-4) inner wall upper end and the two is fixedly connected, floating material The marine salvage equipment jacking system side (9-2) is slidably connected with floater dragging device (9-6);The bottom of the clean water chamber (9-5) Equipped with tapered bed mud collecting tank (9-3), clean water chamber (9-5) and tapered bed mud collecting tank (9-3) surrounding seamless welding are simultaneously penetrated through, clearly The side of water chamber (9-5) and pretreatment pool secondary treatment system (9-8) are penetrated through, and clean water chamber (9-5) is hollow rectangular parallelepiped structure; The lower end of the tapered bed mud collecting tank (9-3) is disposed with bed mud delivery pipe (9-1), and the two penetrates through;The pretreatment tank into Water pipe (9-7) is located at pretreatment pool (9) top.
2. finger pressing device in a kind of building engineering construction device according to claim 1, which is characterized in that the drift Floating object marine salvage equipment jacking system (9-2) includes: lifting air pump (9-2-1), gas bleeder valve (9-2-2), air flue (9-2-3), high pressure Chamber (9-2-4), piston (9-2-5), elevating lever (9-2-6), limit for height air valve (9-2-7);The gas bleeder valve (9-2-2), which is located at, to rise Sending down abnormally ascending pumps between (9-2-1) and air flue (9-2-3), and gas bleeder valve one end (9-2-2) and lifting air pump (9-2-1) perforation connect, and lets out Air valve (9-2-2) other end and air flue (9-2-3) perforation connect;The lifting air pump (9-2-1) is controlled by conducting wire and center Center (8) connection;The other end of the air flue (9-2-3) and high-pressure chamber (9-2-4) seamless perforation;High-pressure chamber (the 9- 2-4) internal to be equipped with piston (9-2-5) and elevating lever (9-2-6), high-pressure chamber (9-2-4) outer wall lower end is equipped with limit for height air valve (9- 2-7), high-pressure chamber (9-2-4) is hollow cylindrical structure;The piston (9-2-5) and high-pressure chamber's (9-2-4) inner wall are sliding Dynamic connection, the diameter of piston (9-2-5) are 3cm~5cm;The elevating lever (9-2-6) is located at piston lower portion and the two connects, and rises The diameter for dropping bar (9-2-6) is less than the diameter of high-pressure chamber (9-2-4);The limit for height air valve (9-2-7) and high-pressure chamber (9-2- 4) perforation connection.
3. finger pressing device in a kind of building engineering construction device according to claim 2, which is characterized in that described clear Water chamber (9-5) includes: clean water chamber frame (9-5-1), aerofoil profile dispersion plate (9-5-2), rectangular slow drop plate (9-5-3), slow drop net (9- 5-4), COD sensor (9-5-5), overflow port (9-5-6);Aerofoil profile dispersion plate is equipped with inside the clean water chamber frame (9-5-1) Gentle drop net (9-5-4) of (9-5-2), rectangular slow drop plate (9-5-3);The clean water chamber frame (9-5-1) is hollow cylinder structure; The aerofoil profile dispersion plate (9-5-2) is located at the rectangular slow drop plate top (9-5-3) and is in not hand over coaxially with rectangular slow drop plate (9-5-3) Mistake distribution, the quantity of aerofoil profile dispersion plate (9-5-2) are 3, the arrangement of aerofoil profile dispersion plate (9-5-2) horizontal parallel and both ends and clear water The inner wall of room (9-5) is fixedly connected, and adjacent aerofoil dispersion plate (9-5-2) is in be equally spaced;The slow drop net (9-5-4) is located at side The slow drop plate lower part (9-5-3) of shape and distance between the two is 13cm~18cm;It is described it is rectangular it is slow drop plate (9-5-3) quantity be 4, rectangular slow drop plate (9-5-3) horizontal parallel arranges and both ends are fixedly connected with the inner wall of clean water chamber (9-5), and adjacent prismatic is slow For drop plate (9-5-3) in being equally spaced, the distance between slow drop plate (9-5-3) of adjacent prismatic is 5cm~10cm;The overflow port (9-5-6) is arranged in the upper end clean water chamber frame (9-5-1), and overflow port (9-5-6) is arranged by clean water chamber frame (9-5-1) and bed mud Put pipe (9-1) perforation;The COD sensor (9-5-5) is arranged in clean water chamber (9-5) inner wall side, COD sensor (9-5-5) It is connected by conducting wire and Central Control Center (8) control.
4. finger pressing device in a kind of building engineering construction device according to claim 3, which is characterized in that the drift Floating object marine salvage equipment (9-6) includes: to salvage motor (9-6-1), is salvaged cam (9-6-2), is salvaged drive rod (9-6-3), is salvaged Crank arm (9-6-4), salvages crankshaft (9-6-5), steel wire slack adjuster (9-6-6), salvages steel wire (9-6-7);The salvaging Motor (9-6-1) is located at the floater dragging device upper end (9-6) and fixes with floater dragging device (9-6) side stand and connects It connects, the one end for salvaging motor (9-6-1), which is equipped with, salvages cam (9-6-2), salvages motor (9-6-1) and salvages cam (9-6-2) Transmission connection;The salvaging cam (9-6-2) periphery upper end be equipped with salvage drive rod (9-6-3), salvage cam (9-6-2) with The one end for salvaging drive rod (9-6-3) is not rotatablely connected coaxially, and the diameter for salvaging cam (9-6-2) is 5cm~10cm;It is described to beat The quantity for fishing out drive rod (9-6-3) is 2, and adjacent salvaging drive rod (9-6-3) rotates coaxially connection;Salvaging crankshaft (the 9- 6-5) it is located at the lower part of floater dragging device (9-6) bracket, salvages crankshaft (9-6-5) and pass through fixed hinge and marine salvage equipment The connection of (9-6) bracket, the quantity for salvaging crankshaft (9-6-5) is 2, parallel between adjacent salvagings crankshaft (9-6-5) and level away from From for 40cm~60cm;The salvaging crank arm (9-6-4) one end and salvage crankshaft (9-6-5) rotation connection, every side is salvaged bent Salvaged on axis (9-6-5) crank arm (9-6-4) quantity be 11;The salvaging drive rod (9-6-3) is by salvaging crankshaft (9-6- 5) it drives and salvages (9-6-4) rotation of cranking arm;Described salvage is fixed by the bracket connection, and phase between (9-6-4) every two of cranking arm The salvaging that neighbour salvages on crankshaft (9-6-5) cranks arm (9-6-4) by salvaging steel wire (9-6-7) connection;The elastic adjusting of steel wire Device (9-6-6) is located at four endpoints of floater dragging device (9-6) bracket, the number of steel wire slack adjuster (9-6-6) Amount is 4, and steel wire slack adjuster (9-6-6) is connect with steel wire (9-6-7) is salvaged.
5. finger pressing device in a kind of building engineering construction device according to claim 4, which is characterized in that the steel Silk slack adjuster (9-6-6) includes: steel wire guide wheel (9-6-6-1), is salvaged steel wire (9-6-6-2), and regulating device is cooling System (9-6-6-3), regulating device motor (9-6-6-4), regulating device clutch (9-6-6-5);Steel wire guide wheel (the 9- 6-6-1) it is located at entire steel wire slack adjuster (9-6-6) middle and lower part, wherein salvaging steel wire (9-6-6-2) from steel wire guide wheel (9-6-6-1) lower central penetrates, and is wrapped in steel wire hoop, and steel wire guide wheel (9-6-6-1) axis top is successively arranged tune Regulating device cooling system (9-6-6-3), regulating device motor (9-6-6-4) and regulating device clutch (9-6-6-5), steel wire draws Guide wheel (9-6-6-1) is the hollow structure of bottom end opening;The regulating device cooling system (9-6-6-3) and steel wire guide wheel The rotation connection of (9-6-6-1) axis upper end, regulating device cooling system (9-6-6-3) and the bottom steel wire guide wheel (9-6-6-1) Distance be 5cm~10cm;The regulating device motor (9-6-6-4) is fixedly connected with steel wire guide wheel (9-6-6-1) axis, The regulating device motor top (9-6-6-4) is connect with regulating device clutch (9-6-6-5), regulating device motor (9-6-6-4) It is connected by conducting wire and Central Control Center (8) control;It is elastic that the regulating device clutch (9-6-6-5) is located at entire steel wire The top of regulating device (9-6-6);The steel wire hoop is fixedly connected with steel wire guide wheel (9-6-6-1) axis.
6. finger pressing device in a kind of building engineering construction device according to claim 5, which is characterized in that the pre- place Managing pond secondary treatment system (9-8) includes: secondary sediment delivery pipe (9-8-1), secondary sediment hutch (9-8-2), U-tube (9-8-3), secondary treatment system outlet pipe (9-8-4), dredge (9-8-5), secondary treatment system water inlet pipe (9-8-6);Institute Dredge (9-8-5) waist upper end is stated equipped with secondary treatment system water inlet pipe (9-8-6), dredge (9-8-5) and secondary treatment System water inlet pipe (9-8-6) is socketed vertically through the tubule of, one end lower part dredge (9-8-5) and U-tube one end (9-8-3), Dredge (9-8-5) is arranged horizontally by tubule and U-tube (9-8-3) vertically through, dredge (9-8-5) and closed at both ends Cylindrical hollow structure;The U-tube bottom (9-8-3) is equipped with secondary sediment hutch (9-8-2) and the two perforation connection, U-tube (9-8-3) other end and secondary treatment system outlet pipe (9-8-4) seamless perforation;The secondary sediment hutch (9-8- 2) bottom and the perforation of secondary sediment delivery pipe (9-8-1) connects, and secondary sediment hutch (9-8-2) is diameter 10cm~15cm Hollow-sphere structures.
7. finger pressing device in a kind of building engineering construction device according to claim 6, which is characterized in that the dredging Device (9-8-5) includes: dredge mud mouth (9-8-5-1), dredge cavity (9-8-5-2), dredge piston (9-8-5-3), Dredge water inlet (9-8-5-4), mandril top receiving apparatus (9-8-5-5), dredge mandril (9-8-5-6), dredge water outlet (9-8-5-7);The dredge mandril (9-8-5-6) is located at dredge (9-8-5) inside, dredge mandril (9-8-5-6) One end is connect with mandril top receiving apparatus (9-8-5-5), the other end and dredge piston (9-8- of dredge mandril (9-8-5-6) 5-3) connect;Mandril top receiving apparatus (9-8-5-5) is located at the one end entire dredge (9-8-5), and mandril top receiving apparatus (9- 8-5-5) it is fixedly connected with dredge (9-8-5);The diameter of the dredge piston (9-8-5-3) is less than dredge cavity (9- Diameter 8-5-2);The dredge water inlet (9-8-5-4) is located at dredge (9-8-5) upper lateral part, dredge water inlet (9-8-5-4) and dredge cavity (9-8-5-2) vertically through;The dredge water outlet (9-8-5-7) is located at dredge (9- 8-5) another side lower part, dredge water outlet (9-8-5-7) and dredge cavity (9-8-5-2) are vertically through dredge water outlet The mouth bottom end (9-8-5-7) is equipped with valve;The dredge mud mouth (9-8-5-1) is located at the side dredge cavity (9-8-5-2) And the seamless perforation of the two, the dredge mud mouth outer end (9-8-5-1) are equipped with valve.
8. finger pressing device in a kind of building engineering construction device according to claim 7, which is characterized in that described to dredge Logical device piston (9-8-5-3) includes: piston cylinder ring (9-8-5-3-1), dredge air outlet (9-8-5-3-2), piston pushing tow bolt (9-8-5-3-3), dredge inner blower (9-8-5-3-4), dredge air inlet (9-8-5-3-5);The dredge air inlet (9-8-5-3-5) is located at entire dredge piston (9-8-5-3) device one end, dredge air inlet (9-8-5-3-5) and dredging Device mandril (9-8-5-6) outer wall is penetrated through by bracket to be connected and forms channel;The dredge inner blower (9-8-5-3-4) is set to Inside entire dredge piston (9-8-5-3) device, the quantity of dredge inner blower (9-8-5-3-4) is 2, adjacent dredge Inner blower (9-8-5-3-4) passes through rotation axis connection;The dredge air outlet (9-8-5-3-2) is located at wind in adjacent dredge Between machine (9-8-5-3-4), and penetrated through before and after dredge air inlet (9-8-5-3-5) and dredge air outlet (9-8-5-3-2), The quantity of dredge air outlet (9-8-5-3-2) is 4, and adjacent dredge air outlet (9-8-5-3-2) is isodistantly spaced distribution;Institute It states piston cylinder ring (9-8-5-3-1) and is fixedly connected on entire dredge piston (9-8-5-3) device outer wall surface, piston cylinder ring The quantity of (9-8-5-3-1) is no less than 2, and the diameter of piston cylinder ring (9-8-5-3-1) is 5cm~10cm;The piston pushing tow Bolt (9-8-5-3-3) is located at entire dredge piston (9-8-5-3) the device other end and the two is fixedly connected.
9. finger pressing device in a kind of building engineering construction device according to claim 8, which is characterized in that the top Bar top receiving apparatus (9-8-5-5) includes: mandril screw thread (9-8-5-5-1), gear spacing adjusting block (9-8-5-5-2), rate of tension Regulation cock (9-8-5-5-3), concave driving gear (9-8-5-5-4), drive shaft (9-8-5-5-5), goring push spring (9-8-5-5- 6);The mandril screw thread (9-8-5-5-1) is attached to dredge mandril (9-8-5-6) outer wall surface and the two is fixedly connected, top Bar screw thread (9-8-5-5-1) upper and lower side is symmetrically arranged with concave driving gear (9-8-5-5-4), drive shaft (9-8-5-5-5), gear Spacing adjusting block (9-8-5-5-2) and goring push spring (9-8-5-5-6);The concave driving gear (9-8-5-5-4) is located at tooth Wheel spacing adjustment block (9-8-5-5-2) is internal, concave driving gear (9-8-5-5-4) and the coaxial drive of drive shaft (9-8-5-5-5) Dynamic connection, concave driving gear (9-8-5-5-4) are connected with mandril screw thread (9-8-5-5-1);Drive shaft (the 9-8-5- It 5-5) is sequentially connected with external motor, external motor is connected by conducting wire and Central Control Center (8) control;The rate of tension tune Section bolt (9-8-5-5-3) is vertically positioned between two gear spacing adjusting blocks (9-8-5-5-2), rate of tension regulation cock (9-8-5- Quantity 5-3) is 4, passes through rate of tension regulation cock (9-8-5-5-3) between adjacent gear spacing adjusting block (9-8-5-5-2) Connection;The goring push spring (9-8-5-5-6) is arranged at gear spacing adjusting block (9-8-5-5-2) top center, pushing tow bullet Spring (9-8-5-5-6) is fixedly connected with gear spacing adjusting block (9-8-5-5-2).
10. finger pressing device in a kind of building engineering construction device according to claim 9, which includes: supporting steel Frame (1), hydraulic oil blending tank (2), upper pressure sealing cover (3), connection are cranked arm (4), upper pressure sealing cover telescopic oil cylinder (5), low pressure sealing cover (6), low pressure sealing cover telescopic oil cylinder (7), Central Control Center (8), pretreatment pool (9); It is characterized in that, the supporting steel frame (1) is slidably connected at hydraulic oil blending tank (2) outer wall surface, set on the inside of supporting steel frame (1) There are guide groove, sliding rail, sliding rail motor, sliding rail motor is connect with Central Control Center (8) polygon control survey, and supporting steel frame (1) quantity is 3 Group, horizontal sextant angle is 120 ° between every group of supporting steel frame (1);It is close that hydraulic oil blending tank (2) upper surface is equipped with upper pressure It covers (3), upper pressure sealing cover (3) the top the center point is equipped with connection and cranks arm (4), described to connect crank arm (4) and top Pressure seal lid (3) rotation connection;Described upper pressure sealing cover telescopic oil cylinder (5) one end crank arm with connection (4) connect, top Pressure seal lid telescopic oil cylinder (5) other end connects hydraulic oil blending tank (2) outer wall surface;The low pressure sealing cover (6) Positioned at hydraulic oil blending tank (2) lower surface;The low pressure sealing cover telescopic oil cylinder (7) one end by connection crank arm (4) with Low pressure sealing cover (6) connection, low pressure sealing cover telescopic oil cylinder (7) other end connect hydraulic oil blending tank (2) outer wall Surface;The Central Control Center (8) is located at supporting steel frame (1) side level ground;
The supporting steel frame (1) includes: carriage motor (1-1), transmission system (1-2), bracket end (1-3), bracket slideway (1- 4), vertical rack gear (1-5), support gear (1-6), L-type support (1-7), support (1-8);The carriage motor (1-1) is located at branch Steelframe (1) side is supportted, carriage motor (1-1) is connected by conducting wire and Central Control Center (8) control, carriage motor (1-1) Side is equipped with transmission system (1-2), the two transmission connection;The transmission system (1-2) is located at the top support (1-8), power train Unite (1-2) it is vertical with support (1-8) and between the two at a distance from for 5cm~10cm, the both ends of transmission system (1-2) are disposed with branch Frame gear (1-6), and roll and connect with support gear (1-6);The other end of the support gear (1-6) is located at bracket slideway Between (1-4) and L-type support (1-7), the quantity of support gear (1-6) is 2, the distance between adjacent stent gear (1-6) For 15cm~25cm;The bracket slideway (1-4) is located at the side transmission system (1-2), bracket slideway (1-4) and vertical rack gear (1-5) is parallel and the two is fixedly connected with support (1-8), and bracket slideway (1-4) is equipped with L-type support (1-7), bracket slideway (1-4) is slidably connected with L-type support (1-7);The bracket end (1-3) is arranged in the top front end L-type support (1-7), bracket End (1-3) is fixedly connected with hydraulic oil blending tank (2) outer wall;The vertical rack gear (1-5) and support gear (1-6) company of engagement It connects;
The hydraulic oil blending tank (2) includes: homogeneous mixing bunker (2-1), liquid separation filter funnel (2-2), liquid-adding device (2-3), Homogeneous system (2-4), homogeneity detector (2-5);The cylinder that the homogeneous mixing bunker (2-1) is a wall thickness 2mm~50mm is double Layer is jacket structured, and heat transfer medium is full of inside collet, and heat transfer medium is connected to by pipeline with heat transfer medium pump, homogeneous mixing bunker It is equipped with liquid separation filter funnel (2-2) inside (2-1), it is inclined that the liquid separation filter funnel (2-2) is located at homogeneous mixing bunker (2-1) waist The upper position 25mm~55mm, liquid separation filter funnel (2-2) shape are in bowl structure, are independently rotated along central axis, revolving speed is adjustable Range is between 20~250 revs/min, and the densely covered uniform small pores in surface, liquid separation filter funnel (2-2) opening are up big and down small;Institute Liquid-adding device (2-3) is stated above homogeneous mixing bunker (2-1) side wall insertion liquid separation filter funnel (2-2), liquid-adding device (2-3) inclines Tiltedly arrangement, between 10 °~32 °, liquid-adding device (2-3) is connected to fluid filling pump for liquid-adding device (2-3) and horizontal direction angle, is added Liquid pump is connect with Central Control Center (8) polygon control survey;The homogeneous system (2-4) is located at below liquid separation filter funnel (2-2), Homogeneous system (2-4) quantity is 2 groups;The homogeneity detector (2-5) is located at homogeneous mixing bunker (2-1) inner wall surface, homogeneous Degree detector (2-5) is connect with Central Control Center (8) polygon control survey;The liquid-adding device (2-3) and the secondary place of pretreatment pool Reason system (9-8) perforation;
The liquid separation filter funnel (2-2) includes: side-wall hole (2-2-1), funnel rack gear (2-2-2), funnel gear (2-2- 3), funnel motor (2-2-4), funnel paddle (2-2-5) stir collet (2-2-6);The funnel rack gear (2-2-2) is located at The top liquid separation filter funnel (2-2), circular configuration of the funnel rack gear (2-2-2) between diameter 90cm~130cm, funnel rack gear (2-2-2) is fixedly welded with liquid separation filter funnel (2-2);The funnel gear (2-2-3) is arranged in funnel rack gear (2-2-2) one Side simultaneously engages connection with funnel rack gear (2-2-2), and the quantity of funnel gear (2-2-3) is 2, each funnel gear (2-2-3) Level engagement connection;The funnel motor (2-2-4) is located at the top funnel gear (2-2-3), and the two is fixedly connected, funnel motor (2-2-4) is connect with Central Control Center (8) by conducting wire;The funnel paddle (2-2-5) is arranged in liquid separation filter funnel (2-2) is internal, and the funnel paddle top (2-2-5) is the circular configuration of diameter 45cm~65cm, on funnel paddle (2-2-5) Portion it is parallel with funnel rack gear (2-2-2) and between the two at a distance from be 15cm~25cm, the funnel paddle lower part (2-2-5) be circle Cylindrical hollow structure, the generally fixed device of funnel paddle (2-2-5), funnel paddle (2-2-5) and external motor drive Connection;The stirring collet (2-2-6) is located at liquid separation filter funnel (2-2) inner bottom, and stirring collet (2-2-6) is stirred with funnel It is coaxially connected to mix the lower part leaf (2-2-5), stir collet (2-2-6) with the top funnel paddle (2-2-5) at a distance from be 50cm~ 80cm;The side-wall hole (2-2-1) is located at liquid separation filter funnel (2-2) outer wall, and side-wall hole (2-2-1) equidistantly distributes, The quantity of side-wall hole (2-2-1) is no less than 16;
The side-wall hole (2-2-1) includes: counterweight hook (2-2-1-1), adjustable swing arm (2-2-1-2), adjustable plate (2-2-1- 3), regulating tank (2-2-1-4) is adjusted board mount (2-2-1-5), rotary shaft rack (2-2-1-6), duct (2-2-1-7), pressing spring (2-2-1-8), air door (2-2-1-9), air door bracket (2-2-1-10), counterweight adjusting knob (2-2-1-11), rack shaft (2- 2-1-12);The duct (2-2-1-7) with a thickness of 20mm~30mm;The air door (2-2-1-9) is located at duct (2-2-1- 7) internal, the quantity of air door (2-2-1-9) is 2, and the distance between each air door (2-2-1-9) is 15mm~25mm, adjacent Pressing spring (2-2-1-8) is equipped between air door (2-2-1-9);The pressing spring (2-2-1-8) and air door (2-2-1-9) fixed weldering It connects, the quantity of pressing spring (2-2-1-8) is no less than 6, and each pressing spring (2-2-1-8) is isodistantly spaced distribution, pressing spring (2-2- It 1-8) is stainless steel material;One end of the air door bracket (2-2-1-10) is fixedly connected with air door (2-2-1-9), air door bracket The other end of (2-2-1-10) is fixedly welded with board mount (2-2-1-5) is adjusted, and is rotation with rack shaft (2-2-1-12) Axis swing;The rotary shaft rack (2-2-1-6) is located at the side upper end air door bracket (2-2-1-10), rotary shaft rack (2-2- 1-6) it is rotatablely connected with rack shaft (2-2-1-12);The adjusting board mount (2-2-1-5) is located at air door bracket (2-2-1- 10) side lower end and with the fixed angle of air door bracket (2-2-1-10) be 60 °~75 °;Adjustable plate (2-2-1-3) arrangement In adjusting the lower part board mount (2-2-1-5), adjustable plate (2-2-1-3) is equipped with regulating tank (2-2-1-4), adjustable swing arm (2-2- 1-2) and counterweight adjusting knob (2-2-1-11), adjustable plate (2-2-1-3) and adjusting board mount (2-2-1-5) pass through regulating tank (2-2-1-4) connection;The regulating tank (2-2-1-4) is the different hollow structure of shape size, and quantity is no less than 7;It is described Adjustable swing arm (2-2-1-2) is located at the lower part adjustable plate (2-2-1-3), and the adjustable swing arm bottom end (2-2-1-2) is equipped with counterweight and links up with (2- 2-1-1), adjustable swing arm (2-2-1-2) is realized by counterweight adjusting knob (2-2-1-11) rises and declines;The counterweight is adjusted Knob (2-2-1-11) is arranged in side on adjustable plate (2-2-1-3) and is rotatablely connected with adjustable plate (2-2-1-3);The counterweight Hook (2-2-1-1) diameter is 5mm~8mm;
The counterweight hook (2-2-1-1) includes: weights (2-2-1-1-1), mobile jib lantern ring (2-2-1-1-2), counterweight master Bar (2-2-1-1-3), lantern ring regulating mechanism (2-2-1-1-4), lantern ring pinning (2-2-1-1-5), pinning regulating mechanism (2-2-1- 1-6);It is internal that the counterweight mobile jib (2-2-1-1-3) is located at mobile jib lantern ring (2-2-1-1-2), counterweight mobile jib (2-2-1-1-3) with The center mobile jib lantern ring (2-2-1-1-2) is vertically and mobile jib lantern ring (2-2-1-1- is stretched out in one end of counterweight mobile jib (2-2-1-1-3) 2), counterweight mobile jib (2-2-1-1-3) is cylindrical structure closed at both ends;The mobile jib lantern ring (2-2-1-1-2) is equipped with set Ring regulating mechanism (2-2-1-1-4) and lantern ring pinning (2-2-1-1-5), the diameter of mobile jib lantern ring (2-2-1-1-2) 15cm~ It stretches between 25cm;The lantern ring regulating mechanism (2-2-1-1-4) is attached to mobile jib lantern ring (2-2-1-1-2) outer wall side, main Rod set ring (2-2-1-1-2) herein be equipped with slave interrupt interface, slave interrupt interface both ends respectively with the both ends lantern ring regulating mechanism (2-2-1-1-4) It is fixedly connected;Lantern ring regulating mechanism (2-2-1-1-4) both ends are bolted;The lantern ring pinning (2-2-1-1-5) Vertical with mobile jib lantern ring (2-2-1-1-2) circumference and be fixedly connected, the quantity of lantern ring pinning (2-2-1-1-5) is 3, adjacent set Ring pinning (2-2-1-1-5) is equidistantly distributed using the mobile jib lantern ring center of circle (2-2-1-1-2) as center axis, adjacent lantern ring pinning (2- Angle between 2-1-1-5) is 120 °;The pinning regulating mechanism (2-2-1-1-6) is located on lantern ring pinning (2-2-1-1-5) Portion, threads turn connects between the two;The weights (2-2-1-1-1) are located at counterweight hook bottom (2-2-1-1), counterweight Counterweight (2-2-1-1-1) is fixedly connected by strut with mobile jib lantern ring (2-2-1-1-2);
The counterweight mobile jib (2-2-1-1-3) includes: that mobile jib is gone water separator (2-2-1-1-3-1), counterweight mobile jib outlet pipe (2- 2-1-1-3-2), counterweight mobile jib water inlet pipe (2-2-1-1-3-3), counterweight mobile jib shell (2-2-1-1-3-4), cool down return pipe (2-2-1-1-3-5) cools down outlet pipe (2-2-1-1-3-6), mobile jib end water tank (2-2-1-1-3-7);The counterweight mobile jib Water inlet pipe (2-2-1-1-3-3) is set on the right side of counterweight mobile jib shell (2-2-1-1-3-4), counterweight mobile jib water inlet pipe (2-2-1-1- Lower end 3-3) is disposed with counterweight mobile jib outlet pipe (2-2-1-1-3-2);The mobile jib goes to the position water separator (2-2-1-1-3-1) It is internal in counterweight mobile jib shell (2-2-1-1-3-4), mobile jib go water separator (2-2-1-1-3-1) one end and counterweight mobile jib into Water pipe (2-2-1-1-3-3) perforation connection, mobile jib remove the other end and counterweight mobile jib shell of water separator (2-2-1-1-3-1) (2-2-1-1-3-4) internal cooling outlet pipe (2-2-1-1-3-6) penetrates through connection;Cooling return pipe (the 2-2-1-1-3- 5) it is around in cooling outlet pipe (2-2-1-1-3-6) outer wall and the two is fixedly connected, cool down return pipe (2-2-1-1-3-5) and counterweight Mobile jib outlet pipe (2-2-1-1-3-2) perforation connection;Mobile jib end water tank (2-2-1-1-3-7) is arranged in counterweight mobile jib shell On the left of body (2-2-1-1-3-4), mobile jib end water tank (2-2-1-1-3-7) respectively with cooling outlet pipe (2-2-1-1-3-6), drop Warm return pipe (2-2-1-1-3-5) perforation connection;
The pinning regulating mechanism (2-2-1-1-6) includes: finger axis (2-2-1-1-6-1), finger pressure at the top of regulating mechanism Tight device (2-2-1-1-6-2), finger spiral handspike (2-2-1-1-6-3), spiral handspike stablize casing (2-2-1-1-6-4), Push rod rotation button (2-2-1-1-6-5);Finger axis (2-2-1-1-6-1) is lantern ring pinning (2-2- at the top of the regulating mechanism 1-1-5) central axis, regulating mechanism top finger axis (2-2-1-1-6-1) and lantern ring pinning (2-2-1-1-5) company of rotating coaxially It connects;The finger pressing device (2-2-1-1-6-2) is set to the top lantern ring pinning (2-2-1-1-5), finger pressing device (2-2- 1-1-6-2) it is fixedly connected with finger axis (2-2-1-1-6-1) at the top of regulating mechanism;Finger spiral handspike (the 2-2-1-1- It 6-3) is arranged in the top finger pressing device (2-2-1-1-6-2), finger spiral handspike (2-2-1-1-6-3) and finger, which compress, to be filled It sets (2-2-1-1-6-2) to be fixedly connected, spiral handspike is enclosed with outside finger spiral handspike (2-2-1-1-6-3) and stablizes casing (2-2-1-1-6-4);The push rod rotation button (2-2-1-1-6-5) is fixedly connected on finger spiral handspike (2-2-1-1-6-3) Top;
The finger pressing device (2-2-1-1-6-2) includes: spring fixed pedestal (2-2-1-1-6-2-1), pressing device shell Body (2-2-1-1-6-2-2), pressing device spring (2-2-1-1-6-2-3), pressing device spring stability column (2-2-1-1-6-2- 4), inverted u-shaped plate (2-2-1-1-6-2-5);The inverted u-shaped plate (2-2-1-1-6-2-5) is located at lantern ring pinning (2-2-1-1- 5) top, inverted u-shaped plate (2-2-1-1-6-2-5) are fixedly connected with finger axis (2-2-1-1-6-1) at the top of regulating mechanism;Institute Spring fixed pedestal (2-2-1-1-6-2-1) is stated set on the top inverted u-shaped plate (2-2-1-1-6-2-5), spring fixed pedestal (2- 2-1-1-6-2-1) bottom is fixedly connected with inverted u-shaped plate (2-2-1-1-6-2-5), spring fixed pedestal (2-2-1-1-6-2- 1) top is fixedly connected with pressing device spring (2-2-1-1-6-2-3);On the pressing device spring (2-2-1-1-6-2-3) End is fixedly connected with finger spiral handspike (2-2-1-1-6-3);Pressing device spring stability column (2-2-1-1-6-2-4) cloth It is internal to be placed in pressing device spring (2-2-1-1-6-2-3), the diameter of pressing device spring stability column (2-2-1-1-6-2-4) is small In the diameter of pressing device spring (2-2-1-1-6-2-3);The pressing device shell (2-2-1-1-6-2-2) is entire finger Pressing device (2-2-1-1-6-2) external hollow structure, inverted u-shaped plate (2-2-1-1-6-2-5), spring fixed pedestal (2-2- 1-1-6-2-1), pressing device spring (2-2-1-1-6-2-3) and the equal position pressing device spring stability column (2-2-1-1-6-2-4) It is internal in pressing device shell (2-2-1-1-6-2-2);
The stirring collet (2-2-6) includes: coolant liquid recycling bins (2-2-6-1), coolant liquid inlet pipe (2-2-6-2), retaining axis It holds (2-2-6-3), coolant liquid standpipe (2-2-6-4), coolant liquid relief hole (2-2-6-5), return flow line (2-2-6-6), it is cooling Liquid outlet pipe (2-2-6-7);The coolant liquid inlet pipe (2-2-6-2) is located at stirring collet (2-2-6) inner lower, coolant liquid inlet pipe The side (2-2-6-2) passes through stirring collet (2-2-6) outer wall and is connected to external cooling tank, and coolant liquid inlet pipe (2-2-6-2) is another Side and coolant liquid standpipe (2-2-6-4) perforation connect, and the diameter of coolant liquid inlet pipe (2-2-6-2) is 40mm~60mm;It is described The coolant liquid standpipe lower part (2-2-6-4) is equipped with retaining bearing (2-2-6-3), and coolant liquid standpipe (2-2-6-4) is together with its outside Column is rotated coaxially with retaining bearing (2-2-6-3) and is connect;The coolant liquid standpipe (2-2-6-4) is located inside column, cooling Liquid standpipe (2-2-6-4) diameter is less than column diameter, forms return flow line (2-2-6-6) between the two;Coolant liquid standpipe (2-2- 6-4) top is equipped with coolant liquid relief hole (2-2-6-5), and coolant liquid standpipe (2-2-6-4) is the hollow structure of upper end closed;Institute The quantity for stating coolant liquid relief hole (2-2-6-5) is 6, and multiple coolant liquid relief holes (2-2-6-5) are isodistantly spaced distribution;It is described Retaining bearing (2-2-6-3) is located at stirring collet (2-2-6) inner upper end, the retaining bearing bottom (2-2-6-3) and stirring collet The distance of the bottom (2-2-6) is 15cm~25cm, and the retaining bearing lower end (2-2-6-3) is equipped with coolant liquid recycling bins (2-2-6-1); The coolant liquid recycling bins (2-2-6-1) and return flow line (2-2-6-6) are penetrated through, bottom coolant liquid recycling bins (2-2-6-1) one Side is disposed with coolant liquid outlet pipe (2-2-6-7);The coolant liquid outlet pipe (2-2-6-7) by stirring collet (2-2-6) outer wall with Coolant liquid recycling bins (2-2-6-1) seamless perforation, the diameter of coolant liquid outlet pipe (2-2-6-7) is between 20mm~30mm;
The homogeneous system (2-4) includes: homogeneous driving motor (2-4-1), gear shift device (2-4-2), homogeneous axis (2-4- 3), closed type thrust bearing (2-4-4), high speed homogenization impeller (2-4-5);The homogeneous driving motor (2-4-1) and center control The connection of center (8) polygon control survey, homogeneous driving motor (2-4-1) output end are equipped with gear shift device (2-4-2), the gear shift device Gear train assembly is equipped with inside (2-4-2);One end connection gear shift device (2-4-2) of the homogeneous axis (2-4-3) is internal Driven gear center, the homogeneous axis surface (2-4-3) is equipped with speed probe, speed probe and Central Control Center (8) Polygon control survey connection, homogeneous axis (2-4-3) other end are connected with closed type thrust bearing (2-4-4);The high speed homogenization impeller (2-4-5) is located at homogeneous axis (2-4-3) external diameter surface, and high speed homogenization impeller (2-4-5) quantity is no less than 10 groups, every group of high speed It is independently pivoted between homogeneous impeller (2-4-5), and independent control with speed probe links, every group of high speed homogenization impeller (2-4-5) revolving speed adjustable extent is between 20~5000 revs/min, equidistant row between every group of high speed homogenization impeller (2-4-5) Column, for two adjacent groups high speed homogenization impeller (2-4-5) spacing between 5mm~12mm, high speed homogenization impeller (2-4-5) shape is in spine Wheel-like structure;
The low pressure sealing cover telescopic oil cylinder (7) includes: oil cylinder casing (7-1), fin lower shaft (7-2), oil cylinder fin (7- 3), fixed sleeving (7-4), telescopic rod (7-5), fin deployment rod (7-6), deployment rod fixing axle (7-7);The oil cylinder casing (7-1) is hollow structure, and the upper end is equipped with telescopic rod (7-5), the two socket;Telescopic rod (7-5) outer wall is equipped with fixing sleeve It manages (7-4), the two is fixedly connected;The outer wall of the fixed sleeving (7-4) is equipped with fin deployment rod (7-6), and the two passes through expansion The connection of bar fixing axle (7-7) hinge;The quantity of the fin deployment rod (7-6) be 6, adjacent fin deployment rod (7-6) it Between angularly horizontal distribution, horizontal sextant angle is 60 degree between adjacent fins deployment rod (7-6);The oil cylinder fin (7-3) is located at The periphery of telescopic rod (7-5), hingedly, bottom end passes through fin lower shaft (7-2) and oil cylinder set by top and fin deployment rod (7-6) Manage (7-1) hingedly, the quantity of oil cylinder fin (7-3) is 6, and the material of oil cylinder fin (7-3) is thin plate stainless steel material, oil cylinder Fin (7-3) is tight and expansion of the rotary shaft realization to telescopic rod (7-5) with fin lower shaft (7-2);The fin bottom Axis (7-2) is fixed on the top of oil cylinder casing (7-1);
Finger pressing device in a kind of building engineering construction device, the device working method including the following steps:
Step 1: in pretreatment pool (9), waste water enters clean water chamber (9-5) by pretreatment pool water inlet pipe (9-7);In floating material Under the action of marine salvage equipment (9-6), the floating material in waste water is picked up;Meanwhile the solid content in waste water is settled down to tapered bed mud Collecting tank (9-3) the simultaneously discharge from the bed mud delivery pipe (9-1), and then remaining clear water is from pretreatment pool secondary treatment system (9- 8) outflow in;
Step 2: in floater dragging device jacking system (9-2), lifting air pump (9-2-1) starts to transport after being powered up Make, subsequent gas is persistently delivered to high-pressure chamber (9-2-4) by air flue (9-2-3), and then forms air pressure;In the effect of air pressure Under, piston (9-2-5) pushes elevating lever (9-2-6) to move down;When piston (9-2-5) drops to the bottom high-pressure chamber (9-2-4), High-pressure chamber (9-2-4) and limit for height air valve (9-2-7) form airflow channel, and high pressure gas is discharged by limit for height air valve (9-2-7), Piston (9-2-5) and elevating lever (9-2-6) move up;
Step 3, in clean water chamber (9-5), after sewage enters clean water chamber (9-5), pass sequentially through aerofoil profile dispersion plate (9-5-2), Gentle drop net (9-5-4) of rectangular slow drop plate (9-5-3), and slow drop of the realization to sewage under the synergy of three;COD sensing Device (9-5-5) is measured in real time the sewage for entering clean water chamber (9-5), and when the concentration of sewage is more than normal concentration, COD is passed Warning message is sent to Central Control Center (8) by conducting wire by sensor (9-5-5);When the sewage for entering clean water chamber (9-5) is super When crossing upper height limit, sewage flows into bed mud delivery pipe (9-1) from overflow port (9-5-6);
Step 4: it in floater dragging device (9-6), after salvaging motor (9-6-1) powers on, drives and salvages cam (9-6- 2) it is operated, and then drives the rotation salvaged drive rod (9-6-3) and salvage crankshaft (9-6-5), and by salvaging crankshaft (9- It 6-5) drives downside to salvage the swinging up and down of (9-6-4) of cranking arm, and then realizes the salvaging to floating material;
Step 5: in steel wire slack adjuster (9-6-6), steel wire (9-6-6-2) is salvaged from steel wire guide wheel (9-6-6-1) Bottom centre enters and is around in steel wire hoop;When regulating device motor (9-6-6-4), which powers on, to be operated, pass through adjusting Device clutch (9-6-6-5) drives steel wire hoop to implement the winding to steel wire (9-6-6-2) is salvaged;At the same time, regulating device Cooling system (9-6-6-3) cools to steel wire slack adjuster (9-6-6) implementation of operating;
Step 6: in pretreatment pool secondary treatment system (9-8), sewage is entered by secondary treatment system water inlet pipe (9-8-6) Dredge (9-8-5), and then U-tube (9-8-3) is flowed by dredge (9-8-5);Solid content in sewage is from U-tube (9-8- 3) after bottom enters secondary sediment hutch (9-8-2), sewage is discharged by secondary treatment system outlet pipe (9-8-4);Into two The discharge from secondary sediment delivery pipe (9-8-1) of the solid content of secondary sediment hutch (9-8-2);
Step 7: in dredge (9-8-5), pending water enters dredge cavity by dredge water inlet (9-8-5-4) (9-8-5-2), and be discharged from dredge water outlet (9-8-5-7);When mud is more in water, dredge water outlet (9-8-5- 7) valve of upper end is closed, while dredge mandril (9-8-5-6) pushes work under the action of receiving apparatus (9-8-5-5) of mandril top Plug moves forward, and then pushes mud discharge from dredge mud mouth (9-8-5-1);After dredging work, dredge The valve opening of the upper end water outlet (9-8-5-7), while dredge mandril (9-8-5-6) is in mandril top receiving apparatus (9-8-5-5) Under the action of band piston move back resets, and then water is discharged from the dredge water outlet (9-8-5-7);
Step 8: in dredge piston (9-8-5-3), wind enters dredge piston from dredge air inlet (9-8-5-3-5) (9-8-5-3) is internal, and fills under the action of dredge inner blower (9-8-5-3-4) to entire dredge piston (9-8-5-3) It sets and radiates;Radiation air discharge from dredge air outlet (9-8-5-3-2);
Step 9: in mandril top receiving apparatus (9-8-5-5), external motor power on after drive drive shaft (9-8-5-5-5) into Row operating, and drive concave driving gear (9-8-5-5-4) to rotate, and then pass through concave driving gear (9-8-5-5-4) and top The interlocking of bar screw thread (9-8-5-5-1) realizes the flexible of dredge mandril (9-8-5-6);As concave driving gear (9-8- 5-5-4) between mandril screw thread (9-8-5-5-1) when being engaged generation loosening, by rate of tension regulation cock (9-8-5-5-3) and Goring push spring (9-8-5-5-6) realizes the close occlusion of the two;
Step 10: in a kind of building engineering construction device in the whole device of finger pressing device, treating material is by leading Pipe enters in hydraulic oil blending tank (2), and upper pressure sealing cover (3) is cranked arm (4) by connection, and is stretched in upper pressure sealing cover Under the action of contracting oil cylinder (5) hydraulic mechanism, slow drop is implemented to upper pressure sealing cover (3), and quasi- with hydraulic oil blending tank (2) It closes, realizes sealing;Similarly, implement slow under the action of low pressure sealing cover telescopic oil cylinder (7) low pressure sealing cover (6) It rises, and is fitted with hydraulic oil blending tank (2), realize sealing;For the operation readiness for realizing charging, discharging, 3 groups of supporting steel frames (1) Under the synergy of interior side guidance, sliding rail, sliding rail motor and Central Control Center (8), hydraulic oil blending tank (2) are realized It is controllable to move up and down;
Step 11: in supporting steel frame (1), carriage motor (1-1) is rotated after powering on, and drives transmission system (1- 2) operating;The operating of transmission system (1-2) drives the rotation of support gear (1-6), and then support gear (1-6) drives L-type The rise and fall of bracket (1-7);When support gear (1-6) rotates counterclockwise, L-type support (1-7) is in upward status;Work as branch When frame gear (1-6) rotates clockwise, L-type support (1-7) is in decline state;
Step 12: in hydraulic oil blending tank (2), treating material enters liquid separation filter funnel (2- by liquid-adding device (2-3) 2) it, is filtered by liquid separation filter funnel (2-2);Under the action of homogeneous system (2-4), material reaches homogenizing effect, in turn Into homogeneous mixing bunker (2-1);Homogeneity detector (2-5) makes the homogeneity for the material for entering homogeneous mixing bunker (2-1) Induction is reacted and is detected;When homogeneity does not meet examination criteria, homogeneity detector (2-5) passes through conducting wire for alarm signal Breath is sent to Central Control Center (8);
Step 13: in liquid separation filter funnel (2-2), funnel motor (2-2-4) is operated after powering on, and drives funnel Gear (2-2-3) rotation, and then funnel gear (2-2-3) drives the rotation of funnel rack gear (2-2-2) to realize that liquid separation strainer leaks The operating of bucket (2-2) outer wall;Under the synergy of liquid separation filter funnel (2-2) outer wall and funnel paddle (2-2-5), reach To the uniform stirring of material;Material is after stirring, from the bottom end of liquid separation filter funnel (2-2) and side-wall hole (2-2-1) Outflow;
Step 14: in side-wall hole (2-2-1), when liquid separation filter funnel (2-2) high speed rotation, due to the work of eccentricity With counterweight is linked up with (2-2-1-1), adjustable swing arm (2-2-1-2), adjustable plate (2-2-1-3), regulating tank (2-2-1-4) and adjusted Board mount (2-2-1-5) integrally turns right, and drives air door bracket (2-2-1-10) bottom, and then drive air door (2-2-1-9) It opens;When liquid separation filter funnel (2-2) stops operating, counterweight links up with (2-2-1-1), adjustable swing arm (2-2-1-2), adjustable plate It (2-2-1-3), regulating tank (2-2-1-4) and adjusts board mount (2-2-1-5) and integrally hangs state in nature, promote air door bracket (2-2-1-10) is in horizontality, and then drives air door (2-2-1-9) closure;Adjustable swing arm (2-2-1-2) is adjusted in counterweight Rise under the action of knob (2-2-1-11) and decline, to realize the change of counterbalance moment;
Step 15: in counterweight hook (2-2-1-1), lantern ring regulating mechanism (2-2-1-1-4) passes through to mobile jib lantern ring (2-2-1- The socket to diameter difference counterweight mobile jib (2-2-1-1-3) is realized in expansion and tightening 1-2);In pinning regulating mechanism Under the action of (2-2-1-1-6), lantern ring pinning (2-2-1-1-5) realize to the fixation of counterweight mobile jib (2-2-1-1-3) with loosen;
Step 16: in counterweight mobile jib (2-2-1-1-3), water is gone from counterweight mobile jib water inlet pipe (2-2-1-1-3-3) into mobile jib Water separator (2-2-1-1-3-1), and go water separator (2-2-1-1-3-1) to converge into mobile jib end water tank (2-2- through mobile jib 1-1-3-7), cooling return pipe (2-2-1-1-3-5), Zhi Houcong then are back to from mobile jib end water tank (2-2-1-1-3-7) Counterweight mobile jib outlet pipe (2-2-1-1-3-2) discharge;
Step 17: in pinning regulating mechanism (2-2-1-1-6), finger spiral handspike (2-2-1-1-6-3) and finger compress dress It sets under (2-2-1-1-6-2) carry out lantern ring pinning (2-2-1-1-5) under the action of push rod rotation button (2-2-1-1-6-5) Pressure, and then realize the fixation to counterweight mobile jib (2-2-1-1-3);
Step 18: in finger pressing device (2-2-1-1-6-2), pressing device spring (2-2-1-1-6-2-3) is in finger spiral shell Retracted downward and pressure is generated under the action of rotation push rod (2-2-1-1-6-3);Pressure passes through spring fixed pedestal (2-2-1-1-6- 2-1), inverted u-shaped plate (2-2-1-1-6-2-5) is sent to finger axis (2-2-1-1-6-1) at the top of regulating mechanism, and then promotes Lantern ring pinning (2-2-1-1-5) pushes;
Step 19: stirring collet (2-2-6) in, coolant liquid from coolant liquid inlet pipe (2-2-6-2) enter, and by coolant liquid into It manages (2-2-6-2) and flows into coolant liquid standpipe (2-2-6-4);It is cooling when coolant liquid reaches the top coolant liquid standpipe (2-2-6-4) Liquid enters return flow line (2-2-6-6) from coolant liquid relief hole (2-2-6-5);Coolant liquid in return flow line (2-2-6-6) is inhaled It after having received the heat in column, is back to coolant liquid recycling bins (2-2-6-1), and then coolant liquid passes through coolant liquid outlet pipe (2-2- 6-7) flow out coolant liquid recycling bins (2-2-6-1);
Step 20: in homogeneous system (2-4), after homogeneous driving motor (2-4-1) powers on, high speed rotation, and band are carried out The operating of dynamic gear shift device (2-4-2);Gear shift device (2-4-2) realizes speed change by the effect of internal gear transmission system, into And drive the operating of homogeneous axis (2-4-3);Every group of high speed homogenization impeller (2-4-5) is under the drive of homogeneous axis (2-4-3) Independent rotation is carried out with different rotating speeds;The installation of closed type thrust bearing (2-4-4) prevents homogeneous axis (2-4-3) in operation process In loose or dislocation;
21st step: in low pressure sealing cover telescopic oil cylinder (7), when telescopic rod (7-5) moves downward, fixed sleeving is driven (7-4) is moved down, and then drives oil cylinder fin (7-3) expansion by fin deployment rod (7-6);When telescopic rod (7-5) moves upwards When, drive fixed sleeving (7-4) to move up, and then drive oil cylinder fin (7-3) to shrink by fin deployment rod (7-6);The oil cylinder wing The cooling to low pressure sealing cover telescopic oil cylinder (7) is realized in the expansion and contraction of piece (7-3);
The high speed homogenization impeller (2-4-5) is made of high molecular material, and content meter, constituent are as follows by mass percentage:
Methyl ester derivative 30%~65%, thiophosphate analog derivative 25%~60%, mixed aid are 1%~5%, crosslinking agent For 1%~5%, O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 15%~45%, (T-4)-bis- (two sulphur of diethyl For carbamic acid-S, S') zinc 2%~15%;
The feature of the methyl ester derivative molecular structure are as follows:
Wherein R is the alkyl that carbon atom number is 1~8;
The feature of the group thiophosphate derivative molecular structure are as follows:
Its molecular formula: C10H15O3PS2;Molecular weight: 278.343;
The mixed aid is oxysilane substance, and molecular structural formula includes:
The molecular formula of its included molecular structure are as follows: C16H20O2Si;
The crosslinking agent is phosphordithiic acid diisopropyl ester sodium, isopentyl and isopropyl) phosphorodithioate zinc salt, tetraphenyl Any one in (bisphenol-A) bisphosphate;
The preparation method of high speed homogenization impeller (2-4-5) comprising the steps of:
Step 1: the ultrapure water 22%~32% that conductivity is 1.25 μ of μ S/cm~3.15 S/cm, starting reaction are added in a kettle Blender in kettle, revolving speed are 125rpm~375rpm, start heat pump, reactor temperature is made to rise to 75 DEG C~185 DEG C;According to Secondary methylate ester derivative 30%~65%, mixed aid are 1%~5%, stirring to being completely dissolved, adjust pH value be 5.5~ 8.5, thiophosphate analog derivative 25%~60% is added, agitator speed is adjusted to 255rpm~315rpm, temperature is 90 DEG C ~395 DEG C;
Step 2: O- ethyl O- (4- methyl mercapto phenyl) S- propyl disulfide substituted phosphate 15%~45%, (T-4)-bis- (diethyls is added Base aminodithioformic acid-S, S') zinc 2%~15% be uniformly mixed;
Step 3: it is 1~5% that crosslinking agent, which is added, and agitator speed is 75rpm~235rpm, and temperature is 90 DEG C~265 DEG C, is kept This state 5~25 hours, discharging, entering molding press can be prepared by high speed homogenization impeller (2-4-5).
CN201811170955.6A 2018-10-09 2018-10-09 Finger pressing device in a kind of building engineering construction device Pending CN109252669A (en)

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CN201811170955.6A CN109252669A (en) 2018-10-09 2018-10-09 Finger pressing device in a kind of building engineering construction device

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Publication number Priority date Publication date Assignee Title
CN202263752U (en) * 2011-09-26 2012-06-06 郭金春 Pipeline dredging machine
CN203155656U (en) * 2013-02-04 2013-08-28 天津哈马特高压水射流技术开发有限公司 Auxiliary pipe feeding device of pipe rotator
CN203307613U (en) * 2013-04-28 2013-11-27 巢湖市翔宇渔具有限公司 High-temperature reaction kettle for dyeing fishing net
CN104015063A (en) * 2014-06-20 2014-09-03 泰安海威数控机床有限公司 Conveniently adjustable central frame
CN107823926A (en) * 2017-11-09 2018-03-23 东莞市联洲知识产权运营管理有限公司 A kind of floating object fishing device in detention tank
CN207402453U (en) * 2017-10-26 2018-05-25 浙江凯达机床股份有限公司 A kind of lathe center frame
CN207511936U (en) * 2017-08-16 2018-06-19 森博嘉禾(天津)科技发展有限公司 A kind of intelligentized construction industry sand-stone separator reutilization of the sewage equipment
CN207734660U (en) * 2017-11-22 2018-08-17 陈云 Bidirectional flow kudzuvine root starch starches sedimentation basin

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN202263752U (en) * 2011-09-26 2012-06-06 郭金春 Pipeline dredging machine
CN203155656U (en) * 2013-02-04 2013-08-28 天津哈马特高压水射流技术开发有限公司 Auxiliary pipe feeding device of pipe rotator
CN203307613U (en) * 2013-04-28 2013-11-27 巢湖市翔宇渔具有限公司 High-temperature reaction kettle for dyeing fishing net
CN104015063A (en) * 2014-06-20 2014-09-03 泰安海威数控机床有限公司 Conveniently adjustable central frame
CN207511936U (en) * 2017-08-16 2018-06-19 森博嘉禾(天津)科技发展有限公司 A kind of intelligentized construction industry sand-stone separator reutilization of the sewage equipment
CN207402453U (en) * 2017-10-26 2018-05-25 浙江凯达机床股份有限公司 A kind of lathe center frame
CN107823926A (en) * 2017-11-09 2018-03-23 东莞市联洲知识产权运营管理有限公司 A kind of floating object fishing device in detention tank
CN207734660U (en) * 2017-11-22 2018-08-17 陈云 Bidirectional flow kudzuvine root starch starches sedimentation basin

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