CN106347926A - Medium-and-long-range hydraulic driving wheel rotating device based on activated carbon filter chamber and working method of medium-and-long-range hydraulic driving wheel rotating device - Google Patents
Medium-and-long-range hydraulic driving wheel rotating device based on activated carbon filter chamber and working method of medium-and-long-range hydraulic driving wheel rotating device Download PDFInfo
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- CN106347926A CN106347926A CN201611065101.2A CN201611065101A CN106347926A CN 106347926 A CN106347926 A CN 106347926A CN 201611065101 A CN201611065101 A CN 201611065101A CN 106347926 A CN106347926 A CN 106347926A
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- hydraulic push
- push rod
- control chamber
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G13/00—Roller-ways
- B65G13/11—Roller frames
- B65G13/12—Roller frames adjustable
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G43/00—Control devices, e.g. for safety, warning or fault-correcting
- B65G43/08—Control devices operated by article or material being fed, conveyed or discharged
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G2201/00—Indexing codes relating to handling devices, e.g. conveyors, characterised by the type of product or load being conveyed or handled
- B65G2201/04—Bulk
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G2203/00—Indexing code relating to control or detection of the articles or the load carriers during conveying
- B65G2203/04—Detection means
- B65G2203/042—Sensors
Abstract
The invention discloses a medium-and-long-range hydraulic driving wheel rotating device based on an activated carbon filter chamber and a working method of the medium-and-long-range hydraulic driving wheel rotating device. The medium-and-long-range hydraulic driving wheel rotating device consists of a roller table, a support, hydraulic push rods, supporting plates, anchor bolts and a control box, wherein the anchor bolts are arranged at four corners of the support; the number of the anchor bolts is eight; the hydraulic push rods are arranged at the front side and the rear side of the support; the number of the hydraulic push rods is two; the two hydraulic push rods are connected with the support in a hinging manner; the supporting plates are arranged at two ends of one side of the support; the number of the supporting plates is two; the two support plates are fixedly welded with the support; the roller table is positioned at the upper part of the support; one end of the roller table is fixedly connected with the support plates; the other end of the roller table is connected with the hydraulic push rods in the hinging manner. The medium-and-long-range hydraulic driving wheel rotating device based on the activated carbon filter chamber, disclosed by the invention, is remotely controlled and is high in degree of automation, stable in operation safety and high in working efficiency; safety risk of workers is reduced; the device has the advantages of compact and stable design, small occupied space and wide applicability.
Description
Technical field
The invention belongs to transporting equipment field is and in particular to a kind of be based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel
Tumbler and its method of work.
Background technology
There is different degrees of ammonia nitrogen and Organic Pollution problem, traditional water in China's most area drinking water source at present
It is relatively low that handling process removes ammonia nitrogen efficiency, also undesirable to the removal effect of Organic substance it is impossible to ensure that water factory water outlet reaches new edition
" drinking water sanitary standard " (gb5749-2006).Activated carbon filter is one kind of reply ammonia nitrogen and Organic Pollution at present
Measure, but it can only to a certain degree improve organic matter removal effect;And be limited to oxygen in water concentration, it nor should
To ammonia nitrogen in high density (ammonia nitrogen concentration > 1.5mg/l);Its water outlet simultaneously there is likely to be the risk of microorganism leakage.
And before traditional lower activated carbon filter to stream, such as adopt ozonation technology, can remnants one in activated carbon filter water inlet
Quantitative ozone, these ozone can be discharged into the in the air on filter tank top, thus environmental and human health impacts are brought with harm, also for
Operator bring obstacle to the operation and maintenance in filter tank etc..In order to solve this problem, traditional activated carbon filter often adopts
Closed structure, needs configuration ventilation and ozone layer destroying system simultaneously.This maintenance and operation in filter tank will bring great difficulty,
Increased occupation of land, operating cost and one-time investment simultaneously.
At present, either in each large, medium and small activated carbon filter factory, people can be brought with transmission and carry out activated carbon
Transmission.But, the angle of the transmission wheel for supporting and being driven these transmission belts is but changeless, that is, these transmission wheels with
The angle of horizontal plane has just been fixed when dispatching from the factory, and during use, people can not be adjusted again according to demand, thus
Significantly limit the use of transmission belt.
Content of the invention
In order to solve above-mentioned technical problem, the present invention provides one kind to be based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel
Tumbler, comprising: roller-way 1, support 2, hydraulic push rod 3, gripper shoe 4, foundation bolt 5, control chamber 6;2 four jiaos of described support sets
There is foundation bolt 5, foundation bolt 5 quantity is 8;Before and after described support 2, both sides are provided with hydraulic push rod 3, and hydraulic push rod 3 quantity is
2, hydraulic push rod 3 and support 2 chain connection;Described support 2 side two ends are provided with gripper shoe 4, and gripper shoe 4 quantity is 2,
Fagging 4 is welded and fixed with support 2;Described roller-way 1 is located at support 2 top, and wherein roller-way 1 one end is fixedly connected with gripper shoe 4, separately
One end and hydraulic push rod 3 chain connection;Described control chamber 6 is located at support 2 one side bottom.
Further, described roller-way 1 includes: trip shaft induction apparatuss 1-1, axis of rolling 1-2, side plate 1-3, angled seat vibrating sensing
Device 1-4, fixing bearing 1-5, angular encoder 1-6;Described side plate 1-3 quantity is 2, and side plate 1-3 material is channel-section steel, two sides
It is provided with trip shaft induction apparatuss 1-1 and axis of rolling 1-2, wherein trip shaft induction apparatuss 1-1 is located at side plate 1-3 one end between plate 1-3,
Trip shaft induction apparatuss 1-1 quantity is 1, and axis of rolling 1-2 quantity is not less than 7;Described fixing bearing 1-5 is located at trip shaft and senses
Device 1-1 two ends, fixing bearing 1-5 quantity is 4;Described angular encoder 1-6 is located at trip shaft induction apparatuss 1-1 two ends center,
Rotating speed measring sensor, trip shaft induction apparatuss (1-1), angular encoder 1-6 are passed through wire and are connected with control chamber 6 control;Described
Angled seat vibrating sensor 1-4 is located at outside two side plate 1-3 one end, and angled seat vibrating sensor 1-4 quantity is 2, and angled seat is vibrated
Sensor 1-4 is welded and fixed with side plate 1-3.
Further, described support 2 includes: cross bar 2-1, Material Sensor 2-2, vertical pole 2-3, buffer stopper 2-4, buffer bar
2-5, pressure transducer 2-6, putty sensor 2-7, hydraulic push rod mounting seat 2-8;Described cross bar 2-1, vertical pole 2-3 and buffer bar
2-5 three is welded and fixed, and vertical pole 2-3 quantity is 2, is provided with vibrations limit alarm, cross bar 2- inside wherein one vertical pole 2-3
1 and buffer bar 2-5 quantity be 1;Described Material Sensor 2-2 is located at cross bar 2-1 center, Material Sensor 2-2 and cross bar 2-1
Threaded;Described putty sensor 2-7 is located in one of vertical pole 2-3 center, putty sensor 2-7 and vertical pole 2-3 screw thread
Connect;Described hydraulic push rod mounting seat 2-8 is located at vertical pole 2-3 one end, and hydraulic push rod mounting seat 2-8 quantity is 2, hydraulic thrust
Bar mounting seat 2-8 is welded and fixed with vertical pole 2-3;Described buffer bar 2-5 two ends are provided with buffer stopper 2-4, wherein buffer stopper 2-4 upper table
Face center is provided with pressure transducer 2-6;
Described vibrations limit alarm, Material Sensor 2-2, pressure transducer 2-6 and putty sensor 2-7 all pass through wire and
Control chamber 6 controls connected.
Further, described buffer stopper 2-2 is by macromolecular material pressing mold molding, the constituent of buffer stopper 2-2 and manufacture
Process is as follows:
First, buffer stopper 2-2 constituent:
Count by weight, n- (4- hydroxy-3-methoxy-benzyl) 99~196 parts of acrylamide, 4- [(5- cyano group -1- second
Base -1,6- dihydro -2- hydroxy-4-methyl -6- oxo -3- pyridine radicals) azo]-benzoic acid -2- (2- methoxy ethoxy) ethyl ester
41~110 parts, n- (4- hydroxy 3-methoxybenzene methylene) 50~127 parts of furfuryl amine, 3,3'- [[3,3'- dimethyl (1,1'-
Biphenyl) -4,4'- diyl] double (azos)] double (4- amino -1-naphthalene sulfonic aicd) 64~184 parts of disodium salt, 2,2'- (3,3'- bis- is chloro-
1,1'- biphenyl -4,4'- bisazo) 77~159 parts of double [n- (2- aminomethyl phenyl) -3- oxo-butyramide], double (3- methoxyl group -
4- hydroxyl benzal) -88~196 parts of 4,4'- di-imidogen benzene, concentration is 8- methyl-the n- [(4- hydroxyl -3- of 62ppm~98ppm
Methoxyphenyl)-methyl] -70~125 parts of (anti-) -6- nonenyl amide, 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenyl
Azo) 67~131 parts of -2- naphthalenecarboxamide, 4- [(5- cyano group -1,6- dihydro -2- hydroxyl-Isosorbide-5-Nitrae-dimethyl -6- oxo -3- pyridine
Base) azo] 161~244 parts of benzoic acid -2- phenoxyethyl acrylate, 170~247 parts of cross-linking agent, 4- hydroxy 3-methoxybenzene second
210~317 parts of amine hydrochlorate, z- (1r, s)-cis -2,2- dimethyl -3- (chloro- 3,3, the 3- tri- fluoro- 1- acrylic of 2-) ring third
118~307 parts of alkane carboxylic acid, 2,2'- [(2,4- sodium catchol disulfonates, 3- phenylene) double (azo -4,1- Asia phenylimino)] double (5- nitros
Benzene sulfonic acid sodium salt) 91~294 parts;
Described cross-linking agent is 3- methoxyl group -5- cresotinic acid aldehyde, 5- benzyloxy -3- indolecarboxaldehyde, in 4,4'- methylene dianiline (MDA)
Any one;
2nd, the manufacture process of buffer stopper 2-2, comprises the steps of
1st step: add 2250~3890 parts of the ultra-pure water that electrical conductivity is 3.39 μ s/cm~5.25 μ s/cm in a kettle., start
Agitator in reactor, rotating speed is 76rpm~112rpm, starts heat pump, makes reactor temperature rise to 89 DEG C~131
℃;Sequentially add n- (4- hydroxy-3-methoxy-benzyl) acrylamide, 4- [(5- cyano group -1- ethyl -1,6- dihydro -2- hydroxyl
Base -4- methyl -6- oxo -3- pyridine radicals) azo]-benzoic acid -2- (2- methoxy ethoxy) ethyl ester, n- (4- hydroxyl -3- first
Phenyl methylene) furfuryl amine, stirs to being completely dissolved, adjusting ph value is 3.41~8.38, and agitator speed is adjusted to
131rpm~187rpm, temperature is 148 DEG C~216 DEG C, esterification 16~22 hours;
2nd step: take the double (4- amino -1- naphthalene sulphur of 3,3'- [[3,3'- dimethyl (1,1'- biphenyl) -4,4'- diyl] double (azos)]
Acid) disodium salt, 2,2'- (the chloro- 1,1'- biphenyl -4,4'- bisazo of 3,3'- bis-) double [n- (2- aminomethyl phenyl) -3- oxo-butyryl
Amine] to be pulverized, powder diameter is 950~1130 mesh;Add double (3- methoxyl group -4- hydroxyl benzal) -4,4'- di-imidogen benzene
Mix homogeneously, is laid in pallet, tiling thickness be 16mm~25mm, using dosage be 8.9kgy~11.7kgy, energy be
The alpha ray irradiation of 9.7mev~12.3mev 160~240 minutes, and the β x ray irradiation x of Isodose 160~240 minutes;
3rd step: through the 2nd step process mixed-powder be dissolved in 8- methyl-n- [(4- hydroxy 3-methoxybenzene base)-methyl]-
In (anti-) -6- nonenyl amide, add reactor, agitator speed is 97rpm~130rpm, temperature is 167 DEG C~223 DEG C,
Starting vacuum pump makes the vacuum of reactor reach -0.29mpa~2.23mpa, keeps this state response 20~34 hours;Pressure release
And it is passed through radon gas, make reacting kettle inner pressure be 1.43mpa~2.16mpa, insulation standing 14~22 hours;Agitator speed is lifted
To 184rpm~241rpm, simultaneous reactions kettle pressure release to 0mpa;Sequentially add 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenyl
Azo) -2- naphthalenecarboxamide, 4- [(5- cyano group -1,6- dihydro -2- hydroxyl -1,4- dimethyl -6- oxo -3- pyridine radicals) azo]
After benzoic acid -2- phenoxyethyl acrylate is completely dissolved, add cross-linking agent stirring mixing so that the hydrophilic and oleophilic of reactor solution is put down
Weighing apparatus value is 5.1~8.8, insulation standing 15~24 hours;
4th step: when agitator speed is for 208rpm~278rpm, sequentially add 4- hydroxy 3-methoxybenzene ethylamine hydrochloride,
Z- (1r, s)-cis -2,2- dimethyl -3- (the fluoro- 1- acrylic of the chloro- 3,3,3- of 2- tri-) cyclopropane-carboxylic acid and 2,2'- [(2,4-
Sodium catchol disulfonate, 3- phenylene) double (azo -4,1- Asia phenyliminos)] double (5- nitrobenzene sodium sulfonates), lift reactor pressure, make
It reaches 1.62mpa~2.51mpa, and temperature is 223 DEG C~278 DEG C, polyreaction 21~27 hours;To react after the completion of reaction
In kettle, pressure is down to 0mpa, is cooled to 27 DEG C~38 DEG C, and discharging enters molding press and can be prepared by buffer stopper 2-2.
Further, the invention also discloses a kind of be based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler
Method of work, the method includes following step:
1st step: staff's power-on, now hydraulic push rod 3 and roller-way 1 be in initial, set position, now staff
Send instruction, control chamber 6 controls hydraulic push rod 3 to stretch according to instruction, promote roller-way 1 to rotate, meanwhile angular encoder 1-
6th, Material Sensor 2-2, pressure transducer 2-6 and putty sensor 2-7 all start working;
2nd step: in roller-way 1 motor process, angular encoder 1-6 real-time monitoring trip shaft induction apparatuss 1-1 rotational angle, when turning over
When rotating shaft induction apparatuss 1-1 rotational angle reaches angular encoder 1-6 setting value, angular encoder 1-6 produces the signal of telecommunication, is transferred to
Control chamber 6, control chamber 6 controls hydraulic push rod 3 stop motion, and makes hydraulic push rod 3 self-locking;
3rd step: during material transferring, now Material Sensor 2-2 and putty sensor 2-7 equal real-time monitoring material run
Situation, when material enters into roller-way 1, now Material Sensor 2-2 detects material and produces the signal of telecommunication, is transferred to control chamber
6;When material congestion is in roller-way 1, now putty sensor 2-7 produces electric signal transmission to control chamber 6, and control chamber 6 produces report
Alert signal simultaneously sends staff to;
4th step: in roller-way 1 repeatedly lifting process, when roller-way 1 is reduced to horizontal level, be now placed on buffer bar 2-5
Buffer stopper 2-4 produces cushion effect, and meanwhile the pressure transducer 2-6 on buffer stopper 2-4 starts working and produces the signal of telecommunication, passes
Transport to control chamber 6, control chamber 6 is by force information back to staff;Reach it when pressure transducer 2-6 detects pressure value
During the higher limit setting, pressure transducer 2-6 produces the warning signal of telecommunication and is transferred to control chamber 6, and control chamber 6 produces warning simultaneously
Signal sends staff to.
One kind disclosed by the invention is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, and its advantage exists
In:
(1) this apparatus structure is simply compact, intensity high it is easy to Operation and Maintenance;
(2) this device transmission of angle is adjustable, strong adaptability;
(3) this plant automation degree is high, and achievable remotely control greatly reduces labor intensity and the safety wind of staff
Danger.
One kind of the present invention is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, and this device utilizes
Remotely control, high degree of automation, run safety and stability, substantially increase work efficiency, reduce the safety wind of staff
Danger;The design of this device is ingenious, and compact conformation is stable, takes up room little, wide adaptability.
Brief description
Fig. 1 is that heretofore described one kind is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel rotation apparatus structure
Schematic diagram.
Fig. 2 is heretofore described roller-way structural representation.
Fig. 3 is heretofore described supporting structure schematic diagram.
The buffer stopper compression fatigue intensity that Fig. 4 is heretofore described changes over figure.
In figure 1 above~Fig. 3, roller-way 1, trip shaft induction apparatuss 1-1, axis of rolling 1-2, side plate 1-3, angled seat vibrating sensor
1-4, fixing bearing 1-5, angular encoder 1-6, support 2, cross bar 2-1, Material Sensor 2-2, vertical pole 2-3, buffer stopper 2-4,
Buffer bar 2-5, pressure transducer 2-6, putty sensor 2-7, hydraulic push rod mounting seat 2-8, hydraulic push rod 3, gripper shoe 4, ground
Foot bolt 5, control chamber 6.
Specific embodiment
It is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel to one kind that the present invention provides below in conjunction with the accompanying drawings to rotate
Device is further described.
As shown in figure 1, being that heretofore described one kind is based on the rotation of activated carbon double layer filter medium-long range fluid-pressure transmission wheel
Apparatus structure schematic diagram.It is seen in fig. 1, that including: roller-way 1, support 2, hydraulic push rod 3, gripper shoe 4, foundation bolt 5, control
Case 6;2 four jiaos of described support is provided with foundation bolt 5, and foundation bolt 5 quantity is 8;Before and after described support 2, both sides are provided with hydraulic thrust
Bar 3, hydraulic push rod 3 quantity is 2, hydraulic push rod 3 and support 2 chain connection;Described support 2 side two ends are provided with gripper shoe 4,
Gripper shoe 4 quantity is 2, and gripper shoe 4 is welded and fixed with support 2;Described roller-way 1 is located at support 2 top, wherein roller-way 1 one end
It is fixedly connected with gripper shoe 4, the other end and hydraulic push rod 3 chain connection;Described control chamber 6 is located at support 2 one side bottom.
As shown in Fig. 2 being heretofore described roller-way structural representation.Find out from Fig. 2 or Fig. 1, roller-way 1 includes:
Trip shaft induction apparatuss 1-1, axis of rolling 1-2, side plate 1-3, angled seat vibrating sensor 1-4, fixing bearing 1-5, angular encoder 1-
6;Described side plate 1-3 quantity be 2, side plate 1-3 material be channel-section steel, be provided between two side plate 1-3 trip shaft induction apparatuss 1-1 and
Axis of rolling 1-2, wherein trip shaft induction apparatuss 1-1 are located at side plate 1-3 one end, and trip shaft induction apparatuss 1-1 quantity is 1, roll
Axle 1-2 quantity is not less than 7;Described fixing bearing 1-5 is located at trip shaft induction apparatuss 1-1 two ends, and fixing bearing 1-5 quantity is 4
Individual;Described angular encoder 1-6 is located at trip shaft induction apparatuss 1-1 two ends center, Rotating speed measring sensor, trip shaft induction apparatuss
(1-1), angular encoder 1-6 is controlled with control chamber 6 by wire and is connected;Described angled seat vibrating sensor 1-4 is located at two sides
Outside plate 1-3 one end, angled seat vibrating sensor 1-4 quantity is 2, and angled seat vibrating sensor 1-4 and side plate 1-3 is welded and fixed.
As shown in figure 3, being heretofore described supporting structure schematic diagram.Find out from Fig. 3 or Fig. 1, support 2 includes:
Cross bar 2-1, Material Sensor 2-2, vertical pole 2-3, buffer stopper 2-4, buffer bar 2-5, pressure transducer 2-6, putty sensor 2-
7, hydraulic push rod mounting seat 2-8;Described cross bar 2-1, vertical pole 2-3 and buffer bar 2-5 three are welded and fixed, and vertical pole 2-3 quantity is 2
Root, is provided with vibrations limit alarm inside wherein one vertical pole 2-3, cross bar 2-1 and buffer bar 2-5 quantity are 1;Described material
Sensor 2-2 is located at cross bar 2-1 center, and Material Sensor 2-2 is threadeded with cross bar 2-1;Described putty sensor 2-7 is located at
One of vertical pole 2-3 center, putty sensor 2-7 is threadeded with vertical pole 2-3;Described hydraulic push rod mounting seat 2-8 is located at
Vertical pole 2-3 one end, hydraulic push rod mounting seat 2-8 quantity is 2, and hydraulic push rod mounting seat 2-8 is welded and fixed with vertical pole 2-3;
Described buffer bar 2-5 two ends are provided with buffer stopper 2-4, and wherein buffer stopper 2-4 upper surface center is provided with pressure transducer 2-6;
Described vibrations limit alarm, Material Sensor 2-2, pressure transducer 2-6 and putty sensor 2-7 all pass through wire and
Control chamber 6 controls connected.
A kind of work process based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler of the present invention
It is:
1st step: staff's power-on, now hydraulic push rod 3 and roller-way 1 be in initial, set position, now staff
Send instruction, control chamber 6 controls hydraulic push rod 3 to stretch according to instruction, promote roller-way 1 to rotate, meanwhile angular encoder 1-
6th, Material Sensor 2-2, pressure transducer 2-6 and putty sensor 2-7 all start working;
2nd step: in roller-way 1 motor process, angular encoder 1-6 real-time monitoring trip shaft induction apparatuss 1-1 rotational angle, when turning over
When rotating shaft induction apparatuss 1-1 rotational angle reaches angular encoder 1-6 setting value, angular encoder 1-6 produces the signal of telecommunication, is transferred to
Control chamber 6, control chamber 6 controls hydraulic push rod 3 stop motion, and makes hydraulic push rod 3 self-locking;
3rd step: during material transferring, now Material Sensor 2-2 and putty sensor 2-7 equal real-time monitoring material run
Situation, when material enters into roller-way 1, now Material Sensor 2-2 detects material and produces the signal of telecommunication, is transferred to control chamber
6;When material congestion is in roller-way 1, now putty sensor 2-7 produces electric signal transmission to control chamber 6, and control chamber 6 produces report
Alert signal simultaneously sends staff to;
4th step: in roller-way 1 repeatedly lifting process, when roller-way 1 is reduced to horizontal level, be now placed on buffer bar 2-5
Buffer stopper 2-4 produces cushion effect, and meanwhile the pressure transducer 2-6 on buffer stopper 2-4 starts working and produces the signal of telecommunication, passes
Transport to control chamber 6, control chamber 6 is by force information back to staff;Reach it when pressure transducer 2-6 detects pressure value
During the higher limit setting, pressure transducer 2-6 produces the warning signal of telecommunication and is transferred to control chamber 6, and control chamber 6 produces warning simultaneously
Signal sends staff to.
One kind of the present invention is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, and this device utilizes
Remotely control, high degree of automation, run safety and stability, substantially increase work efficiency, reduce the safety wind of staff
Danger;The design of this device is ingenious, and compact conformation is stable, takes up room little, wide adaptability.
The following is the embodiment of the manufacture process of buffer stopper 2-2 of the present invention, embodiment is to further illustrate this
The content of invention, but should not be construed as limitation of the present invention.Without departing from the spirit and substance of the case in the present invention, to this
Modification and replacement that bright method, step or condition are made, belong to the scope of the present invention.
If not specializing, the conventional meanses that in embodiment, technological means used are well known to those skilled in the art.
Embodiment 1
Manufacture buffer stopper 2-2 of the present invention according to following steps, and count by weight:
1st step: add 2250 parts of the ultra-pure water that electrical conductivity is 3.39 μ s/cm in a kettle., start agitator in reactor, turn
Speed is 76rpm, starts heat pump, makes reactor temperature rise to 89 DEG C;Sequentially add n- (4- hydroxy-3-methoxy-benzene first
Base) 99 parts of acrylamide, [(5- cyano group -1- ethyl -1,6- dihydro -2- hydroxy-4-methyl -6- oxo -3- pyridine radicals) are even for 4-
Nitrogen] 41 parts of-benzoic acid -2- (2- methoxy ethoxy) ethyl ester, n- (4- hydroxy 3-methoxybenzene methylene) 50 parts of furfuryl amine,
Stir to being completely dissolved, adjusting ph value is 3.41, and agitator speed is adjusted to 131rpm, and temperature is 148 DEG C, and esterification 16 is little
When;
2nd step: take the double (4- amino -1- naphthalene sulphur of 3,3'- [[3,3'- dimethyl (1,1'- biphenyl) -4,4'- diyl] double (azos)]
Acid) 64 parts of disodium salt, 2,2'- (the chloro- 1,1'- biphenyl -4,4'- bisazo of 3,3'- bis-) double [n- (2- aminomethyl phenyl) -3- oxo -
Butyramide] 77 parts pulverized, powder diameter is 950 mesh;Add double (3- methoxyl group -4- hydroxyl benzal) -4,4'- di-imidogens
88 parts of mix homogeneously of benzene, are laid in pallet, tiling thickness be 16mm, using dosage be 8.9kgy, energy be 9.7mev α penetrate
Line irradiation 160 minutes, and the β x ray irradiation x of Isodose 160 minutes;
3rd step: be dissolved in 8- methyl-n- [(the 4- hydroxy 3-methoxybenzene that concentration is 62ppm through the mixed-powder that the 2nd step is processed
Base)-methyl] in -70 parts of (anti-) -6- nonenyl amide, add reactor, agitator speed is 97rpm, and temperature is 167 DEG C, opens
Dynamic vacuum pump makes the vacuum of reactor reach -0.29mpa, keeps this state response 20 hours;Pressure release is simultaneously passed through radon gas, makes anti-
Pressure in kettle is answered to be 1.43mpa, insulation standing 14 hours;Agitator speed is promoted to 184rpm, and simultaneous reactions kettle pressure release is extremely
0mpa;Sequentially add 67 parts of 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenylazo) -2- naphthalenecarboxamide, 4- [(5- cyano group -
1,6- dihydro -2- hydroxyl -1,4- dimethyl -6- oxo -3- pyridine radicals) azo] 161 parts of benzoic acid -2- phenoxyethyl acrylate is complete
After CL, add 170 parts of stirring mixing of cross-linking agent so that the hydrophile-lipophile balance value of reactor solution is 5.1, insulation standing
15 hours;
4th step: when agitator speed is for 208rpm, sequentially add 210 parts of 4- hydroxy 3-methoxybenzene ethylamine hydrochloride, z-
(1r, s) -118 parts of cis -2,2- dimethyl -3- (the fluoro- 1- acrylic of the chloro- 3,3,3- of 2- tri-) cyclopropane-carboxylic acid and 2,2'- [(2,
4- sodium catchol disulfonate, 3- phenylene) double (azo -4,1- Asia phenyliminos)] 91 parts of double (5- nitrobenzene sodium sulfonate), lift reactor pressure
So as to reach 1.62mpa, temperature is 223 DEG C to power, polyreaction 21 hours;After the completion of reaction, reacting kettle inner pressure is down to
0mpa, is cooled to 27 DEG C, and discharging enters molding press and can be prepared by buffer stopper 2-2.
Described cross-linking agent is 3- methoxyl group -5- cresotinic acid aldehyde.
Embodiment 2
Manufacture buffer stopper 2-2 of the present invention according to following steps, and count by weight:
1st step: add 3890 parts of the ultra-pure water that electrical conductivity is 5.25 μ s/cm in a kettle., start agitator in reactor, turn
Speed is 112rpm, starts heat pump, makes reactor temperature rise to 131 DEG C;Sequentially add n- (4- hydroxy-3-methoxy-benzene
Methyl) 196 parts of acrylamide, 4- [(5- cyano group -1- ethyl -1,6- dihydro -2- hydroxy-4-methyl -6- oxo -3- pyridine radicals)
Azo] 110 parts of-benzoic acid -2- (2- methoxy ethoxy) ethyl ester, n- (4- hydroxy 3-methoxybenzene methylene) furfuryl amine 127
Part, stir to being completely dissolved, adjusting ph value is 8.38, and agitator speed is adjusted to 187rpm, and temperature is 216 DEG C, esterification
22 hours;
2nd step: take the double (4- amino -1- naphthalene sulphur of 3,3'- [[3,3'- dimethyl (1,1'- biphenyl) -4,4'- diyl] double (azos)]
Acid) 184 parts of disodium salt, 2,2'- (the chloro- 1,1'- biphenyl -4,4'- bisazo of 3,3'- bis-) double [n- (2- aminomethyl phenyl) -3- oxygen
Generation-butyramide] 159 parts pulverized, powder diameter is 1130 mesh;Add double (3- methoxyl group -4- hydroxyl benzal) -4,4'- two
196 parts of mix homogeneously of imido grpup benzene, are laid in pallet, tiling thickness be 25mm, using dosage be 11.7kgy, energy be
The alpha ray irradiation of 12.3mev 240 minutes, and the β x ray irradiation x of Isodose 240 minutes;
3rd step: be dissolved in 8- methyl-n- [(the 4- hydroxy 3-methoxybenzene that concentration is 98ppm through the mixed-powder that the 2nd step is processed
Base)-methyl] in -125 parts of (anti-) -6- nonenyl amide, add reactor, agitator speed is 130rpm, and temperature is 223 DEG C,
Starting vacuum pump makes the vacuum of reactor reach 2.23mpa, keeps this state response 34 hours;Pressure release is simultaneously passed through radon gas, makes
Reacting kettle inner pressure is 2.16mpa, insulation standing 22 hours;Agitator speed is promoted to 241rpm, and simultaneous reactions kettle pressure release is extremely
0mpa;Sequentially add 131 parts of 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenylazo) -2- naphthalenecarboxamide, 4- [(5- cyano group -
1,6- dihydro -2- hydroxyl -1,4- dimethyl -6- oxo -3- pyridine radicals) azo] 244 parts of benzoic acid -2- phenoxyethyl acrylate is complete
After CL, add 247 parts of stirring mixing of cross-linking agent so that the hydrophile-lipophile balance value of reactor solution is 8.8, insulation standing
24 hours;
4th step: when agitator speed is for 278rpm, sequentially add 317 parts of 4- hydroxy 3-methoxybenzene ethylamine hydrochloride, z-
(1r, s) -307 parts of cis -2,2- dimethyl -3- (the fluoro- 1- acrylic of the chloro- 3,3,3- of 2- tri-) cyclopropane-carboxylic acid and 2,2'- [(2,
4- sodium catchol disulfonate, 3- phenylene) double (azo -4,1- Asia phenyliminos)] 294 parts of double (5- nitrobenzene sodium sulfonate), lift reactor
So as to reach 2.51mpa, temperature is 278 DEG C to pressure, polyreaction 27 hours;After the completion of reaction, reacting kettle inner pressure is down to
0mpa, is cooled to 38 DEG C, and discharging enters molding press and can be prepared by buffer stopper 2-2.
Described cross-linking agent is 4,4'- methylene dianiline (MDA).
Embodiment 3
Manufacture buffer stopper 2-2 of the present invention according to following steps, and count by weight:
1st step: add 3070 parts of the ultra-pure water that electrical conductivity is 4.32 μ s/cm in a kettle., start agitator in reactor, turn
Speed is 94rpm, starts heat pump, makes reactor temperature rise to 110 DEG C;Sequentially add n- (4- hydroxy-3-methoxy-benzene
Methyl) 148 parts of acrylamide, 4- [(5- cyano group -1- ethyl -1,6- dihydro -2- hydroxy-4-methyl -6- oxo -3- pyridine radicals)
Azo] 74 parts of-benzoic acid -2- (2- methoxy ethoxy) ethyl ester, n- (4- hydroxy 3-methoxybenzene methylene) furfuryl amine 88
Part, stir to being completely dissolved, adjusting ph value is 5.89, and agitator speed is adjusted to 159rpm, and temperature is 182 DEG C, esterification
19 hours;
2nd step: take the double (4- amino -1- naphthalene sulphur of 3,3'- [[3,3'- dimethyl (1,1'- biphenyl) -4,4'- diyl] double (azos)]
Acid) 124 parts of disodium salt, 2,2'- (the chloro- 1,1'- biphenyl -4,4'- bisazo of 3,3'- bis-) double [n- (2- aminomethyl phenyl) -3- oxygen
Generation-butyramide] 118 parts pulverized, powder diameter is 1040 mesh;Add double (3- methoxyl group -4- hydroxyl benzal) -4,4'- two
142 parts of mix homogeneously of imido grpup benzene, are laid in pallet, tiling thickness be 20mm, using dosage be 10.3kgy, energy be
The alpha ray irradiation of 11.0mev 200 minutes, and the β x ray irradiation x of Isodose 200 minutes;
3rd step: be dissolved in 8- methyl-n- [(the 4- hydroxy 3-methoxybenzene that concentration is 80ppm through the mixed-powder that the 2nd step is processed
Base)-methyl] in -97 parts of (anti-) -6- nonenyl amide, add reactor, agitator speed is 113rpm, and temperature is 195 DEG C,
Starting vacuum pump makes the vacuum of reactor reach 0.97mpa, keeps this state response 27 hours;Pressure release is simultaneously passed through radon gas, makes
Reacting kettle inner pressure is 1.76mpa, insulation standing 18 hours;Agitator speed is promoted to 212rpm, and simultaneous reactions kettle pressure release is extremely
0mpa;Sequentially add 99 parts of 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenylazo) -2- naphthalenecarboxamide, 4- [(5- cyano group -
1,6- dihydro -2- hydroxyl -1,4- dimethyl -6- oxo -3- pyridine radicals) azo] 202 parts of benzoic acid -2- phenoxyethyl acrylate is complete
After CL, add 208 parts of stirring mixing of cross-linking agent so that the hydrophile-lipophile balance value of reactor solution is 6.9, insulation standing
20 hours;
4th step: when agitator speed is for 243rpm, sequentially add 263 parts of 4- hydroxy 3-methoxybenzene ethylamine hydrochloride, z-
(1r, s) -212 parts of cis -2,2- dimethyl -3- (the fluoro- 1- acrylic of the chloro- 3,3,3- of 2- tri-) cyclopropane-carboxylic acid and 2,2'- [(2,
4- sodium catchol disulfonate, 3- phenylene) double (azo -4,1- Asia phenyliminos)] 192 parts of double (5- nitrobenzene sodium sulfonate), lift reactor
So as to reach 2.06mpa, temperature is 250 DEG C to pressure, polyreaction 24 hours;After the completion of reaction, reacting kettle inner pressure is down to
0mpa, is cooled to 30 DEG C, and discharging enters molding press and can be prepared by buffer stopper 2-2.
Described cross-linking agent is 5- benzyloxy -3- indolecarboxaldehyde.
Reference examples
Reference examples are the buffer stopper of certain brand commercially available.
Embodiment 4
Buffer stopper described in the buffer stopper 2-2 that prepare embodiment 1~3 and reference examples carries out using effect contrast.To two
Person's mass density, compressive strength, tensile strength, heat distortion temperature are counted, and result is as shown in table 1.
As seen from Table 1, buffer stopper 2-2 of the present invention, its mass density, compressive strength, tensile strength, thermal deformation temperature
The indexs such as degree are superior to the product of prior art production.
Additionally, as shown in figure 4, being that buffer stopper 2-2 material compression fatigue intensity of the present invention changes with use time
Statistics.In figure is found out, buffer stopper 2-2 used by embodiment 1~3, and its material compression fatigue intensity is with use time intensity of variation
Significantly it is better than existing product.
Claims (5)
1. one kind is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, comprising: roller-way (1), support (2), liquid
Pressure push rod (3), gripper shoe (4), foundation bolt (5), control chamber (6);It is characterized in that, described support (2) corner is provided with lower margin
Bolt (5), foundation bolt (5) quantity is 8;Before and after described support (2), both sides are provided with hydraulic push rod (3), hydraulic push rod (3) number
Measure as 2, hydraulic push rod (3) and support (2) chain connection;Described support (2) side two ends are provided with gripper shoe (4), gripper shoe
(4) quantity is 2, and gripper shoe (4) is welded and fixed with support (2);Described roller-way (1) is located at support (2) top, wherein roller-way
(1) one end is fixedly connected with gripper shoe (4), the other end and hydraulic push rod (3) chain connection;Described control chamber (6) is located at support
(2) one side bottoms.
2. one kind according to claim 1 is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, and it is special
Levy and be, described roller-way (1) includes: trip shaft induction apparatuss (1-1), the axis of rolling (1-2), side plate (1-3), angled seat vibrating sensor
(1-4), fixing bearing (1-5), angular encoder (1-6);Described side plate (1-3) quantity is 2, and side plate (1-3) material is groove
Steel, is provided with trip shaft induction apparatuss (1-1) and the axis of rolling (1-2), wherein trip shaft induction apparatuss (1-1) between two side plates (1-3)
Positioned at side plate (1-3) one end, trip shaft induction apparatuss (1-1) quantity is 1, and the axis of rolling (1-2) quantity is not less than 7, wherein
Rotating speed measring sensor is set in a piece axis of rolling (1-2);Described fixing bearing (1-5) is located at trip shaft induction apparatuss (1-1) two ends,
Fixing bearing (1-5) quantity is 4;Described angular encoder (1-6) is located at trip shaft induction apparatuss (1-1) two ends center;Described
Angled seat vibrating sensor (1-4) is located at outside two side plate (1-3) one end, and angled seat vibrating sensor (1-4) quantity is 2, angle
Seat vibrating sensor (1-4) is welded and fixed with side plate (1-3);
Rotating speed measring sensor, trip shaft induction apparatuss (1-1), angular encoder (1-6) pass through wire and control phase with control chamber (6)
Even.
3. one kind according to claim 1 is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, and it is special
Levy and be, described support (2) includes: cross bar (2-1), Material Sensor (2-2), vertical pole (2-3), buffer stopper (2-4), buffer bar
(2-5), pressure transducer (2-6), putty sensor (2-7), hydraulic push rod mounting seat (2-8);Described cross bar (2-1), vertical pole
(2-3) it is welded and fixed with buffer bar (2-5) three, vertical pole (2-3) quantity is 2, inside wherein one vertical pole (2-3), be provided with shake
Dynamic limit alarm, cross bar (2-1) and buffer bar (2-5) quantity are 1;Described Material Sensor (2-2) is located at cross bar (2-1)
Center, Material Sensor (2-2) is threadeded with cross bar (2-1);Described putty sensor (2-7) is located in one of vertical pole
(2-3) center, putty sensor (2-7) is threadeded with vertical pole (2-3);Described hydraulic push rod mounting seat (2-8) is located at vertical pole
(2-3) one end, hydraulic push rod mounting seat (2-8) quantity is 2, and hydraulic push rod mounting seat (2-8) is solid with vertical pole (2-3) welding
Fixed;Described buffer bar (2-5) two ends are provided with buffer stopper (2-4), and wherein buffer stopper (2-4) upper surface center is provided with pressure transducer
(2-6);
Described vibrations limit alarm, Material Sensor (2-2), pressure transducer (2-6) and putty sensor (2-7) all pass through
Wire is connected with control chamber (6) control.
4. one kind according to claim 3 is based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler, and it is special
Levy and be, by macromolecular material pressing mold molding, the constituent of buffer stopper (2-2) and manufacture process are such as described buffer stopper (2-2)
Under: one, buffer stopper (2-2) constituent:
Count by weight, n- (4- hydroxy-3-methoxy-benzyl) 99~196 parts of acrylamide, 4- [(5- cyano group -1- second
Base -1,6- dihydro -2- hydroxy-4-methyl -6- oxo -3- pyridine radicals) azo]-benzoic acid -2- (2- methoxy ethoxy) ethyl ester
41~110 parts, n- (4- hydroxy 3-methoxybenzene methylene) 50~127 parts of furfuryl amine, 3,3'- [[3,3'- dimethyl (1,1'-
Biphenyl) -4,4'- diyl] double (azos)] double (4- amino -1-naphthalene sulfonic aicd) 64~184 parts of disodium salt, 2,2'- (3,3'- bis- is chloro-
1,1'- biphenyl -4,4'- bisazo) 77~159 parts of double [n- (2- aminomethyl phenyl) -3- oxo-butyramide], double (3- methoxyl group -
4- hydroxyl benzal) -88~196 parts of 4,4'- di-imidogen benzene, concentration is 8- methyl-the n- [(4- hydroxyl -3- of 62ppm~98ppm
Methoxyphenyl)-methyl] -70~125 parts of (anti-) -6- nonenyl amide, 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenyl
Azo) 67~131 parts of -2- naphthalenecarboxamide, 4- [(5- cyano group -1,6- dihydro -2- hydroxyl-Isosorbide-5-Nitrae-dimethyl -6- oxo -3- pyridine
Base) azo] 161~244 parts of benzoic acid -2- phenoxyethyl acrylate, 170~247 parts of cross-linking agent, 4- hydroxy 3-methoxybenzene second
210~317 parts of amine hydrochlorate, z- (1r, s)-cis -2,2- dimethyl -3- (chloro- 3,3, the 3- tri- fluoro- 1- acrylic of 2-) ring third
118~307 parts of alkane carboxylic acid, 2,2'- [(2,4- sodium catchol disulfonates, 3- phenylene) double (azo -4,1- Asia phenylimino)] double (5- nitros
Benzene sulfonic acid sodium salt) 91~294 parts;
Described cross-linking agent is 3- methoxyl group -5- cresotinic acid aldehyde, 5- benzyloxy -3- indolecarboxaldehyde, in 4,4'- methylene dianiline (MDA)
Any one;
2nd, the manufacture process of buffer stopper (2-2), comprises the steps of
1st step: add 2250~3890 parts of the ultra-pure water that electrical conductivity is 3.39 μ s/cm~5.25 μ s/cm in a kettle., start
Agitator in reactor, rotating speed is 76rpm~112rpm, starts heat pump, makes reactor temperature rise to 89 DEG C~131
℃;Sequentially add n- (4- hydroxy-3-methoxy-benzyl) acrylamide, 4- [(5- cyano group -1- ethyl -1,6- dihydro -2- hydroxyl
Base -4- methyl -6- oxo -3- pyridine radicals) azo]-benzoic acid -2- (2- methoxy ethoxy) ethyl ester, n- (4- hydroxyl -3- first
Phenyl methylene) furfuryl amine, stirs to being completely dissolved, adjusting ph value is 3.41~8.38, and agitator speed is adjusted to
131rpm~187rpm, temperature is 148 DEG C~216 DEG C, esterification 16~22 hours;
2nd step: take the double (4- amino -1- naphthalene sulphur of 3,3'- [[3,3'- dimethyl (1,1'- biphenyl) -4,4'- diyl] double (azos)]
Acid) disodium salt, 2,2'- (the chloro- 1,1'- biphenyl -4,4'- bisazo of 3,3'- bis-) double [n- (2- aminomethyl phenyl) -3- oxo-butyryl
Amine] to be pulverized, powder diameter is 950~1130 mesh;Add double (3- methoxyl group -4- hydroxyl benzal) -4,4'- di-imidogen benzene
Mix homogeneously, is laid in pallet, tiling thickness be 16mm~25mm, using dosage be 8.9kgy~11.7kgy, energy be
The alpha ray irradiation of 9.7mev~12.3mev 160~240 minutes, and the β x ray irradiation x of Isodose 160~240 minutes;
3rd step: through the 2nd step process mixed-powder be dissolved in 8- methyl-n- [(4- hydroxy 3-methoxybenzene base)-methyl]-
In (anti-) -6- nonenyl amide, add reactor, agitator speed is 97rpm~130rpm, temperature is 167 DEG C~223 DEG C,
Starting vacuum pump makes the vacuum of reactor reach -0.29mpa~2.23mpa, keeps this state response 20~34 hours;Pressure release
And it is passed through radon gas, make reacting kettle inner pressure be 1.43mpa~2.16mpa, insulation standing 14~22 hours;Agitator speed is lifted
To 184rpm~241rpm, simultaneous reactions kettle pressure release to 0mpa;Sequentially add 3- hydroxyl-n- (4- methoxyphenyl) -4- (phenyl
Azo) -2- naphthalenecarboxamide, 4- [(5- cyano group -1,6- dihydro -2- hydroxyl -1,4- dimethyl -6- oxo -3- pyridine radicals) azo]
After benzoic acid -2- phenoxyethyl acrylate is completely dissolved, add cross-linking agent stirring mixing so that the hydrophilic and oleophilic of reactor solution is put down
Weighing apparatus value is 5.1~8.8, insulation standing 15~24 hours;
4th step: when agitator speed is for 208rpm~278rpm, sequentially add 4- hydroxy 3-methoxybenzene ethylamine hydrochloride,
Z- (1r, s)-cis -2,2- dimethyl -3- (the fluoro- 1- acrylic of the chloro- 3,3,3- of 2- tri-) cyclopropane-carboxylic acid and 2,2'- [(2,4-
Sodium catchol disulfonate, 3- phenylene) double (azo -4,1- Asia phenyliminos)] double (5- nitrobenzene sodium sulfonates), lift reactor pressure, make
It reaches 1.62mpa~2.51mpa, and temperature is 223 DEG C~278 DEG C, polyreaction 21~27 hours;To react after the completion of reaction
In kettle, pressure is down to 0mpa, is cooled to 27 DEG C~38 DEG C, and discharging enters molding press and can be prepared by buffer stopper (2-2).
5. a kind of method of work based on activated carbon double layer filter medium-long range fluid-pressure transmission wheel tumbler is it is characterised in that be somebody's turn to do
Method includes following step:
1st step: staff's power-on, now hydraulic push rod (3) and roller-way (1) be in initial, set position, now work
Personnel send instruction, and control chamber (6) controls hydraulic push rod (3) to stretch according to instruction, promote roller-way (1) to rotate, meanwhile angle
Degree encoder (1-6), Material Sensor (2-2), pressure transducer (2-6) and putty sensor (2-7) are all started working;
2nd step: in roller-way (1) motor process, angular encoder (1-6) real-time monitoring trip shaft induction apparatuss (1-1) angle of rotation
Degree, when trip shaft induction apparatuss (1-1) rotational angle reaches angular encoder (1-6) setting value, angular encoder (1-6) produces
The signal of telecommunication, is transferred to control chamber (6), and control chamber (6) controls hydraulic push rod (3) stop motion, and makes hydraulic push rod (3) self-locking;
3rd step: during material transferring, now Material Sensor (2-2) and putty sensor (2-7) all real-time monitoring materials
Ruuning situation, when material enters into roller-way (1), now Material Sensor (2-2) detects material and produces the signal of telecommunication, transmission
To control chamber (6);When material congestion is in roller-way (1), now putty sensor (2-7) produces electric signal transmission to control chamber
(6), control chamber (6) produces alarm signal and sends staff to;
4th step: in roller-way (1) repeatedly lifting process, when roller-way (1) is reduced to horizontal level, be now placed in buffer bar (2-
5) buffer stopper (2-4) on produces cushion effect, and meanwhile the pressure transducer (2-6) on buffer stopper (2-4) is started working simultaneously
Produce the signal of telecommunication, transmit to control chamber (6), control chamber (6) is by force information back to staff;As pressure transducer (2-
6), when the higher limit that pressure value reaches its setting is detected, pressure transducer (2-6) produces the warning signal of telecommunication and is transferred to control
Case (6), control chamber (6) produces alarm signal simultaneously and sends staff to.
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CN109649991A (en) * | 2018-12-11 | 2019-04-19 | 龙岩学院 | A kind of trough idler group inner curve raises electrodeless method of adjustment |
CN114988309A (en) * | 2022-08-05 | 2022-09-02 | 中化二建集团有限公司 | Installation and construction method of chlorination reaction kettle enamel equipment |
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