CN105804867A - Papermaking waste residue continuous feeding device - Google Patents

Papermaking waste residue continuous feeding device Download PDF

Info

Publication number
CN105804867A
CN105804867A CN201610187663.8A CN201610187663A CN105804867A CN 105804867 A CN105804867 A CN 105804867A CN 201610187663 A CN201610187663 A CN 201610187663A CN 105804867 A CN105804867 A CN 105804867A
Authority
CN
China
Prior art keywords
pressure
valve
cylinder
solenoid valve
exhaust solenoid
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.)
Granted
Application number
CN201610187663.8A
Other languages
Chinese (zh)
Other versions
CN105804867B (en
Inventor
时建华
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Pan Lie
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to CN201610187663.8A priority Critical patent/CN105804867B/en
Publication of CN105804867A publication Critical patent/CN105804867A/en
Application granted granted Critical
Publication of CN105804867B publication Critical patent/CN105804867B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B65/00Adaptations of engines for special uses not provided for in groups F02B61/00 or F02B63/00; Combinations of engines with other devices, e.g. with non-driven apparatus
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G23/00Driving gear for endless conveyors; Belt- or chain-tensioning arrangements
    • B65G23/22Arrangements or mountings of driving motors
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B33/00Engines characterised by provision of pumps for charging or scavenging
    • F02B33/44Passages conducting the charge from the pump to the engine inlet, e.g. reservoirs
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B33/00Engines characterised by provision of pumps for charging or scavenging
    • F02B33/44Passages conducting the charge from the pump to the engine inlet, e.g. reservoirs
    • F02B33/443Heating of charging air, e.g. for facilitating the starting
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02DCONTROLLING COMBUSTION ENGINES
    • F02D13/00Controlling the engine output power by varying inlet or exhaust valve operating characteristics, e.g. timing
    • F02D13/02Controlling the engine output power by varying inlet or exhaust valve operating characteristics, e.g. timing during engine operation
    • F02D13/0203Variable control of intake and exhaust valves
    • F02D13/0215Variable control of intake and exhaust valves changing the valve timing only
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02FCYLINDERS, PISTONS OR CASINGS, FOR COMBUSTION ENGINES; ARRANGEMENTS OF SEALINGS IN COMBUSTION ENGINES
    • F02F1/00Cylinders; Cylinder heads 
    • F02F1/02Cylinders; Cylinder heads  having cooling means
    • F02F1/10Cylinders; Cylinder heads  having cooling means for liquid cooling
    • F02F1/14Cylinders with means for directing, guiding or distributing liquid stream
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02FCYLINDERS, PISTONS OR CASINGS, FOR COMBUSTION ENGINES; ARRANGEMENTS OF SEALINGS IN COMBUSTION ENGINES
    • F02F3/00Pistons 
    • F02F3/0015Multi-part pistons
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02MSUPPLYING COMBUSTION ENGINES IN GENERAL WITH COMBUSTIBLE MIXTURES OR CONSTITUENTS THEREOF
    • F02M31/00Apparatus for thermally treating combustion-air, fuel, or fuel-air mixture
    • F02M31/02Apparatus for thermally treating combustion-air, fuel, or fuel-air mixture for heating
    • F02M31/04Apparatus for thermally treating combustion-air, fuel, or fuel-air mixture for heating combustion-air or fuel-air mixture
    • F02M31/042Combustion air

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Compressors, Vaccum Pumps And Other Relevant Systems (AREA)
  • Multiple-Way Valves (AREA)

Abstract

The invention discloses a papermaking waste residue continuous feeding device which comprises a conveyer belt, a roller, a feeding hole and an engine system, wherein the engine system is connected with the roller by a crankshaft and drives the roller to rotate, and the roller drives the conveyer belt to move so as to further continuously send papermaking waste residue on the belt to the feeding hole. The papermaking waste residue continuous feeding device is simple and practical in structure and has the advantages of being large in output torque, high in adjustability and free from pollution, and a pneumatic engine can be adopted to replace a conventional motor to drive the roller.

Description

A kind of continuous feeding device for papermaking waste residue
Technical field
The present invention relates to field of papermaking, be specifically related to a kind of continuous feeding device for papermaking waste residue.
Background technology
Waste sludge from paper mill is the inevitable a kind of waste residue produced in paper-making process, and it mainly has: (1) cannot by some waste materials of Commercial cultivation, impurity (in waste paper pulp-making process surplus waste or used plastics etc. out);(2) Sewage process is flocculated the precipitation or scum silica frost that generate;(3) mud that papermaking sewage treatment system biochemistry part produces;(4) house refuse that plant area's office, life etc. produce etc..The process of waste sludge from paper mill is one very heavy operation of papermaking process field.
In present waste sludge from paper mill feed arrangement, one critically important instrument when hobboing cutter is broken, the mode of frequent Practical belt and cylinder carries charging, and generally uses the purpose that the rotation of driven by motor cylinder reaches to carry.Often there is the defects such as energy consumption is higher, output torque is inadequate in this feed arrangement.
Summary of the invention
For the problems referred to above, the present invention provides a kind of continuous feeding device for papermaking waste residue.
The purpose of the present invention realizes by the following technical solutions:
A kind of continuous feeding device for papermaking waste residue, including belt conveyor, cylinder, charging aperture and engine system, described engine system is connected with cylinder by bent axle and is driven cylinder to rotate, and cylinder drives belt conveyor motion, and then the waste sludge from paper mill on belt conveyor is delivered to charging aperture continuously;Described engine system includes air pressure pump, compressed air cylinder, air inlet electromagnetic valve, electromotor, exhaust solenoid valve, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region being disposed over and the low-pressure area being arranged below, one end of higher-pressure region is connected with described air pressure pump by high pressure entry valve, the other end is connected with described air inlet electromagnetic valve by high-pressure outlet valve, one end of low-pressure area is connected with described air pressure pump by low-pressure inlet valve, the other end passes sequentially through inlet non return check valve, low tension outlet valve is connected with described air inlet electromagnetic valve, air inlet electromagnetic valve provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve and exhaust solenoid valve are the guide electromagnetic valve of dead electricity normally closed type;
Also include switching relief pipeline, one end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve with described low tension outlet valve, the other end is connected with the top of described low-pressure area, switching relief pipeline is provided with pressure release electromagnetic valve, when switching from high pressure toward low pressure, after high-pressure outlet valve cuts out, first the force value p1 on pipeline after detection high-pressure outlet valve, and it is compared with the pressure p 2 of low-pressure area, as p1 > p2, pressure release electromagnetic valve is opened, pressure in switching relief valve is let out rapidly to low-pressure area, when p1≤p2 being detected, close pressure release electromagnetic valve, and open air inlet electromagnetic valve;The caliber of described switching relief pipeline is the 1/4 of higher-pressure region outlet caliber;
Described electromotor includes cylinder, piston, the bent axle that is connected with piston, and bent axle includes crank, connecting rod and flywheel, and flywheel is arranged on one end of bent axle;Described exhaust solenoid valve is arranged on waste pipe road, discharge duct after exhaust solenoid valve is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, and adjustment valve of separately leading up to enters thermoregulator, for the outlet hot water's temperature to thermoregulator;Described heat-exchange system includes the thermoregulator that form is pipe heat exchanger, the pre-thermal sleeve being arranged on the pipeline of the air inlet electromagnetic valve left and right sides, the heating muff that is arranged on cylinder, the heat source of thermoregulator constantly supplies water to pre-thermal sleeve and heating muff by heat-exchanger pump, and the hot water after heating flows out through the outlet of sleeve pipe;The outer casing wall of described cylinder is additionally provided with aluminum dividing plate, aluminum dividing plate is annular, it is arranged between outer casing wall and heating muff, aluminum dividing plate is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies, also being arranged at intervals with 3 on outer casing wall between adjacent two circumferential heat conduction fixed bodies and be folded to the baffle that angle is 45 °, the height of described baffle is the 2/3 of circumferentially fixed height;On aluminum dividing plate, the staggered current-sharing mouth of a river being provided with multiple circle, the inner surface of aluminum dividing plate is provided with multiple spaced apart projection, and the height of projection is 1/5 of the distance between aluminum dividing plate and outer casing wall;The upper surface of described piston is additionally provided with the plunger of multiple cone raised up, and the surface of plunger is provided with the spiral salient that multiple adjoining spiral is in opposite direction;Described piston entirety is cylindrical, its center outer surface is provided with the cannelure of a depression, cannelure is provided with multiple spaced fixing slot, fixing slot is connected with soft thing, described soft thing is through the wall contacts in the gap piston and cylinder Yu cylinder, and the distance between adjacent two described fixing slot is h;
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle to the controller of air motor with the form of count pulse;Gas pressure in the cylinder that described controller record is detected by pressure transducer, and temperature after temperature, exhaust solenoid valve before gas temperature in the cylinder detected by temperature sensor, exhaust solenoid valve;After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve before detection crank angle α, the pressure p of cylinder interior gas, cylinder interior gas temperature T, exhaust solenoid valve, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air:Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, cylinder interior gas temperature when T ' is for a upper loop ends, temperature before exhaust solenoid valve when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inletAs pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve, wherein pomFor the specified unlatching pressure of exhaust solenoid valve,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder, pminFor often circulating the minimum operating pressure of cylinder, k2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve bite correction factor, and T1 ', T2 ' respectively go up before the exhaust solenoid valve of a circulation temperature after temperature and exhaust solenoid valve;Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve;After exhaust solenoid valve is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve is again turned on, until when crank angle α reaches exhaust valve closure angleTime, close exhaust solenoid valve, wherein α2For the threshold value being manually set,For isothermal exc. item, λ2Being the second invariant, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve is opened, exhaust solenoid valve can control to adjust the aperture of valve according to Temperature Feedback value before and after the internal cylinder temperature average of a upper circulation and air inlet electromagnetic valve to the adjustment valve of thermoregulator, thus the hot water temperature regulated in pre-thermal sleeve and heating muff;Make λ1=0.0011, λ2=0.0020, h=10mm.
Preferably, the lead that air inlet electromagnetic valve is opened isThe lead that exhaust solenoid valve is opened isThe lead that exhaust solenoid valve is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve and exhaust solenoid valve adopt is identical.
Having the beneficial effect that of this continuous feeding device for papermaking waste residue is simple and practical, can realize the continuous feed of waste sludge from paper mill;Air motor is utilized to replace motor to drive cylinder, it is possible to obtain bigger output torque;And devise a kind of novel engine system, it can select the compression air of different pressures according to rotating speed, and in order to overcome the shortcoming easily producing " pressure vacuum phase " the process switched from high-pressure air source toward low-pressure gas source, utilize pressure release electromagnetic valve and controller to coordinate dexterously and ensure that the smooth of electromotor is exerted oneself;The supply air line of this engine system is not provided with air relief valve, it is possible to greatly reduce because reducing pressure the energy loss caused;The Quasi-isothermal expansion process of gas and pressure at expulsion are organically combined, temperature conditions according to each circulation and the priori value of pressure at expulsion determine the shut-in time of air inlet electromagnetic valve, just can reach good efficiency when not increasing additional investment only by the algorithm of amendment controller and improve effect, both ensure that the pressure at expulsion actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve simultaneously, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and the computing formula adopted can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve close moment further;According to the supply scheme without air relief valve, it is contemplated that the pressurized of cylinder increases, air leakage increases and the needs of heat exchange, has redesigned the air cylinder structure being suitable for, and this cylinder heat transfer effect is strong, and bearing capacity is higher, and gas leakage significantly reduces.
Accompanying drawing explanation
The invention will be further described to utilize accompanying drawing, but the embodiment in accompanying drawing does not constitute any limitation of the invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to the following drawings.
Fig. 1 is the overall structure figure of a kind of continuous feeding device for papermaking waste residue;
Fig. 2 is the structural representation of engine system;
Fig. 3 is the sectional view after the complete installation of cylinder;
Fig. 4 is the structural representation of aluminum dividing plate;
Cylinder is expanded into the schematic diagram of deflector after plane by Fig. 5;
Fig. 6 is the structural representation of piston.
Accompanying drawing labelling: belt conveyor-1;Cylinder-2;Charging aperture-3;Air pressure pump-11;Low-pressure inlet valve-12;Low tension outlet valve-13;High pressure entry valve-14;High-pressure outlet valve-15;Low-pressure area-16;Higher-pressure region-17;Pressure release electromagnetic valve-18;Pre-thermal sleeve-19;Heating muff-20;Air inlet electromagnetic valve-21;Exhaust solenoid valve-22;Regulate valve-23;Thermoregulator-24;Cylinder-25;Piston-26;Baffle-27;The current-sharing mouth of a river-28;Circumference heat conduction fixed body-29;Projection-30;Cannelure-31;Fixing slot-32;Plunger-33;Spiral salient-34;Soft thing-35;Aluminum dividing plate-36.
Detailed description of the invention
The invention will be further described with the following Examples.
Embodiment 1:
A kind of continuous feeding device for papermaking waste residue as shown in Figure 1, including belt conveyor 1, cylinder 2, charging aperture 3 and engine system, described engine system is connected with cylinder 2 by bent axle and is driven cylinder 2 to rotate, cylinder 2 drives belt conveyor 1 to move, and then the waste sludge from paper mill on belt conveyor 1 is delivered to charging aperture 3 continuously;
As shown in Figure 2, described engine system includes air pressure pump 2, compressed air cylinder, air inlet electromagnetic valve 21, electromotor, exhaust solenoid valve 22, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region 17 being disposed over and the low-pressure area 16 being arranged below, one end of higher-pressure region 17 is connected with described air pressure pump 11 by high pressure entry valve 14, the other end is connected with described air inlet electromagnetic valve 21 by high-pressure outlet valve 15, one end of low-pressure area 16 is connected with described air pressure pump 11 by low-pressure inlet valve 12, the other end passes sequentially through inlet non return check valve, low tension outlet valve 13 is connected with described air inlet electromagnetic valve 21, air inlet electromagnetic valve 21 provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve 21 and exhaust solenoid valve 22 are the guide electromagnetic valve of dead electricity normally closed type.The compression air of higher-pressure region 17 is for using when high engine speeds rotates, pressure limit is 15MPa~30MPa, the compression air of low-pressure area 16 is for using when low engine speed rotates, and pressure limit is 2MPa~10MPa, and concrete switching condition can set by practical situation.nullSimultaneously,Inventor it have been investigated that,When the compression air of high pressure switches to the compression air of low-pressure,Due to be air inlet electromagnetic valve 21 close state switch over,Therefore the phenomenon that usually can build the pressure in the pipeline after high-pressure outlet valve 15,Cause that low tension outlet valve 12 cannot overcome the pressure in pipeline to exert oneself after opening,Air inlet electromagnetic valve 21 often has " the pressure vacuum phase " of a bit of time after opening,Cause that exerting oneself of electromotor is unsmooth,Therefore switching relief pipeline it is additionally provided with,One end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve 15 with described low tension outlet valve 13,The other end is connected with the top of described low-pressure area 16,Switching relief pipeline is provided with pressure release electromagnetic valve 18,When switching from high pressure toward low pressure,After high-pressure outlet valve 15 cuts out,First controller detects the force value p1 after high-pressure outlet valve 15 on pipeline,And it is compared with the pressure p 2 of low-pressure area 16,As p1 > p2,Pressure release electromagnetic valve 18 is opened,At this time the pressure in pressure release electromagnetic valve 18 is let out rapidly to low-pressure area 16,When p1≤p2 being detected,Close pressure release electromagnetic valve 18.Consider saving cost and pressure release effect, the caliber of described switching relief pipeline is set to higher-pressure region 17 and exports the 1/4 of caliber.
Described electromotor includes cylinder 25, piston 26, the bent axle that is connected with piston 26, and bent axle includes crank, connecting rod and flywheel, and flywheel (not shown) is arranged on one end of bent axle;Described exhaust solenoid valve 22 is arranged on waste pipe road, discharge duct after exhaust solenoid valve 22 is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, adjustment valve 23 of separately leading up to enters thermoregulator 24, for outlet hot water's temperature of thermoregulator 24 is adjusted, keep the expansion process of gas as close possible to isothermal expansion process, to improve exerting oneself of electromotor.Described heat-exchange system includes the thermoregulator 24 that form is pipe heat exchanger, the pre-thermal sleeve 19 being arranged on the pipeline of air inlet electromagnetic valve 21 left and right sides, the heating muff 20 that is arranged on cylinder 25, arrange pre-thermal sleeve 20 in order that preheats the compression air entering cylinder 25, and ensure before and after air inlet electromagnetic valve 21 temperature difference uniformly, reduce thermal stress.The heat source of thermoregulator 24 connects the thermal source of (such as room heater) from solar thermal collector or other convenience, constantly being supplied water to pre-thermal sleeve 19 and heating muff 20 by heat-exchanger pump (not shown), the hot water after heating flows out through the outlet of sleeve pipe.
As shown in Figure 3-4, the outer casing wall of described cylinder 25 is additionally provided with aluminum dividing plate 36, aluminum dividing plate 36 is annular, it is arranged between outer casing wall and heating muff 20, aluminum dividing plate 36 is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies 29, heat conduction fixed body 29 is except fixation, what take due to this programme on the one hand is be not provided with air relief valve after compressed air cylinder, therefore admission pressure is very big, circumference heat conduction is fixed, 29 effects that can play stiffened cylinder 25 intensity, on the other hand owing to heat conduction fixed body 29 have employed Heat Conduction Material metals such as () such as aluminum bronzes, heat exchange can be strengthened.
In order to intuitively, Fig. 5 gives schematic diagram when cylinder expands into plane, outer casing wall between adjacent two circumferential heat conduction fixed bodies 29 is also arranged at intervals with 3 and is folded to the baffle 27 that angle is 45 °, height is circumferentially fixed height the 2/3 of described baffle 27, baffle 27 can effectively increase the hot water time of staying in cylinder 25 outside wall surface, improves heat transfer effect.The staggered current-sharing mouth of a river 28 being provided with multiple circle on aluminum dividing plate 36, water in sleeve pipe flows into and out from the current-sharing mouth of a river 28, the purpose one arranging aluminum dividing plate 36 is that the thermal conduction characteristic utilizing aluminum metal strengthens heat exchange, two is utilize aluminum dividing plate 36 and the current-sharing mouth of a river 28 to slow down water flow velocity and uniform flux, to further enhance heat exchange and to make cylinder uniformly heat as far as possible;The inner surface of aluminum dividing plate 36 is provided with multiple spaced apart projection 30, for to enter hot water turbulization effect to strengthen heat exchange, the height of projection 30 is also unfit to do get Tai Gao simultaneously, otherwise easily cause flow dead, if the height of contrary projection 30 is too low, turbulence effects is not good, through repeated tests, by the 1/5 of the distance that the height of projection 30 is set between aluminum dividing plate 36 and outer casing wall.
As shown in Figure 6, the upper surface of described piston 26 is additionally provided with the plunger 33 of multiple cone raised up, the surface of plunger 33 is provided with multiple adjoining spiral spiral salient in opposite direction 34, namely previous transport screw, later reverse acting spiral ..., the purpose of plunger 33 and spiral salient 34 is charge air flow to carry out rationalization with by increasing turbulent flow in cylinder and heat convection between stiffened cylinder inwall and gas in the jar;Described piston 26 is overall cylindrical, its center outer surface is provided with the cannelure 31 of a depression, cannelure 31 is provided with multiple spaced fixing slot 32, fixing slot 32 is connected with soft thing 35 (such as Cotton Gossypii, sponge etc.), described soft thing 35 is through the wall contacts in the gap piston 26 and cylinder 25 Yu cylinder 25, and the distance between adjacent two described fixing slot 32 is h.Inventor it have been investigated that, when adopting the air supply system without air relief valve, due to the increase of cylinder air pressure, the gap air leak between cylinder 25 and piston 26 can be bigger than the system air leakage of band air relief valve, therefore specific design must be adopted to reduce gap air leak, to improve the efficiency of electromotor.Adopt Cotton Gossypii, sponge etc. to have a better bubble-tight soft thing 35, and adopt less interval to arrange, can gas leakage between effectively less cylinder and piston;Experiments show that simultaneously, owing to supply gas pressure is higher, frictional force between soft thing 35 and cylinder 25 is almost negligible relative to the kinetic energy of piston 26, and interval arrange and the soft thing 35 of discontinuous layout also effectively reduces friction, thus improve the efficiency of electromotor.
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder (not shown), and it, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle with the form of count pulse to the controller of air motor;The force value of the gas pressure in the cylinder 25 that described controller record is detected by pressure transducer etc., and the temperature value of temperature etc. after temperature, exhaust solenoid valve 22 before gas temperature in the cylinder 25 detected by temperature sensor, exhaust solenoid valve 22.
After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value α, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve 21;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve 22 before gas temperature T, exhaust solenoid valve 22 in the pressure p of gas, cylinder 25 in detection crank angle α, cylinder 25, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air: Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, TGas temperature in cylinder 25 during for a upper loop ends, temperature before the exhaust solenoid valve 22 when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inlet If a upper circulation and the temperature difference measured in real time increase, illustrate that temperature reduction amount increases, then now A1 also increases, and closes closed term by isothermal air inletImproving calculated pressure at expulsion priori value, the shut-in time of air inlet electromagnetic valve 21 in advance, plays and prevents too fast expansion, reduces the temperature difference so that overall process is more nearly isothermal expansion process and then improves the effect that electromotor is exerted oneself.As pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve 21, wherein pomFor the specified unlatching pressure of exhaust solenoid valve 22,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder 25, pminFor often circulating the minimum operating pressure of cylinder 25, can be seen that from the expression formula of k1 the close moment of the air inlet electromagnetic valve 21 drawn according to the method both ensure that the actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;K2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve 22 bite correction factor, T1 ', T2 ' respectively goes up before the exhaust solenoid valve 22 of a circulation temperature after temperature and exhaust solenoid valve 22, owing to exhaust solenoid valve 2 is in the end of expansion process, it is easy to the phenomenon occurring low temperature frosting to cause bite, | T1 '-T2 ' | shows that more greatly in a upper circulation, the front and back temperature difference of exhaust solenoid valve 22 is more big, exhaust solenoid valve 22 is more susceptible to frosting and causes bite, now in this circulation, k2 is automatically increased to improve the admission pressure threshold values of cylinder 25, thus increasing the inlet pressure of exhaust solenoid valve 22 to ensure that it is opened smoothly, when circulating for first from command of execution k2=1.Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve 22;After exhaust solenoid valve 22 is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve 22 is again turned on, until when crank angle α reaches exhaust valve closure angle Time, close exhaust solenoid valve 22, α2For the threshold value being manually set, λ2It is the second invariant, by isothermal exc. itemPlaying the effect closing exhaust solenoid valve 22 in advance, it is assumed herein that corner α constantly increases, often turning over a circle increases by 360 °, by the expression formula of A2 its value known always less than 1, works as the temperature differenceDuring increase, A2 reduces, then the closedown condition value of exhaust solenoid valve 22 is more low, so that crank angle α can faster arrive closedown condition value, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve 22 is opened, the regulating valve 23 and can control to adjust the aperture of valve 23 according to Temperature Feedback value before and after temperature average and air inlet electromagnetic valve 21 in the cylinder 25 of a upper circulation of thermoregulator 24, thus the hot water temperature regulated in pre-thermal sleeve 19 and heating muff 20.Make λ1=0.0011, λ2=0.0020, h=10mm.
Preferably, because electromagnetic valve to off or needs the response time from breaking to leading to, so for the break-make moment controlling electromagnetic valve more accurately, need on the basis of ideal position, set certain lead, and this lead can not be definite value, namely it not only should be relevant with the intrinsic response time of electromagnetic valve, also should be relevant with the concrete angular velocity omega of bent axle (being obtained by corner α), experiment proves that such variable lead can be effectively improved the levels of precision of electromagnetic valve lead, thus improving the efficiency of engine system further.Because intake and exhaust electromagnetic valve used is dead electricity normally closed solenoid valve, so energising is opened after postponing, close after power-off delay.Set: the pulse generation of the rotational angle rotary encoder of bent axle is measured several times, and 0-1023 pulse number scope is corresponding with 0-360 °.The ideal position that air inlet electromagnetic valve 21 is opened is 0 (0 °), and the ideal position of closedown is that pressure at expulsion priori value opens, with exhaust solenoid valve 22, the position that pressure is equal;The ideal position that exhaust solenoid valve 22 is opened is 512 (180 °), and the ideal position of closedown is 0 (0 °).Then the power on/off position of intake and exhaust electromagnetic valve should shift to an earlier date to some extent than desired action position, and amount in advance various can be calculated by following by the rotating speed of the energising of electromagnetic valve, power-off response time and bent axle: the lead that air inlet electromagnetic valve 21 is opened isThe lead that exhaust solenoid valve 22 is opened isThe lead that exhaust solenoid valve 22 is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve 21 and exhaust solenoid valve 22 adopt is identical, unit: ms.
In the continuous feeding device for papermaking waste residue of this embodiment, simple and practical, the continuous feed of waste sludge from paper mill can be realized;Air motor is utilized to replace motor to drive cylinder, it is possible to obtain bigger output torque;And devise a kind of novel engine system, it can select the compression air of different pressures according to rotating speed, and in order to overcome the shortcoming easily producing " pressure vacuum phase " the process switched from high-pressure air source toward low-pressure gas source, utilize pressure release electromagnetic valve 18 and controller to coordinate dexterously and ensure that the smooth of electromotor is exerted oneself;The supply air line of this engine system is not provided with air relief valve, it is possible to greatly reduce because reducing pressure the energy loss caused;The Quasi-isothermal expansion process of gas and pressure at expulsion are organically combined, temperature conditions according to each circulation and the priori value of pressure at expulsion determine the shut-in time of air inlet electromagnetic valve 21, just can reach good efficiency when not increasing additional investment only by the algorithm of amendment controller and improve effect, both ensure that the pressure at expulsion actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22 simultaneously, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and the computing formula adopted can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;According to the supply scheme without air relief valve, it is contemplated that the pressurized of cylinder 25 increases, air leakage increases and the needs of heat exchange, has redesigned the air cylinder structure being suitable for, and this cylinder heat transfer effect is strong, and bearing capacity is higher, and gas leakage significantly reduces, and makes λ1=0.0011, λ2=0.0020, h=10mm, experiments show that the more not engineered premise height of its whole efficiency 5%, air leakage decreases 7%, achieves beyond thought effect.
Embodiment 2:
A kind of continuous feeding device for papermaking waste residue as shown in Figure 1, including belt conveyor 1, cylinder 2, charging aperture 3 and engine system, described engine system is connected with cylinder 2 by bent axle and is driven cylinder 2 to rotate, cylinder 2 drives belt conveyor 1 to move, and then the waste sludge from paper mill on belt conveyor 1 is delivered to charging aperture 3 continuously;
As shown in Figure 2, described engine system includes air pressure pump 2, compressed air cylinder, air inlet electromagnetic valve 21, electromotor, exhaust solenoid valve 22, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region 17 being disposed over and the low-pressure area 16 being arranged below, one end of higher-pressure region 17 is connected with described air pressure pump 11 by high pressure entry valve 14, the other end is connected with described air inlet electromagnetic valve 21 by high-pressure outlet valve 15, one end of low-pressure area 16 is connected with described air pressure pump 11 by low-pressure inlet valve 12, the other end passes sequentially through inlet non return check valve, low tension outlet valve 13 is connected with described air inlet electromagnetic valve 21, air inlet electromagnetic valve 21 provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve 21 and exhaust solenoid valve 22 are the guide electromagnetic valve of dead electricity normally closed type.The compression air of higher-pressure region 17 is for using when high engine speeds rotates, pressure limit is 15MPa~30MPa, the compression air of low-pressure area 16 is for using when low engine speed rotates, and pressure limit is 2MPa~10MPa, and concrete switching condition can set by practical situation.nullSimultaneously,Inventor it have been investigated that,When the compression air of high pressure switches to the compression air of low-pressure,Due to be air inlet electromagnetic valve 21 close state switch over,Therefore the phenomenon that usually can build the pressure in the pipeline after high-pressure outlet valve 15,Cause that low tension outlet valve 12 cannot overcome the pressure in pipeline to exert oneself after opening,Air inlet electromagnetic valve 21 often has " the pressure vacuum phase " of a bit of time after opening,Cause that exerting oneself of electromotor is unsmooth,Therefore switching relief pipeline it is additionally provided with,One end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve 15 with described low tension outlet valve 13,The other end is connected with the top of described low-pressure area 16,Switching relief pipeline is provided with pressure release electromagnetic valve 18,When switching from high pressure toward low pressure,After high-pressure outlet valve 15 cuts out,First controller detects the force value p1 after high-pressure outlet valve 15 on pipeline,And it is compared with the pressure p 2 of low-pressure area 16,As p1 > p2,Pressure release electromagnetic valve 18 is opened,At this time the pressure in pressure release electromagnetic valve 18 is let out rapidly to low-pressure area 16,When p1≤p2 being detected,Close pressure release electromagnetic valve 18.Consider saving cost and pressure release effect, the caliber of described switching relief pipeline is set to higher-pressure region 17 and exports the 1/4 of caliber.
Described electromotor includes cylinder 25, piston 26, the bent axle that is connected with piston 26, and bent axle includes crank, connecting rod and flywheel, and flywheel (not shown) is arranged on one end of bent axle;Described exhaust solenoid valve 22 is arranged on waste pipe road, discharge duct after exhaust solenoid valve 22 is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, adjustment valve 23 of separately leading up to enters thermoregulator 24, for outlet hot water's temperature of thermoregulator 24 is adjusted, keep the expansion process of gas as close possible to isothermal expansion process, to improve exerting oneself of electromotor.Described heat-exchange system includes the thermoregulator 24 that form is pipe heat exchanger, the pre-thermal sleeve 19 being arranged on the pipeline of air inlet electromagnetic valve 21 left and right sides, the heating muff 20 that is arranged on cylinder 25, arrange pre-thermal sleeve 20 in order that preheats the compression air entering cylinder 25, and ensure before and after air inlet electromagnetic valve 21 temperature difference uniformly, reduce thermal stress.The heat source of thermoregulator 24 connects the thermal source of (such as room heater) from solar thermal collector or other convenience, constantly being supplied water to pre-thermal sleeve 19 and heating muff 20 by heat-exchanger pump (not shown), the hot water after heating flows out through the outlet of sleeve pipe.
As shown in Figure 3-4, the outer casing wall of described cylinder 25 is additionally provided with aluminum dividing plate 36, aluminum dividing plate 36 is annular, it is arranged between outer casing wall and heating muff 20, aluminum dividing plate 36 is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies 29, heat conduction fixed body 29 is except fixation, what take due to this programme on the one hand is be not provided with air relief valve after compressed air cylinder, therefore admission pressure is very big, circumference heat conduction is fixed, 29 effects that can play stiffened cylinder 25 intensity, on the other hand owing to heat conduction fixed body 29 have employed Heat Conduction Material metals such as () such as aluminum bronzes, heat exchange can be strengthened.
In order to intuitively, Fig. 5 gives schematic diagram when cylinder expands into plane, outer casing wall between adjacent two circumferential heat conduction fixed bodies 29 is also arranged at intervals with 3 and is folded to the baffle 27 that angle is 45 °, height is circumferentially fixed height the 2/3 of described baffle 27, baffle 27 can effectively increase the hot water time of staying in cylinder 25 outside wall surface, improves heat transfer effect.The staggered current-sharing mouth of a river 28 being provided with multiple circle on aluminum dividing plate 36, water in sleeve pipe flows into and out from the current-sharing mouth of a river 28, the purpose one arranging aluminum dividing plate 36 is that the thermal conduction characteristic utilizing aluminum metal strengthens heat exchange, two is utilize aluminum dividing plate 36 and the current-sharing mouth of a river 28 to slow down water flow velocity and uniform flux, to further enhance heat exchange and to make cylinder uniformly heat as far as possible;The inner surface of aluminum dividing plate 36 is provided with multiple spaced apart projection 30, for to enter hot water turbulization effect to strengthen heat exchange, the height of projection 30 is also unfit to do get Tai Gao simultaneously, otherwise easily cause flow dead, if the height of contrary projection 30 is too low, turbulence effects is not good, through repeated tests, by the 1/5 of the distance that the height of projection 30 is set between aluminum dividing plate 36 and outer casing wall.
As shown in Figure 6, the upper surface of described piston 26 is additionally provided with the plunger 33 of multiple cone raised up, the surface of plunger 33 is provided with multiple adjoining spiral spiral salient in opposite direction 34, namely previous transport screw, later reverse acting spiral ..., the purpose of plunger 33 and spiral salient 34 is charge air flow to carry out rationalization with by increasing turbulent flow in cylinder and heat convection between stiffened cylinder inwall and gas in the jar;Described piston 26 is overall cylindrical, its center outer surface is provided with the cannelure 31 of a depression, cannelure 31 is provided with multiple spaced fixing slot 32, fixing slot 32 is connected with soft thing 35 (such as Cotton Gossypii, sponge etc.), described soft thing 35 is through the wall contacts in the gap piston 26 and cylinder 25 Yu cylinder 25, and the distance between adjacent two described fixing slot 32 is h.Inventor it have been investigated that, when adopting the air supply system without air relief valve, due to the increase of cylinder air pressure, the gap air leak between cylinder 25 and piston 26 can be bigger than the system air leakage of band air relief valve, therefore specific design must be adopted to reduce gap air leak, to improve the efficiency of electromotor.Adopt Cotton Gossypii, sponge etc. to have a better bubble-tight soft thing 35, and adopt less interval to arrange, can gas leakage between effectively less cylinder and piston;Experiments show that simultaneously, owing to supply gas pressure is higher, frictional force between soft thing 35 and cylinder 25 is almost negligible relative to the kinetic energy of piston 26, and interval arrange and the soft thing 35 of discontinuous layout also effectively reduces friction, thus improve the efficiency of electromotor.
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder (not shown), and it, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle with the form of count pulse to the controller of air motor;The force value of the gas pressure in the cylinder 25 that described controller record is detected by pressure transducer etc., and the temperature value of temperature etc. after temperature, exhaust solenoid valve 22 before gas temperature in the cylinder 25 detected by temperature sensor, exhaust solenoid valve 22.
After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value α, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve 21;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve 22 before gas temperature T, exhaust solenoid valve 22 in the pressure p of gas, cylinder 25 in detection crank angle α, cylinder 25, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air: Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, gas temperature in the cylinder 25 when T ' is for a upper loop ends, temperature before the exhaust solenoid valve 22 when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inlet If a upper circulation and the temperature difference measured in real time increase, illustrate that temperature reduction amount increases, then now A1 also increases, and closes closed term by isothermal air inletImproving calculated pressure at expulsion priori value, the shut-in time of air inlet electromagnetic valve 21 in advance, plays and prevents too fast expansion, reduces the temperature difference so that overall process is more nearly isothermal expansion process and then improves the effect that electromotor is exerted oneself.As pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve 21, wherein pomFor the specified unlatching pressure of exhaust solenoid valve 22,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder 25, pminFor often circulating the minimum operating pressure of cylinder 25, can be seen that from the expression formula of k1 the close moment of the air inlet electromagnetic valve 21 drawn according to the method both ensure that the actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;K2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve 22 bite correction factor, T1 ', T2 ' respectively goes up before the exhaust solenoid valve 22 of a circulation temperature after temperature and exhaust solenoid valve 22, owing to exhaust solenoid valve 2 is in the end of expansion process, it is easy to the phenomenon occurring low temperature frosting to cause bite, | T1 '-T2 ' | shows that more greatly in a upper circulation, the front and back temperature difference of exhaust solenoid valve 22 is more big, exhaust solenoid valve 22 is more susceptible to frosting and causes bite, now in this circulation, k2 is automatically increased to improve the admission pressure threshold values of cylinder 25, thus increasing the inlet pressure of exhaust solenoid valve 22 to ensure that it is opened smoothly, when circulating for first from command of execution k2=1.Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve 22;After exhaust solenoid valve 22 is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve 22 is again turned on, until when crank angle α reaches exhaust valve closure angle Time, close exhaust solenoid valve 22, α2For the threshold value being manually set, λ2It is the second invariant, by isothermal exc. itemPlaying the effect closing exhaust solenoid valve 22 in advance, it is assumed herein that corner α constantly increases, often turning over a circle increases by 360 °, by the expression formula of A2 its value known always less than 1, works as the temperature differenceDuring increase, A2 reduces, then the closedown condition value of exhaust solenoid valve 22 is more low, so that crank angle α can faster arrive closedown condition value, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve 22 is opened, the regulating valve 23 and can control to adjust the aperture of valve 23 according to Temperature Feedback value before and after temperature average and air inlet electromagnetic valve 21 in the cylinder 25 of a upper circulation of thermoregulator 24, thus the hot water temperature regulated in pre-thermal sleeve 19 and heating muff 20.Make λ1=0.0013, λ2=0.0022, h=9mm.
Preferably, because electromagnetic valve to off or needs the response time from breaking to leading to, so for the break-make moment controlling electromagnetic valve more accurately, need on the basis of ideal position, set certain lead, and this lead can not be definite value, namely it not only should be relevant with the intrinsic response time of electromagnetic valve, also should be relevant with the concrete angular velocity omega of bent axle (being obtained by corner α), experiment proves that such variable lead can be effectively improved the levels of precision of electromagnetic valve lead, thus improving the efficiency of engine system further.Because intake and exhaust electromagnetic valve used is dead electricity normally closed solenoid valve, so energising is opened after postponing, close after power-off delay.Set: the pulse generation of the rotational angle rotary encoder of bent axle is measured several times, and 0-1023 pulse number scope is corresponding with 0-360 °.The ideal position that air inlet electromagnetic valve 21 is opened is 0 (0 °), and the ideal position of closedown is that pressure at expulsion priori value opens, with exhaust solenoid valve 22, the position that pressure is equal;The ideal position that exhaust solenoid valve 22 is opened is 512 (180 °), and the ideal position of closedown is 0 (0 °).Then the power on/off position of intake and exhaust electromagnetic valve should shift to an earlier date to some extent than desired action position, and amount in advance various can be calculated by following by the rotating speed of the energising of electromagnetic valve, power-off response time and bent axle: the lead that air inlet electromagnetic valve 21 is opened isThe lead that exhaust solenoid valve 22 is opened isThe lead that exhaust solenoid valve 22 is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve 21 and exhaust solenoid valve 22 adopt is identical, unit: ms.
In the continuous feeding device for papermaking waste residue of this embodiment, simple and practical, the continuous feed of waste sludge from paper mill can be realized;Air motor is utilized to replace motor to drive cylinder, it is possible to obtain bigger output torque;And devise a kind of novel engine system, it can select the compression air of different pressures according to rotating speed, and in order to overcome the shortcoming easily producing " pressure vacuum phase " the process switched from high-pressure air source toward low-pressure gas source, utilize pressure release electromagnetic valve 18 and controller to coordinate dexterously and ensure that the smooth of electromotor is exerted oneself;The supply air line of this engine system is not provided with air relief valve, it is possible to greatly reduce because reducing pressure the energy loss caused;The Quasi-isothermal expansion process of gas and pressure at expulsion are organically combined, temperature conditions according to each circulation and the priori value of pressure at expulsion determine the shut-in time of air inlet electromagnetic valve 21, just can reach good efficiency when not increasing additional investment only by the algorithm of amendment controller and improve effect, both ensure that the pressure at expulsion actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22 simultaneously, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and the computing formula adopted can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;According to the supply scheme without air relief valve, it is contemplated that the pressurized of cylinder 25 increases, air leakage increases and the needs of heat exchange, has redesigned the air cylinder structure being suitable for, and this cylinder heat transfer effect is strong, and bearing capacity is higher, and gas leakage significantly reduces, and makes λ1=0.0013, λ2=0.0022, h=9mm, experiments show that the more not engineered premise height of its whole efficiency 5.8%, air leakage decreases 8.1%, achieves beyond thought effect.
Embodiment 3:
A kind of continuous feeding device for papermaking waste residue as shown in Figure 1, including belt conveyor 1, cylinder 2, charging aperture 3 and engine system, described engine system is connected with cylinder 2 by bent axle and is driven cylinder 2 to rotate, cylinder 2 drives belt conveyor 1 to move, and then the waste sludge from paper mill on belt conveyor 1 is delivered to charging aperture 3 continuously;
As shown in Figure 2, described engine system includes air pressure pump 2, compressed air cylinder, air inlet electromagnetic valve 21, electromotor, exhaust solenoid valve 22, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region 17 being disposed over and the low-pressure area 16 being arranged below, one end of higher-pressure region 17 is connected with described air pressure pump 11 by high pressure entry valve 14, the other end is connected with described air inlet electromagnetic valve 21 by high-pressure outlet valve 15, one end of low-pressure area 16 is connected with described air pressure pump 11 by low-pressure inlet valve 12, the other end passes sequentially through inlet non return check valve, low tension outlet valve 13 is connected with described air inlet electromagnetic valve 21, air inlet electromagnetic valve 21 provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve 21 and exhaust solenoid valve 22 are the guide electromagnetic valve of dead electricity normally closed type.The compression air of higher-pressure region 17 is for using when high engine speeds rotates, pressure limit is 15MPa~30MPa, the compression air of low-pressure area 16 is for using when low engine speed rotates, and pressure limit is 2MPa~10MPa, and concrete switching condition can set by practical situation.nullSimultaneously,Inventor it have been investigated that,When the compression air of high pressure switches to the compression air of low-pressure,Due to be air inlet electromagnetic valve 21 close state switch over,Therefore the phenomenon that usually can build the pressure in the pipeline after high-pressure outlet valve 15,Cause that low tension outlet valve 12 cannot overcome the pressure in pipeline to exert oneself after opening,Air inlet electromagnetic valve 21 often has " the pressure vacuum phase " of a bit of time after opening,Cause that exerting oneself of electromotor is unsmooth,Therefore switching relief pipeline it is additionally provided with,One end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve 15 with described low tension outlet valve 13,The other end is connected with the top of described low-pressure area 16,Switching relief pipeline is provided with pressure release electromagnetic valve 18,When switching from high pressure toward low pressure,After high-pressure outlet valve 15 cuts out,First controller detects the force value p1 after high-pressure outlet valve 15 on pipeline,And it is compared with the pressure p 2 of low-pressure area 16,As p1 > p2,Pressure release electromagnetic valve 18 is opened,At this time the pressure in pressure release electromagnetic valve 18 is let out rapidly to low-pressure area 16,When p1≤p2 being detected,Close pressure release electromagnetic valve 18.Consider saving cost and pressure release effect, the caliber of described switching relief pipeline is set to higher-pressure region 17 and exports the 1/4 of caliber.
Described electromotor includes cylinder 25, piston 26, the bent axle that is connected with piston 26, and bent axle includes crank, connecting rod and flywheel, and flywheel (not shown) is arranged on one end of bent axle;Described exhaust solenoid valve 22 is arranged on waste pipe road, discharge duct after exhaust solenoid valve 22 is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, adjustment valve 23 of separately leading up to enters thermoregulator 24, for outlet hot water's temperature of thermoregulator 24 is adjusted, keep the expansion process of gas as close possible to isothermal expansion process, to improve exerting oneself of electromotor.Described heat-exchange system includes the thermoregulator 24 that form is pipe heat exchanger, the pre-thermal sleeve 19 being arranged on the pipeline of air inlet electromagnetic valve 21 left and right sides, the heating muff 20 that is arranged on cylinder 25, arrange pre-thermal sleeve 20 in order that preheats the compression air entering cylinder 25, and ensure before and after air inlet electromagnetic valve 21 temperature difference uniformly, reduce thermal stress.The heat source of thermoregulator 24 connects the thermal source of (such as room heater) from solar thermal collector or other convenience, constantly being supplied water to pre-thermal sleeve 19 and heating muff 20 by heat-exchanger pump (not shown), the hot water after heating flows out through the outlet of sleeve pipe.
As shown in Figure 3-4, the outer casing wall of described cylinder 25 is additionally provided with aluminum dividing plate 36, aluminum dividing plate 36 is annular, it is arranged between outer casing wall and heating muff 20, aluminum dividing plate 36 is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies 29, heat conduction fixed body 29 is except fixation, what take due to this programme on the one hand is be not provided with air relief valve after compressed air cylinder, therefore admission pressure is very big, circumference heat conduction is fixed, 29 effects that can play stiffened cylinder 25 intensity, on the other hand owing to heat conduction fixed body 29 have employed Heat Conduction Material metals such as () such as aluminum bronzes, heat exchange can be strengthened.
In order to intuitively, Fig. 5 gives schematic diagram when cylinder expands into plane, outer casing wall between adjacent two circumferential heat conduction fixed bodies 29 is also arranged at intervals with 3 and is folded to the baffle 27 that angle is 45 °, height is circumferentially fixed height the 2/3 of described baffle 27, baffle 27 can effectively increase the hot water time of staying in cylinder 25 outside wall surface, improves heat transfer effect.The staggered current-sharing mouth of a river 28 being provided with multiple circle on aluminum dividing plate 36, water in sleeve pipe flows into and out from the current-sharing mouth of a river 28, the purpose one arranging aluminum dividing plate 36 is that the thermal conduction characteristic utilizing aluminum metal strengthens heat exchange, two is utilize aluminum dividing plate 36 and the current-sharing mouth of a river 28 to slow down water flow velocity and uniform flux, to further enhance heat exchange and to make cylinder uniformly heat as far as possible;The inner surface of aluminum dividing plate 36 is provided with multiple spaced apart projection 30, for to enter hot water turbulization effect to strengthen heat exchange, the height of projection 30 is also unfit to do get Tai Gao simultaneously, otherwise easily cause flow dead, if the height of contrary projection 30 is too low, turbulence effects is not good, through repeated tests, by the 1/5 of the distance that the height of projection 30 is set between aluminum dividing plate 36 and outer casing wall.
As shown in Figure 6, the upper surface of described piston 26 is additionally provided with the plunger 33 of multiple cone raised up, the surface of plunger 33 is provided with multiple adjoining spiral spiral salient in opposite direction 34, namely previous transport screw, later reverse acting spiral ..., the purpose of plunger 33 and spiral salient 34 is charge air flow to carry out rationalization with by increasing turbulent flow in cylinder and heat convection between stiffened cylinder inwall and gas in the jar;Described piston 26 is overall cylindrical, its center outer surface is provided with the cannelure 31 of a depression, cannelure 31 is provided with multiple spaced fixing slot 32, fixing slot 32 is connected with soft thing 35 (such as Cotton Gossypii, sponge etc.), described soft thing 35 is through the wall contacts in the gap piston 26 and cylinder 25 Yu cylinder 25, and the distance between adjacent two described fixing slot 32 is h.Inventor it have been investigated that, when adopting the air supply system without air relief valve, due to the increase of cylinder air pressure, the gap air leak between cylinder 25 and piston 26 can be bigger than the system air leakage of band air relief valve, therefore specific design must be adopted to reduce gap air leak, to improve the efficiency of electromotor.Adopt Cotton Gossypii, sponge etc. to have a better bubble-tight soft thing 35, and adopt less interval to arrange, can gas leakage between effectively less cylinder and piston;Experiments show that simultaneously, owing to supply gas pressure is higher, frictional force between soft thing 35 and cylinder 25 is almost negligible relative to the kinetic energy of piston 26, and interval arrange and the soft thing 35 of discontinuous layout also effectively reduces friction, thus improve the efficiency of electromotor.
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder (not shown), and it, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle with the form of count pulse to the controller of air motor;The force value of the gas pressure in the cylinder 25 that described controller record is detected by pressure transducer etc., and the temperature value of temperature etc. after temperature, exhaust solenoid valve 22 before gas temperature in the cylinder 25 detected by temperature sensor, exhaust solenoid valve 22.
After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value α, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve 21;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve 22 before gas temperature T, exhaust solenoid valve 22 in the pressure p of gas, cylinder 25 in detection crank angle α, cylinder 25, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air: Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, gas temperature in the cylinder 25 when T ' is for a upper loop ends, temperature before the exhaust solenoid valve 22 when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inlet If a upper circulation and the temperature difference measured in real time increase, illustrate that temperature reduction amount increases, then now A1 also increases, and closes closed term by isothermal air inletImproving calculated pressure at expulsion priori value, the shut-in time of air inlet electromagnetic valve 21 in advance, plays and prevents too fast expansion, reduces the temperature difference so that overall process is more nearly isothermal expansion process and then improves the effect that electromotor is exerted oneself.As pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve 21, wherein pomFor the specified unlatching pressure of exhaust solenoid valve 22,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder 25, pminFor often circulating the minimum operating pressure of cylinder 25, can be seen that from the expression formula of k1 the close moment of the air inlet electromagnetic valve 21 drawn according to the method both ensure that the actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;K2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve 22 bite correction factor, T1 ', T2 ' respectively goes up before the exhaust solenoid valve 22 of a circulation temperature after temperature and exhaust solenoid valve 22, owing to exhaust solenoid valve 2 is in the end of expansion process, it is easy to the phenomenon occurring low temperature frosting to cause bite, | T1 '-T2 ' | shows that more greatly in a upper circulation, the front and back temperature difference of exhaust solenoid valve 22 is more big, exhaust solenoid valve 22 is more susceptible to frosting and causes bite, now in this circulation, k2 is automatically increased to improve the admission pressure threshold values of cylinder 25, thus increasing the inlet pressure of exhaust solenoid valve 22 to ensure that it is opened smoothly, when circulating for first from command of execution k2=1.Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve 22;After exhaust solenoid valve 22 is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve 22 is again turned on, until when crank angle α reaches exhaust valve closure angle Time, close exhaust solenoid valve 22, α2For the threshold value being manually set, λ2It is the second invariant, by isothermal exc. itemPlaying the effect closing exhaust solenoid valve 22 in advance, it is assumed herein that corner α constantly increases, often turning over a circle increases by 360 °, by the expression formula of A2 its value known always less than 1, works as the temperature differenceDuring increase, A2 reduces, then the closedown condition value of exhaust solenoid valve 22 is more low, so that crank angle α can faster arrive closedown condition value, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve 22 is opened, the regulating valve 23 and can control to adjust the aperture of valve 23 according to Temperature Feedback value before and after temperature average and air inlet electromagnetic valve 21 in the cylinder 25 of a upper circulation of thermoregulator 24, thus the hot water temperature regulated in pre-thermal sleeve 19 and heating muff 20.Make λ1=0.0015, λ2=0.0024, h=8mm.
Preferably, because electromagnetic valve to off or needs the response time from breaking to leading to, so for the break-make moment controlling electromagnetic valve more accurately, need on the basis of ideal position, set certain lead, and this lead can not be definite value, namely it not only should be relevant with the intrinsic response time of electromagnetic valve, also should be relevant with the concrete angular velocity omega of bent axle (being obtained by corner α), experiment proves that such variable lead can be effectively improved the levels of precision of electromagnetic valve lead, thus improving the efficiency of engine system further.Because intake and exhaust electromagnetic valve used is dead electricity normally closed solenoid valve, so energising is opened after postponing, close after power-off delay.Set: the pulse generation of the rotational angle rotary encoder of bent axle is measured several times, and 0-1023 pulse number scope is corresponding with 0-360 °.The ideal position that air inlet electromagnetic valve 21 is opened is 0 (0 °), and the ideal position of closedown is that pressure at expulsion priori value opens, with exhaust solenoid valve 22, the position that pressure is equal;The ideal position that exhaust solenoid valve 22 is opened is 512 (180 °), and the ideal position of closedown is 0 (0 °).Then the power on/off position of intake and exhaust electromagnetic valve should shift to an earlier date to some extent than desired action position, and amount in advance various can be calculated by following by the rotating speed of the energising of electromagnetic valve, power-off response time and bent axle: the lead that air inlet electromagnetic valve 21 is opened isThe lead that exhaust solenoid valve 22 is opened isThe lead that exhaust solenoid valve 22 is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve 21 and exhaust solenoid valve 22 adopt is identical, unit: ms.
In the continuous feeding device for papermaking waste residue of this embodiment, simple and practical, the continuous feed of waste sludge from paper mill can be realized;Air motor is utilized to replace motor to drive cylinder, it is possible to obtain bigger output torque;And devise a kind of novel engine system, it can select the compression air of different pressures according to rotating speed, and in order to overcome the shortcoming easily producing " pressure vacuum phase " the process switched from high-pressure air source toward low-pressure gas source, utilize pressure release electromagnetic valve 18 and controller to coordinate dexterously and ensure that the smooth of electromotor is exerted oneself;The supply air line of this engine system is not provided with air relief valve, it is possible to greatly reduce because reducing pressure the energy loss caused;The Quasi-isothermal expansion process of gas and pressure at expulsion are organically combined, temperature conditions according to each circulation and the priori value of pressure at expulsion determine the shut-in time of air inlet electromagnetic valve 21, just can reach good efficiency when not increasing additional investment only by the algorithm of amendment controller and improve effect, both ensure that the pressure at expulsion actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22 simultaneously, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and the computing formula adopted can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;According to the supply scheme without air relief valve, it is contemplated that the pressurized of cylinder 25 increases, air leakage increases and the needs of heat exchange, has redesigned the air cylinder structure being suitable for, and this cylinder heat transfer effect is strong, and bearing capacity is higher, and gas leakage significantly reduces, and makes λ1=0.0015, λ2=0.0024, h=8mm, experiments show that the more not engineered premise height of its whole efficiency 6.0%, air leakage decreases 8.8%, achieves beyond thought effect.
Embodiment 4:
A kind of continuous feeding device for papermaking waste residue as shown in Figure 1, including belt conveyor 1, cylinder 2, charging aperture 3 and engine system, described engine system is connected with cylinder 2 by bent axle and is driven cylinder 2 to rotate, cylinder 2 drives belt conveyor 1 to move, and then the waste sludge from paper mill on belt conveyor 1 is delivered to charging aperture 3 continuously;
As shown in Figure 2, described engine system includes air pressure pump 2, compressed air cylinder, air inlet electromagnetic valve 21, electromotor, exhaust solenoid valve 22, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region 17 being disposed over and the low-pressure area 16 being arranged below, one end of higher-pressure region 17 is connected with described air pressure pump 11 by high pressure entry valve 14, the other end is connected with described air inlet electromagnetic valve 21 by high-pressure outlet valve 15, one end of low-pressure area 16 is connected with described air pressure pump 11 by low-pressure inlet valve 12, the other end passes sequentially through inlet non return check valve, low tension outlet valve 13 is connected with described air inlet electromagnetic valve 21, air inlet electromagnetic valve 21 provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve 21 and exhaust solenoid valve 22 are the guide electromagnetic valve of dead electricity normally closed type.The compression air of higher-pressure region 17 is for using when high engine speeds rotates, pressure limit is 15MPa~30MPa, the compression air of low-pressure area 16 is for using when low engine speed rotates, and pressure limit is 2MPa~10MPa, and concrete switching condition can set by practical situation.nullSimultaneously,Inventor it have been investigated that,When the compression air of high pressure switches to the compression air of low-pressure,Due to be air inlet electromagnetic valve 21 close state switch over,Therefore the phenomenon that usually can build the pressure in the pipeline after high-pressure outlet valve 15,Cause that low tension outlet valve 12 cannot overcome the pressure in pipeline to exert oneself after opening,Air inlet electromagnetic valve 21 often has " the pressure vacuum phase " of a bit of time after opening,Cause that exerting oneself of electromotor is unsmooth,Therefore switching relief pipeline it is additionally provided with,One end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve 15 with described low tension outlet valve 13,The other end is connected with the top of described low-pressure area 16,Switching relief pipeline is provided with pressure release electromagnetic valve 18,When switching from high pressure toward low pressure,After high-pressure outlet valve 15 cuts out,First controller detects the force value p1 after high-pressure outlet valve 15 on pipeline,And it is compared with the pressure p 2 of low-pressure area 16,As p1 > p2,Pressure release electromagnetic valve 18 is opened,At this time the pressure in pressure release electromagnetic valve 18 is let out rapidly to low-pressure area 16,When p1≤p2 being detected,Close pressure release electromagnetic valve 18.Consider saving cost and pressure release effect, the caliber of described switching relief pipeline is set to higher-pressure region 17 and exports the 1/4 of caliber.
Described electromotor includes cylinder 25, piston 26, the bent axle that is connected with piston 26, and bent axle includes crank, connecting rod and flywheel, and flywheel (not shown) is arranged on one end of bent axle;Described exhaust solenoid valve 22 is arranged on waste pipe road, discharge duct after exhaust solenoid valve 22 is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, adjustment valve 23 of separately leading up to enters thermoregulator 24, for outlet hot water's temperature of thermoregulator 24 is adjusted, keep the expansion process of gas as close possible to isothermal expansion process, to improve exerting oneself of electromotor.Described heat-exchange system includes the thermoregulator 24 that form is pipe heat exchanger, the pre-thermal sleeve 19 being arranged on the pipeline of air inlet electromagnetic valve 21 left and right sides, the heating muff 20 that is arranged on cylinder 25, arrange pre-thermal sleeve 20 in order that preheats the compression air entering cylinder 25, and ensure before and after air inlet electromagnetic valve 21 temperature difference uniformly, reduce thermal stress.The heat source of thermoregulator 24 connects the thermal source of (such as room heater) from solar thermal collector or other convenience, constantly being supplied water to pre-thermal sleeve 19 and heating muff 20 by heat-exchanger pump (not shown), the hot water after heating flows out through the outlet of sleeve pipe.
As shown in Figure 3-4, the outer casing wall of described cylinder 25 is additionally provided with aluminum dividing plate 36, aluminum dividing plate 36 is annular, it is arranged between outer casing wall and heating muff 20, aluminum dividing plate 36 is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies 29, heat conduction fixed body 29 is except fixation, what take due to this programme on the one hand is be not provided with air relief valve after compressed air cylinder, therefore admission pressure is very big, circumference heat conduction is fixed, 29 effects that can play stiffened cylinder 25 intensity, on the other hand owing to heat conduction fixed body 29 have employed Heat Conduction Material metals such as () such as aluminum bronzes, heat exchange can be strengthened.
In order to intuitively, Fig. 5 gives schematic diagram when cylinder expands into plane, outer casing wall between adjacent two circumferential heat conduction fixed bodies 29 is also arranged at intervals with 3 and is folded to the baffle 27 that angle is 45 °, height is circumferentially fixed height the 2/3 of described baffle 27, baffle 27 can effectively increase the hot water time of staying in cylinder 25 outside wall surface, improves heat transfer effect.The staggered current-sharing mouth of a river 28 being provided with multiple circle on aluminum dividing plate 36, water in sleeve pipe flows into and out from the current-sharing mouth of a river 28, the purpose one arranging aluminum dividing plate 36 is that the thermal conduction characteristic utilizing aluminum metal strengthens heat exchange, two is utilize aluminum dividing plate 36 and the current-sharing mouth of a river 28 to slow down water flow velocity and uniform flux, to further enhance heat exchange and to make cylinder uniformly heat as far as possible;The inner surface of aluminum dividing plate 36 is provided with multiple spaced apart projection 30, for to enter hot water turbulization effect to strengthen heat exchange, the height of projection 30 is also unfit to do get Tai Gao simultaneously, otherwise easily cause flow dead, if the height of contrary projection 30 is too low, turbulence effects is not good, through repeated tests, by the 1/5 of the distance that the height of projection 30 is set between aluminum dividing plate 36 and outer casing wall.
As shown in Figure 6, the upper surface of described piston 26 is additionally provided with the plunger 33 of multiple cone raised up, the surface of plunger 33 is provided with multiple adjoining spiral spiral salient in opposite direction 34, namely previous transport screw, later reverse acting spiral ..., the purpose of plunger 33 and spiral salient 34 is charge air flow to carry out rationalization with by increasing turbulent flow in cylinder and heat convection between stiffened cylinder inwall and gas in the jar;Described piston 26 is overall cylindrical, its center outer surface is provided with the cannelure 31 of a depression, cannelure 31 is provided with multiple spaced fixing slot 32, fixing slot 32 is connected with soft thing 35 (such as Cotton Gossypii, sponge etc.), described soft thing 35 is through the wall contacts in the gap piston 26 and cylinder 25 Yu cylinder 25, and the distance between adjacent two described fixing slot 32 is h.Inventor it have been investigated that, when adopting the air supply system without air relief valve, due to the increase of cylinder air pressure, the gap air leak between cylinder 25 and piston 26 can be bigger than the system air leakage of band air relief valve, therefore specific design must be adopted to reduce gap air leak, to improve the efficiency of electromotor.Adopt Cotton Gossypii, sponge etc. to have a better bubble-tight soft thing 35, and adopt less interval to arrange, can gas leakage between effectively less cylinder and piston;Experiments show that simultaneously, owing to supply gas pressure is higher, frictional force between soft thing 35 and cylinder 25 is almost negligible relative to the kinetic energy of piston 26, and interval arrange and the soft thing 35 of discontinuous layout also effectively reduces friction, thus improve the efficiency of electromotor.
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder (not shown), and it, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle with the form of count pulse to the controller of air motor;The force value of the gas pressure in the cylinder 25 that described controller record is detected by pressure transducer etc., and the temperature value of temperature etc. after temperature, exhaust solenoid valve 22 before gas temperature in the cylinder 25 detected by temperature sensor, exhaust solenoid valve 22.
After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value α, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve 21;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve 22 before gas temperature T, exhaust solenoid valve 22 in the pressure p of gas, cylinder 25 in detection crank angle α, cylinder 25, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air: Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, gas temperature in the cylinder 25 when T ' is for a upper loop ends, temperature before the exhaust solenoid valve 22 when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inlet If a upper circulation and the temperature difference measured in real time increase, illustrate that temperature reduction amount increases, then now A1 also increases, and closes closed term by isothermal air inletImproving calculated pressure at expulsion priori value, the shut-in time of air inlet electromagnetic valve 21 in advance, plays and prevents too fast expansion, reduces the temperature difference so that overall process is more nearly isothermal expansion process and then improves the effect that electromotor is exerted oneself.As pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve 21, wherein pomFor the specified unlatching pressure of exhaust solenoid valve 22,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder 25, pminFor often circulating the minimum operating pressure of cylinder 25, can be seen that from the expression formula of k1 the close moment of the air inlet electromagnetic valve 21 drawn according to the method both ensure that the actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;K2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve 22 bite correction factor, T1 ', T2 ' respectively goes up before the exhaust solenoid valve 22 of a circulation temperature after temperature and exhaust solenoid valve 22, owing to exhaust solenoid valve 2 is in the end of expansion process, it is easy to the phenomenon occurring low temperature frosting to cause bite, | T1 '-T2 ' | shows that more greatly in a upper circulation, the front and back temperature difference of exhaust solenoid valve 22 is more big, exhaust solenoid valve 22 is more susceptible to frosting and causes bite, now in this circulation, k2 is automatically increased to improve the admission pressure threshold values of cylinder 25, thus increasing the inlet pressure of exhaust solenoid valve 22 to ensure that it is opened smoothly, when circulating for first from command of execution k2=1.Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve 22;After exhaust solenoid valve 22 is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve 22 is again turned on, until when crank angle α reaches exhaust valve closure angle Time, close exhaust solenoid valve 22, α2For the threshold value being manually set, λ2It is the second invariant, by isothermal exc. itemPlaying the effect closing exhaust solenoid valve 22 in advance, it is assumed herein that corner α constantly increases, often turning over a circle increases by 360 °, by the expression formula of A2 its value known always less than 1, works as the temperature differenceDuring increase, A2 reduces, then the closedown condition value of exhaust solenoid valve 22 is more low, so that crank angle α can faster arrive closedown condition value, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve 22 is opened, the regulating valve 23 and can control to adjust the aperture of valve 23 according to Temperature Feedback value before and after temperature average and air inlet electromagnetic valve 21 in the cylinder 25 of a upper circulation of thermoregulator 24, thus the hot water temperature regulated in pre-thermal sleeve 19 and heating muff 20.Make λ1=0.0017, λ2=0.0026, h=7mm.
Preferably, because electromagnetic valve to off or needs the response time from breaking to leading to, so for the break-make moment controlling electromagnetic valve more accurately, need on the basis of ideal position, set certain lead, and this lead can not be definite value, namely it not only should be relevant with the intrinsic response time of electromagnetic valve, also should be relevant with the concrete angular velocity omega of bent axle (being obtained by corner α), experiment proves that such variable lead can be effectively improved the levels of precision of electromagnetic valve lead, thus improving the efficiency of engine system further.Because intake and exhaust electromagnetic valve used is dead electricity normally closed solenoid valve, so energising is opened after postponing, close after power-off delay.Set: the pulse generation of the rotational angle rotary encoder of bent axle is measured several times, and 0-1023 pulse number scope is corresponding with 0-360 °.The ideal position that air inlet electromagnetic valve 21 is opened is 0 (0 °), and the ideal position of closedown is that pressure at expulsion priori value opens, with exhaust solenoid valve 22, the position that pressure is equal;The ideal position that exhaust solenoid valve 22 is opened is 512 (180 °), and the ideal position of closedown is 0 (0 °).Then the power on/off position of intake and exhaust electromagnetic valve should shift to an earlier date to some extent than desired action position, and amount in advance various can be calculated by following by the rotating speed of the energising of electromagnetic valve, power-off response time and bent axle: the lead that air inlet electromagnetic valve 21 is opened isThe lead that exhaust solenoid valve 22 is opened isThe lead that exhaust solenoid valve 22 is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve 21 and exhaust solenoid valve 22 adopt is identical, unit: ms.
In the continuous feeding device for papermaking waste residue of this embodiment, simple and practical, the continuous feed of waste sludge from paper mill can be realized;Air motor is utilized to replace motor to drive cylinder, it is possible to obtain bigger output torque;And devise a kind of novel engine system, it can select the compression air of different pressures according to rotating speed, and in order to overcome the shortcoming easily producing " pressure vacuum phase " the process switched from high-pressure air source toward low-pressure gas source, utilize pressure release electromagnetic valve 18 and controller to coordinate dexterously and ensure that the smooth of electromotor is exerted oneself;The supply air line of this engine system is not provided with air relief valve, it is possible to greatly reduce because reducing pressure the energy loss caused;The Quasi-isothermal expansion process of gas and pressure at expulsion are organically combined, temperature conditions according to each circulation and the priori value of pressure at expulsion determine the shut-in time of air inlet electromagnetic valve 21, just can reach good efficiency when not increasing additional investment only by the algorithm of amendment controller and improve effect, both ensure that the pressure at expulsion actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22 simultaneously, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and the computing formula adopted can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;According to the supply scheme without air relief valve, it is contemplated that the pressurized of cylinder 25 increases, air leakage increases and the needs of heat exchange, has redesigned the air cylinder structure being suitable for, and this cylinder heat transfer effect is strong, and bearing capacity is higher, and gas leakage significantly reduces, and makes λ1=0.0017, λ2=0.0026, h=7mm, experiments show that the more not engineered premise height of its whole efficiency 6.5%, air leakage decreases 9.4%, achieves beyond thought effect.
Embodiment 5:
A kind of continuous feeding device for papermaking waste residue as shown in Figure 1, including belt conveyor 1, cylinder 2, charging aperture 3 and engine system, described engine system is connected with cylinder 2 by bent axle and is driven cylinder 2 to rotate, cylinder 2 drives belt conveyor 1 to move, and then the waste sludge from paper mill on belt conveyor 1 is delivered to charging aperture 3 continuously;
As shown in Figure 2, described engine system includes air pressure pump 2, compressed air cylinder, air inlet electromagnetic valve 21, electromotor, exhaust solenoid valve 22, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region 17 being disposed over and the low-pressure area 16 being arranged below, one end of higher-pressure region 17 is connected with described air pressure pump 11 by high pressure entry valve 14, the other end is connected with described air inlet electromagnetic valve 21 by high-pressure outlet valve 15, one end of low-pressure area 16 is connected with described air pressure pump 11 by low-pressure inlet valve 12, the other end passes sequentially through inlet non return check valve, low tension outlet valve 13 is connected with described air inlet electromagnetic valve 21, air inlet electromagnetic valve 21 provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve 21 and exhaust solenoid valve 22 are the guide electromagnetic valve of dead electricity normally closed type.The compression air of higher-pressure region 17 is for using when high engine speeds rotates, pressure limit is 15MPa~30MPa, the compression air of low-pressure area 16 is for using when low engine speed rotates, and pressure limit is 2MPa~10MPa, and concrete switching condition can set by practical situation.nullSimultaneously,Inventor it have been investigated that,When the compression air of high pressure switches to the compression air of low-pressure,Due to be air inlet electromagnetic valve 21 close state switch over,Therefore the phenomenon that usually can build the pressure in the pipeline after high-pressure outlet valve 15,Cause that low tension outlet valve 12 cannot overcome the pressure in pipeline to exert oneself after opening,Air inlet electromagnetic valve 21 often has " the pressure vacuum phase " of a bit of time after opening,Cause that exerting oneself of electromotor is unsmooth,Therefore switching relief pipeline it is additionally provided with,One end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve 15 with described low tension outlet valve 13,The other end is connected with the top of described low-pressure area 16,Switching relief pipeline is provided with pressure release electromagnetic valve 18,When switching from high pressure toward low pressure,After high-pressure outlet valve 15 cuts out,First controller detects the force value p1 after high-pressure outlet valve 15 on pipeline,And it is compared with the pressure p 2 of low-pressure area 16,As p1 > p2,Pressure release electromagnetic valve 18 is opened,At this time the pressure in pressure release electromagnetic valve 18 is let out rapidly to low-pressure area 16,When p1≤p2 being detected,Close pressure release electromagnetic valve 18.Consider saving cost and pressure release effect, the caliber of described switching relief pipeline is set to higher-pressure region 17 and exports the 1/4 of caliber.
Described electromotor includes cylinder 25, piston 26, the bent axle that is connected with piston 26, and bent axle includes crank, connecting rod and flywheel, and flywheel (not shown) is arranged on one end of bent axle;Described exhaust solenoid valve 22 is arranged on waste pipe road, discharge duct after exhaust solenoid valve 22 is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, adjustment valve 23 of separately leading up to enters thermoregulator 24, for outlet hot water's temperature of thermoregulator 24 is adjusted, keep the expansion process of gas as close possible to isothermal expansion process, to improve exerting oneself of electromotor.Described heat-exchange system includes the thermoregulator 24 that form is pipe heat exchanger, the pre-thermal sleeve 19 being arranged on the pipeline of air inlet electromagnetic valve 21 left and right sides, the heating muff 20 that is arranged on cylinder 25, arrange pre-thermal sleeve 20 in order that preheats the compression air entering cylinder 25, and ensure before and after air inlet electromagnetic valve 21 temperature difference uniformly, reduce thermal stress.The heat source of thermoregulator 24 connects the thermal source of (such as room heater) from solar thermal collector or other convenience, constantly being supplied water to pre-thermal sleeve 19 and heating muff 20 by heat-exchanger pump (not shown), the hot water after heating flows out through the outlet of sleeve pipe.
As shown in Figure 3-4, the outer casing wall of described cylinder 25 is additionally provided with aluminum dividing plate 36, aluminum dividing plate 36 is annular, it is arranged between outer casing wall and heating muff 20, aluminum dividing plate 36 is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies 29, heat conduction fixed body 29 is except fixation, what take due to this programme on the one hand is be not provided with air relief valve after compressed air cylinder, therefore admission pressure is very big, circumference heat conduction is fixed, 29 effects that can play stiffened cylinder 25 intensity, on the other hand owing to heat conduction fixed body 29 have employed Heat Conduction Material metals such as () such as aluminum bronzes, heat exchange can be strengthened.
In order to intuitively, Fig. 5 gives schematic diagram when cylinder expands into plane, outer casing wall between adjacent two circumferential heat conduction fixed bodies 29 is also arranged at intervals with 3 and is folded to the baffle 27 that angle is 45 °, height is circumferentially fixed height the 2/3 of described baffle 27, baffle 27 can effectively increase the hot water time of staying in cylinder 25 outside wall surface, improves heat transfer effect.The staggered current-sharing mouth of a river 28 being provided with multiple circle on aluminum dividing plate 36, water in sleeve pipe flows into and out from the current-sharing mouth of a river 28, the purpose one arranging aluminum dividing plate 36 is that the thermal conduction characteristic utilizing aluminum metal strengthens heat exchange, two is utilize aluminum dividing plate 36 and the current-sharing mouth of a river 28 to slow down water flow velocity and uniform flux, to further enhance heat exchange and to make cylinder uniformly heat as far as possible;The inner surface of aluminum dividing plate 36 is provided with multiple spaced apart projection 30, for to enter hot water turbulization effect to strengthen heat exchange, the height of projection 30 is also unfit to do get Tai Gao simultaneously, otherwise easily cause flow dead, if the height of contrary projection 30 is too low, turbulence effects is not good, through repeated tests, by the 1/5 of the distance that the height of projection 30 is set between aluminum dividing plate 36 and outer casing wall.
As shown in Figure 6, the upper surface of described piston 26 is additionally provided with the plunger 33 of multiple cone raised up, the surface of plunger 33 is provided with multiple adjoining spiral spiral salient in opposite direction 34, namely previous transport screw, later reverse acting spiral ..., the purpose of plunger 33 and spiral salient 34 is charge air flow to carry out rationalization with by increasing turbulent flow in cylinder and heat convection between stiffened cylinder inwall and gas in the jar;Described piston 26 is overall cylindrical, its center outer surface is provided with the cannelure 31 of a depression, cannelure 31 is provided with multiple spaced fixing slot 32, fixing slot 32 is connected with soft thing 35 (such as Cotton Gossypii, sponge etc.), described soft thing 35 is through the wall contacts in the gap piston 26 and cylinder 25 Yu cylinder 25, and the distance between adjacent two described fixing slot 32 is h.Inventor it have been investigated that, when adopting the air supply system without air relief valve, due to the increase of cylinder air pressure, the gap air leak between cylinder 25 and piston 26 can be bigger than the system air leakage of band air relief valve, therefore specific design must be adopted to reduce gap air leak, to improve the efficiency of electromotor.Adopt Cotton Gossypii, sponge etc. to have a better bubble-tight soft thing 35, and adopt less interval to arrange, can gas leakage between effectively less cylinder and piston;Experiments show that simultaneously, owing to supply gas pressure is higher, frictional force between soft thing 35 and cylinder 25 is almost negligible relative to the kinetic energy of piston 26, and interval arrange and the soft thing 35 of discontinuous layout also effectively reduces friction, thus improve the efficiency of electromotor.
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder (not shown), and it, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle with the form of count pulse to the controller of air motor;The force value of the gas pressure in the cylinder 25 that described controller record is detected by pressure transducer etc., and the temperature value of temperature etc. after temperature, exhaust solenoid valve 22 before gas temperature in the cylinder 25 detected by temperature sensor, exhaust solenoid valve 22.
After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value α, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve 21;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve 22 before gas temperature T, exhaust solenoid valve 22 in the pressure p of gas, cylinder 25 in detection crank angle α, cylinder 25, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air: Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, gas temperature in the cylinder 25 when T ' is for a upper loop ends, temperature before the exhaust solenoid valve 22 when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inlet If a upper circulation and the temperature difference measured in real time increase, illustrate that temperature reduction amount increases, then now A1 also increases, and closes closed term by isothermal air inletImproving calculated pressure at expulsion priori value, the shut-in time of air inlet electromagnetic valve 21 in advance, plays and prevents too fast expansion, reduces the temperature difference so that overall process is more nearly isothermal expansion process and then improves the effect that electromotor is exerted oneself.As pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve 21, wherein pomFor the specified unlatching pressure of exhaust solenoid valve 22,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder 25, pminFor often circulating the minimum operating pressure of cylinder 25, can be seen that from the expression formula of k1 the close moment of the air inlet electromagnetic valve 21 drawn according to the method both ensure that the actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;K2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve 22 bite correction factor, T1 ', T2 ' respectively goes up before the exhaust solenoid valve 22 of a circulation temperature after temperature and exhaust solenoid valve 22, owing to exhaust solenoid valve 2 is in the end of expansion process, it is easy to the phenomenon occurring low temperature frosting to cause bite, | T1 '-T2 ' | shows that more greatly in a upper circulation, the front and back temperature difference of exhaust solenoid valve 22 is more big, exhaust solenoid valve 22 is more susceptible to frosting and causes bite, now in this circulation, k2 is automatically increased to improve the admission pressure threshold values of cylinder 25, thus increasing the inlet pressure of exhaust solenoid valve 22 to ensure that it is opened smoothly, when circulating for first from command of execution k2=1.Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve 22;After exhaust solenoid valve 22 is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve 22 is again turned on, until when crank angle α reaches exhaust valve closure angle Time, close exhaust solenoid valve 22, α2For the threshold value being manually set, λ2It is the second invariant, by isothermal exc. itemPlaying the effect closing exhaust solenoid valve 22 in advance, it is assumed herein that corner α constantly increases, often turning over a circle increases by 360 °, by the expression formula of A2 its value known always less than 1, works as the temperature differenceDuring increase, A2 reduces, then the closedown condition value of exhaust solenoid valve 22 is more low, so that crank angle α can faster arrive closedown condition value, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve 22 is opened, the regulating valve 23 and can control to adjust the aperture of valve 23 according to Temperature Feedback value before and after temperature average and air inlet electromagnetic valve 21 in the cylinder 25 of a upper circulation of thermoregulator 24, thus the hot water temperature regulated in pre-thermal sleeve 19 and heating muff 20.Make λ1=0.0019, λ2=0.0028, h=6mm.
Preferably, because electromagnetic valve to off or needs the response time from breaking to leading to, so for the break-make moment controlling electromagnetic valve more accurately, need on the basis of ideal position, set certain lead, and this lead can not be definite value, namely it not only should be relevant with the intrinsic response time of electromagnetic valve, also should be relevant with the concrete angular velocity omega of bent axle (being obtained by corner α), experiment proves that such variable lead can be effectively improved the levels of precision of electromagnetic valve lead, thus improving the efficiency of engine system further.Because intake and exhaust electromagnetic valve used is dead electricity normally closed solenoid valve, so energising is opened after postponing, close after power-off delay.Set: the pulse generation of the rotational angle rotary encoder of bent axle is measured several times, and 0-1023 pulse number scope is corresponding with 0-360 °.The ideal position that air inlet electromagnetic valve 21 is opened is 0 (0 °), and the ideal position of closedown is that pressure at expulsion priori value opens, with exhaust solenoid valve 22, the position that pressure is equal;The ideal position that exhaust solenoid valve 22 is opened is 512 (180 °), and the ideal position of closedown is 0 (0 °).Then the power on/off position of intake and exhaust electromagnetic valve should shift to an earlier date to some extent than desired action position, and amount in advance various can be calculated by following by the rotating speed of the energising of electromagnetic valve, power-off response time and bent axle: the lead that air inlet electromagnetic valve 21 is opened isThe lead that exhaust solenoid valve 22 is opened isThe lead that exhaust solenoid valve 22 is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve 21 and exhaust solenoid valve 22 adopt is identical, unit: ms.
In the continuous feeding device for papermaking waste residue of this embodiment, simple and practical, the continuous feed of waste sludge from paper mill can be realized;Air motor is utilized to replace motor to drive cylinder, it is possible to obtain bigger output torque;And devise a kind of novel engine system, it can select the compression air of different pressures according to rotating speed, and in order to overcome the shortcoming easily producing " pressure vacuum phase " the process switched from high-pressure air source toward low-pressure gas source, utilize pressure release electromagnetic valve 18 and controller to coordinate dexterously and ensure that the smooth of electromotor is exerted oneself;The supply air line of this engine system is not provided with air relief valve, it is possible to greatly reduce because reducing pressure the energy loss caused;The Quasi-isothermal expansion process of gas and pressure at expulsion are organically combined, temperature conditions according to each circulation and the priori value of pressure at expulsion determine the shut-in time of air inlet electromagnetic valve 21, just can reach good efficiency when not increasing additional investment only by the algorithm of amendment controller and improve effect, both ensure that the pressure at expulsion actual exhaust air pressure unlatching threshold values more than exhaust solenoid valve 22 simultaneously, in turn ensure that will not exceed threshold values too much causes too much discharge loss, and the computing formula adopted can effectively prevent the threshold values fluctuation that air pressure fluctuation causes excessive, prevent the erroneous judgement of air inlet electromagnetic valve 21 close moment further;According to the supply scheme without air relief valve, it is contemplated that the pressurized of cylinder 25 increases, air leakage increases and the needs of heat exchange, has redesigned the air cylinder structure being suitable for, and this cylinder heat transfer effect is strong, and bearing capacity is higher, and gas leakage significantly reduces, and makes λ1=0.0019, λ2=0.0028, h=6mm, experiments show that the more not engineered premise height of its whole efficiency 6.8%, air leakage decreases 10.5%, achieves beyond thought effect.
Finally should be noted that; above example is only in order to illustrate technical scheme; but not limiting the scope of the invention; although having made to explain to the present invention with reference to preferred embodiment; it will be understood by those within the art that; technical scheme can be modified or equivalent replacement, without deviating from the spirit and scope of technical solution of the present invention.

Claims (2)

1. a continuous feeding device for papermaking waste residue, it is characterized in that, including belt conveyor, cylinder, charging aperture and engine system, described engine system is connected with cylinder by bent axle and is driven cylinder to rotate, cylinder drives belt conveyor motion, and then the waste sludge from paper mill on belt conveyor is delivered to charging aperture continuously;Described engine system includes air pressure pump, compressed air cylinder, air inlet electromagnetic valve, electromotor, exhaust solenoid valve, heat-exchange system and control system, described compressed air cylinder inside division is the higher-pressure region being disposed over and the low-pressure area being arranged below, one end of higher-pressure region is connected with described air pressure pump by high pressure entry valve, the other end is connected with described air inlet electromagnetic valve by high-pressure outlet valve, one end of low-pressure area is connected with described air pressure pump by low-pressure inlet valve, the other end passes sequentially through inlet non return check valve, low tension outlet valve is connected with described air inlet electromagnetic valve, air inlet electromagnetic valve provides the compression air of high pressure or low pressure to described electromotor;Described air inlet electromagnetic valve and exhaust solenoid valve are the guide electromagnetic valve of dead electricity normally closed type;
Also include switching relief pipeline, one end of switching relief pipeline is connected with the pipeline between described high-pressure outlet valve with described low tension outlet valve, the other end is connected with the top of described low-pressure area, switching relief pipeline is provided with pressure release electromagnetic valve, when switching from high pressure toward low pressure, after high-pressure outlet valve cuts out, first the force value p1 on pipeline after detection high-pressure outlet valve, and it is compared with the pressure p 2 of low-pressure area, as p1 > p2, pressure release electromagnetic valve is opened, pressure in switching relief valve is let out rapidly to low-pressure area, when p1≤p2 being detected, close pressure release electromagnetic valve, and open air inlet electromagnetic valve;The caliber of described switching relief pipeline is the 1/4 of higher-pressure region outlet caliber;
Described electromotor includes cylinder, piston, the bent axle that is connected with piston, and bent axle includes crank, connecting rod and flywheel, and flywheel is arranged on one end of bent axle;Described exhaust solenoid valve is arranged on waste pipe road, discharge duct after exhaust solenoid valve is divided into two-way, one tunnel is directly arranged air or goes refrigeration system, and adjustment valve of separately leading up to enters thermoregulator, for the outlet hot water's temperature to thermoregulator;Described heat-exchange system includes the thermoregulator that form is pipe heat exchanger, the pre-thermal sleeve being arranged on the pipeline of the air inlet electromagnetic valve left and right sides, the heating muff that is arranged on cylinder, the heat source of thermoregulator is constantly supplied water to pre-thermal sleeve and heating muff by heat-exchanger pump, and the hot water after heating flows out through the outlet of sleeve pipe;The outer casing wall of described cylinder is additionally provided with aluminum dividing plate, aluminum dividing plate is annular, it is arranged between outer casing wall and heating muff, aluminum dividing plate is fixed on outer casing wall by multiple spaced apart circumference heat conduction fixed bodies, also being arranged at intervals with 3 on outer casing wall between adjacent two circumferential heat conduction fixed bodies and be folded to the baffle that angle is 45 °, the height of described baffle is the 2/3 of circumferentially fixed height;On aluminum dividing plate, the staggered current-sharing mouth of a river being provided with multiple circle, the inner surface of aluminum dividing plate is provided with multiple spaced apart projection, and the height of projection is 1/5 of the distance between aluminum dividing plate and outer casing wall;The upper surface of described piston is additionally provided with the plunger of multiple cone raised up, and the surface of plunger is provided with the spiral salient that multiple adjoining spiral is in opposite direction;Described piston entirety is cylindrical, its center outer surface is provided with the cannelure of a depression, cannelure is provided with multiple spaced fixing slot, fixing slot is connected with soft thing, described soft thing is through the wall contacts in the gap piston and cylinder Yu cylinder, and the distance between adjacent two described fixing slot is h;
The axle head of described bent axle is provided with Incremental Photoelectric Rotary Encoder, for the rotational angle of bent axle is converted to corresponding umber of pulse, provides the corner α numerical value of bent axle to the controller of air motor with the form of count pulse;Gas pressure in the cylinder that described controller record is detected by pressure transducer, and temperature after temperature, exhaust solenoid valve before gas temperature in the cylinder detected by temperature sensor, exhaust solenoid valve;After enabling signal is come, increment type Incremental Photoelectric Rotary Encoder detection crank angle value, when it reaches the initial charge angle [alpha] of setting0Time, open air inlet electromagnetic valve;Simultaneously constantly in real time temperature T2 after temperature T1 and exhaust solenoid valve before detection crank angle α, the pressure p of cylinder interior gas, cylinder interior gas temperature T, exhaust solenoid valve, controller is calculated as follows obtains pressure at expulsion priori value p ' according to gas equation and the crank angle relation of air:Wherein r is the length of crank, and l is the length of connecting rod, and n is polytropic coefficient, TCylinder interior gas temperature during for a upper loop ends, temperature before exhaust solenoid valve when T1 ' is for a upper loop ends, λ1Being the first invariant, if being currently the first circulation, closing closed term from command of execution isothermal air inletAs pressure at expulsion priori value p ' >=k1 × k2 × pomTime close air inlet electromagnetic valve, wherein pomFor the specified unlatching pressure of exhaust solenoid valve,For the threshold pressure coefficient often circulated, pmaxFor often circulating the maximum working pressure of cylinder, pminFor often circulating the minimum operating pressure of cylinder, k2=0.001 × | T1 '-T2 ' |+1 is exhaust solenoid valve bite correction factor, and T1 ', T2 ' respectively go up before the exhaust solenoid valve of a circulation temperature after temperature and exhaust solenoid valve;Hereafter detection crank angle α is continued, when α reaches the air bleeding valve open angle α of setting1Time, open exhaust solenoid valve;After exhaust solenoid valve is opened, continue detection crank angle, when the initial charge angle [alpha] reaching setting0Time, air inlet electromagnetic valve is again turned on, until when crank angle α reaches exhaust valve closure angleTime, close exhaust solenoid valve, wherein α2For the threshold value being manually set,For isothermal exc. item, λ2Being the second invariant, when being in first circulation from command of execution A2=1, so far engine system completes a cycle of operation;In the period that exhaust solenoid valve is opened, exhaust solenoid valve can control to adjust the aperture of valve according to Temperature Feedback value before and after the internal cylinder temperature average of a upper circulation and air inlet electromagnetic valve to the adjustment valve of thermoregulator, thus the hot water temperature regulated in pre-thermal sleeve and heating muff;Make λ1=0.0011, λ2=0.0020, h=10mm.
2. a kind of continuous feeding device for papermaking waste residue according to claim 1, is characterized in that, the lead that air inlet electromagnetic valve is opened isThe lead that exhaust solenoid valve is opened isThe lead that exhaust solenoid valve is closed isWherein ω is the angular velocity of bent axle, U1、U2The response time that respectively guide electromagnetic valve energising response time and power-off response time, air inlet electromagnetic valve and exhaust solenoid valve adopt is identical.
CN201610187663.8A 2016-03-29 2016-03-29 A kind of continuous feeding device for papermaking waste residue Active CN105804867B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610187663.8A CN105804867B (en) 2016-03-29 2016-03-29 A kind of continuous feeding device for papermaking waste residue

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610187663.8A CN105804867B (en) 2016-03-29 2016-03-29 A kind of continuous feeding device for papermaking waste residue

Publications (2)

Publication Number Publication Date
CN105804867A true CN105804867A (en) 2016-07-27
CN105804867B CN105804867B (en) 2018-04-13

Family

ID=56455035

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610187663.8A Active CN105804867B (en) 2016-03-29 2016-03-29 A kind of continuous feeding device for papermaking waste residue

Country Status (1)

Country Link
CN (1) CN105804867B (en)

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4541367A (en) * 1980-09-25 1985-09-17 Owen, Wickersham & Erickson, P.C. Combustion and pollution control system
CN101476490A (en) * 2009-01-16 2009-07-08 华南理工大学 Expansion ratio adjustable pneumatic engine for automobile and its exhaust pressure control method
CN102562256A (en) * 2012-01-20 2012-07-11 谢延国 Intelligent internal combustion engine
JP2013500418A (en) * 2009-07-24 2013-01-07 ゲタス ゲゼルシャフト フル サーモダイナミシェ アントリーブッシステメ エムベーハー Axial piston engine, method for operating an axial piston engine, and method for manufacturing a heat exchanger for an axial piston engine
CN103912380A (en) * 2013-01-08 2014-07-09 曾礼 Piston type multifunctional pneumatic machine
CN104989458A (en) * 2015-07-08 2015-10-21 浙江大学 Totally-changeable intake and exhaust mechanism of compressed air engine and method of mechanism

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4541367A (en) * 1980-09-25 1985-09-17 Owen, Wickersham & Erickson, P.C. Combustion and pollution control system
CN101476490A (en) * 2009-01-16 2009-07-08 华南理工大学 Expansion ratio adjustable pneumatic engine for automobile and its exhaust pressure control method
JP2013500418A (en) * 2009-07-24 2013-01-07 ゲタス ゲゼルシャフト フル サーモダイナミシェ アントリーブッシステメ エムベーハー Axial piston engine, method for operating an axial piston engine, and method for manufacturing a heat exchanger for an axial piston engine
CN102562256A (en) * 2012-01-20 2012-07-11 谢延国 Intelligent internal combustion engine
CN103912380A (en) * 2013-01-08 2014-07-09 曾礼 Piston type multifunctional pneumatic machine
CN104989458A (en) * 2015-07-08 2015-10-21 浙江大学 Totally-changeable intake and exhaust mechanism of compressed air engine and method of mechanism

Also Published As

Publication number Publication date
CN105804867B (en) 2018-04-13

Similar Documents

Publication Publication Date Title
CN104101099A (en) Throttling method for water flow heating device
CN105833957B (en) A kind of rotary-type garbage crushing device
CN105772233A (en) Efficient garbage separator
CN105780702A (en) Multi-functional pavement sweeping device
CN105781558A (en) Pollution-free tunnel excavator
CN105804798B (en) A kind of automatic dump feedway
CN105804797A (en) Feed coal conveying system
CN105804867A (en) Papermaking waste residue continuous feeding device
CN104976789A (en) Solar-driven flat spoiler type air heat collection device
CN201774937U (en) Steam and steam condensed water combined fruit and vegetable drying system
CN105781734A (en) Energy-saving type garbage conveying system
CN207004587U (en) The double back pressure systems of steam feed pump
CN105781735A (en) Low-energy pollution-free slag discharging device
CN105804796A (en) Low-energy consumption groover
CN101946967A (en) Steam and steam condensed water combined fruit and vegetable drying system
CN105804799A (en) Mobile air filtering system
CN105716175B (en) Solar-heating and air through tunnel hybrid system
CN204730543U (en) The defrost system of evaporimeter in a kind of heat pump
CN105822437A (en) Community domestic sewage disposal system
CN105833952B (en) A kind of high-power coal dust milling device of electricity-saving type
CN105781413A (en) Novel energy-saving drilling and piling machine
CN105781733A (en) Energy-saving type fire protection device
CN205372710U (en) Energy -saving apparatus
CN2262123Y (en) Circulation pump for hot and cold water
CN109297125A (en) A kind of air conditioner energy-saving system

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
CB03 Change of inventor or designer information

Inventor after: Pan Lie

Inventor before: Shi Jianhua

CB03 Change of inventor or designer information
TA01 Transfer of patent application right

Effective date of registration: 20180316

Address after: 362400 hats No. 28 of Daping village, Daping village, Anxi County, Quanzhou, Fujian

Applicant after: Pan Lie

Address before: Zhenhai District 315202 Zhejiang city of Ningbo Province Rong Luo Road No. 372

Applicant before: Shi Jianhua

TA01 Transfer of patent application right
GR01 Patent grant
GR01 Patent grant