CN109821442A - Process system, process and its proportion of aqueous, environmental protective reflecting coating - Google Patents

Abstract

The invention discloses a kind of process systems of aqueous, environmental protective reflecting coating, cylinder is configured including lateral coating, it is coating transmitting configuration chamber in the cylinder of the coating configuration cylinder, the intracavitary concentric rotation of coating transmitting configuration is provided with packing auger blade axis, the outer wall of the packing auger blade axis spirals in the shape of a spiral is provided with packing auger blade, and the rotational energy of the packing auger blade axis drives the packing auger blade intracavitary along rotational agitation in the coating transmitting configuration；Structure of the invention is simple, and the mixture homogeneity of reflective powder raw material, water raw material and emulsion materials is improved using the mixed structure of above-mentioned internal-circulation type.

Description

Process system, process and its proportion of aqueous, environmental protective reflecting coating

Technical field

The invention belongs to coating process fields.

Background technique

Raw material needed for preparing aqueous reflecting coating includes three kinds, and respectively reflective powder raw material, water raw material and lotion are former Material；It needs that reflective powder raw material, water raw material and emulsion materials are sufficiently mixed and are dispersed in during preparing the reflecting coating The coating paste to homogenize is ultimately formed together, often there is the raw material mixing of above-mentioned three kinds of characters in existing hybrid technique Insufficient phenomenon.

Summary of the invention

Goal of the invention: in order to overcome the deficiencies in the prior art, the present invention, which provides, a kind of mixes more uniform water Process system, process and its proportion of property environmental protection reflecting coating.

Technical solution: to achieve the above object, the process system of aqueous, environmental protective reflecting coating of the invention, including transverse direction Coating configures cylinder, is coating transmitting configuration chamber, intracavitary concentric turn of the coating transmitting configuration in the cylinder of the coating configuration cylinder Dynamic to be provided with packing auger blade axis, the outer wall of the packing auger blade axis spirals in the shape of a spiral is provided with packing auger blade, the auger leaf The rotational energy of bobbin drives the packing auger blade intracavitary along rotational agitation in the coating transmitting configuration.

Further, the right end of the packing auger blade axis is cone structure of the tip towards the right side, is consolidated on the conical surface of the cone Surely several agitating shafts are connected with；Several agitating shafts are uniformly distributed in divergent shape on the conical surface of cone；The right end of the coating configuration cylinder For taper shell, the inside of the taper shell is agitation cone chamber, and several stirring thes tip of the axis are located at agitation cone chamber It is interior；Several agitating shafts, which can stir, flows through the intracavitary coating slurries of the cone；The right end integrated coaxial heart of the taper shell connects It is connected with hard tube body, the inner coaxial tube heart of the hard tube body is provided with transmission shaft, and the outer diameter of the transmission shaft is less than described hard The internal diameter of matter tube body；The concentric right end for being fixedly connected with the cone in the left end of the transmission shaft；The transmission shaft and described hard The right end inner wall of matter tube body passes through the first sealing bearing close-fitting rotation connection；It further include motor, the motor and the transmission shaft It is drivingly connected；The left end outer wall of the packing auger blade axis is rotatablely connected the coating by the second sealing bearing close-fitting and configures cylinder Left end inner wall；Powder feed pipe, the coating transmitting configuration chamber are provided with and communicated on the upside of the right end of the coating transmitting configuration chamber Right end on the downside of be connected to vertical coating discharge nozzle, the arrival end of coating discharge nozzle upper end and the outlet end of lower end are set respectively It is equipped with the first solenoid valve and second solenoid valve；It further include liquid back pipe, one end bypass of the liquid back pipe connects the hard tube body, The other end bypass of one end of the liquid back pipe connects the middle part of the coating discharge nozzle, and the middle part of the coating discharge nozzle is also set It is equipped with circulating pump；The liquid back pipe is provided with third solenoid valve close to one end of the hard tube body, and the liquid back pipe is close to institute The one end for stating coating discharge nozzle is provided with the 4th solenoid valve.

Further, the left intersegmental part of the packing auger blade axis is concentric open tubular column, the right end seal of the open tubular column It closes, the left end of the open tubular column is pierced by from the left end of the packing auger blade axis；The right end inner wall integrated coaxial of the open tubular column The heart is provided with cricoid first limit inner edge, and the middle section inner wall integrated coaxial heart of the open tubular column is provided with cricoid second limit Position inner edge is inflow column chamber on the left of the second limit inner edge in the open tubular column, the second limit inner edge in the open tubular column Right side is piston portable pillar chamber, and circumferentially array is evenly equipped with several delivery holes to the middle section inner wall of piston portable pillar chamber, several described The middle part of the piston portable pillar chamber and the middle part of the coating transmitting configuration chamber are interconnected by delivery hole；The piston activity Column is intracavitary to be movably set with piston, when the piston is along the medium position of axial-movement to the piston portable pillar chamber, the work The side wall of plug blocks several delivery holes；The left side of the intracavitary piston of piston portable pillar is water pressure accumulation column chamber, the piston The right side of the intracavitary piston of portable pillar is lotion pressure accumulation column chamber；

The piston portable pillar it is intracavitary it is concentric be provided with screw rod, perforation setting screw hole, institute at the axle center of the piston Screw hole of the screw rod on the piston is stated, and the screw rod and the screw hole screw-driven cooperate；The piston is living Dynamic column is intracavitary is also provided with guide post in the axial direction, and also perforation is provided with guide post to the eccentric position on the piston in the axial direction Hole, the guide post activity pass through the guide pillar hole on the piston, and integration connection described first limits respectively at the both ends of the guide post The side of the side of position inner edge and the second limit inner edge；

The inflow column it is intracavitary it is concentric be provided with fluid column, the left end one of the right end with fluid column and the screw rod Change concentric connection；The left end with fluid column is fixedly connected by fixed arm with the shell that the coating configures cylinder；It is described into The left end inner wall of water column chamber seals bearing by third and the fluid column outer wall close-fitting of matching is rotatablely connected；The axle center with fluid column Place is provided with milk channel, and the right end of the milk channel extends to the right end of screw rod, and the right end connection of the milk channel The lotion pressure accumulation column chamber；The left end of the milk channel is connected with lotion supply pipe, and the other end of the lotion supply pipe connects It is connected to the first constant pressure supplying tank, is filled with emulsion materials in the first constant pressure supplying tank；The outside of the milk channel is also set It is equipped with aquaporin, wall body isolation is isolated by tubular between the aquaporin and the milk channel；The left end of the aquaporin It is connected to water supplying pipe, the other end of the water supplying pipe is connected with the second constant pressure supplying tank, fills out in the second constant pressure supplying tank Equipped with water；The right end of the aquaporin is connected to the inflow column chamber by several water-guiding holes on isolation wall body.

Further, several hollow holes are evenly equipped on institute's packing auger blade.

Further, the dispersion mixing technique of the process system of aqueous, environmental protective reflecting coating, it is characterised in that:

Raw material needed for preparing aqueous reflecting coating includes three kinds, and respectively reflective powder raw material, water raw material and lotion are former Material；It needs that reflective powder raw material, water raw material and emulsion materials are sufficiently mixed and are dispersed in during preparing the reflecting coating The coating paste to homogenize is ultimately formed together；The specific mixing procedure of the raw material of above-mentioned three kinds of characters includes the following steps:

Step 1 distinguishes pre-fill emulsion materials and water raw material in the first constant pressure supplying tank and the second constant pressure supplying tank, And so that lotion supply pipe and water supplying pipe is in unimpeded state, keep water pressure accumulation column chamber and the intracavitary maintenance always of lotion pressure accumulation column permanent The state of fixed pressure accumulation；In the initial state, which is located at the medium position of piston portable pillar chamber, at this time the side-walls of piston In the state for blocking each delivery hole；

Step 2 starts motor, rotates clockwise transmission shaft, and then rotate clockwise packing auger blade axis, twist at this time Rotating clockwise for imperial sharf drives piston synchronous rotation by guide post；Support due to screw rod and with fluid column in fixed arm is consolidated Fixing is stationary state always, and then piston will receive the propulsion of screw thread to the right on screw rod during rotating clockwise Effect, and then promote piston can also along the axis direction of screw rod to the right while with transmission shaft synchronous rotary；With piston Move right, piston starts to progressively disengage each delivery hole, so make each delivery hole start be connected to water pressure accumulation column chamber, to each drain Hole be connected to water pressure accumulation column chamber after, the intracavitary water of water pressure accumulation column by each delivery hole indentation coating transmitting configuration it is intracavitary, to piston to The right side, which controls rapidly motor when moving to contact the first limit inner edge, rotates transmission shaft counterclockwise, and then makes the packing auger blade axis inverse time Needle rotation, and then rotate piston synchronous counterclockwise, piston will receive the spiral shell on screw rod during rotation counterclockwise at this time The progradation of line to the left, and then push away piston can also along the axis direction of screw rod to the left while with transmission shaft synchronous rotary Into；With moving downward for piston, each delivery hole is made to start to be connected to lotion pressure accumulation column chamber, is connected to lotion pressure accumulation column to each delivery hole After chamber, the intracavitary emulsion materials of lotion pressure accumulation column are intracavitary by each delivery hole indentation coating transmitting configuration, move downward to piston Controlling motor rapidly when limiting inner edge to contact second rotates clockwise transmission shaft；

Passing through motor driven transmission shaft by above-mentioned rule is in periodically to rotate clockwise and rotate back and forth counterclockwise Switching, so make piston piston portable pillar chamber do in periodically to the left, move right, and then make each delivery hole in periodically Connection water pressure accumulation column chamber and lotion pressure accumulation column chamber, and then make water pressure accumulation column chamber and the intracavitary water raw material and lotion of lotion pressure accumulation column Raw material is in periodically alternately intracavitary by each delivery hole injection coating transmitting configuration；Transmission shaft is in periodically to do rotation clockwise Turn to make packing auger blade in the intracavitary lasting agitation back and forth of coating transmitting configuration during toggling with what is rotated counterclockwise, make In periodically alternately injection coating transmitting configuration intracavitary water raw material and emulsion materials is sufficiently mixed, keep coating transmitting configuration intracavitary Form the mixture of lotion and water；Until volume shared by the mixture of the intracavitary lotion of transmitting configuration and water increases to coating transmission Configure intracavitary total volume half；

Continue slowly to pass to coating Step 3: beginning through powder feed pipe on the basis of maintaining step 2 operating status The reflective powder raw material of intracavitary blanking is set in delivery；The reflective powder raw material intracavitary into coating transmitting configuration is come by packing auger blade Agitation is returned, and then makes the intracavitary mixture cream liquid for forming emulsion materials, water and reflective powder raw material of transmitting configuration；

The first solenoid valve, third solenoid valve and the 4th solenoid valve are opened at this time, close second solenoid valve at the same time；Starting Circulating pump, under the action of circulating pump, the intracavitary mixture of coating transmitting configuration is pumped into liquid back pipe by coating discharge nozzle, with It is intracavitary that this mixture of lotion and water being pumped into liquid back pipe simultaneously by hard tube body enters agitation cone, and then stirs and bore chamber Interior several agitating shafts are further stirred to the intracavitary mixture of agitation cone is entered, and intracavitary mixture is bored in final agitation It is intracavitary to come back to coating transmitting configuration；And then the above process is made to form interior circulation, which keeps coating transmitting configuration intracavitary Continue to be forced to flow through mixture cream liquid to the left；

In above-mentioned inner cyclic process, water pressure accumulation column chamber and the intracavitary water raw material and emulsion materials of lotion pressure accumulation column are in periodically Alternately intracavitary by each delivery hole injection coating transmitting configuration, powder feed pipe continues the reflective powder raw material of blanking, same with this When packing auger blade in the intracavitary lasting agitation back and forth of coating transmitting configuration, make the mixture cream liquid intracavitary by coating transmitting configuration It is sufficiently mixed dispersion；During above-mentioned interior circulation, the intracavitary mixture cream liquid of transmitting configuration can be through each on packing auger blade Hollow hole flows to the left, and each hollow hole can significantly reduce the resistance of above-mentioned interior circulation on packing auger blade；

Step 4, to the mixture cream liquid in step 3 be thoroughly mixed it is scattered after, cut off lotion supply pipe and water and supply To pipe, make the status releasing of water pressure accumulation column chamber and the intracavitary pressure accumulation of lotion pressure accumulation column；And stop intracavitary to coating transmitting configuration The reflective powder raw material of blanking, keeping transmission shaft at the same time is in periodically to rotate clockwise to carry out switchback with what is rotated counterclockwise State is changed, makes coating transmitting configuration is intracavitary to be still within agitated conditions；Third solenoid valve and the 4th solenoid valve are closed at this time, with this Open simultaneously second solenoid valve；Maintain the operating condition of circulating pump；And then make coating transmitting configuration it is intracavitary be dispersed completion Mixture cream liquid is discharged under the action of circulating pump by coating discharge nozzle；And then complete the preparation process of coating.

The utility model has the advantages that structure of the invention is simple, it is former to improve reflective powder using the mixed structure of above-mentioned internal-circulation type The mixture homogeneity of material, water raw material and emulsion materials；In inner cyclic process, water pressure accumulation column chamber and the intracavitary water of lotion pressure accumulation column are former Expect to be in periodically alternately intracavitary by each delivery hole injection coating transmitting configuration with emulsion materials, powder feed pipe continues blanking Reflective powder raw material, packing auger blade makes to transmit by coating in the intracavitary lasting agitation back and forth of coating transmitting configuration at the same time It configures intracavitary mixture cream liquid and is sufficiently mixed dispersion；During above-mentioned interior circulation, the intracavitary mixture cream of transmitting configuration Liquid can flow to the left through each hollow hole on packing auger blade, and each hollow hole can significantly reduce the resistance of above-mentioned interior circulation on packing auger blade Power.

Detailed description of the invention

Attached drawing 1 is the whole first structure diagram of the present apparatus；

Attached drawing 2 is the first three-dimensional cutaway view of the device；

Attached drawing 3 is the second three-dimensional cutaway view of the device；

Attached drawing 4 is the enlarged diagram at the label 44 of attached drawing 3；

Attached drawing 5 just cuts open schematic diagram for the device；

Attached drawing 6 is the enlarged diagram at the label 25 of attached drawing 5；

Attached drawing 7 is the structural schematic diagram that the device conceals that coating configures cylinder.

Specific embodiment

The present invention will be further explained with reference to the accompanying drawing.

The process system of aqueous, environmental protective reflecting coating as shown in attached drawing 1 to 7 configures cylinder 22, institute including lateral coating Stating is coating transmitting configuration chamber 10 in the cylinder of coating configuration cylinder 22, and concentric rotation is provided in the coating transmitting configuration chamber 10 Packing auger blade axis 26, the outer wall of the packing auger blade axis 26 spirals in the shape of a spiral is provided with packing auger blade 23, the packing auger blade The rotational energy of axis 26 drives the packing auger blade 23 in the coating transmitting configuration chamber 10 along rotational agitation；The strand of the present embodiment Several hollow holes 34 are evenly equipped on imperial blade 23；

The right end of the packing auger blade axis 26 is cone 13 structure of the tip towards the right side, fixed company on the conical surface of the cone 13 It is connected to several agitating shafts 21；Several agitating shafts 21 are uniformly distributed in divergent shape on the conical surface of cone 13；The coating configuration cylinder 22 Right end is taper shell 16, and the inside of the taper shell 16 is agitation cone chamber 20, and the end of several agitating shafts 21 is located at In the agitation cone chamber 20；Several agitating shafts 21 can stir the coating slurries flowed through in the cone chamber 20；The taper shell 16 The right end integrated coaxial heart be communicated with hard tube body 18, the inner coaxial tube heart of the hard tube body 18 is provided with transmission shaft 19, The outer diameter of the transmission shaft 19 is less than the internal diameter of the hard tube body 18；The left end of the transmission shaft 19 is concentric to be fixedly connected with institute State the right end of cone 13；The right end inner wall of the transmission shaft 19 and the hard tube body 18 is turned by the first sealing 12 close-fitting of bearing Dynamic connection；It further include motor 17, the motor 17 is drivingly connected with the transmission shaft 19；Outside the left end of the packing auger blade axis 26 Wall is rotatablely connected the left end inner wall that the coating configures cylinder 22 by the second sealing 4 close-fitting of bearing；The coating transmitting configuration chamber It is provided with and communicated with powder feed pipe 27 on the upside of 10 right end, is connected to vertical painting on the downside of the right end of the coating transmitting configuration chamber 10 Expect discharge nozzle 5, the arrival end of 5 upper end of coating discharge nozzle and the outlet end 8 of lower end are respectively arranged with the first solenoid valve 7 and the Two solenoid valves 9；It further include liquid back pipe 11, one end bypass of the liquid back pipe 11 connects the hard tube body 18, the liquid back pipe The other end bypass of 11 one end connects the middle part of the coating discharge nozzle 5, and the middle part of the coating discharge nozzle 5, which is additionally provided with, to be followed Ring pump 059；The liquid back pipe 11 is provided with third solenoid valve 15 close to one end of the hard tube body 18, and the liquid back pipe 11 leans on One end of the nearly coating discharge nozzle 5 is provided with the 4th solenoid valve 017.

The left intersegmental part of the packing auger blade axis 26 is concentric open tubular column, and the right end of the open tubular column is closed, described The left end of open tubular column is pierced by from the left end of the packing auger blade axis 26；The right end inner wall integrated coaxial heart of the open tubular column is arranged There is cricoid first limit inner edge 48, the middle section inner wall integrated coaxial heart of the open tubular column is provided in cricoid second limit Edge 49 is inflow column chamber 31 on the left of the second limit inner edge 49 in the open tubular column, the second limit inner edge in the open tubular column 49 right side is piston portable pillar chamber, and circumferentially array is evenly equipped with several delivery holes 37 to the middle section inner wall of piston portable pillar chamber, if It does the delivery hole 37 middle part of the piston portable pillar chamber and the middle part of the coating transmitting configuration chamber 10 are interconnected；Institute State that piston portable pillar is intracavitary to be movably set with piston 29, the piston 29 is along axial-movement to the middle part of the piston portable pillar chamber When position, the side wall of the piston 29 blocks several delivery holes 37；The left side of the intracavitary piston 29 of piston portable pillar is Water pressure accumulation column chamber 28, the right side of the intracavitary piston 29 of piston portable pillar are lotion pressure accumulation column chamber 41；

The piston portable pillar it is intracavitary it is concentric be provided with screw rod 40, perforation setting screw rod at the axle center of the piston 29 Hole, the screw rod 40 passes through the screw hole on the piston 29, and the screw rod 40 and the screw hole screw-driven cooperate； The piston portable pillar is intracavitary to be also provided with guide post 36 in the axial direction, and the eccentric position on the piston 29 is also in the axial direction Perforation is provided with guide pillar hole 38, and 36 activity of guide post passes through the guide pillar hole 38 on the piston 29, the both ends of the guide post 36 The side of the side of integration connection first limit inner edge 48 and the second limit inner edge 49 respectively；

It is concentric in the inflow column chamber 31 to be provided with fluid column 1, a left side for the right end with fluid column 1 and the screw rod 40 Hold the connection of the integrated coaxial heart；The left end with fluid column 1 is fixed by the shell that fixed arm 50 configures cylinder 22 with the coating Connection；The left end inner wall of the inflow column chamber 31 seals bearing 2 by third and the 1 outer wall close-fitting of fluid column of matching is rotatablely connected； Milk channel 32 is provided at the axle center with fluid column 1, the right end of the milk channel 32 extends to the right end of screw rod 40, and The right end of the milk channel 32 is connected to the lotion pressure accumulation column chamber 41；The left end of the milk channel 32 is connected with lotion supply Pipe 3, the other end of the lotion supply pipe 3 are connected with the first constant pressure supplying tank, are filled with cream in the first constant pressure supplying tank Liquid raw material；The outside of the milk channel 32 is additionally provided with aquaporin 33, between the aquaporin 33 and the milk channel 32 It is isolated by the isolation wall body 034 of tubular；The left end of the aquaporin 33 is connected to water supplying pipe 6, the other end of the water supplying pipe 6 It is connected with the second constant pressure supplying tank, is filled with water in the second constant pressure supplying tank；The right end of the aquaporin 33 passes through isolation Several water-guiding holes 35 on wall body 034 are connected to the inflow column chamber 31.

The technique of this programme, process steps and technological progress arrange as follows:

Raw material needed for preparing aqueous reflecting coating includes three kinds, and respectively reflective powder raw material, water raw material and lotion are former Material；The emulsion materials main component of the present embodiment is aqueous polyurethane resin or vinylite, the master of reflective powder raw material Wanting ingredient is titanium oxide, silicon oxide microsphere etc.；It is needed during preparing the reflecting coating by reflective powder raw material, water raw material The coating paste for being dispersed with and ultimately forming and homogenizing is sufficiently mixed with emulsion materials；The reflective powder of the present embodiment is former The proportion of material, water raw material and emulsion materials is 1:2:2, needs to can be arbitrary proportion according to different；Above-mentioned three kinds of characters The specific mixing procedure of raw material includes the following steps:

Step 1 distinguishes pre-fill emulsion materials and water raw material in the first constant pressure supplying tank and the second constant pressure supplying tank, And so that lotion supply pipe 3 and water supplying pipe 6 is in unimpeded state, make in water pressure accumulation column chamber 28 and lotion pressure accumulation column chamber 41 always Maintain the state of constant pressure accumulation；In the initial state, which is located at the medium position of piston portable pillar chamber, at this time piston 29 side wall is in the state for blocking each delivery hole 37；

Step 2 starts motor 17, rotates clockwise transmission shaft 19, and then rotate clockwise packing auger blade axis 26, Packing auger blade axis 26 is rotated clockwise through guide post 36 with 29 synchronous rotary of piston at this time；Due to screw rod 40 and match fluid column 1 It is stationary state always in the case where the support of fixed arm 50 is fixed, and then piston 29 will receive silk during rotating clockwise The progradation of screw thread to the right on bar 40, and then make piston 29 can also be along screw rod 40 while with 19 synchronous rotary of transmission shaft Axis direction promote to the right；With moving right for piston 29, piston 29 starts to progressively disengage each delivery hole 37, and then makes each Delivery hole 37 starts to be connected to water pressure accumulation column chamber 28, after each delivery hole 37 is connected to water pressure accumulation column chamber 28, in water pressure accumulation column chamber 28 Water is pressed into coating transmitting configuration chamber 10 by each delivery hole 37, when piston 29 moves right and limits inner edge 48 to contact first Control motor 17 rotates transmission shaft 19 counterclockwise rapidly, and then rotates packing auger blade axis 26 counterclockwise, and then make piston 29 Rotation counterclockwise is synchronized, piston 29 will receive the propulsion of screw thread to the left on screw rod 40 during rotation counterclockwise and make at this time With, and then promote piston 29 can also along the axis direction of screw rod 40 to the left while with 19 synchronous rotary of transmission shaft；With Piston 29 moves downward, and each delivery hole 37 is made to start to be connected to lotion pressure accumulation column chamber 41, is connected to lotion pressure accumulation to each delivery hole 37 After column chamber 41, the emulsion materials in lotion pressure accumulation column chamber 41 are pressed into coating transmitting configuration chamber 10 by each delivery hole 37, wait live Plug 29 moves downward to be controlled rapidly motor 17 and rotates clockwise transmission shaft 19 when limiting inner edge 49 to contact second；

Driving transmission shaft 19 by motor 17 by above-mentioned rule is in periodically to rotate clockwise and rotate counterclockwise Toggle, so make piston 29 piston portable pillar chamber do in periodically to the left, move right, and then make each delivery hole 37 In periodic connection water pressure accumulation column chamber 28 and lotion pressure accumulation column chamber 41, and then make water pressure accumulation column chamber 28 and lotion pressure accumulation column chamber 41 Interior water raw material and emulsion materials are in periodically alternately by each delivery hole 37 injection coating transmitting configuration chamber 10；Transmission shaft 19 in periodically rotate clockwise and rotate counterclockwise toggle during make packing auger blade 23 coating transmit Agitation back and forth lasting in chamber 10 is configured, is made former in the water raw material and lotion that periodically alternately inject in coating transmitting configuration chamber 10 Material is sufficiently mixed, and makes the mixture that lotion and water are formed in coating transmitting configuration chamber 10；Until the lotion in transmitting configuration chamber 10 Volume shared by mixture with water increases to total volume half in coating transmitting configuration chamber 10；

Continue slowly Step 3: beginning through powder feed pipe 27 on the basis of maintaining step 2 operating status to coating The reflective powder raw material of blanking in transmitting configuration chamber 10；Into the reflective powder raw material in coating transmitting configuration chamber 10 by auger leaf The agitation back and forth of piece 23, and then make the mixture cream liquid that emulsion materials, water and reflective powder raw material are formed in transmitting configuration chamber 10；

The first solenoid valve 7, third solenoid valve 15 and the 4th solenoid valve 017 are opened at this time, close the second electromagnetism at the same time Valve 9；Start circulating pump 059, under the action of circulating pump 059, the mixture in coating transmitting configuration chamber 10 is discharged by coating Pipe 5 is pumped into liquid back pipe 11, and the mixture of the lotion and water that are pumped into liquid back pipe 11 at the same time is entered by hard tube body 18 To agitation cone chamber 20 in, and then stir cone chamber 20 in 21 pairs of several agitating shafts enter agitation cone chamber 20 in mixtures carry out into The stirring of one step, the mixture that final agitation is bored in chamber 20 come back in coating transmitting configuration chamber 10；And then make the above process Circulation in being formed, the interior circulation make to continue to be forced to flow through mixture cream liquid to the left in coating transmitting configuration chamber 10；

In above-mentioned inner cyclic process, water pressure accumulation column chamber 28 and water raw material in lotion pressure accumulation column chamber 41 and emulsion materials are in week Phase property is alternately injected in coating transmitting configuration chamber 10 by each delivery hole 37, and it is former that powder feed pipe 27 continues the reflective powder of blanking Material, the at the same time agitation back and forth lasting in coating transmitting configuration chamber 10 of packing auger blade 23 make by coating transmitting configuration chamber Mixture cream liquid in 10 is sufficiently mixed dispersion；Mixture cream liquid during above-mentioned interior circulation, in transmitting configuration chamber 10 It can be flowed to the left through each hollow hole 34 on packing auger blade 23, each hollow hole 34 can significantly reduce on packing auger blade 23 follows in above-mentioned The resistance of ring；

Step 4, to the mixture cream liquid in step 3 be thoroughly mixed it is scattered after, cut off lotion supply pipe 3 and water and supply To pipe 6, make the status releasing of water pressure accumulation column chamber 28 and the pressure accumulation in lotion pressure accumulation column chamber 41；And stop to coating transmitting configuration The reflective powder raw material of blanking in chamber 10, keeping transmission shaft 19 at the same time is in periodically to rotate clockwise and rotate counterclockwise Toggle state, make to be still within agitated conditions in coating transmitting configuration chamber 10；Third solenoid valve 15 and the are closed at this time Four solenoid valves 017 open second solenoid valve 9 at the same time；Maintain the operating condition of circulating pump 059；And then match coating transmission The mixture cream liquid for being dispersed and having completed in chamber 10 is set to be discharged under the action of circulating pump by coating discharge nozzle 5；And then it completes The preparation process of coating.

The above is only a preferred embodiment of the present invention, it should be pointed out that: for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (5)

1. the process system of aqueous, environmental protective reflecting coating, it is characterised in that: configure cylinder (22) including lateral coating, the coating Configuring is coating transmitting configuration chamber (10) in the cylinder of cylinder (22), and concentric rotation is provided in the coating transmitting configuration chamber (10) Packing auger blade axis (26), the outer wall of the packing auger blade axis (26) spirals in the shape of a spiral is provided with packing auger blade (23), the strand The rotational energy of imperial sharf (26) drives the packing auger blade (23) in the coating transmitting configuration chamber (10) along rotational agitation.

2. the process system of aqueous, environmental protective reflecting coating according to claim 1, it is characterised in that: the packing auger blade axis (26) right end is cone (13) structure of tip towards the right side, is fixedly connected with several agitating shafts on the conical surface of the cone (13) (21)；Several agitating shafts (21) are uniformly distributed in divergent shape on the conical surface of cone (13)；The right end of coating configuration cylinder (22) is Taper shell (16), the inside of the taper shell (16) are agitation cone chamber (20), the end position of several agitating shafts (21) In in agitation cone chamber (20)；Several agitating shafts (21) can stir the coating slurries flowed through in cone chamber (20)；The cone The right end integrated coaxial heart of shape shell (16) is communicated with hard tube body (18), and the inner coaxial tube heart of the hard tube body (18) is set It is equipped with transmission shaft (19), the outer diameter of the transmission shaft (19) is less than the internal diameter of the hard tube body (18)；The transmission shaft (19) The concentric right end for being fixedly connected with the cone (13) in left end；The right end of the transmission shaft (19) and the hard tube body (18) Inner wall passes through the first sealing bearing (12) close-fitting rotation connection；It further include motor (17), the motor (17) and the transmission shaft (19) it is drivingly connected；The left end outer wall of the packing auger blade axis (26) passes through described in the second sealing bearing (4) close-fitting rotation connection Coating configures the left end inner wall of cylinder (22)；Powder feed pipe is provided with and communicated on the upside of the right end of the coating transmitting configuration chamber (10) (27), vertical coating discharge nozzle (5), the coating discharge nozzle are connected on the downside of the right end of the coating transmitting configuration chamber (10) (5) outlet end (8) of the arrival end of upper end and lower end is respectively arranged with the first solenoid valve (7) and second solenoid valve (9)；Further include One end bypass of liquid back pipe (11), the liquid back pipe (11) connects the hard tube body (18), one end of the liquid back pipe (11) Other end bypass connect the middle part of the coating discharge nozzle (5), be additionally provided with circulating pump in the middle part of the coating discharge nozzle (5) (059)；The liquid back pipe (11) is provided with third solenoid valve (15), the liquid back pipe close to one end of the hard tube body (18) (11) one end of the coating discharge nozzle (5) is provided with the 4th solenoid valve (017).

3. the process system of aqueous, environmental protective reflecting coating according to claim 2, it is characterised in that: the packing auger blade axis (26) left intersegmental part is concentric open tubular column, and the right end of the open tubular column is closed, and the left end of the open tubular column is from the strand The left end of imperial sharf (26) is pierced by；The right end inner wall integrated coaxial heart of the open tubular column is provided in cricoid first limit Edge (48), the middle section inner wall integrated coaxial heart of the open tubular column is provided with cricoid second limit inner edge (49), described hollow It is inflow column chamber (31) on the left of the second limit inner edge (49) in column, the right side of the second limit inner edge (49) in the open tubular column For piston portable pillar chamber, circumferentially array is evenly equipped with several delivery holes (37) the middle section inner wall of piston portable pillar chamber, several described The middle part of the piston portable pillar chamber and the middle part of the coating transmitting configuration chamber (10) are interconnected by delivery hole (37)；It is described Piston portable pillar is intracavitary to be movably set with piston (29), and the piston (29) is along axial-movement into the piston portable pillar chamber When portion position, the side wall of the piston (29) blocks several delivery holes (37)；The intracavitary piston of piston portable pillar (29) Left side be water pressure accumulation column chamber (28), the right side of the intracavitary piston of piston portable pillar (29) is lotion pressure accumulation column chamber (41)；

The piston portable pillar it is intracavitary it is concentric be provided with screw rod (40), perforation setting screw rod at the axle center of the piston (29) Hole, the screw rod (40) passes through the screw hole on the piston (29), and the screw rod (40) and the screw hole screw thread pass Dynamic cooperation；The piston portable pillar is intracavitary to be also provided with guide post (36) in the axial direction, the eccentric position on the piston (29) Also perforation is provided with guide pillar hole (38) in the axial direction, and guide post (36) activity passes through the guide pillar hole on the piston (29) (38), the both ends of the guide post (36) side and second that integration connects first limit inner edge (48) respectively limits inner edge (49) side；

It is concentric in the inflow column chamber (31) to be provided with fluid column (1), the right end with fluid column (1) and the screw rod (40) The left end integrated coaxial heart connection；The left end with fluid column (1) passes through fixed arm (50) and coating configuration cylinder (22) Shell be fixedly connected；The left end inner wall of the inflow column chamber (31) matches fluid column (1) outside with described by third sealing bearing (2) The rotation connection of wall close-fitting；It is provided with milk channel (32) at the axle center with fluid column (1), the right end of the milk channel (32) The right end of screw rod (40) is extended to, and the right end of the milk channel (32) is connected to the lotion pressure accumulation column chamber (41)；The cream The left end in liquid channel (32) is connected with lotion supply pipe (3), and the other end of the lotion supply pipe (3) is connected with the confession of the first constant pressure To tank, emulsion materials are filled in the first constant pressure supplying tank；Aquaporin is additionally provided on the outside of the milk channel (32) (33), wall body (034) isolation is isolated by tubular between the aquaporin (33) and the milk channel (32)；The aquaporin (33) left end is connected to water supplying pipe (6), and the other end of the water supplying pipe (6) is connected with the second constant pressure supplying tank, and described the Water is filled in two constant pressure supplying tanks；The right end of the aquaporin (33) passes through several water-guiding holes in isolation wall body (034) (35) it is connected to the inflow column chamber (31).

4. the process system of aqueous, environmental protective reflecting coating according to claim 3, it is characterised in that: institute's packing auger blade (23) several hollow holes (34) are evenly equipped on.

5. the dispersion mixing technique of the process system of aqueous, environmental protective reflecting coating according to claim 4, it is characterised in that:

Raw material needed for preparing aqueous reflecting coating includes three kinds, respectively reflective powder raw material, water raw material and emulsion materials；? It needs that reflective powder raw material, water raw material and emulsion materials are sufficiently mixed and are dispersed with most during preparing the reflecting coating End form is at the coating paste to homogenize；The specific mixing procedure of the raw material of above-mentioned three kinds of characters includes the following steps:

Step 1 distinguishes pre-fill emulsion materials and water raw material in the first constant pressure supplying tank and the second constant pressure supplying tank, and So that lotion supply pipe (3) and water supplying pipe (6) is in unimpeded state, makes in water pressure accumulation column chamber (28) and lotion pressure accumulation column chamber (41) Always the state of constant pressure accumulation is maintained；In the initial state, which is located at the medium position of piston portable pillar chamber, this When piston (29) side wall be in the state for blocking each delivery hole (37)；

Step 2 starts motor (17), rotates clockwise transmission shaft (19), and then revolves packing auger blade axis (26) clockwise Turn, at this time packing auger blade axis (26) rotate clockwise by guide post (36) band piston (29) synchronous rotary；Due to screw rod It (40) and with fluid column (1) is stationary state always in the case where the support of fixed arm (50) is fixed, and then piston (29) is clockwise Will receive the progradation of screw thread to the right on screw rod (40) during rotation, so make piston (29) with transmission shaft (19) It can also be promoted to the right along the axis direction of screw rod (40) while synchronous rotary；With moving right for piston (29), piston (29) start to progressively disengage each delivery hole (37), and then each delivery hole (37) is made to start to be connected to water pressure accumulation column chamber (28), to respectively lead After fluid apertures (37) is connected to water pressure accumulation column chamber (28), the water in water pressure accumulation column chamber (28) is pressed into coating transmission by each delivery hole (37) It configures in chamber (10), controlling motor (17) rapidly when piston (29) moves right and limits inner edge (48) to contact first makes to be driven Axis (19) rotates counterclockwise, and then rotates packing auger blade axis (26) counterclockwise, and then piston (29) is made to synchronize rotation counterclockwise, Piston (29) will receive the progradation of screw thread to the left on screw rod (40) during rotation counterclockwise at this time, and then make to live Plug (29) can also promote to the left while with transmission shaft (19) synchronous rotary along the axis direction of screw rod (40)；With piston (29) move downward, makes each delivery hole (37) start to be connected to lotion pressure accumulation column chamber (41), is connected to lotion to each delivery hole (37) After pressure accumulation column chamber (41), the emulsion materials in lotion pressure accumulation column chamber (41) are pressed into coating transmitting configuration chamber by each delivery hole (37) (10) in, controlling motor (17) rapidly when piston (29) moves downward and limits inner edge (49) to contact second makes transmission shaft (19) It rotates clockwise；

Driving transmission shaft (19) by motor (17) by above-mentioned rule is in periodically to rotate clockwise and rotate counterclockwise Toggle, so make piston (29) piston portable pillar chamber do in periodically to the left, move right, and then make each delivery hole (37) in periodically connection water pressure accumulation column chamber (28) and lotion pressure accumulation column chamber (41), and then make water pressure accumulation column chamber (28) and lotion Water raw material and emulsion materials in pressure accumulation column chamber (41) are matched in each delivery hole (37) injection coating transmission is periodically alternately passed through It sets in chamber (10)；Transmission shaft (19) be in periodically rotate clockwise and rotate counterclockwise toggle during make to twist The agitation back and forth lasting in coating transmitting configuration chamber (10) of imperial blade (23) makes to inject coating transmitting configuration in periodically alternating Water raw material and emulsion materials in chamber (10) are sufficiently mixed, and make the mixing that lotion and water are formed in coating transmitting configuration chamber (10) Object；Until the lotion in transmitting configuration chamber (10) and volume shared by the mixture of water increase in coating transmitting configuration chamber (10) always Volume half；

Continue slowly to pass to coating Step 3: beginning through powder feed pipe (27) on the basis of maintaining step 2 operating status The reflective powder raw material of chamber (10) interior blanking is set in delivery；Into the reflective powder raw material in coating transmitting configuration chamber (10) by auger The agitation back and forth of blade (23), and then make the mixing that emulsion materials, water and reflective powder raw material are formed in transmitting configuration chamber (10) Object cream liquid；

The first solenoid valve (7), third solenoid valve (15) and the 4th solenoid valve (017) are opened at this time, close the second electricity at the same time Magnet valve (9)；Start circulating pump (059), under the action of circulating pump (059), the mixture in coating transmitting configuration chamber (10) is logical It crosses coating discharge nozzle (5) to be pumped into liquid back pipe (11), the mixture for being pumped into the lotion and water in liquid back pipe (11) at the same time is logical Cross hard tube body (18) enter agitation cone chamber (20) in, and then stir cone chamber (20) in several agitating shafts (21) to enter stir Mixture in mantle chamber (20) is further stirred, and the mixture in final agitation cone chamber (20) comes back to coating biography Delivery is set in chamber (10)；And then so that the above process is formed interior circulation, this it is interior circulation make in coating transmitting configuration chamber (10) continue to A left side is forced to flow through mixture cream liquid；

In above-mentioned inner cyclic process, water pressure accumulation column chamber (28) and water raw material in lotion pressure accumulation column chamber (41) and emulsion materials are in week Phase property is alternately by the way that in each delivery hole (37) injection coating transmitting configuration chamber (10), it is reflective that powder feed pipe (27) continues blanking Powder raw material, packing auger blade (23) agitation back and forth lasting in coating transmitting configuration chamber (10), makes by coating at the same time Mixture cream liquid in transmitting configuration chamber (10) is sufficiently mixed dispersion；During above-mentioned interior circulation, transmitting configuration chamber (10) Interior mixture cream liquid can flow to the left through each hollow hole (34) on packing auger blade (23), each hollow hole on packing auger blade (23) (34) it can significantly reduce the resistance of above-mentioned interior circulation；

Step 4, to the mixture cream liquid in step 3 be thoroughly mixed it is scattered after, cutting lotion supply pipe (3) and water supply It manages (6), makes the status releasing of water pressure accumulation column chamber (28) and the pressure accumulation in lotion pressure accumulation column chamber (41)；And stop transmitting to coating The reflective powder raw material of chamber (10) interior blanking is configured, keeps transmission shaft (19) in periodically rotating clockwise and inverse at the same time Hour hands rotation toggles state, makes to be still within agitated conditions in coating transmitting configuration chamber (10)；Third electricity is closed at this time Magnet valve (15) and the 4th solenoid valve (017) open second solenoid valve (9) at the same time；Maintain the operating shape of circulating pump (059) State；And then the mixture cream liquid for being dispersed completion in coating transmitting configuration chamber (10) is made to pass through coating under the action of circulating pump Discharge nozzle (5) discharge；And then complete the preparation process of coating.