CN103240214B - Flush coater in rotating disc type packing jar - Google Patents

Abstract

Flush coater in a kind of rotating disc type packing jar, comprise frame, reducing motor, cam protractor, enter tank arrangement, annular fixed disk, circular rotating disc, rotating disc type tank sending device, station cupping device, multiple rotating suction disc assembly, station Autorotation driving device, spray equipment and go out tank arrangement, annular fixed disk is fixedly located on the casing of cam protractor vertically, circular rotating disc is fixedly mounted on the interrupted output axle of cam protractor vertically, circular rotating disc rotationally sealing paste is combined on annular fixed disk, rotating disc type tank sending device is located on circular rotating disc vertically, along the rotation direction of rotating disc type tank sending device, be provided with into tank station successively, spray station and go out tank station, station cupping device is located on annular fixed disk and circular rotating disc, rotating suction disc assembly is along the circumferential direction arranged on rotating disc type tank sending device equably, rotating suction disc assembly is communicated with station cupping device, in station Autorotation driving device and spray station, rotating suction disc assembly is in transmission connection.

Description

Flush coater in rotating disc type packing jar

Technical field

The present invention relates to a kind of interior flush coater, more particularly, the present invention relates to flush coater in a kind of rotating disc type packing jar.

Background technology

In the production process of packing jar; after packing jar is shaping; need spray the inner surface of packing jar; make the inner surface of packing jar forms protective finish; thus prevent the article in packing jar from directly contacting with the inner surface of packing jar, ensure that the health of article in packing jar, simultaneously; the article that it also avoid in packing jar cause corrosion to packing jar, thus improve the service life of packing jar.

At present, the interior spraying of packing jar is generally manually adopt spray gun to carry out interior spraying, in artificial not only there is the shortcomings such as labour intensity is large, production efficiency is low in spraying, and, in artificial, the coating quality of spraying is poor, easily occur that protective finish is uneven, out-of-flatness, the bad phenomenon such as rough, sometimes even there will be the defects such as drain spray, sand holes and trickling; Therefore, design a kind of equipment that automatically can carry out interior spraying to packing jar, become the technical problem being badly in need of at present solving.

Summary of the invention

Technical problem to be solved by this invention is to provide flush coater in a kind of rotating disc type packing jar; in this rotating disc type packing jar, flush coater automatically can carry out interior spraying to packing jar; reduce labour intensity large; improve production efficiency low; and; in this rotating disc type packing jar, the coating quality of flush coater is good, and the protective finish of spraying is even, smooth, smooth, there will not be the phenomenons such as drain spray, sand holes and trickling.

In order to solve the problems of the technologies described above, the technical solution used in the present invention is as follows:

Flush coater in a kind of rotating disc type packing jar, is characterized in that: comprise frame, reducing motor, cam protractor, enter tank arrangement, annular fixed disk, circular rotating disc, rotating disc type tank sending device, station cupping device, multiple rotating suction disc assembly, station Autorotation driving device, spray equipment and go out tank arrangement;

The casing of above-mentioned cam protractor is fixedly mounted in frame;

Above-mentioned reducing motor is fixedly mounted on the casing of cam protractor, and the continuous power shaft of above-mentioned reducing motor and cam protractor is in transmission connection;

Above-mentioned enter tank arrangement be arranged on vertically on the casing of cam protractor, above-mentioned enter the lower end of tank arrangement for going out tank mouth, above-mentioned enter the continuous output shaft of tank arrangement and cam protractor be in transmission connection;

Above-mentioned annular fixed disk is fixedly mounted on the casing of cam protractor vertically, and the interrupted output axle of above-mentioned annular fixed disk and cam protractor is coaxially arranged; Above-mentioned circular rotating disc is fixedly mounted on the interrupted output axle of cam protractor by axial compression mechanism vertically, above-mentioned circular rotating disc is fitted on annular fixed disk rotationally, and the binding face of above-mentioned circular rotating disc and the binding face of annular fixed disk are coordinated by axial compression mechanism seals;

Above-mentioned rotating disc type tank sending device is fixedly mounted on the other end of circular rotating disc, above-mentioned rotating disc type tank sending device is arranged vertically, above-mentioned rotating disc type tank sending device is positioned at the below into tank arrangement, along the rotation direction of rotating disc type tank sending device, be provided with into tank station, spray station successively and go out tank station, above-mentioned enter tank station connect with the tank mouth that goes out entering tank arrangement;

Above-mentioned station cupping device is located on annular fixed disk and circular rotating disc, and the hole that vacuumizes of above-mentioned station cupping device covers spray station, and the vacuum breaker hole of above-mentioned station cupping device covers out tank station;

Above-mentioned rotating suction disc assembly is along the circumferential direction arranged on rotating disc type tank sending device equably, above-mentioned rotating suction disc assembly is communicated with station cupping device, above-mentioned station Autorotation driving device is located in frame, and in above-mentioned station Autorotation driving device and spray station, rotating suction disc assembly is in transmission connection;

Above-mentioned spray equipment is located in frame, and above-mentioned spray equipment is positioned in spray station, and above-mentioned spray equipment is relative with the tank mouth of packing jar in spray station;

Above-mentioned go out tank arrangement be arranged in frame, above-mentioned go out tank arrangement be positioned at the below of rotating disc type tank sending device, above-mentioned go out the entering tank mouth and go out tank station and connect of tank arrangement.

Above-mentioned cam protractor, also known as Cam splitter or indexing separator, its casing is provided with continuous power shaft, continuously output shaft and interrupted output axle, and the continuous batch (-type) exporting motion and interrupted output axle that the continuous input motion of continuous power shaft can be converted into continuous output shaft by cam protractor exports motion;

Above-mentioned cam protractor has that structure is simple, indexing accuracy is high, smooth running, transmitting torque are large, location time the advantage such as self-locking, compact conformation, volume is little, production cost is low, noise is low, high speed performance is good, long service life.

Above-mentioned cam protractor is prior art, and above-mentioned cam protractor can adopt globoid cam protractor, also can adopt plane cam protractor; The operation principle of globoid cam protractor is: the transmission device of the cambered surface conjugate cam on power shaft and the divided wheel gapless Vertical Meshing on output shaft, the curved section of globoid cam contoured surface orders about divided wheel transposition, straightway makes divided wheel static, and locates self-locking; The operation principle of plane cam protractor is: the transmission device of the planar conjugate cam on power shaft and the parallel engagement of divided wheel gapless on output shaft, the curved section of plane cam contoured surface orders about divided wheel transposition, straightway makes divided wheel static, and locates self-locking.

When reducing motor rotates, the continuous power shaft of reducing motor driving cam protractor rotates continuously, continuous output shaft and the continuous power shaft of cam protractor synchronously rotate, the every rotating 360 degrees of continuous power shaft of cam protractor, wherein, the rotation of certain angle can drive interrupted output axle to rotate, thus interrupted output axle is turned an angle, the rotation of remaining angle, interrupted output axle keeps transfixion; Therefore, interrupted output axle just realizes many deciles, and the batch (-type) forming " rotation-static-rotate-static " rotates; Like this, the continuous output shaft of cam protractor just can drive into tank arrangement motion, enters tank arrangement and just packing jar can be flowed to rotating disc type tank sending device; Packing jar conveying, under the driving of its interval output shaft of cam protractor, is intermittently provided tank arrangement, goes out tank arrangement and exported by packing jar by rotating disc type tank sending device;

In the process of rotating disc type tank sending device intermittent delivery packing jar, when packing jar enters spray station, the hole that vacuumizes of station cupping device is just communicated with the rotating suction disc assembly in spray station, and the rotating suction disc assembly in spray station holds at the bottom of the tank of packing jar, meanwhile, the rotating suction disc assembly in spray station and station Autorotation driving device are in transmission connection, and station Autorotation driving device orders about rotating suction disc assembly in spray station and packing jar generation rotation, in the process of packing jar rotation, spray equipment carries out interior spraying to the packing jar of rotation, after interior spraying is complete, spray equipment stops carrying out interior spraying to the packing jar of rotation, then, packing jar after rotating suction disc assembly and interior spraying is transported to out on tank station by rotating disc type tank sending device, like this, the rotating suction disc assembly gone out on tank station is separated with position Autorotation driving device, go out the rotating suction disc assembly on tank station and the stopping of the packing jar after interior spraying rotation, meanwhile, the vacuum breaker hole of station cupping device is communicated with the rotating suction disc assembly gone out on tank station, the rotating suction disc assembly gone out on tank station is just decontroled at the bottom of the tank of packing jar, like this, packing jar after interior spraying just can drop to out in tank arrangement from going out tank station automatically, go out tank arrangement again the packing jar after interior spraying to be exported,

Therefore; in this rotating disc type packing jar, flush coater automatically can carry out interior spraying to packing jar; reduce labour intensity large; improve production efficiency low; and; in this rotating disc type packing jar, the coating quality of flush coater is good, and the protective finish of spraying is even, smooth, smooth, there will not be the phenomenons such as drain spray, sand holes and trickling.

Optimal technical scheme as hold-down mechanism axial in the present invention:

Described axial compression mechanism comprises installation sleeve, positioning sleeve, clamp nut and stop nut; Above-mentioned installation sleeve is fixedly mounted on the root of its interval output shaft of cam protractor, and above-mentioned installation sleeve is fixedly connected with circular rotating disc; Above-mentioned positioning sleeve is fixedly mounted on the end of its interval output shaft of cam protractor; Above-mentioned clamp nut and stop nut are arranged on positioning sleeve respectively, above-mentioned clamp nut and stop nut all with positioning sleeve threaded engagement, the root of above-mentioned clamp nut is pressed on installation sleeve, and above-mentioned stop nut connects with clamp nut.

By the pressuring action of its clamp nut of axial compression mechanism, circular rotating disc can closely be fitted on annular fixed disk, thus circular rotating disc and annular fixed disk are rotatably assorted hermetically.

By the locking action of its stop nut of axial compression mechanism, can prevent clamp nut from occurring to loosen, thus make clamp nut be fixed on positioning sleeve, to ensure that clamp nut has stable pressuring action.

Optimal technical scheme as entering tank arrangement in the present invention:

Described enter tank arrangement comprise support, reverse box, enter tank screw rod and two panels enters tank backplate;

Above-mentioned support is fixedly mounted on the casing of cam protractor;

Above-mentioned reverse box is rack-mount, and the power shaft of above-mentioned reverse box and the continuous output shaft of cam protractor are in transmission connection;

Above-mentioned enter tank screw rod be located at vertically on the output shaft of reverse box, above-mentioned enter the outer surface of tank screw rod be provided with two parallel thread grooves, the pitch of above-mentioned two thread grooves little by little increases from top to bottom, on the axial cross section entering tank screw rod, above-mentioned two thread grooves form two row Ka Guankou, above-mentioned two row Ka Guankou distribute symmetrically relative to the central shaft entering tank screw rod, and shape and the size of the can body of the shape of above-mentioned Ka Guankou and size and packing jar match;

It is rack-mount vertically respectively that above-mentioned two panels enters tank backplate, above-mentioned two panels enter tank backplate all with enter tank screw rod and arrange abreast, above-mentioned two panels is entered tank backplate and is laid respectively at both sides into tank screw rod, and above-mentioned two panels is entered tank backplate and matched to the can body diameter of the distance and packing jar of entering thread groove on tank screw rod; Above-mentioned two panels enters the upper end of tank backplate for entering tank mouth, and above-mentioned two panels enters the lower end of tank backplate for going out tank mouth, and above-mentioned two panels enters going out tank mouth and entering tank station and connect of tank backplate lower end.

Above-mentioned reverse box is prior art, and the power shaft of above-mentioned reverse box is vertical with output shaft to be arranged, and power shaft and the output shaft of above-mentioned reverse box are in transmission connection by bevel gear.

When reducing motor rotates, the continuous power shaft of reducing motor driving cam protractor rotates continuously, continuous output shaft and the continuous power shaft of cam protractor synchronously rotate, the continuous output shaft of cam protractor drives the power shaft motion of reverse box, the output shaft of reverse box drives into tank bolt rotary, enter tank screw rod upper blocking tank mouth the can body of packing jar is blocked and carries downwards, and, enter tank screw rod and often rotate 180 degree, once can carry two packing jars side by side downwards, like this, enter packing jar on tank screw rod two panels enter tank backplate spacing under, the tank mouth that goes out entering tank backplate lower end from two panels is transported in tank station, thus realize packing jar automatically enter tank.

Optimal technical scheme as transfer disc type tank sending device of the present invention:

Described rotating disc type tank sending device comprises middle rotating disk, tank sending rotating disk and tank sending backplate;

Above-mentioned middle rotating disk is fixedly mounted on circular rotating disc vertically, and above-mentioned middle rotating disk and circular rotating disc are coaxially arranged;

Above-mentioned tank sending rotating disk comprises the first annular disk, the second annular disk and cylinder, the inner cylinder face of above-mentioned first annular disk and the inner cylinder face of the second annular disk one-body molded with the two ends of cylinder respectively, above-mentioned first annular disk, the second annular disk and cylinder are coaxially arranged, distance between above-mentioned first annular disk and the second annular disk is less than the can body height of packing jar, and the internal diameter of above-mentioned cylinder is much larger than the diameter of its interval output shaft of cam protractor; Above-mentioned first annular disk is fixedly mounted on middle rotating disk by many pillars vertically, and above-mentioned first annular disk and middle rotating disk are coaxially arranged, and the interrupted output axle of above-mentioned cylinder and cam protractor is coaxially arranged; Above-mentioned first annular disk and the second annular disk are positioned at the below into tank arrangement, along the rotation direction of the first annular disk and the second annular disk, are provided with into tank station, spray station successively and go out tank station;

Above-mentioned first annular disk and the second annular disk are along the circumferential direction provided with multiple station breach equably, shape and the size of the shape of above-mentioned station breach and the can body of size and packing jar match, and on above-mentioned first annular disk, the position of station breach is corresponding with the position of station breach on the second annular disk; Above-mentioned enter tank station, spray station and to go out tank station all corresponding with two station breach adjacent on the first annular disk and the second annular disk;

Above-mentioned tank sending backplate is circular shape, above-mentioned tank sending backplate is located in frame, above-mentioned tank sending backplate is entering tank station and is going out between tank station, and above-mentioned tank sending backplate matches to the radius of the distance at station breach center entering tank station and go out between tank station and the can body of packing jar.

When entering tank arrangement and being transported on tank station by packing jar, the can body of packing jar is just placed on in the station breach of tank station; Then, the interrupted output axle of cam protractor drives the first annular disk and the second annular disk batch (-type) to rotate, and like this, the packing jar entered in the station breach of tank station is just transported in spray station along tank sending backplate; After packing jar completes interior spraying, the interrupted output axle of cam protractor drives the first annular disk and the second annular disk batch (-type) to rotate again, like this, packing jar after interior spraying just can be transported to out on tank station by the first annular disk and the second annular disk, like this, packing jar after interior spraying just can drop to out in tank arrangement from going out tank station automatically, goes out tank arrangement and is exported by the packing jar after interior spraying.

Optimal technical scheme as station cupping device in the present invention:

Described station cupping device comprises vavuum pump and vacuum switching mechanism, and above-mentioned vavuum pump is located in frame;

Above-mentioned vacuum switching mechanism comprises and vacuumizes hole, vacuum breaker hole and multipath gas passage;

The above-mentioned hole that vacuumizes to be located on annular fixed disk and to be positioned in spray station, the above-mentioned inlet end vacuumizing hole is oval arc shape groove, above-mentioned oval arc shape groove is along the circumferential direction located on the binding face of annular fixed disk, and above-mentioned oval arc shape groove covers spray station; The above-mentioned outlet side vacuumizing hole is circular venthole, and above-mentioned circular venthole is positioned on the other end of annular fixed disk, and above-mentioned circular venthole is communicated with vavuum pump;

Above-mentioned vacuum breaker hole to be located on annular fixed disk and to be positioned on tank station, the inlet end in vacuum breaker hole is short circular shape groove, above-mentioned short circular shape groove is along the circumferential direction located on the binding face of annular fixed disk, the length of short circular shape groove covers out tank station, and the short circular shape groove in above-mentioned vacuum breaker hole is positioned at circumferentially same with the oval arc shape groove vacuumizing hole; The outlet side in above-mentioned vacuum breaker hole is circular row pore, and above-mentioned circular row pore is positioned on the other end of annular fixed disk, and above-mentioned circular row pore is communicated with air;

Above-mentioned multipath gas passage is along the circumferential direction located on circular rotating disc equably, and the way of above-mentioned gas passage is identical with the number of rotating suction disc assembly; The air inlet of above-mentioned gas passage is located on the external cylindrical surface of circular rotating disc, and the air inlet of a road gas passage is communicated with a rotating suction disc assembly; The gas outlet of above-mentioned gas passage is located on the binding face of circular rotating disc, the circumference at place, gas outlet and annular fixed disk vacuumizes hole to above-mentioned circular rotating disc, the circumference at place, vacuum breaker hole matches.

When packing jar enters spray station, the hole that vacuumizes on annular fixed disk is communicated with the rotating suction disc assembly in spray station by the gas passage on circular rotating disc, like this, vavuum pump is by the gas passage vacuumized on hole and circular rotating disc on annular fixed disk, air between at the bottom of rotating suction disc assembly and packing jar tank is taken away, thus form vacuum between making at the bottom of the tank of rotating suction disc assembly and packing jar, therefore, packing jar is just adsorbed on rotating suction disc assembly, so that the rotation of packing jar;

When the packing jar after interior spraying enters out tank station, vacuum breaker hole on annular fixed disk is communicated with the rotating suction disc assembly gone out on tank station by the gas passage on circular rotating disc, like this, between air in air just can automatically enter at the bottom of the tank of rotating suction disc assembly and packing jar, thus the vacuum between making at the bottom of the tank of rotating suction disc assembly and packing jar is destroyed, like this, the rotating suction disc assembly gone out on tank station just can be decontroled at the bottom of the tank of packing jar, so that the packing jar after interior spraying drops to out in tank arrangement automatically.

Optimal technical scheme as rotating suction disc assembly in the present invention:

Described rotating suction disc assembly comprises sucker and station mandrel at the bottom of station seat, swiveling wheel, rotating end cap, tank;

Above-mentioned station seat is fixedly mounted on middle rotating disk, above-mentioned swiveling wheel is installed in rotation in station seat, above-mentioned rotating end cap is fixedly mounted on the end of swiveling wheel hermetically, be fixedly mounted on rotating end cap at the bottom of above-mentioned tank, the position of sucker at the bottom of above-mentioned tank is corresponding with the position of station breach on the first annular disk and the second annular disk suction cup sealed;

Above-mentioned station mandrel is installed in rotation in swiveling wheel, and above-mentioned station mandrel and swiveling wheel are sealed and matched;

At the bottom of above-mentioned station mandrel, swiveling wheel, rotating end cap and tank, sucker is coaxially arranged, at the bottom of above-mentioned station mandrel, swiveling wheel, rotating end cap and tank, the axis of sucker is provided with air intake passage, the air inlet of above-mentioned air intake passage is positioned on the upper surface of sucker at the bottom of tank, the gas outlet of above-mentioned air intake passage is positioned on station mandrel, and the gas outlet of above-mentioned air intake passage is communicated with station cupping device.

Optimal technical scheme as station Autorotation driving device in the present invention:

Described station Autorotation driving device comprises rotation driving motor, driving wheel, driven pulley and endless drive part, and above-mentioned rotation driving motor, driving wheel and driven pulley are arranged in frame respectively, and above-mentioned endless drive part is locked on driving wheel and driven pulley; Above-mentioned rotation driving motor is connected with capstan drive; Above-mentioned endless drive part is in transmission connection with the rotating suction disc assembly of two in spray station simultaneously.

Above-mentioned endless drive part can be endless-belt or ring chain, and above-mentioned driving wheel, driven pulley and swiveling wheel then select the belt pulley or sprocket wheel that mate with endless drive part.

When rotation driving motor rotates, rotation driving motor drives driving wheel to rotate, and driving wheel drives endless drive part to rotate on driving wheel and driven pulley;

When rotating suction disc assembly is positioned in spray station, endless drive part just can order about the swiveling wheel generation rotation of rotating suction disc assembly, therefore, rotating end cap on swiveling wheel and sucker at the bottom of tank just can follow rotation together with swiveling wheel, like this, packing jar on vacuum suction sucker at the bottom of tank just can follow the rotation together of sucker at the bottom of tank, thus is convenient to the spraying of packing jar.

Optimal technical scheme as spray equipment in the present invention:

Described spray equipment comprises and is located at the first spray gun in frame and the second spray gun respectively, and above-mentioned first spray gun and the second spray gun are positioned in spray station, and above-mentioned first spray gun and the second spray gun are relative with the tank mouth of two packing jars in spray station respectively.

When the first spray gun of spray equipment and the second spray gun are opened simultaneously, the first spray gun and the second spray gun just can carry out interior spraying to the packing jar of two in spray station simultaneously.

Above-mentioned first spray gun and the second spray gun are prior art, and the spray range of above-mentioned first spray gun and the second spray gun can cover the inner surface of packing jar, i.e. the inner bottom surface of packing jar and medial surface, thus realize the interior spraying of packing jar.

Technical scheme as a further improvement on the present invention:

Described enter to be provided with between tank station and spray station one detect station, above-mentioned detection station is provided with a detection control apparatus, above-mentioned detection control apparatus comprises first sensor, second sensor and PLC, above-mentioned first sensor, second sensor and PLC are arranged in frame respectively, above-mentioned first sensor and the second sensor are positioned at and detect on station, the signal output part of above-mentioned first sensor and the second sensor is electrically connected with the signal input part of PLC, the signal output part of above-mentioned PLC is electrically connected with the signal input part of the first spray gun and the second spray gun.

Above-mentioned first sensor, the second sensor and PLC are prior art.

When first sensor detects the packing jar detected on station, first sensor sends a detection signal to PLC, PLC controls output control signal to the first spray gun, and making the first spray gun be in open mode in next station period, the first spray gun just carries out interior spraying to the packing jar in spray station; When first sensor detect detect station there is no packing jar time, first sensor does not send detection signal to PLC, and the first spray gun is in closed condition in next station period; Like this, PLC just according to the testing result of first sensor, can control opening or closing of the first spray gun automatically;

In like manner, when the second sensor detects the packing jar detected on station, second sensor sends a detection signal to PLC, PLC controls output control signal to the second spray gun, and make the second spray gun be in open mode in next station period, like this, the second spray gun just carries out interior spraying to the packing jar in spray station; When the second sensor detect detect station there is no packing jar time, the second sensor does not send detection signal to PLC, and the second spray gun is in closed condition in next station period; Like this, PLC just according to the testing result of the second sensor, can control opening or closing of the second spray gun automatically.

Optimal technical scheme as going out tank arrangement in the present invention:

Described go out tank arrangement be caged, above-mentioned go out tank arrangement be located at obliquely in frame, above-mentioned go out the upper end of tank arrangement for entering tank mouth.

When the packing jar after interior spraying from go out tank station automatically drop to out in tank arrangement time, the packing jar after interior spraying just can be carried downwards along going out tank arrangement, thus leaves flush coater in this rotating disc type packing jar.

The present invention's beneficial effect is against existing technologies:

Because flush coater in this rotating disc type packing jar automatically can carry out interior spraying to packing jar, so in this rotating disc type packing jar, flush coater reduces labour intensity greatly, improves production efficiency low; Again because flush coater in this rotating disc type packing jar can make packing jar carry out interior spraying in rotation; so; in this rotating disc type packing jar, the coating quality of flush coater is good, and the protective finish of spraying is even, smooth, smooth, there will not be the phenomenons such as drain spray, sand holes and trickling.

Simultaneously, in this rotating disc type packing jar, the station cupping device of flush coater can hold at the bottom of the tank of packing jar by rotating suction disc assembly, again by station Autorotation driving device order about rotating suction disc assembly and on packing jar generation rotation, station Autorotation driving device is avoided to act directly on the outer surface of packing jar, prevent packing jar to be scratched or deform, thus ensureing the attractive in appearance of packing jar.

In addition, in this rotating disc type packing jar, flush coater can carry out interior spraying to two packing jars simultaneously, thus improves production efficiency, and, in this rotating disc type packing jar flush coater have structure simple, reasonable in design, easy to operate, be easy to the advantages such as popularization.

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is the front view of the preferred embodiment of the present invention;

Fig. 2 is that the A-A of Fig. 1 is to sectional view;

Fig. 3 is the front view of annular fixed disk in the preferred embodiment of the present invention;

Fig. 4 is the enlarged drawing of annular fixed disk in Fig. 2;

Fig. 5 is the front view of circular rotating disc in the preferred embodiment of the present invention;

Fig. 6 is the enlarged drawing of circular rotating disc in Fig. 2;

Fig. 7 is the enlarged drawing of rotating suction disc assembly in Fig. 2;

Fig. 8 is the structural representation of preferred embodiment of the present invention when entering tank;

Fig. 9 is the structural representation of the preferred embodiment of the present invention when packing jar is positioned on tank station;

Figure 10 is that the preferred embodiment of the present invention is positioned at structural representation when detecting on station at packing jar;

Figure 11 is the structural representation of the preferred embodiment of the present invention when packing jar is positioned in spray station;

Figure 12 is the structural representation of the preferred embodiment of the present invention when packing jar is positioned on tank station.

Detailed description of the invention

As shown in Figures 1 to 7, flush coater in rotating disc type packing jar in this preferred embodiment, comprises frame 1, reducing motor 11, cam protractor 12, enters tank arrangement 2, annular fixed disk 31, circular rotating disc 32, rotating disc type tank sending device 4, detection control apparatus 5, station cupping device 6, multiple rotating suction disc assembly 7, station Autorotation driving device 8, spray equipment 9 and go out tank arrangement 10;

Above-mentioned cam protractor 12 is prior art, and above-mentioned cam protractor 12 adopts globoid cam protractor or plane cam protractor; The casing 120 of above-mentioned cam protractor 12 is provided with continuous power shaft 121, continuously output shaft 122 and interrupted output axle 123, and the continuous batch (-type) exporting motion and interrupted output axle 123 that the continuous input motion of continuous power shaft 121 can be converted into continuous output shaft 122 by above-mentioned cam protractor 12 exports motion; The casing 120 of above-mentioned cam protractor 12 is fixedly mounted in frame 1;

Above-mentioned reducing motor 11 is fixedly mounted on the casing 120 of cam protractor 12, and above-mentioned reducing motor 11 is in transmission connection with the continuous power shaft 121 of cam protractor 12;

Above-mentioned enter tank arrangement 2 comprise support 20, reverse box 21, enter tank screw rod 22 and two panels enters tank backplate 23,24;

Above-mentioned support 20 is fixedly mounted on the casing 120 of cam protractor 12;

Above-mentioned reverse box 21 is prior art, and the power shaft 211 of above-mentioned reverse box 21 is vertical with output shaft 212 to be arranged, and power shaft 211 and the output shaft 212 of above-mentioned reverse box 21 are in transmission connection by bevel gear 213,214; Above-mentioned reverse box 21 is arranged on support 1, and the power shaft 211 of above-mentioned reverse box 21 is in transmission connection with the continuous output shaft 122 of cam protractor 12;

Above-mentioned enter tank screw rod 22 be located on the output shaft 212 of reverse box 21 vertically, above-mentioned enter the outer surface of tank screw rod 22 be provided with two parallel thread grooves 221, , 222, above-mentioned two thread grooves 221, the pitch of 222 little by little increases from top to bottom, on the axial cross section entering tank screw rod 22, above-mentioned two thread grooves 221, 222 form two row card tank mouths 223, 224, above-mentioned two row card tank mouths 223, 224 distribute symmetrically relative to the central shaft entering tank screw rod 22, above-mentioned card tank mouth 223, shape and the size of the can body of the shape of 224 and size and packing jar match,

Above-mentioned two panels is entered tank backplate 23,24 and is arranged on vertically respectively on support 1, above-mentioned two panels enter tank backplate 23,24 all with enter tank screw rod 22 and arrange abreast, above-mentioned two panels is entered tank backplate 23,24 and is laid respectively at both sides into tank screw rod 22, and above-mentioned two panels is entered tank backplate 23,24 and matched to entering the distance of thread groove 221,222 and the can body diameter of packing jar on tank screw rod 22; Above-mentioned two panels enters the upper end of tank backplate 23,24 for entering tank mouth 25, and above-mentioned two panels enters the lower end of tank backplate 23,24 for going out tank mouth 26;

Above-mentioned annular fixed disk 31 is fixedly mounted on the casing 120 of cam protractor 12 by ring flange 311 and pallet 312 vertically, above-mentioned ring flange 31 is fixedly mounted on the casing 120 of cam protractor 12, the inner cylinder face of above-mentioned pallet 312 is enclosed within the external cylindrical surface of ring flange 311, be fixedly connected with by bolt 313 between above-mentioned pallet 321 and ring flange 311, above-mentioned annular fixed disk 31 is fixedly mounted on pallet 312, above-mentioned ring flange 311, pallet 312 and annular fixed disk 31 are all coaxially arranged with the interrupted output axle 122 of cam protractor 12, above-mentioned ring flange 311, the internal diameter of pallet 312 and annular fixed disk 31 is all much larger than the diameter of its interval output shaft 122 of cam protractor 12, the interrupted output axle 122 of above-mentioned cam protractor 12 can at ring flange 311, rotate in pallet 312 and annular fixed disk 31,

Above-mentioned circular rotating disc 32 is fixedly mounted on the interrupted output axle 123 of cam protractor 12 by axial compression mechanism vertically, and above-mentioned axial compression mechanism comprises installation sleeve 320, positioning sleeve 321, clamp nut 322 and stop nut 323; Above-mentioned installation sleeve 320 is fixedly mounted on the root of its interval output shaft 123 of cam protractor 12, and the inner cylinder face of above-mentioned circular rotating disc 32 is fixedly mounted on the external cylindrical surface of installation sleeve 320; Above-mentioned positioning sleeve 321 is fixedly mounted on the end of its interval output shaft 123 of cam protractor 12; Above-mentioned clamp nut 322 and stop nut 323 are arranged on positioning sleeve 321 respectively, above-mentioned clamp nut 322 and stop nut 323 all with positioning sleeve 321 threaded engagement, the root of above-mentioned clamp nut 322 is pressed on installation sleeve 321, and above-mentioned stop nut 323 connects with clamp nut 322;

Above-mentioned circular rotating disc 32 is fitted on annular fixed disk 31 rotationally, and the binding face 324 of above-mentioned circular rotating disc 32 and the binding face 314 of annular fixed disk 31 are coordinated by axial compression mechanism seals; By the pressuring action of its clamp nut 322 of axial compression mechanism, circular rotating disc 32 can closely be fitted on annular fixed disk 31, thus circular rotating disc 32 and annular fixed disk 31 can be rotatably assorted hermetically, simultaneously, by the locking action of its stop nut 323 of axial compression mechanism, can prevent clamp nut 322 from occurring to loosen, thus make clamp nut 322 be fixed on positioning sleeve 321, to ensure that clamp nut 322 has stable pressuring action; Further, the binding face 314 of above-mentioned annular fixed disk 31 is made up of elastomeric material, thus makes the binding face 314 of annular fixed disk 31 have function that is wear-resisting and sealing;

Above-mentioned rotating disc type tank sending device 4 comprises middle rotating disk 41, tank sending rotating disk 42 and tank sending backplate 43;

Above-mentioned middle rotating disk 41 is fixedly mounted on the other end 325 of circular rotating disc 32 by flange screw 410 vertically, and above-mentioned middle rotating disk 41 is coaxially arranged with circular rotating disc 32;

Above-mentioned tank sending rotating disk 42 comprises the first annular disk 421, second annular disk 422 and cylinder 423, the inner cylinder face of above-mentioned first annular disk 421 and the inner cylinder face of the second annular disk 422 one-body molded with the two ends of cylinder 423 respectively, above-mentioned first annular disk 421, second annular disk 422 and cylinder 423 are coaxially arranged, distance between above-mentioned first annular disk 421 and the second annular disk 422 is less than the can body height of packing jar, and the internal diameter of above-mentioned cylinder 423 is much larger than the diameter of its interval output shaft 123 of cam protractor 12; Above-mentioned first annular disk 421 is fixedly mounted on middle rotating disk 41 by many pillars 424 vertically, and above-mentioned first annular disk 421 is coaxially arranged with middle rotating disk 41, and above-mentioned cylinder 423 is coaxially arranged with the interrupted output axle 123 of cam protractor 12; Above-mentioned first annular disk 421 and the second annular disk 422 are positioned at into tank arrangement 2 that it enters immediately below tank screw rod 22, along the rotation direction of the first annular disk 421 and the second annular disk 422, be provided with into tank station 401 successively, detect station 402, spray station 403 and go out tank station 404, the tank station 401 that enters of above-mentioned first annular disk 421 and the second annular disk 422 connects with the tank mouth 26 that goes out entering tank arrangement 2; Above-mentioned first annular disk 421 is along the circumferential direction provided with multiple station breach 01 equably, above-mentioned second annular disk 422 is along the circumferential direction provided with multiple station breach 02 equably, shape and the size of the above-mentioned shape of station breach 01,02 and the can body of size and packing jar match, and on above-mentioned first annular disk 421, the position of station breach 01 is corresponding with the position of station breach 02 on the second annular disk 422; Above-mentioned enter tank station 401, detect station 402, spray station 403 and to go out tank station 404 all corresponding with adjacent two station breach 02 on two station breach 01 adjacent on the first annular disk 421 and the second annular disk 422; ,

Above-mentioned tank sending backplate 43 is in circular shape, tank sending backplate 43 is located in frame 1, tank sending backplate 43 is entering tank station 401 and is going out between tank station 404, and tank sending backplate 43 matches to the radius of the distance at station breach 01,02 center entering tank station 401 and go out between tank station 404 and the can body of packing jar;

Above-mentioned detection control apparatus 5 comprises first sensor 51, second sensor 52 and PLC 53, above-mentioned first sensor 51, second sensor 52 and PLC 53 are arranged in frame 1 respectively, above-mentioned first sensor 51 and the second sensor 52 are positioned at and detect on station 402, and above-mentioned first sensor 51 and the second sensor 52 are corresponding with two station breach 01 on detection station 402 and two station breach 02 respectively; The signal output part of above-mentioned first sensor 51 and the second sensor 52 is electrically connected with the signal input part of PLC 53;

Above-mentioned station cupping device 6 includes vavuum pump 60 and vacuum switching mechanism, and above-mentioned vavuum pump 60 is located in frame 1; Above-mentioned vacuum switching mechanism includes and vacuumizes hole 61, vacuum breaker hole 62 and multipath gas passage 63;

The above-mentioned hole 61 that vacuumizes to be located on annular fixed disk 31 and to be positioned in spray station 403, the above-mentioned inlet end vacuumizing hole 61 is oval arc shape groove 611, above-mentioned oval arc shape groove 61 is along the circumferential direction located on the binding face 314 of annular fixed disk 31, and above-mentioned oval arc shape groove 61 covers spray station 403 and part extend in detection station 402; The above-mentioned outlet side vacuumizing hole 61 is circular venthole 612, and above-mentioned circular venthole 612 is positioned on the other end 315 of annular fixed disk 31, and above-mentioned circular venthole 612 is communicated with vavuum pump 61;

Above-mentioned vacuum breaker hole 62 to be located on annular fixed disk 31 and to be positioned on tank station 404, the inlet end in above-mentioned vacuum breaker hole 62 is short circular shape groove 621, above-mentioned short circular shape groove 621 is along the circumferential direction located on the binding face 314 of annular fixed disk 31, the length of above-mentioned short circular shape groove 621 covers out tank station 404, and the short circular shape groove 621 in above-mentioned vacuum breaker hole 62 is positioned at circumferentially same with the oval arc shape groove 611 vacuumizing hole 61; The outlet side in above-mentioned vacuum breaker hole 62 is circular row pore 621, and above-mentioned circular row pore 621 is positioned on the other end 315 of annular fixed disk 31, and above-mentioned circular row pore 621 is communicated with air;

Above-mentioned multipath gas passage 63 is along the circumferential direction located on circular rotating disc 32 equably, and the way of above-mentioned gas passage 63 is identical with the number of rotating suction disc assembly 7; The air inlet 631 of above-mentioned gas passage 63 is located on the external cylindrical surface 326 of circular rotating disc 32, and the air inlet 631 of a road gas passage 63 is communicated with a rotating suction disc assembly 7; The gas outlet 632 of above-mentioned gas passage 63 is located on the binding face 324 of circular rotating disc 32, the circumference at place, gas outlet 632 and annular fixed disk 31 vacuumizes hole 61 to above-mentioned circular rotating disc 32, the circumference at place, vacuum breaker hole 62 matches;

Above-mentioned rotating suction disc assembly 7 is along the circumferential direction arranged on the middle rotating disk 41 of rotating disc type tank sending device 4 equably, and above-mentioned rotating suction disc assembly 7 comprises sucker 74 and station mandrel 75 at the bottom of station seat 71, swiveling wheel 72, rotating end cap 73, tank;

Above-mentioned station seat 71 is fixedly mounted on middle rotating disk 41 by screw 710; Above-mentioned swiveling wheel 72 is installed in rotation in station seat 71 by bearing 721,722; Above-mentioned rotating end cap 73 is fixedly mounted on the end of swiveling wheel 72 by screw 731,732, and above-mentioned rotating end cap 73 is tightly connected by sealing ring 733 and swiveling wheel 72; Sucker 74 at the bottom of above-mentioned tank is fixedly mounted on the end of rotating end cap 73 by screw 741,742, and sucker 74 at the bottom of above-mentioned tank is crossed sealing ring 743 and is tightly connected with rotating end cap 73; The position of sucker 74 at the bottom of above-mentioned tank is corresponding with the position of station breach 02 on the position of station breach 01 on the first annular disk 421 and the second annular disk 422;

Above-mentioned station mandrel 75 is installed in rotation in swiveling wheel 72 by bearing 751,752, and above-mentioned station mandrel 75 is sealed and matched by bearing 753 with swiveling wheel 72;

At the bottom of above-mentioned station mandrel 75, swiveling wheel 72, rotating end cap 73 and tank, sucker 74 is coaxially arranged, at the bottom of above-mentioned station mandrel 75, swiveling wheel 72, rotating end cap 73 and tank, the axis of sucker 74 is provided with air intake passage 70, the air inlet 701 of above-mentioned air intake passage 70 is positioned on the upper surface of sucker 74 at the bottom of tank, the gas outlet 702 of above-mentioned air intake passage 70 is positioned on station mandrel 75, and the gas outlet 702 of above-mentioned air intake passage 70 is communicated with the gas passage 63 of station cupping device 6;

Above-mentioned station Autorotation driving device 8 comprises rotation driving motor 80, driving wheel 81, driven pulley 82 and endless drive part 83, above-mentioned endless drive part 83 adopts endless-belt or ring chain, and above-mentioned driving wheel 81, driven pulley 82 and swiveling wheel 72 select the belt pulley or sprocket wheel that mate with endless drive part 83; Above-mentioned rotation driving motor 80, driving wheel 81 and driven pulley 82 are arranged in frame 1 respectively, and above-mentioned endless drive part 83 is locked on driving wheel 81 and driven pulley 82; Above-mentioned rotation driving motor 80 is in transmission connection with driving wheel 81; Above-mentioned endless drive part 83 is in transmission connection with the swiveling wheel 72 of two rotating suction disc assemblies 7 in spray station 403 simultaneously;

Above-mentioned spray equipment 9 comprises the first spray gun 91 and the second spray gun 91 be located at respectively in frame 1, above-mentioned first spray gun 91 and the second spray gun 91 are positioned in spray station 403, and above-mentioned first spray gun 91 and the second spray gun 92 are relative with the tank mouth of two packing jars in spray station 403 respectively; The signal input part of above-mentioned first spray gun 91 and the second spray gun 92 is electrically connected with the signal output part of PLC 53 respectively;

Above-mentioned go out tank arrangement 10 in caged, above-mentioned go out tank arrangement 10 be located in frame 1 obliquely, above-mentioned go out tank arrangement 10 be positioned at the below of rotating disc type tank sending device 4, above-mentioned go out the upper end of tank arrangement 10 for entering tank mouth 100, above-mentioned go out the entering tank mouth 100 and go out tank station 404 and connect of tank arrangement 10.

Below in conjunction with accompanying drawing, the course of work of flush coater in this rotating disc type packing jar is described in detail:

As shown in Figure 1, Figure 2, shown in Fig. 8 and Fig. 9, when reducing motor 11 rotates, the continuous power shaft 121 of reducing motor 11 driving cam protractor 12 rotates continuously, continuous output shaft 122 and the continuous power shaft 121 of cam protractor 12 synchronously rotate, the continuous output shaft 122 of cam protractor 12 drives the power shaft 211 of reverse box 21 to move, the output shaft 212 of reverse box 21 drives and rotates into tank screw rod 22, enters tank screw rod 22 upper blocking tank mouth 223,224 and the can body of packing jar 03,04 is blocked and carried downwards simultaneously; The power shaft 211 of above-mentioned reverse box 21 take gearratio as 2:1 interlock with the continuous output shaft 122 of cam protractor 12, i.e. the every rotating 360 degrees of the continuous output shaft 122 of cam protractor 12, and the power shaft 211 of reverse box 21 revolves turnback; The power shaft 211 of above-mentioned reverse box 21 and the gearratio of output shaft 212 are 1:1, and therefore, the every rotating 360 degrees of continuous output shaft 122 of cam protractor 12, enters tank screw rod 22 and revolve turnback; And enter tank screw rod 22 and often revolve turnback, once can carry two packing jars 03,04 side by side downwards, like this, enter packing jar 03,04 on tank screw rod 22 two panels enter tank backplate 23,24 spacing under, the tank mouth 26 that goes out entering tank backplate 23,24 lower end from two panels is transported to into tank station 401;

As shown in Figure 1, Figure 2, shown in Fig. 9 and Figure 10, when enter tank arrangement 2 enter tank screw rod 22 packing jar 03,04 is transported on tank station 401 time, the can body of packing jar 03,04 is just placed on in two station breach 01 (02) of tank station 401 respectively;

Then, the interrupted output axle 123 of cam protractor 12 drives the first annular disk 421 and the second annular disk 422 batch (-type) to rotate, 120 degree of driving interrupted output axles 123 are had to rotate 60 degree in 360 degree that the continuous power shaft 121 of above-mentioned cam protractor 12 rotates, remaining 240 degree keep interrupted output axle 123 transfixion, therefore, the interrupted output axle 123 of cam protractor 12 realizes 6 deciles, and the batch (-type) forming " rotation-static-rotate-static " rotates, simultaneously, first annular disk 421 and the every intermittent rotary 60 degree of the second annular disk 422, packing jar 03 on first annular disk 421 and the second annular disk 422, 04 just can enter next station, like this, the packing jar 03,04 entered on tank station 401 just can be transported to along tank sending backplate 43 and detect on station 402,

When packing jar 03,04 is transported on detection station 402 along tank sending backplate 43, first sensor 51 detects the packing jar 03 detected on station 402, first sensor 51 sends a detection signal to PLC 53, PLC controls 53 and exports a control signal to the first spray gun 91, and makes the first spray gun 91 be in open mode in next station period; In like manner, second sensor 52 detects the packing jar 04 detected on station 402, second sensor 52 sends a detection signal and controls 53 outputs control signal to the second spray gun 92 to PLC 53, PLC, and makes the second spray gun 92 be in open mode in next station period;

If detect station 402 there is no packing jar, first sensor 51 and the second sensor 52 can't detect packing jar, first sensor 51 and the second sensor 52 do not send detection signal to PLC 53, then the first spray gun 91 and the second spray gun 92 are in closed condition in next station period;

Then, the interrupted output axle 123 of cam protractor 12 drives the first annular disk 421 and the second annular disk 422 batch (-type) to rotate again, detect the packing jar 03 on station 402, 04 just can be transported in spray station 403 along tank sending backplate 43, as shown in Fig. 1 to Fig. 7 and Figure 11, when packing jar 03, 04 when being transported in spray station 403 along tank sending backplate 43, the hole 61 that vacuumizes on annular fixed disk 31 is communicated with the air intake passage 70 of rotating suction disc assembly 7 in spray station 403 by the gas passage 63 on circular rotating disc 32, like this, vavuum pump 60 is by annular fixed disk 31 vacuumizes hole 61, the air intake passage 70 of rotating suction disc assembly 7 in gas passage 63 on circular rotating disc 32 and spray station 403, air between at the bottom of sucker 74 at the bottom of its tank of rotating suction disc assembly 7 and packing jar 03 or packing jar 04 tank is taken away, thus form vacuum between making at the bottom of the tank of sucker 74 and packing jar 03 or packing jar 04 at the bottom of its tank of rotating suction disc assembly 7, therefore, packing jar 03 or packing jar 04 are just adsorbed on sucker 74 at the bottom of the tank of rotating suction disc assembly 7, meanwhile, in spray station 403, the swiveling wheel 72 of rotating suction disc assembly 7 is in transmission connection with the endless drive part 83 of station Autorotation driving device 8, rotation driving motor 80 due to station Autorotation driving device 8 is in the state of rotation always, so, the rotation driving motor 80 of station Autorotation driving device 8 drives driving wheel 81 to rotate, driving wheel 81 drives endless drive part 83 to rotate on driving wheel 81 and driven pulley 82, there is rotation in the swiveling wheel 72 that endless drive part 83 orders about rotating suction disc assembly 7 in spray station 403, therefore, rotating end cap 73 on swiveling wheel 72 and sucker at the bottom of tank 74 just can follow rotation together with swiveling wheel 72, like this, packing jar 03 on vacuum suction sucker 74 at the bottom of tank or packing jar 04 just can follow sucker 74 rotation together at the bottom of tank,

In the process of packing jar 03 or packing jar 04 rotation, packing jar 03 in first spray gun 91 pairs spray station 403 carries out interior spraying, packing jar 04 in second spray gun 92 pairs spray station 403 carries out interior spraying, after interior spraying, first spray gun 91 and the second spray gun 92 are closed, then, the interrupted output axle 123 of cam protractor 12 drives the first annular disk 421 and the second annular disk 422 batch (-type) to rotate again, packing jar 03 in spray station 403, 04 just can be transported to out on tank station 404 along tank sending backplate 43, as shown in Fig. 1 to Fig. 7 and Figure 12, when packing jar 03, 04 when being transported to out on tank station 404 along tank sending backplate 43, the endless drive part 83 of the swiveling wheel 72 and station Autorotation driving device 8 that go out rotating suction disc assembly 7 on tank station 404 is separated, like this, rotating suction disc assembly 7 just stops rotation, meanwhile, vacuum breaker hole 62 on annular fixed disk 31 is communicated with the air intake passage 70 going out rotating suction disc assembly 7 on tank station 404 by the gas passage 63 on circular rotating disc 32, between air in air just can automatically enter into out at the bottom of the tank of sucker 74 and packing jar 03 or packing jar 04 at the bottom of the tank of rotating suction disc assembly 7 on tank station 404, vacuum between using at the bottom of sucker 74 at the bottom of its tank of rotating suction disc assembly 7 and packing jar 03 on tank station 404 or packing jar 04 tank is destroyed, therefore, going out sucker 74 at the bottom of the tank of rotating suction disc assembly 7 on tank station 404 just can decontrol at the bottom of the tank of packing jar 03 or packing jar 04, like this, go out packing jar 03 on tank station 404 and packing jar 04 just drops to out in tank arrangement 10 automatically,

When the packing jar 03,04 after interior spraying from go out tank station 404 automatically drop to out in tank arrangement 10 time, packing jar 03,04 after interior spraying just can be carried downwards along going out tank arrangement 10, like this, packing jar 03,04 after interior spraying just exports by going out tank arrangement 10, thus leaves flush coater in this rotating disc type packing jar.

The device that above-mentioned first sensor 51, second sensor 52, PLC 53, first spray gun 91 and the second spray gun 92 etc. are not introduced in detail is prior art.

The spray range of above-mentioned first spray gun 91 and the second spray gun 92 can cover the inner surface of packing jar, i.e. the inner bottom surface of packing jar and medial surface, thus realizes the interior spraying of packing jar.

The content of above detailed description of the invention is only the preferred embodiments of the present invention, and above preferred embodiment is not used for limiting practical range of the present invention; Every various equivalents made according to the protection domain of its claim of the present invention, all cover by the protection domain of its claim of the present invention.

Claims (10)

1. a flush coater in rotating disc type packing jar, is characterized in that: comprise frame, reducing motor, cam protractor, enter tank arrangement, annular fixed disk, circular rotating disc, rotating disc type tank sending device, station cupping device, multiple rotating suction disc assembly, station Autorotation driving device, spray equipment and go out tank arrangement;

The casing of above-mentioned cam protractor is fixedly mounted in frame;

Above-mentioned reducing motor is fixedly mounted on the casing of cam protractor, and the continuous power shaft of above-mentioned reducing motor and cam protractor is in transmission connection;

Above-mentioned enter tank arrangement be arranged on vertically on the casing of cam protractor, above-mentioned enter the lower end of tank arrangement for going out tank mouth, above-mentioned enter the continuous output shaft of tank arrangement and cam protractor be in transmission connection;

Above-mentioned annular fixed disk is fixedly mounted on the casing of cam protractor vertically, and the interrupted output axle of above-mentioned annular fixed disk and cam protractor is coaxially arranged; Above-mentioned circular rotating disc is fixedly mounted on the interrupted output axle of cam protractor by axial compression mechanism vertically, above-mentioned circular rotating disc is fitted on annular fixed disk rotationally, and the binding face of above-mentioned circular rotating disc and the binding face of annular fixed disk are coordinated by axial compression mechanism seals;

Above-mentioned rotating disc type tank sending device is fixedly mounted on the other end of circular rotating disc, above-mentioned rotating disc type tank sending device is arranged vertically, above-mentioned rotating disc type tank sending device is positioned at the below into tank arrangement, along the rotation direction of rotating disc type tank sending device, be provided with into tank station, spray station successively and go out tank station, above-mentioned enter tank station connect with the tank mouth that goes out entering tank arrangement;

Above-mentioned station cupping device is located on annular fixed disk and circular rotating disc, and the hole that vacuumizes of above-mentioned station cupping device covers spray station, and the vacuum breaker hole of above-mentioned station cupping device covers out tank station;

Above-mentioned rotating suction disc assembly is along the circumferential direction arranged on rotating disc type tank sending device equably, above-mentioned rotating suction disc assembly is communicated with station cupping device, above-mentioned station Autorotation driving device is located in frame, and in above-mentioned station Autorotation driving device and spray station, rotating suction disc assembly is in transmission connection;

Above-mentioned spray equipment is located in frame, and above-mentioned spray equipment is positioned in spray station, and above-mentioned spray equipment is relative with the tank mouth of packing jar in spray station;

Above-mentioned go out tank arrangement be arranged in frame, above-mentioned go out tank arrangement be positioned at the below of rotating disc type tank sending device, above-mentioned go out the entering tank mouth and go out tank station and connect of tank arrangement.

2. according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described axial compression mechanism comprises installation sleeve, positioning sleeve, clamp nut and stop nut; Above-mentioned installation sleeve is fixedly mounted on the root of its interval output shaft of cam protractor, and above-mentioned installation sleeve is fixedly connected with circular rotating disc; Above-mentioned positioning sleeve is fixedly mounted on the end of its interval output shaft of cam protractor; Above-mentioned clamp nut and stop nut are arranged on positioning sleeve respectively, above-mentioned clamp nut and stop nut all with positioning sleeve threaded engagement, the root of above-mentioned clamp nut is pressed on installation sleeve, and above-mentioned stop nut connects with clamp nut.

3., according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described in enter tank arrangement and comprise support, reverse box, enter tank screw rod and two panels enters tank backplate;

Above-mentioned support is fixedly mounted on the casing of cam protractor;

Above-mentioned reverse box is rack-mount, and the power shaft of above-mentioned reverse box and the continuous output shaft of cam protractor are in transmission connection;

Above-mentioned enter tank screw rod be located at vertically on the output shaft of reverse box, above-mentioned enter the outer surface of tank screw rod be provided with two parallel thread grooves, the pitch of above-mentioned two thread grooves little by little increases from top to bottom, on the axial cross section entering tank screw rod, above-mentioned two thread grooves form two row Ka Guankou, above-mentioned two row Ka Guankou distribute symmetrically relative to the central shaft entering tank screw rod, and shape and the size of the can body of the shape of above-mentioned Ka Guankou and size and packing jar match;

It is rack-mount vertically respectively that above-mentioned two panels enters tank backplate, above-mentioned two panels enter tank backplate all with enter tank screw rod and arrange abreast, above-mentioned two panels is entered tank backplate and is laid respectively at both sides into tank screw rod, and above-mentioned two panels is entered tank backplate and matched to the can body diameter of the distance and packing jar of entering thread groove on tank screw rod; Above-mentioned two panels enters the upper end of tank backplate for entering tank mouth, and above-mentioned two panels enters the lower end of tank backplate for going out tank mouth, and above-mentioned two panels enters going out tank mouth and entering tank station and connect of tank backplate lower end.

4. according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described rotating disc type tank sending device comprises middle rotating disk, tank sending rotating disk and tank sending backplate;

Above-mentioned middle rotating disk is fixedly mounted on circular rotating disc vertically, and above-mentioned middle rotating disk and circular rotating disc are coaxially arranged;

Above-mentioned tank sending rotating disk comprises the first annular disk, the second annular disk and cylinder, the inner cylinder face of above-mentioned first annular disk and the inner cylinder face of the second annular disk one-body molded with the two ends of cylinder respectively, above-mentioned first annular disk, the second annular disk and cylinder are coaxially arranged, distance between above-mentioned first annular disk and the second annular disk is less than the can body height of packing jar, and the internal diameter of above-mentioned cylinder is much larger than the diameter of its interval output shaft of cam protractor; Above-mentioned first annular disk is fixedly mounted on middle rotating disk by many pillars vertically, and above-mentioned first annular disk and middle rotating disk are coaxially arranged, and the interrupted output axle of above-mentioned cylinder and cam protractor is coaxially arranged; Above-mentioned first annular disk and the second annular disk are positioned at the below into tank arrangement, along the rotation direction of the first annular disk and the second annular disk, are provided with into tank station, spray station successively and go out tank station;

Above-mentioned first annular disk and the second annular disk are along the circumferential direction provided with multiple station breach equably, shape and the size of the shape of above-mentioned station breach and the can body of size and packing jar match, and on above-mentioned first annular disk, the position of station breach is corresponding with the position of station breach on the second annular disk; Above-mentioned enter tank station, spray station and to go out tank station all corresponding with two station breach adjacent on the first annular disk and the second annular disk;

Above-mentioned tank sending backplate is circular shape, above-mentioned tank sending backplate is located in frame, above-mentioned tank sending backplate is entering tank station and is going out between tank station, and above-mentioned tank sending backplate matches to the radius of the distance at station breach center entering tank station and go out between tank station and the can body of packing jar.

5. according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described station cupping device comprises vavuum pump and vacuum switching mechanism, and above-mentioned vavuum pump is located in frame;

Above-mentioned vacuum switching mechanism comprises and vacuumizes hole, vacuum breaker hole and multipath gas passage;

The above-mentioned hole that vacuumizes to be located on annular fixed disk and to be positioned in spray station, the above-mentioned inlet end vacuumizing hole is oval arc shape groove, above-mentioned oval arc shape groove is along the circumferential direction located on the binding face of annular fixed disk, and above-mentioned oval arc shape groove covers spray station; The above-mentioned outlet side vacuumizing hole is circular venthole, and above-mentioned circular venthole is positioned on the other end of annular fixed disk, and above-mentioned circular venthole is communicated with vavuum pump;

Above-mentioned vacuum breaker hole to be located on annular fixed disk and to be positioned on tank station, the inlet end in vacuum breaker hole is short circular shape groove, above-mentioned short circular shape groove is along the circumferential direction located on the binding face of annular fixed disk, the length of short circular shape groove covers out tank station, and the short circular shape groove in above-mentioned vacuum breaker hole is positioned at circumferentially same with the oval arc shape groove vacuumizing hole; The outlet side in above-mentioned vacuum breaker hole is circular row pore, and above-mentioned circular row pore is positioned on the other end of annular fixed disk, and above-mentioned circular row pore is communicated with air;

Above-mentioned multipath gas passage is along the circumferential direction located on circular rotating disc equably, and the way of above-mentioned gas passage is identical with the number of rotating suction disc assembly; The air inlet of above-mentioned gas passage is located on the external cylindrical surface of circular rotating disc, and the air inlet of a road gas passage is communicated with a rotating suction disc assembly; The gas outlet of above-mentioned gas passage is located on the binding face of circular rotating disc, the circumference at place, gas outlet and annular fixed disk vacuumizes hole to above-mentioned circular rotating disc, the circumference at place, vacuum breaker hole matches.

6. according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described rotating suction disc assembly comprises sucker and station mandrel at the bottom of station seat, swiveling wheel, rotating end cap, tank;

Above-mentioned station seat is fixedly mounted on middle rotating disk, above-mentioned swiveling wheel is installed in rotation in station seat, above-mentioned rotating end cap is fixedly mounted on the end of swiveling wheel hermetically, be fixedly mounted on rotating end cap at the bottom of above-mentioned tank, the position of sucker at the bottom of above-mentioned tank is corresponding with the position of station breach on the first annular disk and the second annular disk suction cup sealed;

Above-mentioned station mandrel is installed in rotation in swiveling wheel, and above-mentioned station mandrel and swiveling wheel are sealed and matched;

At the bottom of above-mentioned station mandrel, swiveling wheel, rotating end cap and tank, sucker is coaxially arranged, at the bottom of above-mentioned station mandrel, swiveling wheel, rotating end cap and tank, the axis of sucker is provided with air intake passage, the air inlet of above-mentioned air intake passage is positioned on the upper surface of sucker at the bottom of tank, the gas outlet of above-mentioned air intake passage is positioned on station mandrel, and the gas outlet of above-mentioned air intake passage is communicated with station cupping device.

7. according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described station Autorotation driving device comprises rotation driving motor, driving wheel, driven pulley and endless drive part, above-mentioned rotation driving motor, driving wheel and driven pulley are arranged in frame respectively, and above-mentioned endless drive part is locked on driving wheel and driven pulley; Above-mentioned rotation driving motor is connected with capstan drive; Above-mentioned endless drive part is in transmission connection with the rotating suction disc assembly of two in spray station simultaneously.

8. according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described spray equipment comprises and is located at the first spray gun in frame and the second spray gun respectively, above-mentioned first spray gun and the second spray gun are positioned in spray station, and above-mentioned first spray gun and the second spray gun are relative with the tank mouth of two packing jars in spray station respectively.

9. according to flush coater in rotating disc type packing jar according to claim 8, it is characterized in that: described in enter to be provided with between tank station and spray station one and detect station, above-mentioned detection station is provided with a detection control apparatus, above-mentioned detection control apparatus comprises first sensor, second sensor and PLC, above-mentioned first sensor, second sensor and PLC are arranged in frame respectively, above-mentioned first sensor and the second sensor are positioned at and detect on station, the signal output part of above-mentioned first sensor and the second sensor is electrically connected with the signal input part of PLC, the signal output part of above-mentioned PLC is electrically connected with the signal input part of the first spray gun and the second spray gun.

10., according to flush coater in rotating disc type packing jar according to claim 1, it is characterized in that: described in go out tank arrangement be caged, above-mentioned go out tank arrangement be located at obliquely in frame, above-mentioned go out the upper end of tank arrangement for entering tank mouth.