CN109201408A - Without lead cylindrical resistance coating process and coating equipment - Google Patents

Abstract

The invention discloses no lead cylindrical resistance coating process, comprising the following steps: Step 1: positioning；The both ends of no lead cylindrical resistance are respectively positioned in respective positioning cavity, and pass through the coating position without lead cylindrical resistance described in the emptiness avoiding hole empty avoiding between two positioning cavities；Step 2: coating；Coating idler wheel is by the emptiness avoiding hole by paint spraying on the surface of the no lead cylindrical resistance.Without lead cylindrical resistance coating equipment, including conveying mechanism, multiple emptiness avoiding holes are equably provided on the conveying mechanism, the both ends of the emptiness avoiding hole are provided with positioning cavity, and the positioning cavity has three side walls and connects the bottom wall of three side walls；The no lead cylindrical resistance both ends are limited respectively in the positioning cavity at the emptiness avoiding hole both ends, and rotating mechanism drives the rotation of coating idler wheel.It reduces costs, and improve efficiency without increasing lead instead of existing application techniques, effectively meets the needs of market production.

Description

Without lead cylindrical resistance coating process and coating equipment

Technical field

The present invention relates to resistance field of coating, and in particular to without lead cylindrical resistance coating process and coating equipment.

Background technique

No lead cylindrical resistance is widely applied in electronic product industry.Chinese patent, proprietary term: without lead resistance coating Machine, the patent No.: in CN201711347200.4 application for a patent for invention, the solution is to: it, can be using stickup without lead resistance Mode carry out circuit patch, so the demand without lead resistance is higher and higher.This no lead resistance needs on pole Coiling is carried out, then both ends are welded in the metal cap at pole both ends respectively.After coiling, carry out paint paint operation, that is, to around The pole of the resistance of good line is painted, existing production equipment, and structure is more complex, production efficiency is low.Existing production equipment, When resistance feeding, the phenomenon that usually will appear obstruction, the problem of being unable to friction feeding.Its technical solution solved the problems, such as It is that this is solved present in existing no lead resistance coating machine without lead resistance coating machine: structure is complicated, production efficiency is low The defects of.To achieve the above object, which is achieved through the following technical solutions: without lead resistance coating machine, packet Bracket is included, bracket is arranged along linear type, and the material strip of cycle operation is equipped on bracket, and along the moving direction of material strip, bracket is arranged There are feed section, lacquered portion, heater box；Material strip is flat stainless steel band, offers multiple parallel hole locations, hole location on material strip It is rectangle, has extended to form outer recess portion to the side of material strip in the middle part of the both ends of hole location, material strip is placed on material strip track, outer recessed Portion is located on material strip track；Lacquered portion includes multiple japanning units and corresponding controller, japanning unit include paint box, Painting wheel, painting wheel are located at the upper end of paint box, and painting wheel is located at the lower section between two tracks of material strip track.Since steel band is long Degree is longer, and by oven heat, therefore can have deformation, when resistance drops into hole location, in steel band transmission process, leads to The side wall dragging resistance for crossing recess portion is mobile, due to strip deformation, resistance is be easy to cause to run out of out of hole location, and in coating During, coating unit can up jack up resistance, so that resistance be caused to run out of out of vacancy；And it is in-orbit in conveying resistance When running on road, when conveying speed is too fast, resistance under the action of inertia, is also easy to run out of from vacancy, therefore cause coating Low efficiency, and it be easy to cause that resistance wastes or coating is bad.In view of disadvantages described above, it is really necessary to design no lead cylinder Resistance coating process and coating equipment.

Summary of the invention

Technical problem to be solved by the present invention lies in: it provides without lead cylindrical resistance coating process and coating equipment, solution The low efficiency of certainly existing no lead resistance coating, the high problem of fraction defective.

In order to solve the above technical problems, the technical scheme is that without lead cylindrical resistance coating process, including it is following Step:

Step 1: positioning；The both ends of no lead cylindrical resistance position respectively, and are supported on the respectively positioning to lower recess In cavity, and pass through the coating position without lead cylindrical resistance described in the emptiness avoiding hole empty avoiding between two positioning cavities；

Step 2: coating；Coating idler wheel is contacted by the emptiness avoiding hole with the bottom surface of no lead cylindrical resistance, and coating is applied Mounted in the surface of the no lead cylindrical resistance.

Further, in the step 2, when the no lead cylindrical resistance coating, the coating roller supporting is simultaneously driven The no lead cylindrical resistance rotates in the positioning cavity.

It further, further include the coating Step 3: the uniform no lead cylindrical resistance surface.

Without lead cylindrical resistance coating equipment, including conveying mechanism, multiple keep away equably is provided on the conveying mechanism Emptying aperture, the both ends of the emptiness avoiding hole are provided with the positioning cavity to lower recess, and the positioning cavity has three side walls and connection The bottom wall of three side walls；The no lead cylindrical resistance both ends limit the positioning cavity at the emptiness avoiding hole both ends respectively Interior, the two positioning cavity limits support the no lead cylindrical resistance；The conveying mechanism drives the no lead cylinder electricity Resistance linear movement, a rotating mechanism drive the rotation of coating idler wheel, described in the coating roller supporting gradually up without lead resistance The no lead cylindrical resistance rotation is lifted and driven, the coating of the coating idler wheel is made to be coated in the no lead cylindrical resistance Outer round surface.

Further, the conveying mechanism is set in a rack；Installing mechanism, the rotating mechanism are provided in the rack On the installing mechanism；The coating idler wheel is fixedly connected with the output revolving shaft of the rotating mechanism.

Further, modification wheel is additionally provided on the installing mechanism, the second rotating mechanism drives the modification wheel rotation, described Installing mechanism front end is equipped with close to the adjustable scraper plate of the coating idler wheel outer circle and takes turns the material scraping plate that outer circle contacts with the modification； The coating idler wheel is set gradually with the modification wheel along the conveying direction of coating；The installing mechanism, which is equipped with, is located at described repair Coating material cartridge below decorations wheel and the coating wheel；The lower end of the coating idler wheel is submerged in the liquid level in the coating material cartridge.

Further, the installing mechanism includes support base, and the first guide rail group, the second guide rail group, first slide, second is sliding Seat, the first thread plate, the second thread plate, the first screw rod and the second screw rod；The support base is fixedly connected in the rack, institute State the vertical back side for being installed in the support base of the first guide rail group and the second guide rail group, the first slide and described the One guide rail group is slidably connected, and the second slide is slidably connected with the second guide rail group；First thread plate and described Two thread plates are set to the upper end of the support base；It is equipped with threaded hole on first thread plate and second thread plate, institute The threaded hole that the first screw rod passes through first thread plate is stated, lower end is rotatably connected with the first slide, second spiral shell Bar passes through the threaded hole of second thread plate, and lower end is rotatably connected with the second slide；The rotating mechanism setting exists In the first slide, the bearing block of the modification wheel is installed in the second slide；The support base is equipped with empty avoiding institute State the output shaft of rotating mechanism and the avoiding hollow groove of modification wheel connecting shaft；The rotating mechanism is rotating electric machine.

Further, feed mechanism and baking box are additionally provided in the rack；The feed mechanism, the installing mechanism and institute The conveying direction that baking box is stated along coating is set gradually.

Further, the feed mechanism includes mounting base and vibration feeding disk in the rack, is arranged described Indexing mechanism and stop collar in mounting base, and the turntable being arranged in the shaft of the indexing mechanism, the axis of the turntable The heart is overlapped with the axle center of the stop collar；The indexing mechanism drives the turntable stepping rotation；On the circumference of the turntable It is provided with multiple holding tanks evenly；The stop collar is equipped with feeding notch close to vibration feeding disk side, and the feeding lacks Feeding pipeline is equipped between mouth and the vibration feeding disk；The side of the turntable is located at the top of the conveying mechanism；It is described The no lead cylindrical resistance in vibration feeding disk is transported in the holding tank through the feeding pipeline；The turntable rotation When, the no lead cylindrical resistance limit is between the holding tank and the stop collar inner wall.

Further, the conveying mechanism includes driving wheel, driven wheel, annular transmission steel band and motor；The driving wheel and The driven wheel is oppositely arranged, and the annular transmission steel band is around on the driving wheel and the driven wheel；The emptiness avoiding hole and The positioning cavity is set on the annular transmission steel band；Empty avoiding institute is equipped in the outer circle of the driving wheel and the driven wheel State the empty avoiding annular groove of positioning cavity；The rotation of driving wheel described in the motor driven, makes the transmission steel band cycle operation.

Further, the conveying mechanism includes driving shaft, driven shaft, the first sprocket wheel, the second sprocket wheel, third sprocket wheel, and the 4th Sprocket wheel, the first chain, the second chain, positioning plate and the second motor；First sprocket wheel and second sprocket wheel are placed on the master On moving axis, the third sprocket wheel and the 4th sprocket wheel are placed on the driven shaft, first chain with first chain Wheel and the third sprocket engagement, second chain with second sprocket wheel and the 4th sprocket engagement；The positioning Plate quantity is more than one piece, and detachably connected first chain and second chain are distinguished in the both ends of the positioning plate；It is described The emptiness avoiding hole and the positioning cavity are set on the positioning plate；Spindle rotation described in second motor driven.

Compared with prior art, this has the advantages that without lead cylindrical resistance coating process

Directly the both ends of no lead cylindrical resistance are respectively positioned in respective positioning cavity, and pass through two positioning Without the coating position of lead cylindrical resistance described in emptiness avoiding hole empty avoiding between cavity；Coating idler wheel is applied coating by the emptiness avoiding hole Mounted in the surface of the no lead cylindrical resistance.Resistance is positioned and supported by two positioning cavities, therefore resistance is being conveyed and applied During dress, position-limiting action is played by both ends of the positioning cavity to resistance, avoids resistance from running out of, therefore instead of existing Application techniques, and efficiency is improved, fraction defective is reduced, effectively meets the needs of market production.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the invention without lead cylindrical resistance coating equipment；

Fig. 2 is the enlarged view of the invention without conveying mechanism part described in lead cylindrical resistance coating equipment；

Fig. 3 is the structure chart of the invention without lead cylindrical resistance coating equipment；

Fig. 4 is the structure chart of the invention without lead cylindrical resistance coating equipment coating part；

Fig. 5 is the present invention without the structure chart before lead cylindrical resistance coating equipment installing mechanism；

Fig. 6 is the structure chart of the invention without the installing mechanism back side described in lead cylindrical resistance coating equipment；

Fig. 7 is the structure chart of the invention without feed mechanism part described in lead cylindrical resistance coating equipment；

Fig. 8 is the structure chart of the invention without dial portion described in lead cylindrical resistance coating equipment；

Fig. 9 is the disconnection figure of the invention without conveying mechanism example example 1 described in lead cylindrical resistance coating equipment；

Figure 10 is the structure chart of the invention without support guide component described in lead cylindrical resistance coating equipment；

Figure 11 is the structural schematic diagram of the invention without another embodiment of conveying mechanism described in lead cylindrical resistance coating equipment；

Figure 12 is another implementation that the present invention is arranged on the rack without conveying mechanism described in lead cylindrical resistance coating equipment The structural schematic diagram of example；

Figure 13 is the partial enlarged view of the invention without conveying mechanism described in lead cylindrical resistance coating equipment；

Figure 14 is the structure chart of the invention without positioning plate described in lead cylindrical resistance coating equipment.

Specific embodiment

The following detailed description will be further explained with reference to the above drawings.

Hereinafter, a variety of specific details are elaborated, in order to provide to the saturating of the concept for constituting described embodiment basis Thorough understanding.However, it will be apparent to those skilled in the art that described embodiment can be in these no specific details In some or all situations get off practice.In other cases, well-known processing step is not specifically described.

Without lead cylindrical resistance coating process, comprising the following steps:

Step 1: positioning；The both ends of no lead cylindrical resistance position respectively, are supported on the respectively positioning cavity to lower recess It is interior, and pass through the coating position without lead cylindrical resistance described in the emptiness avoiding hole empty avoiding between two positioning cavities；

Step 2: coating；Coating idler wheel by the emptiness avoiding hole by paint spraying the no lead cylindrical resistance table Face.The coating process can be stablized and be accurately positioned instead of existing application techniques, quickly convey, improve efficiency, reduce Cost effectively meets the needs of market production.

Further, in the step 2, when the no lead cylindrical resistance coating, the coating roller supporting is simultaneously driven The no lead cylindrical resistance rotates in two positioning cavities.In this step, since the both ends of the no lead resistance have There is solder joint, during coating, can be contacted to avoid solder joint with the bottom wall of positioning cavity, therefore, is packed without lead resistance just Often rotation.Specifically, for no lead resistance when coating idler wheel is contacted with the no lead resistance, coating idler wheel is gradually by resistance top It rises, and resistance is driven to rotate, thus by paint spraying in the outer circle of resistance, since coating idler wheel supports resistance, from And the frictional force of resistance rotation can be reduced, it is rotated convenient for resistance, and by the side wall of positioning cavity, and be avoided that resistance is detached from Positioning cavity.

Further, no lead cylindrical resistance coating process further includes Step 3: the uniform no lead cylindrical resistance surface Coating.Specifically, after the completion of resistance coating, another scroll wheel positions are transported to, pass through the coating position of another idler wheel and resistance Contact is set, to be painted on coating removal extra on resistance, and coating is evenly distributed on to the appearance of resistance.

Referring to Figures 1 and 2, no lead cylindrical resistance coating equipment, including conveying mechanism 100, on the conveying mechanism 100 Multiple emptiness avoiding holes 200 are equably provided with, the both ends of the emptiness avoiding hole 200 are provided with positioning cavity 300, the positioning cavity 300 bottom walls 320 with three side walls 310 of three side walls 310 and connection.The no lead cylindrical resistance both ends limit respectively In the positioning cavity 300 at 200 both ends of emptiness avoiding hole, two limits of positioning cavity 300 support the no lead cylinder Resistance.The conveying mechanism 100 drives the no lead cylindrical resistance linear movement, and a rotating mechanism 400 drives coating idler wheel 500 rotate, and gradually up lift described in the coating roller supporting without lead resistance and drive the no lead cylindrical resistance rotation Turn, the coating of the coating idler wheel 500 is made to be coated in the outer round surface of the no lead cylindrical resistance.

Further, referring to Fig. 3 and Fig. 4, the conveying mechanism 100 is set in a rack 600；It is arranged in the rack 600 There is installing mechanism 700, the rotating mechanism 400 is set on the installing mechanism 700；The coating idler wheel 500 and the rotation The output revolving shaft of mechanism 400 is fixedly connected.

Further, referring to Figure 4 and 5, modification wheel 800 is additionally provided on the installing mechanism 700, the second rotating mechanism 10 also drives 800 rotation of modification wheel is moved, 700 front end of installing mechanism is equipped with the adjustable scraper plate close to 500 outer circle of coating idler wheel 710 and with the material scraping plate 720 that contacts of modification 800 outer circles of wheel.The coating idler wheel 500 is with modification wheel 800 along coating Conveying direction set gradually.The installing mechanism 700, which is equipped with, is located at 500 lower section of modification wheel 800 and the coating wheel Coating material cartridge 510；The lower end of the coating idler wheel 500 is submerged in the liquid level in the coating material cartridge 510.In conveying mechanism 100 When driving resistance mobile, rotating mechanism 400 drives coating idler wheel 500 to rotate, and the coating in coating material cartridge 510 is sticked to outer circle On, when coating idler wheel 500 is with Ohmic contact, glue is coated in resistive surface, while resistance can be driven to rotate, thus, it is whole in resistance A coating has been coated on a circumference.When resistance and modification wheel 800 contact, modification wheel 800 glues coating extra on resistance It removes, and makes the thickness of ohmically coating more evenly.And the painting on 800 surfaces of modification wheel will be adsorbed on by material scraping plate 720 Material strikes off；And adjustable scraper plate 710 can scrape coating extra on coating idler wheel 500, so that the coating on coating idler wheel 500 is thick Degree can control in certain range.

Specifically, referring to Fig. 4, Fig. 5 and Fig. 6 coating material cartridge 510, the fixed company in the side of material scraping plate 720 and installing mechanism 700 It connects, the end of adjustable scraper plate 710 has bending part, has kidney slot on bending part, and screw passes through kidney slot and installing mechanism 700 Connection, therefore adjustable scraper plate 710 is able to achieve by kidney slot and is adjusted.

Further, referring to figure 5 and figure 6, the installing mechanism 700 includes support base 701, and the first guide rail group 702, second leads Rail group 703, first slide 704, second slide 705, the first thread plate 706, the second thread plate 707, the first screw rod 708 and second Screw rod 709.The support base 701 is fixedly connected in the rack 600, the first guide rail group 702 and second guide rail The vertical back side for being installed in the support base 701 of group 703, the first slide 704 connect with the first guide rail group 702 sliding It connects, the second slide 705 is slidably connected with the second guide rail group 703.First thread plate 706 and second screw thread Plate 707 is set to the upper end of the support base 701.Screw thread is equipped on first thread plate 706 and second thread plate 707 Hole, first screw rod 708 pass through the threaded hole of first thread plate 706, and lower end rotatably connects with the first slide 704 It connects, second screw rod 709 passes through the threaded hole of second thread plate 707, and lower end rotatably connects with the second slide 705 It connects；The rotating mechanism 400 is arranged in the first slide 704, and the bearing block 801 of the modification wheel 800 is installed in described In second slide 705；The support base 701 is equipped with the connection of the output shaft and modification wheel 800 of rotating mechanism 400 described in empty avoiding The avoiding hollow groove of axis 802；The rotating mechanism 400 is rotating electric machine, and rotating electric machine drives modification wheel by synchronous belt drive mechanism 800 rotations.The shaft of rotating electric machine connects more than the driving wheel of synchronous wheel drive mechanism, and connecting shaft 802 connects more than driven wheel.Pass through First screw rod 708 and the second screw rod 709 cooperate with the threaded hole of the first thread plate 706 and the second thread plate 707 respectively, so as to To adjust the height of first slide 704 and second slide 705, reach the height for adjusting coating idler wheel 500 and modification wheel 800.

Specifically, the upper end of first slide 704 and second slide 705 is provided with T-shape slot, under the first screw rod 708 End, which is set to, the first limited step limited in the T-shape slot of 704 upper end of first slide.The lower end of second screw rod 709 is set to There is the second limited step limited in the T-shape slot of 705 upper end of second slide.

Further, referring to Fig. 3, feed mechanism 610 and baking box 620 are additionally provided in the rack 600.The feed mechanism 610, the installing mechanism 700 and the baking box 620 are set gradually along the conveying direction of coating.There is feed mechanism 610 automatic It will be transported to without lead resistance on conveying mechanism 100.After the completion of resistance coating, by baking box 620 by coating baking and curing.

Further, referring to Fig. 7 and Fig. 8, the feed mechanism 610 includes 611 He of mounting base in the rack 600 Vibration feeding disk 612 is arranged in indexing mechanism 613 and stop collar 614 in the mounting base 611, and is arranged at described point The turntable 615 in the shaft of mechanism 613 is spent, the turntable 615 is located at the inside of the stop collar 614, and axle center overlaps； The indexing mechanism 613 drives 615 stepping of turntable to rotate.The turntable 615 is evenly over the circumference provided with multiple appearances Receive slot 615a；The stop collar 614 is equipped with feeding notch 614a, the feeding notch close to 612 side of vibration feeding disk Feeding pipeline 615 is equipped between 614a and the vibration feeding disk 612；The side of the turntable 615 is located at the conveying mechanism 100 top；The no lead cylindrical resistance in the vibration feeding disk 612 is transported to described through the feeding pipeline 615 In holding tank 614a；When the turntable 615 rotates, the no lead cylindrical resistance limit is in the holding tank 615a and the limit Between 614 inner wall of ring of position.When holding tank 615a is overlapped with positioning cavity 300, resistance is then dropped into positioning cavity 300, real Existing automatic charging.

Specifically, referring to Fig. 8, when for feeding, resistance needs to play the bottom of resistance before blanking in holding tank 615a To better position-limiting action；It is further fixedly arranged on chassis 616 at the top of mounting base 611, the turntable 615 is located at chassis 616 Top, stop collar 614 is fixed on the circumference on chassis 616；And there are also conveying mechanisms described in empty avoiding on chassis 616 100 clearance position, the empty avoiding are located at the top of conveying mechanism 100, in this way, being overlapped in holding tank 614a with positioning cavity 300 When, resistance can drop into positioning cavity 300.

Further, after not fallen in positioning cavity 300 in order to avoid holding tank 615a, in chassis 616 and mounting base Blanking breach is provided on 611；Therefore, the resistance not fallen under in positioning cavity 300 is discharged by Blanking breach, thus not Influence subsequent feeding.

Further, the indexing mechanism 613 includes the divider that 611 bottom of mounting base is arranged in, and driving divider Input shaft rotation motor.Turntable 615 is arranged on the output shaft of divider.

Referring to Fig.1 and Fig. 9,100 embodiment 1 of conveying mechanism comprising driving wheel 101, driven wheel 102, annular pass Send steel band 103 and motor 104.The driving wheel 101 and the driven wheel 102 are oppositely arranged, it is described annular transmission steel band 103 around In on the driving wheel 101 and the driven wheel 102；The emptiness avoiding hole 200 and the positioning cavity 300 are set to the annular and pass It send on steel band 104；The empty avoiding of positioning cavity 300 described in empty avoiding is equipped in the outer circle of the driving wheel 101 and the driven wheel Annular groove；The motor 104 drives the driving wheel 101 to rotate, and makes 103 cycle operation of transmission steel band.

Specifically, coating idler wheel 500 is set in the ring of the annular transmission steel band 104；Therefore, it is able to achieve in circulation Expect coating, improves efficiency.

Further, the emptiness avoiding hole 200 and 300 punch forming of the positioning cavity are in the annular transmission steel band 104 On.

Further, referring to Fig. 9, institute when in rack 600 is arranged in the setting of the conveying mechanism 100 of above-described embodiment The both ends for stating the top of the rack 600 are provided with first bearing seat 630 and second bearing seat 640；The driving wheel 101 turns Axis is connect with the bearing in first bearing seat 630, and the shaft of driven wheel 102 is connect with the bearing inner race in second bearing seat 640. The motor 104 is arranged in rack 600, and motor 104 drives driving wheel 101 to rotate.

Further, in embodiment, referring to Fig.1 0, in order to which resistance more swimmingly can be dropped into ring by feed mechanism 610 Shape transmits in the positioning cavity 200 of steel band 104, and the front end of the support base 611 is additionally provided with support frame 611a, annular transmission steel band 104 limits are in the upper end of support frame 611a.The upper end of support frame 611a is additionally provided with guide groove 611b；The guide groove 611b is to ring The outer wall for determining positioning cavity 300 of two sides plays guiding role on shape transmission steel band 104.

Further, in the above-described embodiments, referring to Fig. 3, Fig. 4 and Figure 10, in order in the resistance feeding of feeding and coating More stable with coating, coating precision is higher；The support guide component 900 that the multiple groups also set up in rack 600 are set side by side；One The support guide component is located at the side of feed mechanism 610, and another support guide component 900 is located at supporting mechanism 700 Between remaining feed mechanism 610, there are also the sides that a support guide component 900 is located at supporting mechanism 700；Annular transmission steel band 104 successively pass through multiple groups support guide component 900.

Specifically, the support guide component 900 includes the mounting plate 910 being fixed in the rack 600, symmetrically Ground is installed in two support components 920 of 910 front end of mounting plate, and is symmetrically installed in 910 front end of mounting plate Two guidance sets 930；Two guidance sets 930 limit the annular transmission 104 two sides of steel band, two support components 920 Support the annular transmission steel band 104.

Further, the support component 920 includes vertical plate 921, is rotatably connected on 921 inner top side of vertical plate side by side Two first directive wheels 922, two first directive wheels 922 are setting up and down.The guidance set 930 includes 931 He of support rod It is rotatably connected on the guide roller 932 on 931 top of support rod.Two guide rollers 932 limit the annular transmission steel band 104 Two sides.

Another embodiment of the transmission mechanism 100, specifically, 100 structure of conveying mechanism are sprocket-type transmission structure, In this embodiment, 1-14 referring to Fig.1, the conveying mechanism 100 include driving shaft 110, driven shaft 111, the first sprocket wheel 112, Second sprocket wheel 113, third sprocket wheel 114, the 4th sprocket wheel 115, the first chain 116, the second chain 117, positioning plate 118 and the second electricity Machine 119.First sprocket wheel 112 and second sprocket wheel 113 are placed on the driving shaft 110；The third sprocket wheel 114 and institute The 4th sprocket wheel 115 is stated to be placed on the driven shaft 111, first chain 116 with first sprocket wheel 112 and the third Sprocket wheel 114 engages, and second chain 114 is engaged with second sprocket wheel 113 and the 4th sprocket wheel 115；The positioning 118 quantity of plate is more than one piece, and detachably connected first chain 116 and described second are distinguished in the both ends of the positioning plate 118 Chain 117；The emptiness avoiding hole 200 and the positioning cavity 300 are set on the positioning plate 118, specifically, in positioning plate The combination of at least one set of emptiness avoiding hole 200 and two positioning cavities 300 is provided on 118；Second motor 119 drives the master Moving axis 10 rotates.

Specifically, each section of the opposite side of first chain 116 and second chain 117 all has toward inside and prolongs The connecting plate stretched；One end of positioning plate 118 is connect with the connecting plate of first chain 116, the other end and second chain 117 connecting plate.

Further, positioning plate 118 is locked on two connecting plates by screw.

Further, the positioning cavity 300, on positioning plate 118 described in 200 punch forming of emptiness avoiding hole.

Further, connecting plate is equipped with shop bolt, and the both ends of the positioning plate 118 are equipped with pin hole；Therefore also It can be real by the way that manually the positioning plate 118 equipped with resistance is located on the connecting plate of the first chain 116 and the second chain 117 Existing artificial loading.

In the example that 100 structure of conveying mechanism is sprocket-type transmission structure, conveying mechanism 100 may be provided at rack 600 On；Specifically, it is fixedly installed 3rd bearing seat 650 respectively at the both ends at the top of rack 600, fourth bearing seat 651 is described Driving shaft 110 is fixedly connected with the bearing inner race in 3rd bearing seat 650, in the bearing of driven shaft 111 and fourth bearing seat 651 Enclose retaining element.Second motor 119 is arranged in rack 600, and the second motor 119 is connected by shaft coupling and driving shaft 110 It connects.

Referring to Fig.1 2 in order to avoid the first chain 116 and the second chain 117 it is sagging under gravity, in rack 600 On be additionally provided with multiple groups support chain wheel set 120 or support bar, by support chain wheel set 120 to the first chain 116 and the second chain Item 117 is played a supporting role, its decline is avoided.Specifically, support chain wheel set 120 includes the shaft being rotatablely connected with rack 600, Third sprocket wheel and the 4th sprocket wheel in shaft are set, and third sprocket wheel is engaged with the first chain 116, the 4th sprocket wheel and the second chain 117 engagements.

The present invention is not limited to above-mentioned specific embodiment, those skilled in the art from the above idea, Without creative labor, the various transformation made are within the scope of the present invention.

Claims (11)

1. without lead cylindrical resistance coating process, which comprises the following steps:

Step 1: positioning；The both ends of no lead cylindrical resistance position respectively, and are supported on the respectively positioning cavity to lower recess It is interior, and pass through the coating position without lead cylindrical resistance described in the emptiness avoiding hole empty avoiding between two positioning cavities；

Step 2: coating；Coating idler wheel is contacted by the emptiness avoiding hole with the bottom surface of no lead cylindrical resistance, and paint spraying is existed The surface of the no lead cylindrical resistance.

2. as described in claim 1 without lead cylindrical resistance coating process, which is characterized in that in the step 2, the nothing When lead cylindrical resistance coating, the coating roller supporting simultaneously drives the no lead cylindrical resistance in the positioning cavity Rotation.

3. as claimed in claim 2 without lead cylindrical resistance coating process, which is characterized in that further include Step 3: uniform institute State the coating on no lead cylindrical resistance surface.

4. realize as claimed in claim 1 or 2 without lead cylindrical resistance coating process without lead cylindrical resistance coating equipment, It is characterised in that it includes conveying mechanism, multiple emptiness avoiding holes, the both ends of the emptiness avoiding hole are equably provided on the conveying mechanism It is provided with the positioning cavity to lower recess, the positioning cavity has three side walls and connects the bottom wall of three side walls；It is described No lead cylindrical resistance both ends are limited respectively in the positioning cavity at the emptiness avoiding hole both ends, the two positioning cavity limits Position, the support no lead cylindrical resistance；The conveying mechanism drives the no lead cylindrical resistance linear movement, a whirler Structure drives the rotation of coating idler wheel, gradually up lifts described in the coating roller supporting without lead resistance and the nothing is driven to draw The rotation of line cylindrical resistance, makes the coating of the coating idler wheel be coated in the outer round surface of the no lead cylindrical resistance.

5. as claimed in claim 4 without lead cylindrical resistance coating equipment, which is characterized in that the conveying mechanism is set to a machine On frame；Installing mechanism is provided in the rack, the rotating mechanism is set on the installing mechanism；The coating idler wheel and institute The output revolving shaft for stating rotating mechanism is fixedly connected.

6. as claimed in claim 5 without lead cylindrical resistance coating equipment, which is characterized in that be additionally provided on the installing mechanism Modification wheel, the second rotating mechanism drive the modification wheel rotation, and the installing mechanism front end is equipped with outside the coating idler wheel Round adjustable scraper plate and the material scraping plate contacted with the modification wheel outer circle；The coating idler wheel is taken turns with the modification along the defeated of coating Direction is sent to set gradually；The installing mechanism is equipped with the coating material cartridge being located at below the modification wheel and the coating wheel；It is described The lower end of coating idler wheel is submerged in the liquid level in the coating material cartridge.

7. as claimed in claim 6 without lead cylindrical resistance coating equipment, which is characterized in that the installing mechanism includes support Seat, the first guide rail group, the second guide rail group, first slide, second slide, the first thread plate, the second thread plate, the first screw rod and the Two screw rods；The support base is fixedly connected in the rack, and the first guide rail group and the second guide rail group are vertical to be consolidated Be located at the back side of the support base, the first slide is slidably connected with the first guide rail group, the second slide with it is described Second guide rail group is slidably connected；First thread plate and second thread plate are set to the upper end of the support base；Described Threaded hole is equipped on one thread plate and second thread plate, first screw rod passes through the screw thread of first thread plate Hole, lower end are rotatably connected with the first slide, second screw rod pass through second thread plate threaded hole, lower end with The second slide is rotatably connected；The rotating mechanism is arranged in the first slide, and the bearing block of the modification wheel is solid It is located in the second slide；The support base is equipped with the output shaft of rotating mechanism described in empty avoiding and keeping away for modification wheel connecting shaft Empty slot；The rotating mechanism is rotating electric machine.

8. such as the described in any item no lead cylindrical resistance coating equipments of claim 5-7, which is characterized in that in the rack also Equipped with feed mechanism and baking box；The feed mechanism, the installing mechanism and the baking box along coating conveying direction according to Secondary setting.

9. as claimed in claim 8 without lead cylindrical resistance coating equipment, which is characterized in that the feed mechanism includes being set to Indexing mechanism and stop collar in the mounting base, and setting is arranged in mounting base and vibration feeding disk in the rack Turntable in the shaft of the indexing mechanism, the axle center of the turntable are overlapped with the axle center of the stop collar；The dividing engine Structure drives the turntable stepping rotation；The turntable is evenly over the circumference provided with multiple holding tanks；The stop collar is close Vibration feeding disk side is equipped with feeding notch, and feeding pipeline is equipped between the feeding notch and the vibration feeding disk； The side of the turntable is located at the top of the conveying mechanism；The no lead cylindrical resistance in the vibration feeding disk is through institute Feeding pipeline is stated to be transported in the holding tank；When the turntable rotates, the no lead cylindrical resistance limit is in the receiving Between slot and the stop collar inner wall.

10. as claimed in claim 4 without lead cylindrical resistance coating equipment, which is characterized in that the conveying mechanism includes master Driving wheel, driven wheel, annular transmission steel band and motor；The driving wheel and the driven wheel are oppositely arranged, the annular transmission steel Band is around on the driving wheel and the driven wheel；The emptiness avoiding hole and the positioning cavity are set to the annular and transmit steel band On；The empty avoiding annular groove of positioning cavity described in empty avoiding is equipped in the outer circle of the driving wheel and the driven wheel；The motor drives The driving wheel rotation is moved, the transmission steel band cycle operation is made.

11. as claimed in claim 4 without lead cylindrical resistance coating equipment, which is characterized in that the conveying mechanism includes master Moving axis, driven shaft, the first sprocket wheel, the second sprocket wheel, third sprocket wheel, the 4th sprocket wheel, the first chain, the second chain, positioning plate and Two motors；First sprocket wheel and second sprocket wheel are placed on the driving shaft, the third sprocket wheel and the 4th sprocket wheel Be placed on the driven shaft, first chain with first sprocket wheel and the third sprocket engagement, second chain With second sprocket wheel and the 4th sprocket engagement；The positioning plate quantity is more than one piece, and the both ends of the positioning plate are distinguished Detachably connected first chain and second chain；It is described fixed that the emptiness avoiding hole and the positioning cavity are set to On the plate of position；Spindle rotation described in second motor driven.