CN106140568B - Protective layer coating device - Google Patents

Abstract

The present invention relates to a kind of protective layer coating devices, the equipment is used to apply protective layer to the surface of rotor (9), including rotor drive (2), conveying device (3) and material box device (4), it is contained with the raw material for being capable of forming protective layer in material box device (4) and is arranged in the lower section of conveying device (3), rotor drive (2) is used to drive rotor (9) to rotate around armature spindle (10) during conveying device (3) conveys rotor (9), so that rotor (9) can touch raw material and realize the coating of protective layer；Protective layer coating device has adjustment structure, and adjustment structure can be adjusted the relative position of the section components of protective layer coating device according to the dimensional parameters of rotor.The present invention enables the section components of the equipment to be adjusted by the adjustment structure by setting adjustment structure, so that the gap between changing section component, enables adaptation to more different dimensional parameters, improve equipment interoperability.

Description

Protective layer coating device

Technical field

The present invention relates to mechanical equipment technical field more particularly to a kind of protective layer coating devices.

Background technique

In order to which the service life of rotor is turned up, prevent rotor surface from oxidation occurs or is corroded by other substances, usually After completion of assembly, it needs to spray gold lacquer to rotor surface, rotor and external environment is isolated.Currently, in production, right During rotor is sprayed, rotor to be sprayed is placed on a moving belt, manually by the terminals of motor and binding post It connects, motor rotation after connecting, manually by the hairbrush and rotor of brushing full gold lacquer against so that the gold lacquer on brush It is covered on rotor.

But the equipment that existing rotor applies gold lacquer automatically currently on the market, a kind of rotor of model can only be applied Gold lacquer processing, when the size difference of rotor, then can not be processed.

It should be noted that the information for being disclosed in background of invention part is merely intended to increase to totality of the invention The understanding of background, and be not construed as recognizing or imply in any form the information constitute by those skilled in the art public affairs The prior art known.

Summary of the invention

The purpose of the present invention is to propose to a kind of protective layer coating devices, can not be fitted with solving spraying equipment in the prior art The problem of answering a variety of various sizes of rotors.

To achieve the above object, the present invention provides a kind of protective layer coating devices, anti-for the surface coating to rotor Sheath, including rotor drive, conveying device and material box device are contained in the material box device and are capable of forming the protection The raw material of layer and the lower section that the conveying device is arranged in, the rotor drive are used in the conveying device to described turn Son drives the rotor to rotate around armature spindle during being conveyed, so that the rotor can touch the raw material and real The coating of the existing protective layer；The protective layer coating device has adjustment structure, and the adjustment structure can be according to described turn The dimensional parameters of son are adjusted the relative position of the section components of the protective layer coating device.

Further, the dimensional parameters include the length of the thickness of the rotor, the diameter of the rotor, the armature spindle At least one of the diameter of degree and the armature spindle.

Further, the conveying device includes the first conveying member and the second conveying member, first conveying member and described Second conveying member is set side by side and is equipped with therebetween gap, so that the rotor can pass through described in the gap and contact Raw material, the armature spindle of the two ends of rotor is separately positioned on first conveying member and second conveying member, described It is moved under the drive of first conveying member and second conveying member.

Further, first conveying member includes first conveyer belt and/or second conveying member includes the second conveying Band.

Further, the rotor drive have can to during the rotor motion to the rotor or institute The rubbing surface that armature spindle forms frictional force is stated, so that the rotor or the armature spindle are transported under the drive of the conveying device It can be rotated around the axis of the armature spindle while dynamic.

Further, the rotor drive includes third conveyer belt, and the third conveyer belt is arranged in the conveying The side of the top of device, the third conveyer belt is equipped with buffer unit, and the buffer unit can be to the third conveyer belt Apply pressing force, to form frictional force to the rotor or the armature spindle.

Further, the width in the gap is adjustable, so that the protective layer coating device can adapt to the rotor Thickness change.

Further, first conveying member is adjustable and/or described second defeated relative to the position of second conveying member Send part adjustable relative to the position of first conveying member.

It further, further include the first sliding rail, pedestal and the first support plate for installing the conveying device, described One conveying member is connect with first support plate, and first support plate is mounted on first sliding rail, first support Plate is attached with the pedestal by the first connector, and is able to drive described first by adjusting first connector Support plate is moved relative to second conveying member, and then first conveying member is driven to transport relative to second conveying member It is dynamic.

Further, the material box device is adjustable relative to the height of the conveying device, so that the protective layer applies Equipment can adapt to the diameter change of the rotor.

Further, further include the first support plate for installing the conveying device, the material box device, which is mounted on, to be set Be placed on the second sliding rail in first support plate, the material box device and first support plate by the second connector into Row connection, and enable to the material box device along second sliding rail relative to institute by adjusting second connector Conveying device movement is stated, to adjust height of the material box device relative to the conveying device.

Further, the top or side of the conveying device are equipped with block piece, the block piece and the armature spindle End face contacts with each other, and the block piece is adjustable relative to the distance of the material box device, so that the protective layer coating device energy Enough adapt to the length variation of the armature spindle.

It further, further include the first support plate for installing the conveying device, the block piece is equipped with first Strip slot, the block piece pass through first strip slot by third connector and connect with first support plate, pass through tune The relative position of whole first support plate and first strip slot can change the block piece and fill relative to the magazine The distance set.

Further, the rubbing surface of the rotor drive is located at the top of the armature spindle, and the rubbing surface is opposite It is adjustable in the distance of the axis of the armature spindle, so that the diameter that the protective layer coating device can adapt to the armature spindle becomes Change.

It further, further include third support plate, the rotor drive is arranged in the third support plate, described Third support plate is connect by the 4th connector with the conveying device, and is enabled to by adjusting the 4th connector The third support plate is moved relative to the conveying device, to change the rubbing surface relative to setting in the conveying device On the armature spindle axis distance.

It further, further include handle, to be adjusted by operating the handle to the adjustment structure.

It further, further include drying unit, the downstream of the material box device is arranged in the drying unit, to complete The surface of the rotor is dried after the coating of the protective layer.

It further, further include air-jet device, the upstream or downstream of the material box device is arranged in the air-jet device, with The surface of the rotor is cleaned before or after carrying out applying the protective layer to the rotor.

It further, further include arrival end guide rail and the outlet end of the inlet and outlet for being connected to the conveying device Guide rail, the arrival end guide rail and the outlet end guide rail are respectively formed on the groove passed through for the rotor, the arrival end The width of guide rail upper groove changes with the variation in gap in the conveying device, the width of the outlet end guide rail upper groove into Row individually adjusts, so that the arrival end guide rail and the outlet end guide rail can adapt to the thickness change of the rotor.

Further, the raw material is gold lacquer, insulated paint or glue.

Based on the above-mentioned technical proposal, the present invention is by setting adjustment structure, so that the section components of protective layer coating device Can be adjusted by the adjustment structure, i.e., in protective layer coating device some component be can be relative to another part Movement, to change the gap in protective layer coating device between section components, or perhaps between changing section component Equipment interoperability is improved, reduces and throws so that protective layer coating device can adapt to more different dimensional parameters in relative position Enter cost.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings：

Fig. 1 is the main view of protective layer coating device one embodiment of the present invention.

Fig. 2 is the top view of Fig. 1 embodiment.

Fig. 3 is the left view of Fig. 1 embodiment.

Fig. 4 is the main view of part-structure in protective layer coating device one embodiment of the present invention.

Fig. 5 is the top view of Fig. 4 embodiment.

Fig. 6 is the main view of the second conveying member in protective layer coating device one embodiment of the present invention.

Fig. 7 is the top view of the second conveying member in Fig. 6.

Fig. 8 is the left view of the second conveying member in Fig. 6.

Fig. 9 is the perspective view of the second conveying member in Fig. 6.

Figure 10 is the main view of rotor drive in protective layer coating device one embodiment of the present invention.

Figure 11 is the top view of rotor drive in Figure 10.

Figure 12 is the left view of rotor drive in Figure 10.

Figure 13 is the perspective view of rotor drive in Figure 10.

Figure 14 is the size marking schematic diagram of rotor in protective layer coating device one embodiment of the present invention.

Figure 15 is the main view of material box device in protective layer coating device one embodiment of the present invention.

Figure 16 is the top view of material box device in Figure 15.

Figure 17 is the left view of material box device in Figure 15.

Figure 18 is the perspective view of material box device in Figure 15.

Figure 19 is the structural schematic diagram of block piece in protective layer coating device one embodiment of the present invention.

In figure：1- arrival end guide rail, 2- rotor drive, 3- conveying device, 4- material box device, 5- drying unit, 6- Air-jet device, the outlet end 7- guide rail, 8- block piece, 9- rotor, 10- armature spindle；

The first fixed plate of 11-, the second fixed plate of 12-；

21- third support plate, 22- third handle, 23- spring strut, 24- third conveyer belt, 25- pressing plate, 26- third are solid Fixed board, 27- spring strut support rod, 28- bracket, the 4th connector of 29-；

The first conveying member of 31-, the first support plate of 311-, the 312- first in command, the first sliding rail of 313-, the connection of 314- first Part, 315- pedestal, the first roller shaft of 316-, 317- first conveyer belt, the first tensioning wheel of 318-；

The second conveying member of 32-, the second support plate of 321-, the second conveyer belt of 322-, the second roller shaft of 323-, 324- guide post, The second tensioning wheel of 325-, the second tension wheel shaft of 326-, 327- the second tensioning wheel support plate, 328- belt support plate, 329- motor, 330- sprocket wheel；

The second sliding rail of 41-, 42- magazine, 43- magazine support rod, 44- gap, 45- second handle, 46- connecting plate, 47- Second connector, 48- fixed plate；

The 5th connector of 51-, the second strip slot of 52-；

61- gas-ejecting bearings；

The first strip slot of 81-, 82- third connector.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, is clearly and completely retouched to the technical solution in embodiment It states.Obviously, described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Based on this hair Bright embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that, term " center ", " transverse direction ", " longitudinal direction ", "front", "rear", The orientation or positional relationship of the instructions such as "left", "right", "upper", "lower", "vertical", "horizontal", "top", "bottom", "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair The limitation of the scope of the present invention.

In order to solve the problems, such as that the equipment for applying gold lacquer in the prior art can only adapt to a kind of rotor of size, the present invention is mentioned A kind of protective layer coating device out, the equipment have adjustment structure, and the adjustment structure can join according to the size of the rotor The relative position of several section components to the protective layer coating device is adjusted.

Structure is adjusted by setting, the section components of protective layer coating device are adjusted by the adjustment structure Whole, i.e., some component can be moved relative to another part in protective layer coating device, to change protective layer painting Gap in compress apparatus between section components, or perhaps the relative position between changing section component, so that protective layer Coating device can adapt to more different dimensional parameters, improves equipment interoperability, reduces input cost.

The different embodiments of 1~18 pair of protective layer coating device of the present invention are described in detail with reference to the accompanying drawing.

As shown in Figure 1, the protective layer coating device is used to apply the surface of rotor 9 protective layer, including rotor driving dress 2, conveying device 3 and material box device 4 are set, the raw material for being capable of forming protective layer is contained in material box device 4 and is arranged in conveying dress 3 lower section is set, rotor drive 2 is used to drive rotor 9 around rotor during conveying device 3 conveys rotor 9 Axis 10 rotate, i.e., rotor 9 around own axes in other words armature spindle 10 axis rotation so that rotor 9 can touch raw material And realize the coating of protective layer.

Arrival end guide rail 1 and outlet end guide rail 7, entrance are respectively equipped in the arrival end of protective layer coating device and outlet end End guide rail 1 is connect with conveying device 3, and rotor 9 is delivered to conveying device 3 by arrival end guide rail 1；By conveying device 3 Afterwards, the surface of rotor 9 is coated raw material, and the end of equipment is arranged in outlet end guide rail 7, and the rotor 9 for completing coating is led The equipment out.

Arrival end guide rail 1 and outlet end guide rail 7 can be set to inclined guide rails, be made with the gravity using rotor 9 itself Rotor 9 moves ahead.Wherein, the forward direction of rotor 9 is the direction run from arrival end to outlet end.Preferably, arrival end guide rail 1 Guiding groove can be set on outlet end guide rail 7, sent out to avoid rotor 9 when being run on arrival end guide rail 1 and outlet end guide rail 7 Raw deflection is fallen from guide rail.

As shown in Figures 2 and 3, protective layer coating device further includes drying unit 5, and drying unit 5 is arranged in material box device 4 Downstream, with complete protective layer coating after the surface of rotor 9 is dried.

As a preferred embodiment of drying unit 5, being generally made of stainless steel plate for drying unit 5 is semiclosed Body structure, drying unit 5 may include air blower and heating wire, wherein air blower is fixed on protective layer coating device Below bottom plate, blower export is equipped with a hole, and heating wire is fixed on above the bottom plate of protective layer coating device, the wind of air blower It is blown on heating wire by hole, forms hot wind, to be dried to the surface for the rotor 9 for completing coating.

Protective layer coating device further includes air-jet device 6, and the upstream or downstream of material box device 4 is arranged in air-jet device 6, with The surface of rotor 9 is cleaned before or after carrying out coating protective layer to rotor 9.As shown in figure 4, drying unit 5 Side is equipped with gas-ejecting bearings 61, can be used for setting up air-jet device 6.

Specifically, it often will appear some sundries, predominantly aluminium skimmings in the smart car of rotor 9 and chamfering process, will spray The upstream of material box device 4 is arranged in device of air 6, i.e., between arrival end guide rail 1 and conveying device 3, by the impact for spraying gas Power can remove remaining aluminium skimmings on rotor 9.In addition, since a small amount of aluminium skimmings may also can be remained in material box device 4, also Air-jet device 6 can be set in the downstream of material box device 4, i.e., between conveying device and outlet end guide rail 7, to remove on rotor 9 Remaining aluminium skimmings.Oil box can also be set in air-jet device 6, be contained with grease in oil box, to adsorb the aluminium that air-jet device 6 is blown off Bits.

For conveying device 3, specific implementation form can there are many, as long as can be realized rotor 9 is carried out it is defeated The purpose sent.

As a preferred embodiment of conveying device 3, conveying device 3 includes the first conveying member 31 and the second conveying member 32, the first conveying member 31 and the second conveying member 32 are set side by side and are equipped with gap therebetween, so that between rotor 9 can pass through Gap simultaneously contacts raw material, and the armature spindle 10 at 9 both ends of rotor is separately positioned on the first conveying member 31 and the second conveying member 32, It is moved under the drive of one conveying member 31 and the second conveying member 32.

Wherein, the first conveying member 31 and the second conveying member 32 can be handgrip form, and handgrip can catch rotor 9, handgrip It moves ahead under the driving effect of driving mechanism, to drive rotor 9 to move ahead by handgrip, and there is no rotor 9 is complete for handgrip It is complete fixed, rotor 9 under the grasping of handgrip there are also certain rotational freedom so that rotor 9 can also be around while forward Armature spindle 10 rotates.

First conveying member 31 and the second conveying member 32 can also be the form of conveyer belt, specifically, the first conveying member 31 packet First conveyer belt 317 is included, the second conveying member 32 includes the second conveyer belt 322.Conveyer belt can be conveyor belt, conveying material strip etc. Form.

Specifically, first conveyer belt 317 and the second conveyer belt 322 are separately mounted on belt mounting rack, and by motor into Row driving rotation.First conveyer belt 317 and the second conveyer belt 322 are set side by side, and are preferably but not limited to first conveyer belt 317 and second conveyer belt 322 flush, it is defeated in first conveyer belt 317 and second that the armature spindle 10 at 9 both ends of rotor distinguishes frame It send on band 322, and moves ahead under the drive of conveyer belt.

In figs. 1 to 3, the center of the arrival end guide rail 1 of protective layer coating device and conveying device 3 and outlet end guide rail 7 Line is conllinear, and in this way using the center line as line of demarcation, protective layer coating device is divided into forward and backward two parts, i.e. and upper and lower two in Fig. 2 Part.

As shown in Figure 4 and Figure 5, respectively protective layer coating device is divided into after two parts as line of demarcation using center line and is stood The main view and top view of first half are seen in position of center line.

From fig. 4, it can be seen that the first conveying member 31 includes first conveyer belt 317,317 back side of first conveyer belt is equipped with first Tensioning wheel 318, so that first conveyer belt 317 is able to maintain tensioning state.The driving idler wheel of first conveyer belt 317 is mounted on first On roller shaft 316.

It is the structural schematic diagram of the second conveying member 32 as shown in Fig. 6~9.It can be seen that from Fig. 6 and Fig. 9, the second conveying member 32 It is mounted in the second support plate 321, is additionally provided with the guide post for being used to support 32 top structure of the second conveying member in the second support plate 321 324, the second conveyer belt 322 is mounted on idler wheel, and idler wheel is mounted on the second roller shaft 323.The back side of second conveyer belt 322 is set There is the second tensioning wheel 325, as shown in fig. 7, the second tensioning wheel 325 is mounted on the second tension wheel shaft 326, the second tension wheel shaft 326 are mounted in the second tensioning wheel support plate 327, as shown in figure 8, being additionally provided with the belt branch for being used to support the second conveyer belt 322 Fagging 328, the motor 329 for driving the second conveyer belt 322 to operate are arranged below, and sprocket wheel 330 is arranged in side.

For rotor drive 2, in order to make rotor 9 while forward can also rotation, rotor drive Dynamic device 2 have can to the rubbing surface for forming frictional force to rotor 9 or armature spindle 10 in 9 motion process of rotor so that Rotor 9 or armature spindle 10 can rotate while moving under the drive of conveying device 3 around the axis of armature spindle 10.Namely Say, as long as rotor drive 2 has a rubbing surface, specific constructive form can there are many, for example, most simply, Rotor drive 2 can be the plate with Rough Horizontal Plane, as long as Rough Horizontal Plane is contacted with rotor 9 or armature spindle 10, It may be implemented to promote the purpose of its rotation.

Since rotor 9 is set on armature spindle 10, the rubbing surface of rotor drive 2 can both act on rotor 9 On, it can also act on armature spindle 10, as long as 9 rotation of rotor can be made to complete coating process.

As a preference of rotor drive 2, as shown in Figure 10~13, rotor drive 2 includes that third is defeated Band 24 is sent, the top of conveying device 3 is arranged in third conveyer belt 24, although third conveyer belt 24 is also like 317 He of first conveyer belt Second conveyer belt 322 is such, the structure with a whole circle, but actually third conveyer belt 24 and inoperative, i.e. third conveying Be with 24 it is static, its role only forms frictional force to rotor 9 or armature spindle 10, allows it to rotation.

Rotor drive 2 uses third conveyer belt 24, can utilize existing structure as much as possible, reduces to existing structure Transformation, and the structure type of conveyer belt may also reach up well driving effect.

As shown in figure 13, rotor drive 2 is mounted in third support plate 21, and the side of third conveyer belt 24 is equipped with slow Flushing device, buffer unit can apply pressing force to third conveyer belt 24, to form frictional force to rotor 9 or armature spindle 10.

Specifically, as shown in Figure 10 and Figure 11, buffer unit includes spring strut support rod 27, spring strut 23 and pressing plate 25, if Figure 12 is its left view, spring strut 23 is mounted on spring strut support rod 27, and spring strut 23 and pressing plate 25 connect It connects, pressing plate 25 and the back side of third conveyer belt 24 contact with each other, to hold out against third conveying under the elastic reaction of spring strut 23 Band 24, to generate the frictional force that can make its rotation to rotor 9 or armature spindle 10.

In addition, as shown in figure 11, the bracket for setting up gold lacquer outlet pipe is also connected on spring strut support rod 27 28, gold lacquer is introduced into material box device 4 by outlet pipe.

In embodiment as shown in figs. 1-13, the first conveying member 31 and the second conveying member 32 are set side by side, and by turning Axis is attached, and spline can be set in shaft, to guarantee that two conveying members can operate synchronously, before the first conveying member 31 is located at Side, the second conveying member 32 are located at rear side, and rotor drive 2 is then arranged in the top of the second conveying member 32, the setting of rotor 9 the In gap between one conveying member 31 and the second conveying member 32, the setting of the armature spindle 10 of 9 side of rotor third conveyer belt 24 with Between second conveyer belt 322, the armature spindle 10 of 9 other side of rotor is erected in first conveyer belt 317.

Certainly, in other embodiments, the first conveying member 31 and the second conveying member 32 and rotor drive 2 is mutual Positional relationship can also have other selections, as long as can be realized its effect.

As shown in figure 14, figure is marked for the dimensional parameters of rotor 9, rotor 9 is set on armature spindle 10, and armature spindle 10 Both ends stretch out rotor 9, the armature spindle 10 at 9 both ends of rotor, one is long axis, and one is short axle.

It mentions in the above-described embodiments, protective layer coating device is adapted to a variety of rotors 9 with different dimensional parameters, These dimensional parameters mainly include in the diameter of the thickness of rotor 9, the diameter of rotor 9, the length of armature spindle 10 and armature spindle 10 At least one.As shown in figure 14, multiple sizes are labelled on rotor 9 and armature spindle 10, wherein：

Rotor 9 with a thickness of：N+P；

The diameter of rotor 9 is：F；

The length of armature spindle 10 is：B+K+G (longitudinal end) or H+K+D (short axle end)；

The diameter of armature spindle 10 is：E.

The variation for how adapting to aforementioned four dimensional parameters to protective layer coating device embodiment below describes in detail.

Firstly, for the thickness change of rotor 9：

In one preferred embodiment of protective layer coating device, between the first conveying member 31 and the second conveying member 32 between The width of gap is adjustable, so that protective layer coating device can adapt to the thickness change of rotor 9.

Specifically, the first conveying member 31 can be made adjustable relative to the position of the second conveying member 32, can also be made second defeated Send part 32 relative to the position of the first conveying member 31 is adjustable or the position of the first conveying member 31 and the second conveying member 32 It adjusts.

Preferably, as shown in Figure 2 and Figure 5, the first conveying member 31 further includes the first sliding rail 313, pedestal 315 and for installing First support plate 311 of conveying device 3, the first conveying member 31 (i.e. first conveyer belt 317) are mounted on and the first support plate 311 On, the bottom of the first support plate 311 is mounted on the first sliding rail 313, and the bottom of protective layer coating device is arranged in the first sliding rail 313 On plate, the first support plate 311 is attached with pedestal 315 by the first connector 314, since pedestal 315 is solid relative to bottom plate It is fixed, therefore be able to drive the first support plate 311 by adjusting the first connector 314 and moved relative to the second conveying member 32, in turn The first conveying member 31 is driven to move relative to the second conveying member 32.

Wherein, the first connector 314 can be stay bolt or screw rod, and the first conveying member can be made by being connected through a screw thread 31 and second gap between conveying member 32 it is easy to adjust, reliable, can be completed by rotating the first connector 314 and adjusted Journey, operating efficiency are high.The first in command 312 can be set on first connector 314, facilitate operation, save adjustment time.

In the above-described embodiments, the second conveying member 32 is fixed, and the first conveying member 31 is transported relative to the second conveying member 32 It is dynamic, the stability of integral device is advantageously ensured that in this way.

In addition, arrival end guide rail 1 is equipped with the first fixed plate 11, the first fixed plate 11 passes through the second fixed plate 12 and first Conveying member 31 connects, and in this way when the first conveying member 31 occurs mobile relative to the second conveying member 32, arrival end guide rail 1 can also be with As the first conveying member 31 moves together, so that arrival end guide rail 1 also can adapt to the variation of 9 thickness of rotor.

Secondly, for the diameter change of rotor 9：

In another preferred embodiment of protective layer coating device, material box device 4 can relative to the height of conveying device 3 It adjusts, so that protective layer coating device can adapt to the diameter change of rotor 9.

It as shown in figures 15 to 18, is the structural schematic diagram of material box device 4.To keep protective layer coating device integrally-built Compact, material box device 4 may be mounted in the first support plate 311, and the first support plate 311 is equipped with the second sliding rail 41.Specifically Ground, as shown in figure 15, material box device 4 include magazine 42, and material box device 4 is equipped with gap 44, and the bottom of magazine 42 passes through two Root magazine support rod 43 is supported, and magazine support rod 43 is mounted on the second sliding rail 41 by link block, as shown in figure 18, two It is attached between root magazine support rod 43 by connecting plate 46, as shown in figure 17, is additionally provided with fixed plate in the first support plate 311 48, connecting plate 46 is connect by the second connector 47 with the fixed plate 48 in the first support plate 311, due to the first support plate 311 At this time it is fixed, therefore enables to material box device 4 opposite along the second sliding rail 41 by adjusting the second connector 47 It is moved in conveying device 3, to adjust height of the material box device 4 relative to conveying device 3.

Wherein, fixed plate 48 can be located on protective layer coating device in any fixed structure, as long as can protect Card moves material box device 4 relative to conveying device 3 along the second sliding rail 41 by adjusting the second connector 47.

Second connector 47 can be stay bolt or screw rod, be connected through a screw thread the adjusting that can make material box device 4 It is convenient, reliable, adjustment process can be completed by rotating the second connector 47, operating efficiency is high.As shown in figure 16, the second connection Second handle 45 can be set on part 47, facilitate operation, save adjustment time.

Again, the length of armature spindle 10 is changed：

In another preferred embodiment of protective layer coating device, the top or side of conveying device 3 are equipped with block piece 8, block piece 8 and the end face of armature spindle 10 contact with each other, and block piece 8 is adjustable relative to the distance of material box device 4, so that protective layer Coating device can adapt to the length variation of armature spindle 10.

It as shown in figure 19, is the partial enlarged view of Fig. 2, block piece 8 is preferably but not limited to be arranged in first conveyer belt 317 Top, block piece 8 are equipped with the first strip slot 81, and block piece 8 passes through the first strip slot 81 and first by third connector 82 Support plate 311 connects, and the relative position by adjusting the first support plate 311 and the first strip slot 81 can change 8 phase of block piece For the distance of material box device 4.

Wherein, third connector 82 is preferably but not limited to block piece 8 can either be fixed, again for wing bolt So that easy to operate, quick.

Finally, for the diameter change of armature spindle 10：

In another preferred embodiment of protective layer coating device, the rubbing surface of rotor drive 2 is located at armature spindle 10 top, rubbing surface is adjustable relative to the distance of the axis of armature spindle 10, so that protective layer coating device can adapt to rotor The diameter change of axis 10.Since rubbing surface needs to contact with the surface of armature spindle 10, to generate the frictional force for capableing of rotation to it, But when the diameter change of armature spindle 10, the distance (close to the radius with armature spindle 10) of the axis of rubbing surface to armature spindle 10 is also Variation, therefore by adjusting rubbing surface at a distance from the axis of armature spindle 10, it can adapt to the straight of different armature spindles 10 Diameter.

Specifically, when rotor drive 2 includes third conveyer belt 24, third conveyer belt 24 is arranged in the second conveyer belt 322 top adjusts third conveyer belt 24 at a distance from the second conveyer belt 322, is substantially exactly to adjust rubbing surface to armature spindle The distance of 10 axis.

As shown in Figure 10, rotor drive 2 is arranged in third support plate 21, and third support plate 21 passes through the 4th connection Part 29 is connect with conveying device 3, and specifically, the side of third support plate 21 is equipped with third fixed plate 26, and the 4th connector 29 is worn It crosses third fixed plate 26 to connect with the second support plate 321 on the second conveying member 32, the side of the second support plate 321 can also phase Fixed plate is set with answering, as shown in figure 9, so that the 4th connector 29 passes through in third fixed plate 26 and the second support plate 321 Fixed plate realizes the connection of third support plate 21 and conveying device 3.Since the second support plate 321 is fixed, pass through tune Whole 4th connector 29 enables to third support plate 21 to move relative to conveying device 3, thus it is possible to vary rubbing surface is relative to setting Set the distance of the axis of the armature spindle 10 in conveying device 3.

Certainly, third support plate 21 can also be fixed on protective layer coating device in other relatively-stationary structures, only Third support plate 21 is enabled to move relative to conveying device 3 by adjusting the 4th connector 29.

4th connector 29 can be stay bolt or screw rod, and rotor drive 2 can be made by being connected through a screw thread It is easy to adjust, reliable, adjustment process can be completed by rotating the 4th connector 29, operating efficiency is high.As shown in figure 11, the 4th Third handle 22 can be set on connector 29, facilitate operation, save adjustment time.

In addition, arrival end guide rail 1 and outlet end guide rail 7 are respectively formed on the groove passed through for rotor 9, positioned at entering for right end Mouth end guide rail 1 is connect with the first support plate 311, therefore the width of 1 upper groove of arrival end guide rail is with the change in gap in conveying device 3 Change and change, without being individually adjusted；And it is located on the outlet end guide rail 7 of left end and carries drying unit 5 and air-jet device 6, structure is more complex, so spacing adjustment is individually carried out, so that arrival end guide rail 1 and outlet end guide rail 7 can adapt to rotor 9 Thickness change.

Specifically, connect as shown in figure 5, being equipped with the second strip slot 52 and the 5th on the bottom mounting plate of outlet end guide rail 7 Fitting 51 can change outlet end guide rail 7 in bottom peace by adjusting the relative position of bottom mounting plate and the second strip slot 52 Fixed position relative in loading board, so as to adjust the width of the groove of outlet end guide rail 7.As shown in Fig. 2, outlet end guide rail 7 The second strip slot 52 and the 5th connector 51 can be set in front and rear sides, to realize the tune of recess width by bidirectional modulation Section.

Wherein, the 5th connector 51 is preferably but not limited to realize fixation, and make operation ten for wing bolt Divide convenient, fast.

In above-mentioned each embodiment, raw material used by protective layer can be for antirust paint, insulated paint or for sealing Glue etc., antirust paint can be gold lacquer.

The operating process of one embodiment of protective layer coating device of the present invention is illustrated below：

As shown in Figure 1, rotor 9 enters equipment by the arrival end guide rail 1 of right end, and skidded off by the outlet end guide rail 7 of left end, Wherein for rotor 9 after the entrance of right end arrival end guide rail 1, idler wheel rotation drives first conveyer belt 317 and the second conveyer belt 322 fortune Row, after rotor 9 enters on belt, the armature spindle 10 of side is clamped by third conveyer belt 24 and the second conveyer belt 322, makes rotor 9 There is material box device 4 below the gap of the rotation on belt, first conveyer belt 317 and the second conveyer belt 322, has sponge in magazine 42 The gold lacquer of immersion, rotor 9 skim over the sponge in magazine 42 in the form of rotation, and then complete to apply the processing of gold lacquer.

Specific adjustment process：

The movement of (1) first conveying member 31：

Rotating first handle 312 makes the first support plate 311 first as shown in Fig. 2, driving the rotation of the first connector 314 It is moved forward and backward on sliding rail 313, to adjust the clearance gap being located in 322 bracket of first conveyer belt 317 and the second conveyer belt of lower layer From in this way, the difference in thickness of different model rotor 9 can be solved.

In addition, the first support plate 311 is connect with the first fixed plate 11 of arrival end guide rail 1 by the second fixed plate 12, make One side of arrival end guide rail 1 can be moved together with the first support plate 311, reduce the operating procedure that model is exchanged.

(2) material box device 4 moves up and down：

As shown in figure 18, magazine 42, which is placed in, is fixed on two magazines that the second sliding rail 41 of the first support plate 311 stretches out On support rod 43, two magazine support rods 43 are connected by connecting plate 46, and the second connector 47 passes through and is fixed on the first support plate Fixed plate 48 on 311, lower end are screwed with the threaded hole on connecting plate 46, when rotating the second connector 47, drive connecting plate 46 move up and down, and the adjustment up and down therewith of magazine 42, the adjustment up and down of magazine 42 makes the surface of absorption gold lacquer sponge in magazine 42 Can arbitrarily it change with first conveyer belt 317 and 322 upper surface distance of the second conveyer belt, in this way, the diameter of the rotor 9 of different model Difference can be solved.

(3) block piece 8 moves forward and backward：

The main function of block piece 8 is the end face for resisting the armature spindle 10 of rotor 9, for example resists shorter armature spindle 10 End face makes rotor 9 not to be swung left and right during rotation on belt, and one end of the longer armature spindle 10 of rotor 9 is not set Block piece 8, to adapt to the variation of 10 length of integral rotor axis.As shown in figure 19, third connector 82 is unscrewed, makes block piece 8 can It is arbitrarily adjusted with front and back, in this way, the difference in length of the armature spindle 10 of different model rotor 9 can be solved.

(4) third conveyer belt 24 moves up and down：

As depicted in figure 10 and figure 13, the 4th connector 29 that third handle 22 is connected, which initially passes through, to be arranged in third support plate L shape third fixed plate 26 on 21, is then passed through the L shaped plate being arranged in the second support plate 321.The 4th connector 29 is rotated, is made Third support plate 21 it is upper and lower apart from adjustable, to drive the third conveyer belt 24 being fixed in third support plate 21 to move up and down, And then make the spacing between the lower surface of third conveyer belt 24 and the upper surface of the second conveyer belt 322 of corresponding lower layer can be random Variation, in this way, the diameter difference of the armature spindle 10 of different model rotor 9 can be solved.

(5) outlet end guide rail 7 moves forward and backward：

As shown in Fig. 2, unscrewing the 5th connector 51, then the spacing of outlet end guide rail 7 can be adjusted, according to rotor size tune It is whole to suitable position, adjustment process can be completed.

By above five steps, model exchange can be completed.

In model tuning process, servo mechanism can be used and exchanged instead of original rotation bolt etc. is artificial, be beneficial into one Step is docked with Flexible Production, improves operating efficiency.

Pass through the explanation of multiple embodiments to protective layer coating device of the present invention, it can be seen that protective layer coating of the present invention Apparatus embodiments at least have the advantages that one or more of：

1, by the adjustment to section components, change the relative position of associated components, and then adapt to various sizes of turn Son improves the versatility of equipment；

2, it installs drying unit additional, makes to be painted with the rotor rapid draing after gold lacquer；

3, air-jet device is installed additional, so that the aluminium skimmings bonded above are removed after rotor passes through；

4, each modular construction is compact, easy to operate, quick.

Finally it should be noted that：The above embodiments are merely illustrative of the technical scheme of the present invention and are not intended to be limiting thereof；To the greatest extent The present invention is described in detail with reference to preferred embodiments for pipe, those of ordinary skills in the art should understand that：Still It can modify to a specific embodiment of the invention or some technical features can be equivalently replaced；Without departing from this hair The spirit of bright technical solution should all cover within the scope of the technical scheme claimed by the invention.

Claims (19)

1. a kind of protective layer coating device applies protective layer for the surface to rotor (9), which is characterized in that drive including rotor Dynamic device (2), conveying device (3) and material box device (4), interior be contained with of the material box device (4) are capable of forming the protective layer Raw material and be arranged in the lower section of the conveying device (3), the rotor drive (2) is used in the conveying device (3) The rotor (9) is driven to rotate during conveying to the rotor (9) around armature spindle (10), so that the rotor (9) The raw material can be touched and realize the coating of the protective layer；The protective layer coating device has adjustment structure, described Adjusting structure being capable of relative position according to the dimensional parameters of the rotor (9) to the section components of the protective layer coating device It is adjusted；The top or side of the conveying device (3) are equipped with block piece (8), the block piece (8) and the armature spindle (10) end face contacts with each other, and the block piece (8) is adjustable relative to the distance of the material box device (4), so that the protection Layer coating device can adapt to the length variation of the armature spindle (10).

2. protective layer coating device according to claim 1, which is characterized in that the dimensional parameters include the rotor (9) in the diameter of the diameter of thickness, the rotor (9), the length of the armature spindle (10) and the armature spindle (10) extremely It is one few.

3. protective layer coating device according to claim 1, which is characterized in that the conveying device (3) includes first defeated Send part (31) and the second conveying member (32), first conveying member (31) and second conveying member (32) are set side by side and two Gap is equipped between person, so that the rotor (9) can pass through the gap and contact the raw material, rotor (9) both ends Armature spindle (10) be separately positioned on first conveying member (31) and second conveying member (32), with defeated described first It send and is moved under the drive of part (31) and second conveying member (32).

4. protective layer coating device according to claim 3, which is characterized in that first conveying member (31) includes first Conveyer belt (317) and/or second conveying member (32) include the second conveyer belt (322).

5. protective layer coating device according to claim 1, which is characterized in that the rotor drive (2) has energy It is enough to the rubbing surface for forming frictional force to the rotor (9) or the armature spindle (10) in the rotor (9) motion process, with Enable the rotor (9) or the armature spindle (10) while moving under the drive of the conveying device (3) around described The axis of armature spindle (10) rotates.

6. protective layer coating device according to claim 4, which is characterized in that the rotor drive (2) includes the Three conveyer belts (24), the third conveyer belt (24) are arranged in the top of the conveying device (3), the third conveyer belt (24) Side be equipped with buffer unit, the buffer unit can to the third conveyer belt (24) apply pressing force, to described turn Sub (9) or the armature spindle (10) form frictional force.

7. protective layer coating device according to claim 3, which is characterized in that the width in the gap is adjustable, so that institute Stating protective layer coating device can adapt to the thickness change of the rotor (9).

8. protective layer coating device according to claim 7, which is characterized in that first conveying member (31) is relative to institute The position for stating the second conveying member (32) is adjustable and/or second conveying member (32) is relative to first conveying member (31) Position is adjustable.

9. protective layer coating device according to claim 8, which is characterized in that further include the first sliding rail (313), pedestal (315) and the first support plate (311) for installing the conveying device (3), first conveying member (31) and described first Support plate (311) connection, first support plate (311) are mounted on first sliding rail (313), first support plate (311) it is attached with the pedestal (315) by the first connector (314), and by adjusting first connector (314) it is able to drive first support plate (311) to move relative to second conveying member (32), and then drives described first Conveying member (31) is moved relative to second conveying member (32).

10. protective layer coating device according to claim 1, which is characterized in that the material box device (4) is relative to described The height of conveying device (3) is adjustable, so that the protective layer coating device can adapt to the diameter change of the rotor (9).

11. protective layer coating device according to claim 10, which is characterized in that further include for installing the conveying dress First support plate (311) of (3) is set, the material box device (4) is mounted on second be set on first support plate (311) On sliding rail (41), the material box device (4) is attached with first support plate (311) by the second connector (47), and And by adjusting second connector (47) enable to the material box device (4) along second sliding rail (41) relative to Conveying device (3) movement, to adjust height of the material box device (4) relative to the conveying device (3).

12. protective layer coating device according to claim 1, which is characterized in that further include for installing the conveying dress Set first support plate (311) of (3), the block piece (8) is equipped with the first strip slot (81), and the block piece (8) passes through the Three connectors (82) pass through first strip slot (81) and connect with first support plate (311), by adjusting described first The relative position of support plate (311) and first strip slot (81) can change the block piece (8) relative to the magazine The distance of device (4).

13. protective layer coating device according to claim 5, which is characterized in that the friction of the rotor drive (2) Face is located at the top of the armature spindle (10), and the rubbing surface is adjustable relative to the distance of the axis of the armature spindle (10), with The protective layer coating device is set to can adapt to the diameter change of the armature spindle (10).

14. protective layer coating device according to claim 13, which is characterized in that further include third support plate (21), institute It states rotor drive (2) to be arranged on the third support plate (21), the third support plate (21) passes through the 4th connector (29) it is connect with the conveying device (3), and enables to the third to support by adjusting the 4th connector (29) Plate (21) relative to the conveying device (3) move, with change the rubbing surface relative to be arranged on the conveying device (3) The armature spindle (10) axis distance.

15. protective layer coating device according to claim 1, which is characterized in that further include handle, by described in operation Handle is adjusted the adjustment structure.

16. protective layer coating device according to claim 1, which is characterized in that further include drying unit (5), the baking Equipment for drying (5) setting in the downstream of the material box device (4), with after the coating for completing the protective layer to the rotor (9) it is dried on surface.

17. protective layer coating device according to claim 1, which is characterized in that further include air-jet device (6), the spray Device of air (6) is arranged in the upstream or downstream of the material box device (4), to carry out applying the protection to the rotor (9) The surface of the rotor (9) is cleaned before or after layer.

18. protective layer coating device according to claim 1, which is characterized in that further include being connected to the conveying The arrival end guide rail (1) and outlet end guide rail (7) of the inlet and outlet of device (3), the arrival end guide rail (1) and the outlet End guide rail (7) is respectively formed on the groove passed through for the rotor (9), and the conveying device (3) includes the first conveying member (31) With the second conveying member (32), the width of arrival end guide rail (1) upper groove is with the first conveying described on the conveying device (3) The variation in the gap between part (31) and second conveying member (32) and change, the width of outlet end guide rail (7) upper groove Degree is individually adjusted, so that the arrival end guide rail (1) and the outlet end guide rail (7) can adapt to the rotor (9) Thickness change.

19. protective layer coating device according to claim 1, which is characterized in that the raw material be gold lacquer, insulated paint or Person's glue.