CN105281505A - Rotor surface processing apparatus - Google Patents

Abstract

The invention aims to provide a rotor surface processing apparatus capable of realizing automatic rotor surface processing, and aims to solve the problems of low processing efficiency and low rate of finished products in the existing manual processing mode. The rotor surface processing apparatus comprises a brushing mechanism and a drying mechanism arranged in sequence; the brushing mechanism comprises a rolling assembly and a brushing assembly; the brushing assembly is arranged in the extending direction of the rolling assembly, and coating is accommodated in the internal of the brushing assembly; the rolling assembly is used for driving the rotor to roll along the brushing assembly to be in contact with the coating in the brushing assembly; and the drying mechanism is used for receiving the rotor from the rolling assembly and for drying the rotor. According to the technical scheme of the rotor surface processing apparatus, the automatic brushing and drying can be realized, and the rotor surface processing efficiency can be greatly improved.

Description

A kind of rotor surface processing unit

Technical field

The present invention relates to manufacture field, be specifically related to a kind of rotor surface processing unit.

Background technology

At present when commercial Application, need to process the surface of rotor, concrete needs is coated with the process of red Jinsui River to rotor surface.Be coated with gold lacquer at current rotor, dry in operation, all rely on manually to get rotor and be positioned on bearing bracket stand, stir rotor by hand, another hand-held hairbrush dips gold lacquer, spread upon rotor outer surface surface by hand, after completing, manual being concentrated by rotor is positioned on hollow out bin, exposes the mode of drying in atmosphere accomplish by the warmer of below.Each action all relies on and manually completes, the labour intensity of employee is large, smear the rotor outer surface face gold lacquer thickness caused because staff dynamics is uneven by hand to differ, affect product quality, in drying course, warmer dew is put in atmosphere, energy can not recycle, and also without active exchange heat, shines into the waste of energy.

Summary of the invention

In view of this, the invention provides a kind of can automatically to the rotor surface processing unit that rotor surface processes.

For reaching this object, the present invention by the following technical solutions:

A kind of rotor surface processing unit, comprises the brushing mechanism and drying mechanism that set gradually; Described brushing mechanism comprises rolling assembly and painting unit; Described painting unit is along described rolling assembly bearing of trend layout and inside accommodates coating; Described rolling assembly is for driving described rotor along described painting unit rolling and contacting with the described coating in described painting unit; Described drying mechanism is for the rotor that receives from described rolling assembly and carry out drying and processing to described rotor.

Preferably, in aforesaid rotor surface processing unit, also comprise feed mechanism, described feed mechanism is used for the entrance conveying rotor to described brushing mechanism.

Preferably, in aforesaid rotor surface processing unit, described feed mechanism comprises material loading slideway and lift assemblies; Described material loading slideway comprises tilting section and step section, and the low spot of described tilting section is connected with the described entrance brushing mechanism, and described step section is located at the below of the height point of described tilting section; Described lift assemblies is used for described rotor lifting to cross described step section and the high point delivering to described tilting section.

Preferably, in aforesaid rotor surface processing unit, described rolling assembly comprises conveyer belt and holddown belt; Described conveyer belt can rotate under the driving of driver part; The setting that described holddown belt is relative with described conveyer belt and described holddown belt are for being pressed in described conveyer belt by the rotating shaft of described rotor, and described holddown belt is not identical with the movement velocity of described conveyer belt.

Preferably, in aforesaid rotor surface processing unit, described painting unit is sponge, described paint-absorbable in described sponge, described rotor along the surface scrolls of described sponge and the outer surface of described rotor contact with described sponge.

Preferably, in aforesaid rotor surface processing unit, also comprise the coating case for holding coating, described coating case is used for described sponge supply coating.

Preferably, in aforesaid rotor surface processing unit, described rolling assembly comprises the conveyer belt that two groups of flat shapes are arranged, and above conveyer belt, arrange described holddown belt, described sponge is arranged between described two groups of conveyer belts.

Preferably, in aforesaid rotor surface processing unit, be provided with position transducer in the outlet of described brushing mechanism, whether described position transducer has rotor to export for the outlet detecting described brushing mechanism; Described feed mechanism carries out the conveying of rotor according to the testing result of described position transducer.

Preferably, in aforesaid rotor surface processing unit, described drying mechanism comprises dries slideway, barrier assembly and oven dry assembly; The setting that described oven dry slideway tilts, the height point of described oven dry slideway is connected with described outlet of brushing mechanism; Described barrier assembly stops the default time for making described rotor on described oven dry slideway; Described oven dry assembly is for drying the described rotor of drying on slideway.

Preferably, in aforesaid rotor surface processing unit, described barrier assembly comprises liftable parts or rotatable components, in order to the described rotor stopped or let pass on described oven dry slideway.

Preferably, in aforesaid rotor surface processing unit, described oven dry assembly comprises heat build-up guard shield and dryer; Described heat build-up guard shield inside is formed dries chamber, and described oven dry slideway is by described oven dry chamber; Described dryer is used for described oven dry chamber supply hot blast.

Preferably, in aforesaid rotor surface processing unit, described oven dry assembly also comprises circulating line, and described circulating line one end connects the air outlet of described heat build-up guard shield, and the other end connects the air inlet of described dryer.

Preferably, in aforesaid rotor surface processing unit, described oven dry assembly also comprises temperature sensor, and described temperature sensor is for detecting the temperature of described drying cavity indoor, and when the temperature value detected exceedes preset temperature value, described dryer stops heating.

The invention has the beneficial effects as follows:

1, automatically can realize the brushing process to rotor surface, do not need manual operation, stay in grade, efficiency is high.

2, automatically carry out drying and processing to the complete rotor of brushing, the time of oven dry and the complete Automatic Control of temperature, can effectively promote Disposal quality and efficiency.

3, feed mechanism is according to the working condition of brushing mechanism automatically to brushing mechanism conveying rotor, can making to prevent rotor brushing in mechanism the quality piling up and then affect brushing, ensureing carrying out in order of production.

Accompanying drawing explanation

By referring to the description of accompanying drawing to the embodiment of the present invention, above-mentioned and other objects, features and advantages of the present invention will be more clear, in the accompanying drawings:

Fig. 1 is the cut-away view of rotor surface processing unit of the present invention.

Fig. 2,3 is stereograms of the internal structure of rotor surface processing unit of the present invention.

Fig. 4-6 is rotor surface processing unit of the present invention state diagrams after having installed heat build-up guard shield.

Fig. 7 is the state diagram of rotor surface processing unit of the present invention after having installed dryer.

Fig. 8 is the schematic diagram of rotor surface processing unit of the present invention after having installed circulating line.

Fig. 9 is the complete surface structure schematic diagram of rotor surface processing unit of the present invention.

Embodiment

Based on embodiment, present invention is described below, but the present invention is not restricted to these embodiments.In hereafter details of the present invention being described, detailedly describe some specific detail sections.Do not have the description of these detail sections can understand the present invention completely for a person skilled in the art yet.In order to avoid obscuring essence of the present invention, known method, process, flow process, element do not describe in detail.

As shown in figs 1-9, first the internal structure of rotor surface processing unit of the present invention is described.This rotor surface processing unit comprises the brushing mechanism 2 and drying mechanism 3 that set gradually; Described brushing mechanism 2 comprises rolling assembly and painting unit 24; Described painting unit 24 is along described rolling assembly bearing of trend layout and inside accommodates coating; Described rolling assembly is for driving described rotor 5 to roll along described painting unit 24 and contacting with the described coating in described painting unit 24; Described drying mechanism 3 is for the rotor 5 that receives from described rolling assembly and carry out drying and processing to described rotor 5.Rotor comprises rotor body and is positioned at the rotating shaft of rotor body both sides, rotor body has the profile of roller shape, by rotating shaft is placed on rolling assembly, rotor rolls under the drive of rolling assembly, the outer surface of rotor body contacts with the coating in painting unit 24, and coating is uniformly applied on the outer surface of rotor body.Preferably, described coating is gold lacquer or other coating materials, and form is liquid material, is described in execution mode below for gold lacquer.Preferably, between brushing mechanism 2 and drying mechanism 3, transition slideway 4 is also set, concrete, transition slideway 4 connects the outlet of rolling assembly and the entrance of drying mechanism 3, brushes complete rotor be sent to drying mechanism 3 through transition slideway 4 and dry through brushing mechanism 2.The material loading of brushing mechanism 2 can manually complete, and also automatically can be completed by equipment.By above technical scheme, automatically can realize brushing and the oven dry of rotor surface, not need manpower intervention, significantly improve spraying, the quality of drying and efficiency.

As one preferably execution mode, rotor surface processing unit also comprises feed mechanism 1, for the entrance conveying rotor to brushing mechanism 2.Concrete, described feed mechanism 1 comprises material loading slideway 11 and lift assemblies; Described material loading slideway 11 comprises the first tilting section 111 and step section 112, and the low spot of described first tilting section 111 is connected with the described entrance brushing mechanism 2, and described step section 112 is located at the below of the height point of described first tilting section 111; Described lift assemblies is arranged on described step section 112 place, for described step section being crossed in the lifting of described rotor 5 and delivering to the high point of described first tilting section 111, rotor 5 moves to low spot from height o'clock along the first tilting section 111 under gravity and then enters brushing mechanism 2.The effect in setting table stage 112 makes rotor 5 can rest on step section to wait for lift assemblies action, can control like this to the rhythm of material loading.Preferably, be also provided with the second tilting section in the position away from described first tilting section 111 of step section 112, the second tilting section tilts towards step section 112, and step section 112 is formed between the low spot of the first tilting section 111 and the height point of the second tilting section.

Preferably, see Fig. 1-3, lift assemblies comprises lifting cylinder 13 and pushing part 12, and lifting cylinder 13 drives pushing part 12 to move up and down, and pushing part 12 is provided with the 3rd tilting section, and described 3rd tilting section is consistent with the incline direction of the first and second tilting sections.When rotor 5 is in step section, lifting cylinder 13 drives pushing part 12 to rise after the order receiving material loading, 3rd tilting section of pushing part 12 contacts with the rotating shaft of rotor 5 and drive rotor 5 moves upward and crosses the high point of arrival first tilting section 111, rotor 5 arrives brushing mechanism 2 through the first tilting section 111, completes a material loading.Then lifting cylinder 13 drives pushing part 12 to decline and returns initial position, and waits for the order of next material loading, and then realizes automatic charging.

Below the structure of machine for brushing structure 2 is introduced.See Fig. 2-6, brushing mechanism 2 comprises rolling assembly and painting unit.Rolling assembly comprises conveyer belt 22 and holddown belt 23; Described conveyer belt 22 can rotate under the driving of driver part 21; The setting that described holddown belt 23 is relative with described conveyer belt 22 and described holddown belt 23 are for being pressed in described conveyer belt 22 by the rotating shaft of described rotor 5, and described holddown belt 23 is not identical with the movement velocity of described conveyer belt 22.Concrete conveyer belt 22 is the conveyer belt form of cycle rotation, driver part 21 is motor 211, motor 211 drives by driving gear 212 and connector being rotated by driven gear 221 that the driven pulley of conveyer belt is arranged, and then driving conveying belt 22 rotates, and connector is preferably chain.Conveyer belt 22 preferably adopts PU patterned surface conveyer belt, and its surface has larger coefficient of friction, effectively can drive the axis of rotation turning 5.Holddown belt 23 is arranged on the top of conveyer belt 22, and it preferably adopts elastic nylon band, and elastic nylon band is looped around on two regulating wheels.Holddown belt 23 be do not rotate or velocity of rotation with the velocity of rotation of conveyer belt not identical, preferably, holddown belt is not active rotation.And then between holddown belt 23 and conveyer belt 22, form speed difference, around own axis while of making rotor proal under the drive of conveyer belt.Preferably two conveyer belts 22 and two holddown belts 23 are set respectively, holddown belt 23 is arranged on the top of conveyer belt 22, the passage passed through for rotor body is formed between conveyer belt 22, and carry out spacing to the direction of motion of rotor, rotor 5 only can be rolled along the bearing of trend of passage, can prevent rotor 5 from skew occurring and then affect the brushing quality of gold lacquer.

Preferably, see Fig. 2-4, described painting unit 24 is sponges, described paint-absorbable in described sponge, described rotor 5 along the surface scrolls of described sponge and the outer surface of described rotor body contact with described sponge.Described sponge preferably adopts PVA water-absorbing sponge.Painting unit 24 is preferably elongate in shape, be arranged in the passage between conveyer belt 22, and when rotor 5 is rolled in passage, the outer surface of rotor body contacts with sponge, the gold lacquer that such sponge is adsorbed can be brushed on the outer surface of rotor body uniformly, can realize the automatic painting of gold lacquer like this.

Preferably, as shown in Figure 9, coating case 64 is also provided with, for holding gold lacquer.Coating case 64 can adopt the mode of drippage or be connected with sponge 24 by the mode that tube connector connects, for sponge 24 supply gold lacquer.

Preferably, be provided with position transducer in the exit of rolling assembly, whether position transducer has rotor to export for the outlet detecting described brushing mechanism 2; Described feed mechanism 1 carries out the conveying of rotor according to the testing result of described position transducer.Concrete, when there being rotor to export, position transducer sends signal, and feed mechanism 1 receives action immediately after signal, is flowed to by rotor and brushes mechanism 2; Otherwise feed mechanism 1 is failure to actuate.Ensure like this after brushing mechanism 2 processes a rotor, feed mechanism 1 is just untreated rotor feeding brushing mechanism 2, and the quality that the rotor that input can be prevented too much is brushed to brushing mechanism 2 and then impact, can be better controlled the rhythm produced.Described position transducer preferably adopts limit switch.

Below drying mechanism 3 is specifically described.Drying mechanism 3 comprises dries slideway 31, barrier assembly 32 and dries assembly; The setting that described oven dry slideway 31 tilts, the height point of described oven dry slideway 31 is connected with described outlet of brushing mechanism 2; Described barrier assembly 32 stops the default time for making described rotor 5 on described oven dry slideway 31; The described rotor 5 that described oven dry assembly is used for drying on slideway 31 is dried.

Preferably, barrier assembly 32 comprises stop member, and described stop member can adopt liftable parts or rotatable components, and described stop member can reciprocating motion between a blocking position and a release position, at blocking position, stop member stops that rotor moves along drying slideway 31; In release position, stop member does not stop rotor 5, and rotor 5 can move along oven dry slideway 31.In the present embodiment, what stop member adopted is the form of the obstruction cylinder of elevation type, and at blocking position, the stop inclined-plane stopped on cylinder rises and stops rotor motion; In release position, the stop inclined-plane stopped on cylinder is fallen, and rotor 5 can move along oven dry slideway 31.By controlling barrier assembly in the time of blocking position, can control accurately the drying time of rotor 5.Barrier assembly 32 can comprise n stop member, and n is more than or equal to 1.As illustrated in fig. 1-3,3 stop members are provided with.Rotor enters after the first stop member stops t constantly, return after the stop member of first resets and lets pass, by stopping that inclined-plane ensures that first rotor is let pass and stopped second rotor, so repeatedly through n stop member.N stop member can allow at most n rotor to dry in drying mechanism 3 simultaneously, and each stop member stops rotor t second, and the time that rotor stops in drying mechanism 3 is more than or equal to n*t, can realize the accurate control of drying time like this.

Preferably, as shown in Fig. 4-9, dry assembly and comprise heat build-up guard shield 34 and dryer 33; Described heat build-up guard shield 34 inside is formed dries chamber, and described oven dry slideway 31 is by described oven dry chamber; Described dryer 33 is for supplying hot blast to described oven dry chamber.Dryer 33 comprises air blast and electrical heating wire.Preferably, the entrance and exit as figure oven dry slideway 31 is all positioned at the outside of heat build-up guard shield 34, is convenient to material loading and feeding.Heat build-up guard shield 34 effectively can prevent heat loss, gathers heat, effectively promotes drying efficiency, reduces drying time and energy loss.

As one preferably execution mode, in order to reclaim heat better, as shown in Figure 8, dry assembly and also comprise circulating line 35, described circulating line 35 one end connects the air outlet 341 of heat build-up guard shield 34, and the other end connects the air inlet 331 of described dryer 33, be circulated back to the air inlet 331 of dryer like this through circulating line 35 in heat build-up guard shield 34, drying machine 33 blows out again, and the reciprocating cycle achieving hot blast utilizes, and reduce further energy dissipation.

Preferably, dry assembly and also comprise temperature sensor, described temperature sensor is for detecting the temperature of described drying cavity indoor, and when the temperature value detected exceedes preset temperature value, described dryer 33 stops heating.It is overheated to prevent like this.

As one preferably execution mode, as shown in Figure 9, rotor surface processing unit also comprises support 61, and feed mechanism 1, brushing mechanism 2 and drying mechanism 3 and coating case 64 are installed on support 61.Preferably, rotor surface processing unit also comprises equipment electronic box 62, and for providing power supply to aforesaid equipment and holding the controlling organization etc. of the said equipment, equipment electronic box 62 is also arranged on support 61.Preferably, rotor surface processing unit also comprises protective cover 63, and protective cover 63 is arranged on support 61 for providing security protection.

Below the specific works mode of rotor surface processing unit is described: first rotor 5 is placed on feed mechanism 1, and rotor 5 moves to step section 112 after the second tilting section.Lift assemblies action after receiving the signal of position transducer, drive rotor 5 is crossed step section 112 and is moved to the first tilting section 111, and rotor 5 moves to entrance between conveyer belt 22 and holddown belt 23 through the first tilting section 111 subsequently.Rotor body enters the passage between two conveyer belts 22 subsequently, and the compacted band 23 of rotating shaft of rotor 5 is pressed on conveyer belt 22, and the outer surface of rotor body contacts with sponge 24.Owing to forming speed difference between holddown belt 23 and conveyer belt 22, around own axis while of making the rotating shaft of rotor 5 proal under the drive of conveyer belt 22, and then the rolling on sponge 24 that the outer surface of rotor driven body continues, in sponge 24, the gold lacquer of absorption is brushed on the outer surface of rotor body uniformly, and then completing painting process, rotor is sent brushing mechanism 2 via the outlet of rolling assembly.Brush complete rotor and enter drying mechanism 3 through transition slideway 4, in drying mechanism 3, rotor 5 moves along oven dry slideway 31, and is constantly stopped by barrier assembly 32, thus makes rotor 5 ensure to be dried to predetermined degree in drying cavity indoor stop predetermined time.After predetermined drying time, rotor 5 leaves oven dry chamber through the motion of oven dry slideway 31 and completes oven dry.Then rotor 5 removedly can carry out follow-up process.

In addition, it should be understood by one skilled in the art that the accompanying drawing provided at this is all for illustrative purposes, and accompanying drawing is not necessarily drawn in proportion.

Meanwhile, should be appreciated that example embodiment is provided, to make the disclosure be comprehensive, and its scope is fully conveyed to those skilled in the art.A lot of specific detail (such as the example of particular elements, equipment and method) is presented to provide thorough understanding of the disclosure.It will be apparent to one skilled in the art that and do not need to adopt specific detail, example embodiment can be implemented with much different forms, and example embodiment should not be understood to limit the scope of the present disclosure.In some example embodiments, well-known device structure and well-known technology are not described in detail.

When an element or layer be mentioned as another element or layer " on ", " being engaged to ", " being connected to " or " being coupled to " another element or layer time, its can directly on another element or layer, directly engaged, connected or be connected to another element or layer, or intermediary element or layer can be there is.By contrast, when an element be mentioned as " directly " another element or layer " on ", " being directly engaged to ", " being directly connected to " or " being directly coupled to " another element or layer time, intermediary element or layer can not be there is.Other word for describing relation between element should be explained in a similar manner (such as, " between " and " directly between ", " vicinity " and " being directly close to " etc.).As used herein, term "and/or" comprises arbitrary in the Listed Items of one or more association or all combines.

Although term first, second, third, etc. can be used to describe each element, parts, region, layer and/or section at this, these elements, parts, region, layer and/or section should not limited by these terms.These terms can only for distinguishing element, parts, region, layer or a section and another element, region, layer or section.The term of such as " first ", " second " and other numerical value term when not meaning that order or sequentially when this uses, unless context explicitly points out.Thus, the first element discussed below, parts, region, layer or section can be called as the second element, parts, region, layer or section, and do not deviate from the instruction of example embodiment.In addition, in describing the invention, except as otherwise noted, the implication of " multiple " is two or more.

Claims (13)

1. a rotor surface processing unit, comprises the brushing mechanism (2) and drying mechanism (3) that set gradually; Described brushing mechanism (2) comprises rolling assembly and painting unit (24); Described painting unit (24) is along described rolling assembly bearing of trend layout and inside accommodates coating; Described rolling assembly is for driving described rotor (5) along described painting unit (24) rolling and contacting with the described coating in described painting unit (24); Described drying mechanism (3) is for the rotor (5) that receives from described rolling assembly and carry out drying and processing to described rotor (5).

2. rotor surface processing unit as claimed in claim 1, is characterized in that: also comprise feed mechanism (1), and described feed mechanism (1) is for the entrance conveying rotor (5) to described brushing mechanism (2).

3. rotor surface processing unit as claimed in claim 2, is characterized in that: described feed mechanism (1) comprises material loading slideway (11) and lift assemblies; Described material loading slideway (11) comprises tilting section (111) and step section (112), the low spot of described tilting section (111) is connected with the described entrance brushing mechanism (2), and described step section (112) is located at the below of the height point of described tilting section (111); Described lift assemblies is used for described rotor (5) lifting to cross described step section (112) and the high point delivering to described tilting section (111).

4. rotor surface processing unit as claimed in claim 1, is characterized in that: described rolling assembly comprises conveyer belt (22) and holddown belt (23); Described conveyer belt (22) can rotate under the driving of driver part (21); The setting that described holddown belt (23) is relative with described conveyer belt (22) and described holddown belt (23) are for being pressed in described conveyer belt (22) by the rotating shaft of described rotor (5), and described holddown belt (23) is not identical with the movement velocity of described conveyer belt (22).

5. rotor surface processing unit as claimed in claim 4, it is characterized in that: described painting unit (24) is sponge, described paint-absorbable in described sponge (24), described rotor (5) along the surface scrolls of described sponge (24) and the outer surface of described rotor (5) contact with described sponge (24).

6. rotor surface processing unit as claimed in claim 5, is characterized in that: also comprise the coating case (64) for holding coating, and described coating case (64) is for supplying coating to described sponge (24).

7. rotor surface processing unit as claimed in claim 5, it is characterized in that: described rolling assembly comprises the conveyer belt (22) that two groups of flat shapes are arranged, arrange described holddown belt (23) in the top of conveyer belt (22), described sponge (24) is arranged between described two groups of conveyer belts (22).

8. rotor surface processing unit as claimed in claim 2, it is characterized in that: be provided with position transducer in the outlet of described brushing mechanism (2), whether described position transducer has rotor (5) to export for the outlet detecting described brushing mechanism (2); Described feed mechanism (1) carries out the conveying of rotor (1) according to the testing result of described position transducer.

9. rotor surface processing unit as claimed in claim 1, is characterized in that: described drying mechanism (3) comprises dries slideway (31), barrier assembly (32) and dries assembly; The setting that described oven dry slideway (31) is tilted, the height point of described oven dry slideway (31) is connected with described outlet of brushing mechanism (2); The time that described barrier assembly (32) is preset in the upper stop of described oven dry slideway (31) for making described rotor (5); The described rotor (5) that described oven dry assembly is used for drying on slideway (31) is dried.

10. rotor surface processing unit as claimed in claim 9, is characterized in that: described barrier assembly (32) comprises liftable parts or rotatable components, in order to the described rotor stopped or let pass on described oven dry slideway (31).

11. rotor surface processing unit as claimed in claim 9, is characterized in that: described oven dry assembly comprises heat build-up guard shield (34) and dryer (33); Described heat build-up guard shield (34) inside is formed dries chamber, and described oven dry slideway (31) is by described oven dry chamber; Described dryer (33) is for supplying hot blast to described oven dry chamber.

12. rotor surface processing unit as claimed in claim 11, it is characterized in that: described oven dry assembly also comprises circulating line (35), described circulating line (35) one end connects the air outlet (341) of described heat build-up guard shield (34), and the other end connects the air inlet (331) of described dryer (33).

13. rotor surface processing unit as claimed in claim 11, it is characterized in that: described oven dry assembly also comprises temperature sensor, described temperature sensor is for detecting the temperature of described drying cavity indoor, when the temperature value detected exceedes preset temperature value, described dryer (33) stops heating.