CN105281505B - Rotor surface treatment device - Google Patents

Abstract

The invention aims to provide a rotor surface treatment device capable of automatically realizing rotor surface treatment, which is used for solving the problems of low efficiency and poor finished product rate of the existing manual treatment. Comprises a coating mechanism and a drying mechanism which are arranged in sequence; the brushing mechanism comprises a rolling component and a brushing component; the painting component is arranged along the extending direction of the rolling component and contains paint inside; the rolling component is used for driving the rotor to roll along the painting component and contact with the paint in the painting component; the drying mechanism is used for receiving the rotor from the rolling assembly and drying the rotor, and also comprises a feeding mechanism which is used for conveying the rotor to an inlet of the brushing mechanism; the feeding mechanism comprises a feeding slideway. According to the technical scheme, automatic coating and drying can be realized, and the efficiency of rotor surface treatment can be greatly improved.

Description

A kind of rotor surface processing unit

Technical field

The present invention relates to manufacture field, and in particular to a kind of rotor surface processing unit.

Background technology

At present in commercial Application, it is necessary to handle the surface of rotor, specifically need to apply rotor surface red gold Water process.All it is to rely on manually to take rotor to be positioned on bearing bracket stand, by hand in current rotor applies gold lacquer, drying operation Rotor is stirred, the other hand dips gold lacquer by hairbrush, is applied to rotor outer surface surface by hand, after the completion of, by hand by rotor collection In be positioned on hollow out bin, accomplish by way of the exposure of the warmer of lower section is dried in atmosphere.Each action relies on It is accomplished manually, the labor intensity of employee is big, smears the rotor outer surface face gold lacquer thickness caused by human hand dynamics inequality by hand Differ, influence product quality, warmer is exposed in air in drying course, and energy can not recycle, also without active heat Exchange, according to the waste into energy.

The content of the invention

In view of this, the present invention provides a kind of rotor surface processing unit that can be handled automatically rotor surface.

To use following technical scheme up to this purpose, the present invention：

A kind of rotor surface processing unit, including the brushing mechanism and drying mechanism set gradually；The brushing mechanism bag Include rolling assembly and painting unit；The painting unit is arranged along the rolling assembly bearing of trend and inner containment has coating； The rolling assembly be used for drive the rotor rolled along the painting unit and with the coating phase in the painting unit Contact；The drying mechanism is used to receive the rotor from the rolling assembly and carries out drying and processing to the rotor；

Also include feed mechanism, the feed mechanism is used for the entrance conveying rotor to the brushing mechanism；The feeding Mechanism includes feeding slideway, and the feeding slideway includes the first tilting section and step section, the low spot of first tilting section and institute The entrance for stating brushing mechanism is connected, and the step section is located at the lower section of the high point of first tilting section, in the step section The position of remote first tilting section be additionally provided with the second tilting section, second tilting section tilts towards the step section, institute Step section is stated to be formed between the high point of first tilting section and the low spot of the second tilting section.

Preferably, in foregoing rotor surface processing unit, the feed mechanism also includes lift assemblies, the lifting Component is used to rotor lifting crossing the step section and delivers to the high point of first tilting section.

Preferably, in foregoing rotor surface processing unit, the rolling assembly includes conveyer belt and holddown belt；It is described Conveyer belt can be rotated by driving part；The holddown belt setting relative with the conveyer belt and holddown belt use It is pressed in by the rotating shaft of the rotor on the conveyer belt, the movement velocity of the holddown belt and the conveyer belt differs.

Preferably, in foregoing rotor surface processing unit, the painting unit is sponge, and the paint-absorbable is in institute State in sponge, surface scrolls and the outer surface of the rotor of the rotor along the sponge are in contact with the sponge.

Preferably, in foregoing rotor surface processing unit, in addition to for accommodating the coating case of coating, the coating Case is used to supply coating to the sponge.

Preferably, in foregoing rotor surface processing unit, the rolling assembly includes the conveying that two groups of flat shapes are set Band, the holddown belt is set in the top of conveyer belt, the sponge is arranged between two groups of conveyer belts.

Preferably, in foregoing rotor surface processing unit, position sensor is provided with the outlet of the brushing mechanism, Whether the outlet that the position sensor is used to detect the brushing mechanism has rotor output；The feed mechanism is according to institute's rheme The testing result for putting sensor carries out the conveying of rotor.

Preferably, in foregoing rotor surface processing unit, the drying mechanism include drying slideway, barrier assembly and Dry component；The drying inclined setting of slideway, the high point of the drying slideway are connected with the outlet of the brushing mechanism； The barrier assembly is used to make the rotor stop the default time on the drying slideway；The drying component is used for drying The rotor on dry slide is dried.

Preferably, in foregoing rotor surface processing unit, the barrier assembly includes liftable part or rotatable Part, to the rotor for stopping or letting pass on the drying slideway.

Preferably, in foregoing rotor surface processing unit, the drying component includes heat build-up shield and dryer；Institute State heat build-up shield and be internally formed drying chamber, the drying slideway passes through the drying chamber；The dryer is used for described Dry chamber supply hot blast.

Preferably, in foregoing rotor surface processing unit, the drying component also includes circulating line, the circulation Pipeline one end connects the air outlet of the heat build-up shield, and the other end connects the air inlet of the dryer.

Preferably, in foregoing rotor surface processing unit, the drying component also includes temperature sensor, the temperature Degree sensor is used to detect the temperature in the drying cavity room, when the temperature value of detection exceedes preset temperature value, the drying Machine stops heating.

The beneficial effects of the invention are as follows：

1st, the brushing processing to rotor surface can be realized automatically, it is not necessary to manual operation, stay in grade, efficiency high.

2nd, the rotor finished to brushing carries out drying and processing, the time of drying and the fully automated control of temperature automatically, can have The lifting processing quality and efficiency of effect.

3rd, feed mechanism can make to prevent rotor from existing according to the working condition of brushing mechanism automatically to brushing mechanism conveying rotor The quality brushed is accumulated and then influenceed in brushing mechanism, ensures the orderly progress of production.

Brief description of the drawings

By the description to the embodiment of the present invention referring to the drawings, above-mentioned and other purpose of the invention, feature and Advantage will be apparent from, in the accompanying drawings：

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

Fig. 2,3 be the present invention rotor surface processing unit internal structure stereogram.

Fig. 4-6 is state diagram of the rotor surface processing unit of the present invention after heat build-up shield is mounted with.

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

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

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

Embodiment

Below based on embodiment, present invention is described, but the present invention is not restricted to these embodiments.Under It is detailed to describe some specific detail sections in the literary detailed description to the present invention.Do not have for a person skilled in the art The description of these detail sections can also understand the present invention completely.In order to avoid obscuring the essence of the present invention, known method, mistake The not narration in detail of journey, flow, element.

As shown in figs 1-9, the internal structure of the rotor surface processing unit of the present invention is illustrated first.The rotor table Face processing unit includes brushing mechanism 2 and the drying mechanism 3 set gradually；The brushing mechanism 2 includes rolling assembly and brushing Component 24；The painting unit 24 is arranged along the rolling assembly bearing of trend and inner containment has coating；The rolling assembly For driving the rotor 5 to be rolled along the painting unit 24 and being in contact with the coating in the painting unit 24；Institute State drying mechanism 3 be used for receive the rotor 5 from the rolling assembly and to the rotor 5 progress drying and processing.Rotor includes Rotor body and the rotating shaft positioned at rotor body both sides, rotor body have the profile of roller shape, by the way that rotating shaft is placed on into rolling On dynamic component, rotor rolls under the drive of rolling assembly, and the outer surface of rotor body connects with the coating in painting unit 24 Touch, coating is uniformly applied on the outer surface of rotor body.Preferably, the coating is gold lacquer or other coating materials Matter, form are the material of liquid, are illustrated in embodiment below by taking gold lacquer as an example.Preferably, in machine for brushing Transition slideway 4 is also set up between structure 2 and drying mechanism 3, specifically, transition slideway 4 connects outlet and the dryer of rolling assembly The entrance of structure 3, the rotor finished through the brushing of brushing mechanism 2 is sent to drying mechanism 3 by transition slideway 4 is dried.Brush The feeding of mechanism 2 can manually complete, and can also be automatically performed by equipment.By above technical scheme, it can automatically realize and turn The brushing and drying in sublist face, it is not necessary to manpower intervention, greatly improve spraying, the quality and efficiency of drying.

Also include feed mechanism 1 as a kind of preferably embodiment, rotor surface processing unit, for brushing mechanism 2 entrance conveying rotor.Specifically, the feed mechanism 1 includes feeding slideway 11 and lift assemblies；The feeding slideway 11 wraps The first tilting section 111 and step section 112 are included, the low spot of first tilting section 111 is connected with the entrance of the brushing mechanism 2 Connect, the step section 112 is located at the lower section of the high point of first tilting section 111；The lift assemblies are arranged on the step At section 112, for the rotor 5 lifting to be crossed into the step section and delivers to the high point of first tilting section 111, rotor 5 Low spot is moved to subsequently into brushing mechanism 2 from high point along the first tilting section 111 under gravity.Step section 112 is set Effect is to enable rotor 5 to rest on step section to wait lift assemblies action, and so the rhythm of feeding can be controlled.It is excellent Choosing, it is additionally provided with the second tilting section in the position of remote first tilting section 111 of step section 112, the second tilting section is towards platform Stage 112 is tilted, and step section 112 is formed between the high point of the first tilting section 111 and the low spot of the second tilting section.

Preferably, referring to Fig. 1-3, lift assemblies include lifting cylinder 13 and pushing part 12, and lifting cylinder 13, which drives, to be promoted Portion 12 moves up and down, and pushing part 12 is provided with the 3rd tilting section, and the 3rd tilting section inclines with the first and second tilting sections Tilted direction is consistent.When rotor 5 is in step section, lifting cylinder 13 is driven on pushing part 12 after the order of feeding is received Rise, the 3rd tilting section of pushing part 12 is in contact with the rotating shaft of rotor 5 and drive rotor 5 inclines up and over reaching first The high point of oblique section 111, rotor 5 reach brushing mechanism 2 by the first tilting section 111, complete a feeding.Then lifting cylinder 13 Drive pushing part 12 to be lowered back to initial position, and wait the order of next feeding, and then realize automatic charging.

The structure of brushing mechanism 2 is introduced below.Referring to Fig. 2-6, brushing mechanism 2 includes rolling assembly and brushing group Part.Rolling assembly includes conveyer belt 22 and holddown belt 23；The conveyer belt 22 can be rotated by driving part 21；It is described Holddown belt 23 it is relative with the conveyer belt 22 setting and the holddown belt 23 be used for the rotating shaft of the rotor 5 is pressed in it is described defeated Send on band 22, the movement velocity of the holddown belt 23 and the conveyer belt 22 differs.Specific conveyer belt 22 is cycle rotation Conveyer device, driving part 21 is motor 211, and motor 211 drives conveyer belt by driving gear 212 and connector What is set on driven pulley is rotated by driven gear 221, and then driving conveying belt 22 rotates, and connector is preferably chain.Conveyer belt 22 preferably use PU patterned surface conveyer belts, and its surface has larger coefficient of friction, axis of rotation that can be effectively with turn 5. Holddown belt 23 is arranged on the top of conveyer belt 22, and it preferably uses elastic nylon band, and elastic nylon band is looped around two tensioning wheels On.Holddown belt 23 be do not rotate or velocity of rotation and the velocity of rotation of conveyer belt differ, it is preferred that holddown belt is not Active rotation.And then form speed difference between holddown belt 23 and conveyer belt 22 so that rotor under the drive of conveyer belt to Around own axis while preceding motion.Two conveyer belts 22 and two holddown belts 23, holddown belt 23 are preferably set respectively The top of conveyer belt 22 is arranged on, the passage passed through for rotor body is formed between conveyer belt 22, and to the direction of motion of rotor Carry out spacing so that rotor 5 is only capable of the bearing of trend rolling along passage, can prevent rotor 5 from shifting and then influence gold lacquer Brushing quality.

Preferably, referring to Fig. 2-4, the painting unit 24 is sponge, and the paint-absorbable is in the sponge, described turn Son 5 is in contact along the surface scrolls of the sponge and the outer surface of the rotor body with the sponge.The sponge is preferred Using PVA water-absorbing sponges.Painting unit 24 is preferably elongate in shape, is arranged in the passage between conveyer belt 22, and to turn When son 5 rolls in passage, the outer surface of rotor body is in contact with sponge, and the gold lacquer that such sponge is adsorbed can be equal Even is brushed on the outer surface of rotor body, and the automatic painting of gold lacquer so can be achieved.

Preferably, as shown in Figure 9, coating case 64 is additionally provided with, for accommodating gold lacquer.Coating case 64 can use drippage Mode or the mode connected with connecting tube are connected with sponge 24, for feeding gold lacquer to sponge 24.

Preferably, position sensor is provided with the exit of rolling assembly, position sensor is used to detect the machine for brushing Whether the outlet of structure 2 has rotor output；The feed mechanism 1 carries out the defeated of rotor according to the testing result of the position sensor Send.Specifically, when there is rotor output, position sensor sends signal, and feed mechanism 1 acts immediately after receiving signal, will turn Son is conveyed to brushing mechanism 2；Otherwise feed mechanism 1 is failure to actuate.So ensure after brushing mechanism 2 has handled a rotor, on Expect that untreated rotor is sent into brushing mechanism 2 by the ability of mechanism 1, can prevent from inputting excessive rotor to brushing mechanism 2 and then influence The quality of brushing, the rhythm of production can be better controlled.The position sensor preferably uses limit switch.

Drying mechanism 3 is specifically described below.Drying mechanism 3 includes drying slideway 31, barrier assembly 32 and dried Dry component；The drying 31 inclined setting of slideway, the high point of the drying slideway 31 are connected with the outlet of the brushing mechanism 2 Connect；The barrier assembly 32 is used to make the rotor 5 stop the default time on the drying slideway 31；The drying component For being dried to the rotor 5 on drying slideway 31.

Preferably, barrier assembly 32 includes stop member, and the stop member can use liftable part or rotatable portion Part, the stop member can move back and forth between a blocking position and a release position, and in blocking position, stop member stops Rotor moves along drying slideway 31；In release position, stop member does not stop rotor 5, and rotor 5 can move along drying slideway 31. In the present embodiment, stop member, in blocking position, is stopped on cylinder using the form of the obstruction cylinder of lift Stop that inclined-plane rises and stop rotor motion；In release position, the stop inclined-plane stopped on cylinder is fallen, and rotor 5 can be slided along drying Move in road 31.By controlling barrier assembly to be accurately controlled to the drying time of rotor 5 in the time of blocking position. Barrier assembly 32 may include n stop member, and n is more than or equal to 1.As illustrated in fig. 1-3, there is provided 3 stop members.Rotor enters Enter after the first stop member constantly stops t, first of stop member resets let pass after return, by stopping that inclined-plane ensures first Individual rotor is let pass and stops second rotor, so passes through n stop member repeatedly.N stop member can at most allow n Rotor is dried in drying mechanism 3 simultaneously, and each stop member stops the rotor t seconds, what rotor stopped in drying mechanism 3 Time is more than or equal to n*t, and the accurate control of drying time so can be achieved.

Preferably, as shown in Fig. 4-9, drying component includes heat build-up shield 34 and dryer 33；The heat build-up shield 34 are internally formed drying chamber, and the drying slideway 31 passes through the drying chamber；The dryer 33 is used for the drying Chamber supplies hot blast.Dryer 33 includes air blower and electrical heating wire.Preferably, the entrance and exit such as figure drying slideway 31 is equal Positioned at the outside of heat build-up shield 34, it is easy to feeding and feeding.Heat build-up shield 34 effectively can prevent heat to scatter and disappear, and gather heat, Effective lifting drying efficiency, reduces drying time and energy loss.

As a kind of preferably embodiment, in order to preferably be reclaimed to heat, as shown in Figure 8, component is dried Also include circulating line 35, the air outlet 341 of the one end of circulating line 35 connection heat build-up shield 34, the other end connects the baking The air inlet 331 of dry machine 33, the air inlet 331 of dryer is so circulated back to through circulating line 35 in heat build-up shield 34, then Drying machine 33 is blown out, and the reciprocating cycle for realizing hot blast utilizes, and reduce further energy dissipation.

Preferably, drying component also includes temperature sensor, and the temperature sensor is used to detect in the drying cavity room Temperature, when the temperature value of detection exceedes preset temperature value, the dryer 33 stops heating.It can so prevent from overheating.

As a kind of preferably embodiment, as shown in figure 9, rotor surface processing unit also includes support 61, feeder Structure 1, brushing mechanism 2 and drying mechanism 3 and coating case 64 are installed on support 61.Preferably, rotor surface processing unit Also include equipment electronic box 62, controlling organization for providing power supply and receiving the said equipment to foregoing equipment etc., equipment electricity Case 62 is also mounted on support 61.Preferably, rotor surface processing unit also includes protective cover 63, and protective cover 63 is arranged on support It is used to provide security protection on 61.

The specific works mode of rotor surface processing unit is illustrated below：Rotor 5 is placed to feeder first On structure 1, rotor 5 moves to step section 112 after the second tilting section.Lift assemblies are moved after the signal of position sensor is received Make, drive rotor 5 crosses step section 112 and moves to the first tilting section 111, and subsequent rotor 5 moves to defeated through the first tilting section 111 Send the entrance between band 22 and holddown belt 23.The passage that subsequent rotor body enters between two conveyer belts 22, the rotating shaft of rotor 5 It is compacted band 23 to be pressed on conveyer belt 22, the outer surface of rotor body is in contact with sponge 24.Due to holddown belt 23 and conveyer belt Speed difference is formed between 22 so that turn while the rotating shaft of rotor 5 travels forward under the drive of conveyer belt 22 around own axes It is dynamic, so rotor driven body outer surface it is lasting rolled on sponge 24, the gold lacquer of absorption is uniform in sponge 24 It is brushed on the outer surface of rotor body, and then completes painting process, rotor is sent machine for brushing via the outlet of rolling assembly Structure 2.Brush the rotor that finishes and enter drying mechanism 3 by transition slideway 4, in drying mechanism 3, rotor 5 is along drying slideway 31 Motion, and be blocked component 32 and constantly stop, so that the remain of a predetermined time in drying cavity room of rotor 5 ensures to be oven-dried To predetermined degree.After predetermined drying time, rotor 5 moves from drying chamber completion baking by drying slideway 31 It is dry.Then rotor 5, which can be removed, carries out follow-up processing.

In addition, it should be understood by one skilled in the art that provided herein accompanying drawing be provided to explanation purpose, and What accompanying drawing was not necessarily drawn to scale.

It will also be appreciated that example embodiment is provided, so that the disclosure is comprehensive, and its scope is fully passed on To those skilled in the art.Many specific details（Such as particular elements, the example of apparatus and method）It is presented to provide to this Disclosed comprehensive understanding.It will be apparent to one skilled in the art that specific detail need not be used, example embodiment can be with much not Same form is carried out, and example embodiment is understood not to limit the scope of the present disclosure.In some example embodiments, Well-known device structure and widely-known technique are not described in.

When an element or layer be mentioned as another element or layer " on ", " being engaged to ", " being connected to " or " being coupled to " When another element or layer, it can directly be engaged on another element or layer, directly, be connected or coupled to another element or layer, Or intermediary element or layer may be present.By contrast, when an element be mentioned as " direct " another element or layer " on ", it is " straight Connect and be engaged to ", " being directly coupled to " or when " being directly coupled to " another element or layer, may not be present intermediary element or Layer.Other words for describing relation between element should be explained in a similar manner（For example, " between " and " directly at it Between ", " neighbouring " and " being directly adjacent to " etc.）.As used herein, term "and/or" includes being listd for one or more associations Any or all combinations in mesh.

Although term first, second, third, etc. can be used for describing each element, part, region, floor and/or area herein Section, but these elements, part, region, layer and/or section should not be limited by these terms.These terms can be only used for by One element, part, region, layer or section distinguish with another element, region, layer or section.Such as " first ", " second " Term and other numerical value terms do not mean that order or order when used herein, unless clearly indicated by the context.Thus, below The first element, part, region, layer or the section discussed is referred to alternatively as the second element, part, region, layer or section, without departing from The teaching of example embodiment.In addition, in the description of the invention, unless otherwise indicated, " multiple " are meant that two or two More than.

Claims (12)

1. a kind of rotor surface processing unit, including the brushing mechanism set gradually（2）And drying mechanism（3）；The machine for brushing Structure（2）Including rolling assembly and painting unit（24）；The painting unit（24）Along the rolling assembly bearing of trend arrangement and Inner containment has coating；The rolling assembly is used to drive the rotor（5）Along the painting unit（24）Roll and with it is described Painting unit（24）The interior coating is in contact；The drying mechanism（3）For receiving the rotor from the rolling assembly （5）And to the rotor（5）Carry out drying and processing；

Also include feed mechanism（1）, the feed mechanism（1）For to the brushing mechanism（2）Entrance conveying rotor（5）； The feed mechanism（1）Including feeding slideway（11）, the feeding slideway（11）Including the first tilting section（111）And step section （112）, first tilting section（111）Low spot and the brushing mechanism（2）Entrance be connected, the step section（112） It is located at first tilting section（111）High point lower section, the step section remote first tilting section position also Provided with the second tilting section, second tilting section is tilted towards the step section, and the step section is formed in first tilting section High point and the second tilting section low spot between.

2. rotor surface processing unit as claimed in claim 1, it is characterised in that：The feed mechanism（1）Also include lifting Component, the lift assemblies are used for the rotor（5）The step section is crossed in lifting（112）And deliver to first tilting section （111）High point.

3. rotor surface processing unit as claimed in claim 1, it is characterised in that：The rolling assembly includes conveyer belt（22） And holddown belt（23）；The conveyer belt（22）Can be in driving part（21）Be rotated by；The holddown belt（23）With it is described Conveyer belt（22）Relative setting and the holddown belt（23）For by the rotor（5）Rotating shaft be pressed in the conveyer belt（22） On, the holddown belt（23）With the conveyer belt（22）Movement velocity differ.

4. rotor surface processing unit as claimed in claim 3, it is characterised in that：The painting unit（24）It is sponge, institute Paint-absorbable is stated in the sponge（24）It is interior, the rotor（5）Along the sponge（24）Surface scrolls and the rotor（5） Outer surface and the sponge（24）It is in contact.

5. rotor surface processing unit as claimed in claim 4, it is characterised in that：Also include being used for the coating case for accommodating coating （64）, the coating case（64）For to the sponge（24）Supply coating.

6. rotor surface processing unit as claimed in claim 4, it is characterised in that：The rolling assembly is set including two groups of flat shapes The conveyer belt put（22）, in conveyer belt（22）Top the holddown belt is set（23）, the sponge（24）It is arranged on described two Group conveyer belt（22）Between.

7. rotor surface processing unit as claimed in claim 1, it is characterised in that：In the brushing mechanism（2）Outlet set Position sensor, the position sensor are used to detect the brushing mechanism（2）Outlet whether have rotor（5）Output；Institute State feed mechanism（1）Rotor is carried out according to the testing result of the position sensor（1）Conveying.

8. rotor surface processing unit as claimed in claim 1, it is characterised in that：The drying mechanism（3）Slided including drying Road（31）, barrier assembly（32）With drying component；The drying slideway（31）Inclined setting, the drying slideway（31）Height Point and the brushing mechanism（2）Outlet be connected；The barrier assembly（32）For making the rotor（5）Slided in the drying Road（31）It is upper to stop the default time；The drying component is used for drying slideway（31）On the rotor（5）Dried.

9. rotor surface processing unit as claimed in claim 8, it is characterised in that：The barrier assembly（32）Including liftable Part or rotatable components, to the drying slideway that stops or let pass（31）On the rotor.

10. rotor surface processing unit as claimed in claim 8, it is characterised in that：The drying component includes heat build-up shield （34）And dryer（33）；The heat build-up shield（34）It is internally formed drying chamber, the drying slideway（31）Pass through the baking Dry chamber；The dryer（33）For supplying hot blast to the drying chamber.

11. rotor surface processing unit as claimed in claim 10, it is characterised in that：The drying component also includes circulation pipe Road（35）, the circulating line（35）One end connects the heat build-up shield（34）Air outlet（341）, the other end connection baking Dry machine（33）Air inlet（331）.

12. rotor surface processing unit as claimed in claim 10, it is characterised in that：The drying component also includes temperature and passed Sensor, the temperature sensor is used to detect the temperature in the drying cavity room, when the temperature value of detection exceedes preset temperature value When, the dryer（33）Stop heating.