CN109326384A

CN109326384A - A kind of horizontal enameling machine

Info

Publication number: CN109326384A
Application number: CN201811185506.9A
Authority: CN
Inventors: 金颖
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-10-11
Filing date: 2018-10-11
Publication date: 2019-02-12
Anticipated expiration: 2038-10-11
Also published as: CN109326384B

Abstract

The present invention discloses a kind of horizontal enameling machine, including the draw drum successively arranged, annealing furnace, device for painting, baker and take-up head, catalyst chamber is equipped with above baker burner hearth, main air duct is equipped at the top of baker, it further include the waste heat recovering mechanism being made of waste gas residual heat recovering mechanism and tail portion waste heat recovering mechanism, waste gas residual heat recovering mechanism includes the first air hose and the second air hose, first air hose one end is connected to catalyst chamber, the other end extends in annealing furnace, one end of second air hose extend in annealing furnace and with the first air hose parallel arrangement, waste discharge mouth and heat exchanger are equipped on baker, the outer tube of heat exchanger is connect with main air duct and waste discharge mouth respectively, tail portion waste heat recovering mechanism includes collecting air duct, fresh gas air hose and third blower between the two, air duct is collected to be located at right above line outlet, fresh gas air hose both ends are respectively and in heat exchanger Pipe one end and the connection of collection air duct, the enamelling machine effectively improve utilization rate of waste heat, reach significant effects of energy saving and emission reduction.

Description

A kind of horizontal enameling machine

Technical field

The present invention relates to environmental protective chemical industry fields, and more specifically, it designs a kind of horizontal enameling machine.

Background technique

Horizontal enameling machine is the important equipment of electromagnetic wire industry production enameled wire, its effect is the copper wire that will be processed The poly-vinegar paint of one layer of insulation is uniformly superscribed outside (or aluminum steel), it is 0.011mm-that horizontal enameling machine, which generally processes diameter, The enameled wire of 0.80mm.

The production technology of enameled wire generally comprises unwrapping wire-annealing-japanning-baking-cooling-take-up etc., above-mentioned work Skill process realizes on an enamelling machine, and enamelling machine generally comprises the annealing furnace of copper wire annealing, copper wire surface layer japanning The baker of paint bath and enameled wire paint layer drying can generate a large amount of harmful gas due to being carried out in drying course after copper wire japanning Body, direct emission will lead to serious environmental pollution, therefore, catalyst chamber is generally set on baker, and catalyst chamber is anti-with pernicious gas Ying Houhui generates a large amount of heat, in the prior art generally cannot can effectively utilize the gas after reaction, lead to this part On the other hand the waste of heat since the volume of catalyst in catalyst chamber is too small, causes waste gas burning insufficient, direct emission Secondary pollution can be faced.

Summary of the invention

The object of the present invention is to provide a kind of novel horizontal enamel-covers for sufficiently improving utilization rate of waste heat and reaching energy-saving and emission-reduction Machine.

To achieve the above object, it is realized by following technological means: a kind of horizontal enameling machine, including the unwrapping wire successively arranged Disk, annealing furnace, device for painting, baker and take-up head, baker include burner hearth, catalyst chamber are provided with above burner hearth, baker is far from painting The one end for painting device is line outlet, is provided with main air duct at the top of baker, further includes waste heat recovering mechanism, the waste heat recovering mechanism On the waste gas residual heat recovering mechanism utilized again including the exhaust gas after catalyst chamber is burnt and the enameled wire for coming out line outlet The tail portion waste heat recovering mechanism that utilizes again of heat, the waste gas residual heat recovering mechanism includes the first air hose and the second air hose, One end of first air hose is connected to catalyst chamber, and the first air hose extends in annealing furnace far from one end of catalyst chamber, the second air hose One end extend in annealing furnace and with the first air hose parallel arrangement, waste discharge mouth and heat exchanger, heat exchange are provided on baker The outer tube of device is connect with main air duct and waste discharge mouth respectively, and the tail portion waste heat recovering mechanism includes collecting air duct and fresh gas air hose, The collection air duct is located at right above line outlet, the both ends of the fresh gas air hose respectively with inner tube one end of heat exchanger and receipts Collect air duct connection, be connected to inside the inner tube other end and baker of heat exchanger, is also set up between fresh gas air hose and collection air duct There is third blower.

It advanced optimizes are as follows: the annealing furnace successively divides from one end far from device for painting to one end close to device for painting For annealing upper section, annealing middle section and annealing lower section, the first air hose and the second air hose are extended in parallel in annealing furnace from annealing upper section Air inlet and air outlet are respectively arranged with to annealing lower section and in annealing upper section, annealing middle section and annealing lower section, described the Two blowers are set on the second air hose for being located at annealing lower section.

It advanced optimizes are as follows: the air door for changing intake is provided on the air outlet, the air door passes through shaft point Not hinged with the side of air outlet, the top of the shaft is pierced by the furnace body outside of annealing furnace and is fixed on the top of shaft One handle is further fixed on an axle sleeve in the shaft outside annealing furnace, has been provided at circumferentially spaced on the axle sleeve around axle sleeve several Mounting hole is provided through the fastening screw of the furnace body fastening of mounting hole and annealing furnace on mounting hole.

It advanced optimizes are as follows: further include controller, the air door for changing intake, the wind are provided on the air outlet Door is hinged with the side of air outlet respectively by shaft, and shaft top is provided with the servo motor for driving the shaft to rotate, and is moving back Be additionally provided in stove respectively detection annealing upper section, annealing middle section and anneal lower section temperature sensor, the temperature sensor, Servo motor is connect with controller, when temperature sensor detects temperature, sends a signal to controller, controller control is watched Taking motor drives air door to turn an angle.

It advanced optimizes are as follows: the slewing area of the shaft is 0 °~90 °.

It advanced optimizes are as follows: be provided with waste discharge blower fan in the waste discharge mouth.

It advanced optimizes are as follows: catalyst is provided in the catalyst chamber, the volume of the catalyst is 0.18M³。

The advantages of the present invention over the prior art are that: waste heat recovering mechanism is added, catalyst chamber combustion can be efficiently used The heat of the hot gas at heat and baker line outlet after burning provides heat for annealing furnace, annealing furnace no setting is required heating device, To substantially increase the utilization efficiency of heat, reach energy-efficient effect；Pass through air door, temperature sensor and the control on air inlet The temperature for adjusting anneal upper section, annealing middle section and lower section of annealing may be implemented in device processed etc.；Catalyst volume increases to 0.18M³, exhaust gas is long by the time, and the harmful substance in exhaust gas is effectively removed, achievees the effect that emission reduction, the novel horizontal enamel-cover Machine makes full use of waste heat, and keeps waste gas burning abundant, achievees the effect that energy-saving and emission-reduction.

Detailed description of the invention

Fig. 1 is a kind of main view of horizontal enameling machine in the present embodiment；

Fig. 2 is a kind of top view of horizontal enameling machine in the present embodiment；

Fig. 3 is the enlarged drawing of A in Fig. 1；

Fig. 4 is the enlarged drawing of B in Fig. 2；

Fig. 5 is exhaust gas circulation schematic diagram in the present embodiment；

Fig. 6 is the schematic diagram of manual adjustment means in the present embodiment.

In figure, 1, annealing furnace；2, device for painting；3, baker；301, incoming line；302, line outlet；303, entrance region；304, Evaporating area；305, solidify 1st area；306, solidify 2nd area；307, burner hearth；308, catalyst chamber；4, third blower；5, the second blower；6, Two air hoses；601, air outlet；602, air door；603, servo motor；604, temperature sensor；605, shaft；606, axle sleeve；607, Mounting hole；608, fastening screw；609, handle；7, air duct is collected；8, the first air hose；801, air inlet；9, the first blower；10, Waste discharge mouth；11, heat exchanger；12, fresh gas air hose；13, main air duct；14, waste discharge blower fan.

Specific embodiment

It is described in further detail with reference to the accompanying drawing and by specific embodiment to invention, following embodiment is descriptive , it is not restrictive protection scope of the present invention.

Embodiment

A kind of horizontal enameling machine, referring to Fig.1 shown in-Fig. 6, including annealing furnace 1, device for painting 2 and baker 3, device for painting 2 It is arranged between annealing furnace 1 and baker 3, the draw drum of transmission copper wire is provided with beside annealing furnace 1, in baker 3 far from japanning One end of device 2 is provided with take-up head, wherein annealing furnace 1 is successively wrapped from one end far from baker 3 to one end close to baker 3 Include annealing upper section, annealing middle section and annealing lower section；Baker 3 is incoming line 301 close to one end of device for painting 2, and baker 3 is far from painting The one end for painting device 2 is line outlet 302, and baker 3 is known as burner hearth 307 from incoming line 301 to line part between line outlet 302, It is four sections that burner hearth 307, which divides, is followed successively by entrance region 303,2 areas 306 of evaporating area 304,1 area 305 of solidification and solidification；On burner hearth 307 Side is provided with catalyst chamber 308, catalyst is provided in catalyst chamber 308, the volume of catalyst is 0.18M3, at the top of baker 3 It is provided with main air duct 13, main air duct 13 to evaporating area 304,1 area 305 of solidification and 2 areas 306 of solidification are provided with a point air duct, are drying It is provided between furnace 3 and annealing furnace 1 and the waste heat generated in baker 3 is recycled into the waste heat recovering mechanism recycled to annealing furnace 1.

Waste heat recovering mechanism includes waste gas residual heat recovering mechanism and tail portion waste heat recovering mechanism, referring to Fig.1 shown in-Fig. 4:

Wherein, waste gas residual heat recovering mechanism includes the first air hose 8 and second in self annealing furnace 1 internal stretch to baker 3 Air hose 6, the first air hose 8 and the second air hose 6 is arranged in parallel in annealing furnace 1 and the annealing upper section of self annealing furnace 1 prolongs always Extend to annealing lower section, on the first air hose 8 in the annealing upper section of annealing furnace 1, annealing middle section and annealing lower section be respectively arranged with into Enter to the air inlet 801 in annealing furnace 1, in the annealing upper section of annealing furnace 1, annealing middle section and annealing lower section on the second air hose 6 It is respectively arranged with the air outlet 601 for leaving annealing furnace 1, and the second air hose 6 extends to the main air duct 13 inside baker 3.It is entering the wind It is provided with air door 602 on mouth 801 and air outlet 601, is provided with the second exhaust fan above annealing lower section on the second air hose 6； In addition, the first air hose 8 extends to above the catalyst chamber 308 of baker 3 close to one end of baker 3, the first air hose 8 is located at catalyst chamber It is connected to right above 308 and with main air duct 13 and catalyst chamber 308 respectively, the first exhaust fan is provided on main air duct 13.

When operation, referring to attached drawing 5, when the first exhaust fan is run, the burning of self-catalysis room 308 is generated for draw drum unwrapping wire Hot gas sucks in main air duct 13.Simultaneously because the operation of the second exhaust fan, the high temperature hot gas that catalyst chamber 308 generates is through the first air hose Air inlet 801 in 8 enters each section of annealing furnace 1, then enters second after the adjusting of air door 602 through each section of air outlet 601 Air hose 6, the operation of the second exhaust fan make the first air hose 8, annealing furnace 1, the second air hose 6 form negative pressure everywhere, so as to avoid The leakage of exhaust gas, due to containing high-temp waste gas in the first air hose 8, therefore the hot gas in the first air hose 8 enters in annealing furnace 1, temperature It can significantly increase, no setting is required in annealing furnace 1, and heating device carries out heat supply, thus achieve the effect that significantly reduce energy consumption, and There are also 450 DEG C or more of temperature after annealed 1 heat release of furnace of hot gas, then squeeze into the main air duct 13 (650 DEG C) of baker 3 and baker 3 For baker 3 after being mixed with the hot wind of main air duct 13.Heat exchanger 11 and waste discharge mouth 10 are provided with above entrance region 303, 10 end of waste discharge mouth is provided with waste discharge blower fan 14, and extra heat is after the exchange of heat exchanger 11 turns cold through 10 row of waste discharge mouth It puts.

Wherein, tail portion waste heat recovering mechanism includes the collection air duct 7 being arranged from 302 rear of line outlet of baker 3 and collects The fresh gas air hose 12 and the third blower 4 between collection air duct 7 and fresh gas air hose 12 that air duct 7 connects, wherein fresh gas wind Pipe 12 is connect far from the one end for collecting air duct 7 with heat exchanger 11, after the pressurization of third blower 4, near line outlet 302 Air is drawn onto fresh gas air hose 12 through collecting air duct 7, subsequently enters heat exchanger 11 and the above-mentioned exhaust gas finally discharged carries out waste heat Exchange finally enters the heat that entrance region 303 supplements entrance region 303.

Since enameled wire is after baking and curing, line shell temperature is still very high, therefore, when enameled wire comes out from line outlet 302 When, when third blower 4 extracts fresh air outside, while by hot gas that enamelled wire surface is taken out of while drawing, and eventually enter into To heat exchanger 11,3 entrance region 303 of baker is entered eventually into, the utilization efficiency of thermal energy is further improved.

Further, since the annealing upper section temperature of annealing furnace 1 is 500 DEG C, annealing middle section temperature is 490 DEG C and annealing lower section temperature Degree is 480 DEG C, and each section is different, therefore, detection annealing upper section, annealing middle section and annealing lower section respectively are provided in annealing furnace 1 The temperature sensor 604 of temperature is respectively provided with air door 602 on the air outlet 601 of the second air hose 6, by the angle for changing air door 602 Degree changes 801 size of air inlet, to change the flow of wind, to adjust the annealing of annealing furnace 1 upper section, annealing middle section and annealing The temperature of lower section, if intake velocity is fast, the heat of hot wind institute band is more, will lead to this section of temperature and quickly increases；If intake velocity compared with Slowly, the heat of hot wind institute band is opposite to tail off, and temperature is lower.

It is provided with the manual adjustment means of 602 angle of damper on above-mentioned air outlet 601 or air inlet 801, joins According to shown in Fig. 6, wherein air door 602 and air outlet 601 and air inlet 801 are rotatablely connected by shaft 605, and shaft 605 is pierced by To 1 outside of annealing furnace and one handle 609 is set on top, is further fixed on an axle sleeve in the shaft 605 outside annealing furnace 1 606, several mounting holes 607 are provided at circumferentially spaced around axle sleeve 606 on axle sleeve 606, are provided with threaded hole on annealing furnace 1, It is provided through the fastening screw 608 of mounting hole 607 Yu threaded hole close-fitting on mounting hole 607, wind is changed by rotating handle 609 The angle of door 602,602 angle change range of air door is between 0 ° to 90 °.

Since third blower 4 extracts always fresh air, it will lead to entire enamelling machine internal pressure and be continuously increased, therefore, in waste discharge It is provided with the waste discharge blower fan 14 of discharge gas on mouth 10, temperature sensor 604 is provided in catalyst chamber 308, according to catalyst chamber The wind speed of the temperature feedback of temperature sensor 604 on 308, controller control waste discharge blower fan 14 controls temperature after catalysis always At 650 DEG C -680 DEG C.

Whole process is controlled by PLC controller, and PLC controller is set in main electric cabinet, the first above-mentioned blower 9, the Two blowers 5, third blower 4, waste discharge blower fan 14, temperature sensor 604 are connect with PLC controller, pass through temperature sensor 604 PLC controller is sent a signal to, goes the first blower 9 of control, the second blower 5, third blower 4 and row respectively by PLC controller The wind speed of useless blower 14, the first above-mentioned blower 9, the second blower 5, third blower 4 and waste discharge blower fan 14 are frequency conversion fan, can Use brand for Sheng Shida, the frequency conversion fan of model SE-A150Z.

In addition, the angle that automatic adjusting mechanism changes air door 602 also can be used in the air door 602 of the application, such as Fig. 2-Fig. 3 institute Show, servo motor 603 is set on 605 top of shaft, servo motor 603 is connect with PLC controller, passes through temperature sensor 604 Controller is sent a signal to, controller control servo motor 603 makes air door 602 turn an angle, the wherein rotation of air door 602 Angle is arranged 0 ° -90 °.

PLC controller is the prior art, controls the first blower 9, the second blower 5, third blower 4, waste discharge blower fan by PLC 14 frequency and servo motor 603 turns an angle and all refers to programming in logic, which is the prior art and not Belong to the protection object of invention, those skilled in the art can be realized above-mentioned by existing PLC controller combination common knowledge Setting.

The specific structure of the annealing furnace 1 of the application, device for painting 2 and baker 3 does not make improvements, internal specific machine Details are not described herein for structure and operating principle, is waste heat recovering mechanism this application involves the improvement arrived, is recycled by waste gas residual heat Mechanism and tail portion waste heat recovering mechanism can effectively improve the utilization efficiency of heat energy of production of enamel wire process, remove annealing furnace 1 The adjusting combination waste heat recovering mechanism of the setting of inner heating device, 1 temperature of each section of annealing furnace is realized, disappearing for electric energy is effectively reduced Consumption, improves the utilization efficiency of energy, and internal waste gas is fully burned, the generation of pollution is effectively reduced, final to realize The effect of energy-saving and emission-reduction.

The above is only a preferred embodiment of the present invention, protection scope of the present invention is not limited merely to above-mentioned implementation Example, all technical solutions belonged under thinking of the present invention all belong to the scope of protection of the present invention.It should be pointed out that for the art Those of ordinary skill for, several improvements and modifications without departing from the principles of the present invention, these improvements and modifications It should be regarded as protection scope of the present invention.

Claims

1. a kind of horizontal enameling machine, including draw drum, annealing furnace, device for painting, baker and the take-up head successively arranged, baker packet Burner hearth is included, catalyst chamber is provided with above burner hearth, the one end of baker far from device for painting is line outlet, is provided with main wind at the top of baker Road, which is characterized in that further include waste heat recovering mechanism, the waste heat recovering mechanism include exhaust gas after catalyst chamber is burnt again The waste gas residual heat recovering mechanism utilized and the tail portion waste heat recycling for utilizing the heat on the enameled wire of line outlet out again Mechanism, the waste gas residual heat recovering mechanism include the first air hose and the second air hose, and one end of the first air hose is connected to catalyst chamber, the One air hose extends in annealing furnace far from one end of catalyst chamber, one end of the second air hose extend in annealing furnace and with the first air hose Parallel arrangement, is provided with waste discharge mouth and heat exchanger on baker, and the outer tube of heat exchanger connects with main air duct and waste discharge mouth respectively It connects, the tail portion waste heat recovering mechanism includes collecting air duct and fresh gas air hose, and the collection air duct is located at right above line outlet, institute The both ends for stating fresh gas air hose are connect with inner tube one end of heat exchanger and collection air duct respectively, the inner tube other end of heat exchanger It is connected to baker inside, is additionally provided with third blower between fresh gas air hose and collection air duct.

2. a kind of horizontal enameling machine according to claim 1, which is characterized in that the certainly separate device for painting of the annealing furnace One end to one end close to device for painting is divided into annealing upper section, annealing middle section and annealing lower section, the first air hose and the second wind Pipe runs parallel to annealing lower section from annealing upper section in annealing furnace and divides equally in annealing upper section, annealing middle section and annealing lower section It is not provided with air inlet and air outlet, second blower is set on the second air hose for being located at annealing lower section.

3. a kind of horizontal enameling machine according to claim 2, which is characterized in that be provided on the air outlet change into The air door of air quantity, the air door is hinged with the side of air outlet respectively by shaft, and the top of the shaft is pierced by annealing furnace Furnace body outside and on the top of shaft be fixed with one handle, an axle sleeve is further fixed in the shaft outside annealing furnace, it is described Several mounting holes have been provided at circumferentially spaced around axle sleeve on axle sleeve, the furnace body of mounting hole and annealing furnace is provided through on mounting hole The fastening screw of fastening.

4. a kind of horizontal enameling machine according to claim 2, which is characterized in that further include controller, on the air outlet It is provided with the air door for changing intake, the air door is hinged with the side of air outlet respectively by shaft, the setting of shaft top There is the servo motor for driving the shaft to rotate, detection annealing upper section, annealing middle section and annealing respectively are additionally provided in annealing furnace The temperature sensor of lower section, the temperature sensor, servo motor are connect with controller, when temperature sensor detects temperature When, controller is sent a signal to, controller control servo motor drives air door to turn an angle.

5. a kind of horizontal enameling machine according to any one of claims 1-4, which is characterized in that the rotation model of the shaft Enclose is 0 °~90 °.

6. a kind of horizontal enameling machine according to claim 5 any one, which is characterized in that be provided in the waste discharge mouth Waste discharge blower fan.

7. a kind of horizontal enameling machine according to claim 6, which is characterized in that it is provided with catalyst in the catalyst chamber, The volume of the catalyst is 0.18M³。