CN205487577U - Air -dry device after enameled wire japanning - Google Patents

Abstract

The utility model discloses an air -dry device after enameled wire japanning, including box, rotary device, hot air circulating system and FPGA controlling means, temperature and humidity sensor and air velocity transducer pass through wire and FPGA controlling means electric connection, rotary device fixes the bottom at the inlayer, the bottom of inlayer is fixed with the electromagnetic heating piece, the electromagnetic heating piece passes through wire and FPGA controlling means electric connection, go out the tuyere setting on the inner wall of outer left side, just it passes through pipeline and circulating pump intercommunication to go out the tuyere, the circulating pump passes through pipeline and heat exchanger intercommunication, and the circulating pump passes through wire and FPGA controlling means electric connection, the heat exchanger passes through pipeline and air inlet mouth intercommunication, the air inlet mouth sets up on the inner wall of outer right side. The utility model relates to a rationally, simple structure can enough improve work efficiency and oven -dry mass, and controlled temperature easily can make the distribution of temperature even again.

Description

Air-dry apparatus after a kind of enamelled wire paint

Technical field

This utility model belongs to enamel-covered wire and air-dries technical field, is specifically related to air-dry apparatus after a kind of enamelled wire paint.

Background technology

At present, after enamel-covered wire sprays paint, have to pass through the operations such as air-dried cooling to use again.And air-dry after mesh enamelled wire paint and the most directly air-dry putting into drying unit after enamelled wire paint, and drying baker is directly to be done the enamel-covered wire baking the affected part after applying some drugs after japanning by heater.Although the enamel-covered wire after japanning can be dried by the method, but there are the following problems, uneven causes the humidity of enamel-covered wire after some japanning the biggest as (1) dries, it is impossible to enough uses；(2) air-dry apparatus after existing enamelled wire paint, inefficiency, causes labour cost high, and quality is low；(3) after after the existing enamelled wire paint of existing market, air-dry apparatus needs considerable time just can make enamelled wire paint, the temperature in air-dry apparatus reaches air-dried requirement, and temperature distributing disproportionation is even, and local temperature difference is relatively big, difficult control of temperature.

Accordingly, it would be desirable to design one can either improve work efficiency and dries quantity, temperature can be easily controlled again, it is possible to after making uniformity of temperature profile allow the enamel-covered wire after painting air-dry the envelope curve japanning reaching preferable effect, air-dry apparatus is to solve the deficiencies in the prior art.

Utility model content

The purpose of this utility model is to provide air-dry apparatus after a kind of enamelled wire paint, with the problem solving to propose in above-mentioned background technology.

nullFor achieving the above object，This utility model following technical scheme of offer: air-dry apparatus after a kind of enamelled wire paint，Including casing、Rotary apparatus、Hot air circulating system and FPGA control device，Described casing is hinged with case lid by articulated elements，Described casing includes internal layer and outer layer，Wind chamber it is provided with between described internal layer and outer layer，Described internal layer is provided with ventilation mouths，Temperature Humidity Sensor and air velocity transducer it is arranged with on the inwall of described outer layer，Described Temperature Humidity Sensor and air velocity transducer control device by wire with FPGA and are electrically connected with，Described rotary apparatus is fixed on the bottom of internal layer，The bottom of described internal layer is fixed with Electromagnetic Heating block，Described Electromagnetic Heating block controls device by wire with FPGA and is electrically connected with，Described hot air circulating system includes air outlet、Circulating pump、Heat exchanger and air intake mouth，Described air outlet is arranged in the inner left wall of outer layer，And described air outlet is connected with circulating pump by pipeline，Described circulating pump is connected with heat exchanger by pipeline，And circulating pump controls device by wire with FPGA and is electrically connected with，Described heat exchanger is connected with air intake mouth by pipeline，Described air intake mouth is arranged on the right side inwall of outer layer.

Preferably, described ventilation mouths is spaced substantially equidistant on four limits of internal layer, a diameter of 5-20mm of described ventilation mouths.

Preferably, described rotary apparatus includes that reducing motor and object stage, described reducing motor are fixed on the bottom of internal layer, and described reducing motor and FPGA control device and be electrically connected with, and reducing motor is rotationally connected with object stage by shaft coupling.

Preferably, the equidistant air-vent that is provided with on the cross section of described object stage, described air-vent at least provided with ten groups, a diameter of 10-30mm of described air-vent.

Preferably, described Electromagnetic Heating block is set to two groups, and described Electromagnetic Heating block is symmetric about reducing motor.

Preferably, the bottom of described heat exchanger is provided with electric heating tube, and described electric heating tube and FPGA control device and be electrically connected with.

Preferably, the pipeline between described air outlet and circulating pump is provided with flow control valve.

Technique effect of the present utility model and advantage: air-dry apparatus after this enamelled wire paint, the cavity of casing quickly can be heated by the Electromagnetic Heating block fixing in the bottom of internal layer, make to reach preferable temperature, and the equidistant air-vent being provided with can be gone out the temperature Quick diffusing of Electromagnetic Heating block on the cross section of object stage, it is to avoid the phenomenon that local heating is uneven；Object stage is driven to rotate by reducing motor, it is possible to make the enamel-covered wire being air cured be heated evenly, it is to avoid the phenomenon that local heating is uneven；Hot blast can be made to come out to heat exchange endlessly in casing again in casing by hot air circulating system, ensure that air-dried efficiency, ensure the quality of enamelled wire air-dried, and Temperature Humidity Sensor and air velocity transducer can detect humiture and wind speed and control hot air circulating system and Electromagnetic Heating block etc. respectively to control FPGA control device；Therefore, this utility model is reasonable in design, simple in construction, can either improve work efficiency and dries quantity, can be easily controlled again temperature, it is possible to make uniformity of temperature profile.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure: 1 casing, 2 internal layers, 3 ventilation mouths, 4 wind chambeies, 5 outer layers, 6 Temperature Humidity Sensors, 7 air velocity transducers, 8 rotary apparatuss, 9 hot air circulating systems, 10 air outlets, 11 circulating pumps, 12 heat exchangers, 13 air intake mouths, 14 FPGA control device, 15 Electromagnetic Heating blocks.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

nullThis utility model provides air-dry apparatus after a kind of enamelled wire paint as shown in Figure 1，Including casing 1、Rotary apparatus 8、Hot air circulating system 9 and FPGA controls device 14，Described casing 1 is hinged with case lid by articulated elements，Described casing 1 includes internal layer 2 and outer layer 5，It is provided with wind chamber 4 between described internal layer 2 and outer layer 5，Described internal layer 2 is provided with ventilation mouths 3，Described ventilation mouths 3 is spaced substantially equidistant on four limits of internal layer 2，A diameter of 5-20mm of described ventilation mouths 3，Temperature Humidity Sensor 6 and air velocity transducer 7 it is arranged with on the inwall of described outer layer 5，Described Temperature Humidity Sensor 6 and air velocity transducer 7 control device 14 by wire with FPGA and are electrically connected with，Described rotary apparatus 8 is fixed on the bottom of internal layer 2，Described rotary apparatus 8 includes reducing motor and object stage，Described reducing motor is fixed on the bottom of internal layer 2，Described reducing motor and FPGA control device 14 and are electrically connected with，And reducing motor is rotationally connected with object stage by shaft coupling，Equidistant on the cross section of described object stage it is provided with air-vent，Described air-vent is at least provided with ten groups，A diameter of 10-30mm of described air-vent，The bottom of described internal layer 2 is fixed with Electromagnetic Heating block 15，Described Electromagnetic Heating block 15 controls device 14 by wire with FPGA and is electrically connected with，Described Electromagnetic Heating block 15 is set to two groups，Described Electromagnetic Heating block 15 is symmetric about reducing motor，The cavity of casing 1 quickly can be heated by the Electromagnetic Heating block 14 fixing in the bottom of internal layer 2，Make to reach preferable temperature，And the equidistant air-vent being provided with can be gone out the temperature Quick diffusing of Electromagnetic Heating block 15 on the cross section of object stage，Avoid the phenomenon that local heating is uneven；Object stage is driven to rotate by reducing motor, it is possible to make the enamel-covered wire being air cured be heated evenly, it is to avoid the phenomenon that local heating is uneven；Described hot air circulating system 9 includes air outlet 10, circulating pump 11, heat exchanger 12 and air intake mouth 13, pipeline between described air outlet 10 and circulating pump 11 is provided with flow control valve, described air outlet 10 is arranged in the inner left wall of outer layer 5, and described air outlet 10 is connected with circulating pump 11 by pipeline, described circulating pump 11 is connected with heat exchanger 12 by pipeline, and circulating pump 11 controls device 14 by wire with FPGA and is electrically connected with, described heat exchanger 12 is connected with air intake mouth 13 by pipeline, the bottom of described heat exchanger 12 is provided with electric heating tube, described electric heating tube and FPGA control device 14 and are electrically connected with, described air intake mouth 13 is arranged on the right side inwall of outer layer 5；Hot blast can be made to come out to heat exchange endlessly in casing 1 again in casing 1 by hot air circulating system 9, ensure that air-dried efficiency, ensure the quality of enamelled wire air-dried, and Temperature Humidity Sensor 6 and air velocity transducer 7 can detect humiture and wind speed and control hot air circulating system 9 and Electromagnetic Heating block 15 etc. respectively to control FPGA control device 14；Therefore, this utility model is reasonable in design, simple in construction, can either improve work efficiency and dries quantity, can be easily controlled again temperature, it is possible to make uniformity of temperature profile.

Last it is noted that the foregoing is only preferred embodiment of the present utility model; it is not limited to this utility model; although this utility model being described in detail with reference to previous embodiment; for a person skilled in the art; technical scheme described in foregoing embodiments still can be modified by it; or wherein portion of techniques feature is carried out equivalent; all within spirit of the present utility model and principle; the any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (7)

1. null1. air-dry apparatus after an enamelled wire paint，Including casing (1)、Rotary apparatus (8)、Hot air circulating system (9) and FPGA control device (14)，Described casing (1) is hinged with case lid by articulated elements，Described casing (1) includes internal layer (2) and outer layer (5)，It is characterized in that: between described internal layer (2) and outer layer (5), be provided with wind chamber (4)，Described internal layer (2) is provided with ventilation mouths (3)，Temperature Humidity Sensor (6) and air velocity transducer (7) it is arranged with on the inwall of described outer layer (5)，Described Temperature Humidity Sensor (6) and air velocity transducer (7) control device (14) by wire with FPGA and are electrically connected with，Described rotary apparatus (8) is fixed on the bottom of internal layer (2)，The bottom of described internal layer (2) is fixed with Electromagnetic Heating block (15)，Described Electromagnetic Heating block (15) controls device (14) by wire with FPGA and is electrically connected with，Described hot air circulating system (9) includes air outlet (10)、Circulating pump (11)、Heat exchanger (12) and air intake mouth (13)，Described air outlet (10) is arranged in the inner left wall of outer layer (5)，And described air outlet (10) is connected with circulating pump (11) by pipeline，Described circulating pump (11) is connected with heat exchanger (12) by pipeline，And circulating pump (11) controls device (14) by wire with FPGA and is electrically connected with，Described heat exchanger (12) is connected with air intake mouth (13) by pipeline，Described air intake mouth (13) is arranged on the right side inwall of outer layer (5).
2. Air-dry apparatus after a kind of enamelled wire paint the most according to claim 1, it is characterised in that: described ventilation mouths (3) is spaced substantially equidistant on four limits of internal layer (2), a diameter of 5-20mm of described ventilation mouths (3).
3. Air-dry apparatus after a kind of enamelled wire paint the most according to claim 1, it is characterized in that: described rotary apparatus (8) includes reducing motor and object stage, described reducing motor is fixed on the bottom of internal layer (2), described reducing motor and FPGA control device (14) and are electrically connected with, and reducing motor is rotationally connected with object stage by shaft coupling.
4. Air-dry apparatus after a kind of enamelled wire paint the most according to claim 3, it is characterised in that: the equidistant air-vent that is provided with on the cross section of described object stage, described air-vent at least provided with ten groups, a diameter of 10-30mm of described air-vent.
5. Air-dry apparatus after a kind of enamelled wire paint the most according to claim 1, it is characterised in that: described Electromagnetic Heating block (15) is set to two groups, and described Electromagnetic Heating block (15) is symmetric about reducing motor.
6. Air-dry apparatus after a kind of enamelled wire paint the most according to claim 1, it is characterised in that: the bottom of described heat exchanger (12) is provided with electric heating tube, and described electric heating tube and FPGA control device (14) and be electrically connected with.
7. Air-dry apparatus after a kind of enamelled wire paint the most according to claim 1, it is characterised in that: the pipeline between described air outlet (10) and circulating pump (11) is provided with flow control valve.