JPH0754653B2 - Automatic insulation coating device for enamel wire - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an automatic insulating coating device for an enamel wire, and more specifically, it applies an insulating varnish to a running wire and then bake the enamel wire. The present invention relates to an automatic coating device for an enamel wire, which applies an insulating coating to.

[Prior Art] The most important thing when applying an insulating coating to a conductor is to make the thickness of the insulating coating formed on the conductor and the finishing outer diameter of the conductor uniform over the entire length of the conductor.

For this reason, conventionally, the amount of fluctuation in the diameter of the enamel wire is 1
The thickness of the insulating coating is made uniform by adjusting the outer diameter of the enameled wire to a uniform value.

The adjustment of the finishing outer diameter of the enamel wire, that is, the adjustment of the thickness of the insulating coating is generally performed at two points of the winding start portion and the winding end portion of the finished product wound with the insulating coating and wound on the bobbin. The operator checks the outer diameter, and based on this, the operator's intuition or the difference from the standard value is determined to adjust the amount of the insulating varnish applied to the conductor wire.

However, with such a method, the finishing outer diameter of the enamel wire,
In other words, the thickness of the insulating coating cannot be made uniform over the entire length of the enameled wire, and the variation in the finishing outer diameter of the enameled wire, in other words, the variation in the thickness of the insulating coating, will be extremely large. .

Therefore, as disclosed in Japanese Patent Publication No. 54-509, the outer diameter of the enameled wire during running after the insulating varnish is applied and baked is continuously measured, and the measured value is a predetermined upper limit value or An apparatus has been proposed in which when the lower limit value is continuously exceeded for a predetermined period of time or more, the amount of the insulating varnish applied is gradually adjusted by a fixed amount.

[Problems to be Solved by the Invention] However, such a conventional device has a drawback that the finishing outer diameter of the enameled wire varies at least between the upper limit value and the lower limit value. Moreover, since the control amount is constant even though the variation of the finishing outer diameter is not constant, if the finishing outer diameter slightly exceeds the upper limit value or the lower limit value, the control amount becomes excessive and the variation of the finishing outer diameter occurs. Will become bigger.

Further, when the finishing outer diameter greatly exceeds the upper limit value or the lower limit value, the control is repeated several times until the finishing outer diameter reaches the target range between the upper limit value and the lower limit value.
There is also a drawback that it takes a long time to reach the target range.

Therefore, an object of the present invention is to solve the above-mentioned drawbacks of the prior art and to provide an automatic insulating coating device for an enameled wire which can make the finishing outer diameter of the enameled wire extremely uniform over the entire length of the enameled wire.

[Means for Solving the Problems] In order to achieve the above-mentioned object, an automatic enameled wire insulating coating device according to the present invention applies an insulating varnish to a running wire and then bake the insulating coating. In an automatic insulation coating device for enameled wires, the outer diameter of a running enameled wire after completion of baking is measured continuously, and the measured value is taken out as an electric signal. The difference between the average value of the outer diameter measured value within a predetermined time and the standard finish outer diameter setting place is taken out as a deviation output, and the amount of insulation varnish applied is adjusted according to the deviation output, and the amount of insulation varnish applied is adjusted. Re-adjustment of the coating amount of insulating varnish is prohibited within the specified time after adjustment, and if the deviation output exceeds the abnormal set value for a moment, an alarm is generated and the coating amount of insulating varnish is And a control system for stopping the adjustment.

[Operation] In the automatic enameled wire insulation coating device according to the present invention configured as described above, the insulating varnish is applied in accordance with the difference between the measured outer diameter of the enameled wire and the standard outer diameter set value. The amount is adjusted, the readjustment of the insulating varnish coating amount is prohibited within a predetermined time after adjusting the insulating varnish coating amount, and when the deviation output exceeds the abnormal set value even momentarily, Since the alarm is generated and the adjustment of the applied amount of the insulating varnish is stopped, the finished outer diameter of the enameled wire, in other words, the thickness of the insulating coating is made extremely uniform over the entire length of the enameled wire.

[Embodiment] An embodiment of the present invention will be described in detail below with reference to FIGS. 1 to 4.

In FIG. 1 schematically showing the overall structure of the embodiment, a conductor W ₀ such as an enamel wire before insulation coating is sent from a conductor feeder 1 and softened in an annealing furnace 2 and then an insulating varnish. The insulating varnish is attached to the surface of the conducting wire W ₀ by contacting and passing on the varnish coating roll 4 provided in the varnish coating tank 3 in which the insulating varnish is attached to the surface. Excess liquid is removed from the insulating varnish attached to the conducting wire W ₀ by the squeeze felt 5, and the insulating varnish is evenly applied over the entire circumference of the surface of the conducting wire W ₀ .

After that, the insulating varnish is baked on the surface of the conductor W _{0 in} the baking furnace 6. The conducting wire W ₁ exiting from the baking furnace 6 is run in a loop at a constant speed by the take-up capstan rolls 7, 7, ... By repeating this a plurality of times, the insulating film having a required thickness is formed on the conductive wire W ₁ . Then, the enameled wire W _{2 that} has passed through the baking furnace 6 a plurality of times and has been baked is wound around the bohine 8.

Between the take-up capstan roll 7 and the bobbin 8, for example, an outer diameter measuring device 9 using laser light is provided.
Enameled wire W ₂ is by passing through the outer diameter measuring instrument 9, the outer diameter of the enameled wire W ₂ so that is continuously measured, the measured value is taken from the outer diameter measuring device 9 as an electric signal. An electric signal, which is obtained from the outer diameter measuring device 9 and indicates the outer diameter measured value of the enamel wire W ₂ , is supplied to the controller 10.

The controller 10 controls the adjustment of the amount of the insulating varnish applied to the conductor W ₁ by the adjusting mechanism 11 that controls the rotation speed of the varnish applying roll 4 based on the electric signal obtained from the outer diameter measuring device 9. , Controls the generation of an alarm by the alarm device 12.

In FIG. 2 showing the control system in which the main part is formed by adding the adjusting mechanism 11 to the controller 10, the enamel wire W ₂
The electric signal obtained from the outer diameter measuring device 9 indicating the measured value of the outer diameter is supplied to the control arithmetic circuit 13 in the controller 10 to measure the outer diameter of the enamel wire W ₂ and the outer diameter measuring device. In order to correct the measurement accuracy of 9 itself, and to correct the variation of the control calculation circuit 13 and the measurement accuracy of the outer diameter measuring instrument 9 itself, the control calculation circuit 13 arbitrarily determines the outer diameter measurement value of the enamel wire W _2. An average value within a settable predetermined time is obtained as a representative measurement value.

Further, in the control arithmetic circuit 13, the standard finishing outer diameter of the enamel wire is set in advance, and the difference between the average value and the standard finishing outer diameter setting value is calculated. Then, the difference signal between the average value of the outer diameter measurement value of the enamel wire W ₂ obtained from the control arithmetic circuit 13 within a predetermined time and the standard finish outer diameter set value is supplied to the deviation output generating circuit 14 in the controller 10. It is converted to a DC voltage deviation output.

The deviation output of the DC voltage is supplied from one output end of the deviation output generation circuit 14 to the deviation output conversion circuit 15 in the controller 10 and converted into a time proportional to the DC voltage value, and the deviation output conversion circuit The time obtained at 15 is transmitted to the adjusting mechanism 11 as the adjusting time, and the amount of the insulating varnish applied to the conductor W ₁ is adjusted by controlling the rotation speed of the varnish applying roll 4, and the finishing outer diameter of the enamel wire W ₂ is adjusted. To control.

In this case, it takes a set time for the finishing outer diameter of the enamel wire W ₂ to stabilize after the varnish coating roll 4 responds. The readjustment is prohibited within a predetermined time after adjusting the amount of the insulating varnish applied to the conductor W ₁ by controlling the rotation speed of the roll 4.

Further, in the deviation output generation circuit 14, abnormal values of the upper limit and the lower limit that can be arbitrarily set for the above-mentioned deviation output obtained at one of the output terminals are preset, and the deviation output can be instantaneously set. An error detection output is generated when the value is exceeded. This abnormality detection output is supplied to the alarm device 12 and the adjustment mechanism 11 from the other output end of the deviation output generation circuit 14,
When the deviation output exceeds the upper limit or the lower limit abnormal set value for a moment, an alarm is issued by the alarm device 12 and the adjustment mechanism 11 stops adjusting the amount of the insulating varnish applied to the conducting wire W ₁ . However, the varnish coating roll 4 continues to rotate as it is.

In FIG. 3 showing the output state of the deviation output, the vertical axis shows the finishing outer diameter deviation axis, and the horizontal axis shows the deviation output axis. Deviation output
V _D is zero when the average value of the finished outer diameter measured value within a predetermined time is equal to the standard outer diameter set value, and when it is larger than the standard outer diameter set value, it becomes a positive voltage proportional to the difference, When it is smaller than the finish outer diameter set value, the negative voltage is proportional to the difference.

The upper limit abnormal value V _X and the lower limit abnormal value V _Y can be set to arbitrary levels of the deviation output V _D.

The automatic enameled wire insulation coating device according to the present invention is
Needless to say, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention.

For example, the deviation output that determines the control amount can be the sum of the differential deviation output and the integral deviation output, which reduces the time required for the finishing outer diameter to return to the standard finishing outer diameter set value. And so on.

FIG. 4 shows the output state of the deviation output in this case, and the differential deviation output D _D is temporarily generated according to the change amount only when the average value of the finished outer diameter measurement values changes. ,
The integrated deviation output I _D is proportional to the product of the deviation amount and time.

The total deviation output T _D is the differential deviation output D _D and the integral deviation output
This is the sum of I _D and this total deviation output T _D is the deviation output that determines the control amount.

The setting of the derivative time and the integration time may be performed manually, but there are many factors that cause variations in the finished outer diameter, and the amount of variation is not constant, so it is desirable to use the automatic tuning method. .

[Effects of the Invention] As described above, according to the present invention, the finishing outer diameter of the enamel wire is continuously measured, and the coating amount of the insulating varnish is adjusted according to the difference between the measured value and the standard finishing outer diameter setting value. I'm adjusting
The finished outer diameter of the enameled wire can be made extremely uniform over the entire length, and a precision enameled wire with a uniform finished outer diameter can be obtained.

Also, by eliminating the need for manual adjustment by the operator,
It is possible to greatly rationalize the manufacturing system for enamel submarines.

Furthermore, when a coil component is manufactured using the precision enameled wire obtained by the device according to the present invention, the dimensional accuracy of the coil component is improved, the electrical characteristics are improved, and the coil component can be downsized. Can be achieved. In addition, the number of man-hours for adjusting the coil shape of the coil component can be reduced.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing the entire structure of an embodiment of the present invention, FIG. 2 is a block diagram showing a control system of the embodiment of the present invention, and FIG. 3 is a deviation in the embodiment of the present invention. FIG. 4 is a diagram showing the output state of the output, and FIG. 4 is a diagram showing another example of the output state of the deviation output. W ₀ , W ₁ …… Conductor W ₂ …… Enameled wire 9 …… Outer diameter measuring instrument 10 …… Controller 11 …… Adjustment mechanism

Claims (1)

[Claims] 1. After applying an insulating varnish to a running wire,
In an automatic insulation coating device for enameled wires that is insulated by baking, an outer diameter measuring machine that continuously measures the outer diameter of the running enameled wire after completion of baking and outputs the measured value as an electrical signal , The difference between the average value of the outer diameter measured value obtained by this electric signal within a predetermined time and the standard finish outer diameter set value is taken out as a deviation output, and the amount of insulation varnish applied is adjusted according to the deviation output. , The readjustment of the insulating varnish coating amount is prohibited within the predetermined time after adjusting the insulating varnish coating amount, and when the deviation output exceeds the abnormal set value for a moment, an alarm is generated and the insulating varnish An automatic enameled wire insulation coating device comprising: a control system for stopping the adjustment of the coating amount.