KR101111916B1 - Motor for a constant air flow - Google Patents

Abstract

The present invention relates to a forward wind motor for increasing the number of revolutions of the motor when the load occurs on the front surface to maintain a constant amount of air discharged to the outside, the fixed piece consisting of a plurality of pieces are formed at a predetermined height inside In a forward wind motor having a winding groove formed so that the coil can be wound in, the first coil 210, the second coil 220 and the third coil 230 is wound in a plurality of winding grooves 110 therein Stator 100 is characterized in that it is provided.

Description

Forward Wind Motor {Motor for a constant air flow}

The present invention relates to a forward wind direction motor as a use invention of Utility Model Registration No. 20-0389776.

More specifically, the present invention relates to a forward wind motor for increasing the number of rotations of the motor when the load occurs in the front to maintain a constant amount of air discharged to the outside.

The proportion of high-rise apartments in residential buildings in Korea accounts for about 30% of the total housing, and the trend of increasing air density due to pollution problems such as energy saving and noise is a very important issue in high-rise buildings.

In particular, in the case of multi-unit houses that are recently constructed, high-rise buildings and forced ventilation using exhaust ducts predominate rather than natural ventilation, so the performance of the exhaust fan is becoming more important than anything else. Due to the influence of static pressure loss during exhaust and wind pressure at high floors, there is a problem that the polluted air is not properly discharged, and a high performance fan is required for reliable exhaust.

One of the embodiments applied to solve the above problems is a constant air volume ventilation fan.

The type of ventilation fan is classified according to the type of fan, the object to which the ventilation device is applied, the blowing method, the applied static pressure and the installation type.In the case of the applied static pressure, it is classified into A and B class according to the highest static pressure to suit various required static pressures. It was. Class A and B are classified according to the highest static pressure applied, and do not classify performance. In addition, it is classified according to the installation form to distinguish the ventilation fan that can be variously applied.

As described above, the constant air volume ventilation fan must exhaust a constant air volume at all times even when the static pressure changes within a specific static pressure to ensure stable exhaust.

However, when a part of the front surface of the constant airflow ventilation fan is partially blocked, there is a problem in that the wing portion of the airflow fan is affected by the airflow volume generated from the airflow ventilation fan, so that a constant airflow cannot be generated.

The present invention is to solve the above problems, the present invention is to provide a positive wind direction motor to maintain a constant amount of air discharged to the outside by increasing the number of rotation of the motor when a load occurs in the front have.

That is, the present invention allows the number of windings of the plurality of coils wound in some of the winding grooves of the plurality of winding grooves to be wound differently, and when the load is formed on the front of the fixed wind fan, the coil wound with the number of windings corresponding to the load The rotational speed of the constant air flow rate motor is made to be different, so that the rotation of the rotor rotated inside the stator is rotated differently according to the situation of the front surface, and the torque generated according to the rotation is changed, which is discharged to the front of the constant air flow rate fan. Ensure that the air flow is always constant.

One embodiment of the present invention proposed to solve the above technical problem, to solve the above problems, the present invention for achieving the above object is a predetermined piece consisting of a plurality of pieces In a forward wind motor is formed to the height of the winding groove is formed so that the coil is wound on the inside, the first coil 210, the second coil 220 and the third coil in the plurality of winding grooves 110 on the inside Characterized in that the stator 100 is wound 230 is provided.

In addition, the first coil 210 is characterized in that it is sequentially installed in the groove number 1 ⇒ 8 ⇒ 16 ⇒ 9 times.

In addition, the second coil 220 is characterized in that it is sequentially installed in the third groove ⇒ 13 groove ⇒ the second groove ⇒ 11 groove,

In addition, the second coil 220 is characterized in that sequentially installed in the groove 5 times 10 times ⇒ 4 ⇒ 11 times ⇒ 2 times ⇒ 13 times ⇒ 3 times ⇒ 12 times.

In addition, the third coil 230 is characterized in that it is sequentially installed in the 15 groove ⇒ 4 groove ⇒ 14 groove ⇒ 5 groove ⇒ 12 groove ⇒ 7 groove ⇒ 13 groove ⇒ 6 groove.

In addition, the third coil 230 is characterized in that it is sequentially installed in the 15th groove ⇒ 6th groove ⇒ 14th groove ⇒ 7th groove.

The number of turns of the first coil 210, the second coil 230, and the third coil 230 may be different from each other.

The present invention allows the number of windings of the plurality of coils wound in some of the winding grooves of the plurality of winding grooves to be differently wound, and when a load is formed on the front of the fixed wind fan, the coil is wound with the number of windings corresponding to the load. The amount of air discharged to the front of the constant air flow rate fan is made so that the rotational speed of the air flow rate motor is different so that the rotation of the rotor rotated inside the stator rotates differently according to the situation of the front surface, and the torque generated according to the rotation is changed. This has the effect of keeping it constant at all times.

1 is a view for explaining the order in which the coil is wound on the stator of the constant wind amount motor according to the present invention.
2 is another embodiment of FIG.

Hereinafter, the winding circuit for the motor according to the present invention will be described.

Hereinafter, described in detail with reference to the drawings for explaining the order of winding the coil in the stator of the constant wind amount motor according to the present invention.

( Example  One)

1 is a view for explaining the order in which the coil is wound on the stator of the constant wind amount motor according to the present invention.

As shown in FIG. 1, the constant wind amount motor according to the present invention includes a stator having a plurality of winding grooves 11 in which the first coil 210, the second coil 220, and the third coil 230 are wound. 100 is provided.

In the winding groove 110 formed inside the stator 100, a first coil 210, a second coil 220, and a third coil 230 are wound. In this case, the first coil 210 and the second coil 220 are wound. The number of turns of the coil 220 and the third coil 230 is different from each other, and an AC power is normally applied to the first coil 210, the second coil 220, and the third coil 230.

Insulation paper is installed in each of the winding grooves 110 formed in the stator 100, and the winding grooves 110 in which the insulating paper (not shown) is installed include the first coil 210, the second coil 220, and the third coil ( 230 is wound sequentially.

At this time, the first coil 210 is drawn and wound into the first groove of the winding groove 110 formed in the stator 100, the first coil 210 is inserted into the eighth groove again and then wound into the 16th groove and wound, Finally, the winding of the first coil 210 is completed by being wound into the 9th groove.

In addition, the second coil 220 is introduced into the third winding of the winding groove 110 formed in the stator 100, is wound in the second groove after being wound in the 10th groove, and finally, the second coil 220 is wound in the 11th groove. Winding is completed.

Meanwhile, the third coil 230 is inserted into and wound into the 15th groove of the winding groove 110 formed in the stator 100, and is sequentially inserted into the 4th groove and then wound into the 14th groove, and is sequentially wound into the 5th groove. It is drawn and wound into, and is sequentially inserted into the 12th groove through the 5th groove, and is wound again into the 7th groove, and is wound into the 13th groove through the 7th groove, and then is finally drawn into the 6th groove. The winding of the third coil 230 is completed.

At this time, one side of the first coil 210, the second coil 220 and the third coil 230 is formed to have a predetermined length so that the terminals (not shown) can be coupled to the start and end portions. .

The first coil 210, the second coil 220, the second coil 220, and the third coil 230 in the winding groove 110 formed along the inner circumference of the stator 100. On one side of the coil 220 and the third coil 230, a motor case (not shown) is provided on the upper and lower portions of the stator 100 in a state where terminals are installed and fixed by bolts.

Referring to the operation of the forward motor according to the present invention configured as described above are as follows.

The stator 100 is laminated and formed to have a predetermined height by a fixing piece formed of a plurality of pieces, and the winding grooves 110 are formed in each of the laminated fixing pieces, and the plurality of fixing pieces are laminated. The first coil 210, the second coil 220, and the third coil 230 are wound.

In the state where the stator 100 is provided, the worker first installs insulating paper so that the first coil 210, the second coil 220, and the third coil 230 wound in the winding groove 110 may be insulated.

In the state in which the insulating paper is installed in the winding groove 110 inside the stator 100, the worker may predetermined the winding of the first coil 210, the second coil 220, and the third coil 230 on the stator 100. The first coil 210 wound by the number of times is sequentially wound to the first groove ⇒ 8 ⇒ 16 ⇒ 9 groove.

In the state in which the winding of the first coil 210 is completed, the worker winds the second coil 220 again, in which case, the winding is sequentially performed on the third groove ⇒ the 13th groove ⇒ the second groove ⇒ the 11th groove.

Finally, in the state in which the winding of the second coil 220 is completed, the worker winds the third coil 230 again, in this case, the 15th groove ⇒ the 4th groove ⇒ the 14th groove ⇒ the 5th groove ⇒ the 12th groove ⇒ the 7th groove ⇒ the 13th groove ⇒ Allow winding to slot 6 sequentially.

( Example  2)

2 is another embodiment of FIG.

As shown in FIG. 2, the constant wind amount motor according to the present invention includes a stator having a plurality of winding grooves 11 in which the first coil 210, the second coil 220, and the third coil 230 are wound. 100 is provided.

In the winding groove 110 formed inside the stator 100, a first coil 210, a second coil 220, and a third coil 230 are wound. In this case, the first coil 210 and the second coil 220 are wound. The number of turns of the coil 220 and the third coil 230 is different from each other, and an AC power is normally applied to the first coil 210, the second coil 220, and the third coil 230.

Insulation paper is installed in each of the winding grooves 110 formed in the stator 100, and the winding grooves 110 in which the insulating paper (not shown) is installed include the first coil 210, the second coil 220, and the third coil ( 230 is wound sequentially.

At this time, the first coil 210 is drawn and wound into the first groove of the winding groove 110 formed in the stator 100, the first coil 210 is inserted into the eighth groove again and then wound into the 16th groove and wound, Finally, the winding of the first coil 210 is completed by being wound into the 9th groove.

And the second coil 220 is drawn in the fifth winding of the winding groove 110 formed in the stator 100, wound in groove 10 and then wound in groove 4, wound in groove 11, wound in groove 2, Winding in the 13th groove, winding in the 3rd groove, and winding in the 12th groove, the winding of the second coil 220 is completed.

Meanwhile, the third coil 230 is inserted into and wound into the 15th groove of the winding groove 110 formed in the stator 100, and is sequentially inserted into the 6th groove, and then wound into the 14th groove, and is sequentially wound into the 7th groove. The winding of the third coil 230 is completed by being drawn in and wound.

At this time, one side of the first coil 210, the second coil 220 and the third coil 230 is formed to have a predetermined length so that the terminals (not shown) can be coupled to the start and end portions. .

The first coil 210, the second coil 220, the second coil 220, and the third coil 230 in the winding groove 110 formed along the inner circumference of the stator 100. On one side of the coil 220 and the third coil 230, a motor case (not shown) is provided on the upper and lower portions of the stator 100 in a state where terminals are installed and fixed by bolts.

Referring to the operation of the forward motor according to the present invention configured as described above are as follows.

The stator 100 is laminated and formed to have a predetermined height by a fixing piece formed of a plurality of pieces, and the winding grooves 110 are formed in each of the laminated fixing pieces, and the plurality of fixing pieces are laminated. The first coil 210, the second coil 220, and the third coil 230 are wound.

In the state where the stator 100 is provided, the worker first installs insulating paper so that the first coil 210, the second coil 220, and the third coil 230 wound in the winding groove 110 may be insulated.

In the state in which the insulating paper is installed in the winding groove 110 inside the stator 100, the worker may predetermined the winding of the first coil 210, the second coil 220, and the third coil 230 on the stator 100. The first coil 210 wound by the number of times is sequentially wound to the first groove ⇒ 8 ⇒ 16 ⇒ 9 groove.

In the state in which the winding of the first coil 210 is completed, the operator winds the second coil 220 again, in this case, groove 5 ⇒ groove 10 ⇒ groove 4 ⇒ groove 11 ⇒ groove 2 ⇒ groove 13 ⇒ groove 3 ⇒ groove 12 To be wound sequentially.

Finally, in the state in which the winding of the second coil 220 is completed, the worker winds the third coil 230 again, in which case, the 15th groove ⇒ the 6th groove ⇒ the 14th groove ⇒ the 7th groove are sequentially wound.

As mentioned in the first and second embodiments, the stator 100 may be wound in a state in which the first coil 210, the second coil 220, and the third coil 230 are wound in the groove of the stator 100. In a state in which the first coil 210, the second coil 220, and the third coil 230 are formed long to one side, the operator may operate the first coil 210, the second coil 220, and the third coil 230. ), And the terminal is installed so that power is applied.

When power is applied to the first coil 210 or the second coil 220 or the third coil 230 installed in the winding groove 110 of the stator 100, the stator is magnetized alternately to the N pole and the S pole.

At this time, a rotor (not shown) installed to rotate inside the stator 100 continuously rotates, which is the first coil 210 or the second coil 220 or the third coil 230 wound on the stator 100. The rotor rotates inside the stator 100 due to the change of the polarization of magnetizing alternately to the north pole and the south pole.

The same force is applied to the first coil 210 or the second coil 220 or the third coil 230 wound on the stator 100 while the N pole and the S pole are alternately wound in the coil wound on the stator 100. Since the rotor is applied to the rotor, the rotor rotates stably without oscillating left and right.

As shown in FIG. 1, the number of turns of the first coil 210, the second coil 220, and the third coil 230 is different from each other, and the forward wind motor according to the present invention is a forward wind fan (not shown). If an obstacle that closes a part is located in front of the), the wind speed generated by the forward fan hits the obstacle and is not discharged to the outside. Will receive. When the amount of air discharged through the forward wind fan is not discharged and is fed back, it selects another coil with a larger number of turns than the currently selected coil to increase the number of revolutions of the forward wind motor so that the amount of air discharged through the obstacle is always constant.

100: stator
110: winding groove
210: first coil
220: second coil
230: third coil

Claims (7)

delete A fixing piece consisting of a plurality of pieces is formed so that a plurality of winding grooves are formed so that the coil can be wound inside, and the first coil 210, the second coil 220 and the third coil inside the winding groove 110. In the forward wind motor having a stator 100 is wound around the coil 230,
The first coil 210 is a forward wind direction motor, characterized in that sequentially installed in the groove number 1 ⇒ 8 ⇒ 16 ⇒ 9.
A fixing piece consisting of a plurality of pieces is formed so that a plurality of winding grooves are formed so that the coil can be wound inside, and the first coil 210, the second coil 220 and the third coil inside the winding groove 110. In the forward wind motor having a stator 100 is wound around the coil 230,
The second coil 220 is a forward wind motor, characterized in that sequentially installed in the 3 groove ⇒ 10 groove ⇒ the 2 groove ⇒ 11 groove.
A fixing piece consisting of a plurality of pieces is formed so that a plurality of winding grooves are formed so that the coil can be wound inside, and the first coil 210, the second coil 220 and the third coil inside the winding groove 110. In the forward wind motor having a stator 100 is wound around the coil 230,
The second coil 220 is a forward wind direction motor, characterized in that sequentially installed in grooves 5 ⇒ 10 ⇒ 4 ⇒ 11 ⇒ 2 ⇒ 13 ⇒ 3 ⇒ 12 grooves.
A fixing piece consisting of a plurality of pieces is formed so that a plurality of winding grooves are formed so that the coil can be wound inside, and the first coil 210, the second coil 220 and the third coil inside the winding groove 110. In the forward wind motor having a stator 100 is wound around the coil 230,
The third coil 230 is a forward wind direction motor, characterized in that sequentially installed in the 15th groove ⇒ 4th groove ⇒ 14th groove ⇒ 5th groove ⇒ 12th groove ⇒ 7th groove ⇒ 13th groove ⇒ 6th groove.
A fixing piece consisting of a plurality of pieces is formed so that a plurality of winding grooves are formed so that the coil can be wound inside, and the first coil 210, the second coil 220 and the third coil inside the winding groove 110. In the forward wind motor having a stator 100 is wound around the coil 230,
The third coil 230 is a forward wind direction motor, characterized in that sequentially installed in the 15th groove ⇒ 6th groove ⇒ 14th groove ⇒ 7th groove.
A fixing piece consisting of a plurality of pieces is formed so that a plurality of winding grooves are formed so that the coil can be wound inside, and the first coil 210, the second coil 220 and the third inside the winding groove 110. In the forward wind motor having a stator 100 is wound around the coil 230,
Forward winding motor, characterized in that the number of turns of the first coil 210, the second coil 230 and the third coil 230 are different.

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