KR200333156Y1 - Injection device for dc motor - Google Patents

Abstract

The present invention relates to a direct-current motor injector for spraying clean air to the large motor for rolling to remove foreign matter accumulated between the commutator.

The present invention is a DC motor injector for removing dust between the commutator and the brush of the DC motor and foreign matter accumulated in the commutator and the brush, the circumferential direction of the DC motor so that air is injected in substantially the same direction as the commutator surface of the DC motor Air nozzles are installed in a plurality at regular intervals; A duct formed in the lower part of the commutator and the brush so as to discharge dust and foreign matter accumulated in the lower part of the commutator and the brush of the DC motor; And a temperature sensor installed adjacent to the commutator and the brush of the DC motor and measuring a temperature of the DC motor, wherein the air supplied to the air nozzle is at a temperature substantially equal to the temperature measured by the temperature sensor. It provides a direct-current motor injector characterized in that it passes through a heater for heating.

Description

DC motor injection device {INJECTION DEVICE FOR DC MOTOR}

The present invention relates to a DC motor injector, and more particularly, to a DC motor injector for injecting clean air to a large motor for rolling to remove foreign matter accumulated between the commutator.

DC motors are easily used for speed adjustment and have excellent adaptability to loads, so they are widely used in continuous lines such as rolling processes. Since such a DC motor is large in size and heavy in load, periodic maintenance checks are essential to continue long-term reliable operation.

Figure 1 shows a conventional injection device of a large motor for rolling. When the DC motor is used for a long time, foreign matters such as dust are generated due to friction between the commutator surface 13 and the brush 16, and a large amount of carbon powder generated in the sliding part is separated from the commutator section 14 and Sticking and leaking inside the brush holder 12 may cause a decrease in insulation.

In addition, when such a phenomenon occurs, the rectification action is not performed smoothly due to the imbalance of the current supply, and the current occurs intensively in one place, which causes abnormal wear on the commutator surface. Therefore, the DC motor needs to periodically remove foreign substances such as dust.

As shown in FIG. 1, in order to remove the internal dust of the brush holder 12 of the motor, an operator positions the support 11 air injector 17 installed on the rear side of the motor, and the outside of the injector 17. The air hose was connected to the air supply by spraying the nozzle 19 to remove dust.

However, such a method has a problem that an accident of a facility is caused by a hose or the like being wound around the rotating body, and a current that flows in a motor is transmitted to a worker by a hose, thereby causing a worker to have an electric shock.

In addition, when the spraying operation to the motor in the manner described above, there is a problem that the moisture component present in the supplied air penetrates the motor, thereby reducing the life of the motor. In addition, the pressure level of the supplied air can not be adjusted, which causes the motor to break.

The present invention is to solve the problems as described above, to remove the moisture in the air injected into the DC motor and to control the pressure of the supplied air to extend the life of the motor and to prevent damage to the motor .

In addition, the present invention is to provide an injector that can automatically operate so that the operator can perform the injection operation of the motor without being close to the motor, and can be operated at an appropriate temperature according to the temperature change, and can be operated at an appropriate time. The purpose.

1 is a view showing a conventional DC motor injection operation.

Figure 2 is a state diagram of the installation of the DC motor injection device according to the present invention.

3 is a view showing the configuration of the air supply unit of the DC motor injection device according to the present invention.

4 is a view showing the installation position of the air nozzle of the DC motor injection device according to the present invention.

5 is a view showing an injection state of the air nozzle of the DC motor injection device according to the present invention.

Explanation of symbols on the main parts of the drawings

11: support 12: brush holder

13: Commutator 14: Commutator partial

16: brush 17: sprayer

20: duct 21: filter

22: induspan motor 31: solenoid valve

41: air nozzle 42: air supply piping

78: heater 80: air tank

As a construction means for achieving the above object, the present invention is a direct-current motor injection device for removing the dust between the commutator and brush of the DC motor and the foreign matter accumulated in the commutator and the brush, substantially the commutator surface of the DC motor Air nozzles are installed in a plurality at regular intervals in the circumferential direction of the DC motor so that air is injected in the same direction; A duct formed in the lower part of the commutator and the brush so as to discharge dust and foreign matter accumulated in the lower part of the commutator and the brush of the DC motor; And a temperature sensor installed adjacent to the commutator and the brush of the DC motor and measuring a temperature of the DC motor, wherein the air supplied to the air nozzle is at a temperature substantially equal to the temperature measured by the temperature sensor. It provides a direct-current motor injector characterized in that it passes through a heater for heating.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. Figure 2 is a state diagram of the installation of the DC motor injection device according to the present invention, Figure 3 is a view showing the configuration of the air supply unit of the DC motor injection device according to the present invention. 4 is a view showing the installation position of the air nozzle of the DC motor injection device according to the present invention, Figure 5 is a view showing the injection state of the air nozzle of the DC motor injection device according to the present invention.

The injection device of the present invention includes an air nozzle 41 mounted adjacent to the commutator 13 and the brush 12 installation portion of the DC motor (1). The air nozzle 41 of the present invention is installed so that air can be injected in substantially the same direction as the commutator surface 13 of the DC motor. In addition, the air nozzles are arranged spaced apart at regular intervals in the circumferential direction of the DC motor (1), such a configuration is also shown in FIG. The air nozzle 41 receives air through the air supply pipe 42 and injects air at a high speed like a general nozzle.

This air nozzle is mounted to be fixed to the motor, unlike the prior art, preferably may be formed detachably so that the position of the air nozzle can be easily changed.

On the other hand, Figure 3 shows a path for supplying air to the air nozzle 41 according to the present invention. First, an air tank 81 is provided in which air is stored or intakes outside air. The air of the air tank 81 is input to the heater 78 for raising or maintaining the temperature of the air to a predetermined temperature. The heater 78 has an input valve 77 and an output valve 76, and one side is provided with a drain port 79 for draining air.

Heater 78 will heat the air to the same temperature as the operating temperature of the motor, which provides the effect of always maintaining the optimum operating temperature of the motor (approximately 60 degrees). That is, when the injection of the motor air is lower than the motor operating temperature is input, the temperature of the entire motor is lowered, the efficiency of the motor is reduced. Therefore, in the related art, the operation of raising the temperature by idling the motor after the injection operation was additionally necessary, but according to the present invention, the temperature of the injected air is almost the same as the working temperature of the motor, so that no additional operation such as idling of the motor is required. . This increases the efficiency of the motor.

The heater 78 heats air while maintaining an appropriate temperature according to the temperature of the motor obtained from the temperature sensor 50 of FIG. The temperature sensor 50 measures the temperature at the time of operation of the motor and displays it numerically or sends it to the heater.

In addition, the air supplied to the air nozzle 41 passes through the air compressor 80 for maintaining a constant pressure in addition to the heater. The air compressor 80 pressurizes all or part of the supplied air to adjust the pressure of the entire supply air to a desired pressure. The pressure adjusted in this way can be confirmed through the pressure gauge (75).

In addition, the air supplied to the air nozzle 41 passes through a filter 74 for removing moisture in the air. A plurality of filters for removing water are installed in the air supply pipe 90, and through the filter, moisture in the air and impurities contained therein are removed. Therefore, the air injected into the motor contains a smaller amount of water than in the prior art, thereby preventing corrosion of the motor due to the residual amount of water after the motor spraying operation, improving the life of the motor, It can prevent foreign matter from sticking.

Again, the injector according to the present invention as shown in Figure 2 is a duct 20 for removing the foreign matter loaded in order to prevent the air injected by the air nozzle 41 blows the dust and foreign matter of the motor to accumulate in the lower part of the motor ). The duct 20 is formed in the lower part of the commutator 13 and the brush holder 12, and the filter 21 having a mesh formed in the middle of the input portion and the duct is mounted. In addition, a part of the duct 20 is connected to the induction fan motor 22. The induspan motor 22 discharges the air in the duct to the outside, and thus, the foreign matter accumulated in the lower portion of the motor 1 can be discharged to the outside.

4 is a view showing the arrangement of the air nozzle 41 according to the present invention. As shown in FIG. 4, the air nozzles 41 are arranged radially about the axis 7 of the DC motor, and the injection holes 53 are formed between the arms 17 to which the brushes are attached. An air nozzle 41 is arranged in the injection port 53.

5 is a view showing an injection state of the air nozzle 41 according to the present invention. The air nozzle 41 injects air to the commutator surface 13 as shown in FIG. 5, thereby removing dust and foreign matter accumulated between the brush 16 and the commutator surface 13 or on the commutator surfaces. You can do it.

In Fig. 3, a solenoid valve 31 is provided on the outlet side of the air supply pipe 90. The solenoid valve 31 controls the injector according to the present invention to operate at predetermined time intervals. That is, it functions to block and open the air supplied to the air nozzles at regular time intervals. When the solenoid valve 31 is operated to supply air, the induspan motor 22 under the motor 1 is also operated to be sprayed so that foreign substances removed from the motor can be discharged to the outside.

According to the present invention as described above it is possible to adjust the pressure of the air supplied to remove the moisture in the air injected into the DC motor, it is possible to extend the life of the motor and to prevent damage to the motor.

In addition, according to the present invention, the operator can automatically perform the spraying operation of the motor without being close to the motor, and the air can be injected at the proper temperature according to the temperature change, thereby improving the efficiency of the motor and automatically at the appropriate time. It can be operated, which increases the efficiency of the work.

While the present invention has been shown and described with respect to specific embodiments, it should be understood that the present invention may be variously modified and changed without departing from the spirit or the scope of the present invention provided by the following utility model registration claims. It will be appreciated that those skilled in the art can easily know.

Claims (4)

In the DC motor injector for removing dust between the commutator and brush of the DC motor and foreign matter accumulated in the commutator and brush, A plurality of air nozzles installed at regular intervals in a circumferential direction of the DC motor so that air is injected in substantially the same direction as the commutator surface of the DC motor; A duct formed in the lower part of the commutator and the brush so as to discharge dust and foreign matter accumulated in the lower part of the commutator and the brush of the DC motor; And And a temperature sensor installed adjacent to the commutator and the brush of the DC motor and measuring the temperature of the DC motor. The air supplied to the air nozzle, the DC motor injection device, characterized in that passes through a heater for heating to a temperature substantially the same as the temperature measured by the temperature sensor. The DC motor injection of claim 1, wherein a part of the duct is connected to an endless fan motor, and dust and foreign matter accumulated in the upper part of the duct by driving the endless fan motor are sucked into the duct and discharged to the outside. Device. The DC motor injection apparatus of claim 1, wherein the air supplied to the air nozzle additionally passes through an air compressor for supplying air at a set pressure. The DC motor injection device of claim 1, wherein the air supplied to the air nozzle passes through a filter device for removing moisture from the air.