KR101185116B1 - Water pump with dehumidification function - Google Patents

Abstract

PURPOSE: A submerged pump with a dew condensation prevention function is provided to lower the humidity of air because a dehumidification tube absorbs moisture in the air when the submerged pump stops driving so that the generation of dew condensation is prevented. CONSTITUTION: A submerged pump with a dew condensation prevention function comprises a dew condensation prevention unit(140). The dew condensation prevention unit comprises a heater and dehumidification tube. The heater generates heat and the dehumidification tube covers the heater and is filled with a drying agent. The generation of the dew condensation is prevented by heat generated by the heater and the moisture absorption of the dehumidification tube when the submerged pump stops driving.

Description

Submersible pump with dew condensation protection {Water pump with dehumidification function}

The present invention relates to a submersible pump, and in particular, when the submersible pump stops the operation of the submersible pump so as to prevent the insulation of the motor coil from being damaged by condensation generated by the rapid cooling of the high temperature and high humidity inside the submersible pump. It relates to an underwater pump having a condensation prevention function for drying the humid air inside the municipal water pump.

In general, a submersible pump means an electric pump that operates in water, and is divided into various types such as water core pressurization, water supply pressurization, and drainage depending on the purpose and purpose of use.

1 is a sectional view showing the structure of a conventional submersible pump.

The submersible pump rotates the drive shaft 21 by the motor 10 provided therein at the time of power supply, and the impeller 20 rotates by the rotation of the drive shaft 21 to inhale water and then discharge it.

On the other hand, the motor 10 applied to the submersible pump is an induction motor type motor, which includes a stator core 11a fixed to the pump housing 30 and a stator core 11b wound around the stator core 11a. 11) and a rotor 12 disposed at the center of the stator 11 and comprising a rotor core connected to the drive shaft 21.

As such, the motor provided in the submersible pump has a rotating magnetic field formed in the stator when electricity is passed through the coil wound on the stator core, and the rotor rotates by the rotating magnetic field, thereby rotating the impeller.

On the other hand, a lot of heat is generated in the motor when the submersible pump is driven, and high temperature and humid air is formed inside the submersible pump when the submersible pump is driven due to its characteristic of being driven underwater.

On the other hand, when the operation of the submersible pump is stopped, the pump housing in contact with the water becomes cold at a high speed, so that the high temperature and high humidity air formed during the operation of the submersible pump is cooled at a high speed, and condensation of moisture in the air is condensed. Is generated.

As such, corrosion of the internal parts is promoted by condensation generated inside the submersible pump, and in particular, the motor is damaged while the insulation of the motor is destroyed.

The present invention has been made in consideration of the above problems, and an object of the present invention is to dry the high temperature and high humidity air when the operation of the submersible pump is stopped, thereby preventing the condensation of the components caused by dew condensation. In providing a submersible pump provided.

In the submersible pump having the condensation preventing function of the present invention to achieve the object as described above and to solve the conventional drawbacks, a motor comprising a stator and a rotor is installed in the pump housing, and the rotor In the submersible pump for transferring the fluid while the impeller is rotated by the rotation of the drive shaft connected to the water pump, a heater for dissipating heat, and at least one condensation prevention unit composed of a dehumidification tube made of a desiccant and a structure surrounding the heater It characterized in that the generation of condensation is suppressed by the absorption of heat from the heater and moisture absorption of the dehumidification tube when the submersible pump stops driving.

Meanwhile, the dehumidification tube and the heater are spaced apart from each other to form a gap in which air flows between the dehumidification tube and the heater.

The humidity sensor may further include a humidity sensor that detects humidity of the air inside the pump housing and provides electricity to the heater only when the detected humidity of the air is greater than or equal to a predetermined humidity.

Meanwhile, the condensation preventing unit may be installed in the motor compartment so as to be located at the upper or lower portion of the motor, or may be installed in the junction box provided at the upper portion of the motor chamber.

According to the present invention having the above characteristics, the dehumidification tube absorbs moisture in the air when the submersible pump is stopped, thereby reducing the humidity of the air, thereby suppressing the generation of condensation, and together with the heat emitted from the heater, By drying the peripheral parts, it is possible to effectively suppress the generation of condensation, thereby preventing the damage of the parts or the breakdown of the motor.

In addition, the humidity of the air is reduced by using a dehumidification tube that does not require separate energy, and the heater is operated only when the detected humidity of the air is above a preset value while detecting the humidity of the air by using a humidity sensor. By minimizing the amount of energy required to prevent condensation is minimized.

In addition, the gap between the heater and the dehumidification tube can be formed to increase the contact area between the air and the dehumidification tube, and the heat emitted from the heater can be easily diffused into the air to more effectively suppress condensation. It can be effective.

1 is a cross-sectional view showing the structure of a conventional submersible pump,
2 is a cross-sectional view showing the structure of an underwater pump according to a preferred embodiment of the present invention;
Figure 3 is a perspective view showing the structure of the condensation preventing unit according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 is a cross-sectional view showing the structure of the submersible pump according to a preferred embodiment of the present invention, Figure 3 is a perspective view showing the structure of the condensation preventing unit according to the present invention.

The water pump according to the present invention removes moisture from the air by using a desiccant at the time of stopping the operation of the water pump to prevent damage to the components due to condensation caused by the high temperature and high humidity air formed during the operation of the water pump and In addition, by using the heater 141 to dry the air and the surrounding components to prevent damage to the components by condensation, it is configured to include one or more condensation preventing unit 140.

Meanwhile, the submersible pump according to the present invention, like the well-known submersible pump, has a motor 110 including a stator 111 and a rotor 112 installed inside the pump housing 130 and extends from the rotor 112. Impeller 120 is installed at the end of the drive shaft 121 is to be configured, the pump housing 130 is a motor chamber 131 in which the motor 110 is built and a pumping chamber in which the impeller 120 is built ( 132 and the junction box 133 provided in the upper portion of the motor chamber 131 to provide a space for the cable connection.

Since the basic structure of the submersible pump is the same as the conventional submersible pump, a more detailed description of the basic structure of the submersible pump will be omitted.

The condensation prevention unit 140 is composed of a heater 141 and the dehumidification tube 142, the motor to dry the high temperature and high humidity air formed in the process of driving the underwater motor 110 when the underwater motor 110 is stopped. The seal 131 or the junction box 133 is installed.

The heater 141 is provided with electricity to dissipate heat. As the heater 141, a known space heater, a rod-type heater, or the like may be used, and heat emitted from the heater 141 may suppress the generation of condensation by drying air and peripheral components of the motor chamber 131.

The dehumidifying tube 142 lowers the humidity of the air in the motor chamber 131 by absorbing moisture in the air, and may be made of a solid adsorption drying agent such as silica gel, alumina gel, activated alumina, zeolite, and the like. It is formed to have an enclosing structure.

Meanwhile, the above-mentioned solid adsorption drying agent absorbs or absorbs moisture from ambient air at a low temperature as is well known, and thus absorbs moisture in the air when the temperature of the motor chamber 131 is lowered due to the stop of operation of the submersible pump. Regeneration is performed by the heat dissipated from the stator 111 and the rotor 112 or the heat dissipated from the heater 141 due to the driving of the submersible pump.

Condensation prevention unit 140 composed of the heater 141 and the dehumidification tube 142 as described above evenly dissipates heat into the interior of the motor chamber 131 or the junction box 133, and effectively absorbs and removes ambient moisture. It may be configured in a circular ring-structure surrounding the drive shaft 121 to enable.

Meanwhile, when the condensation preventing unit 140 is installed in the motor chamber 131, the condensation preventing unit 140 may be installed to be positioned above or below the motor 110, and when the condensation preventing unit 140 is installed in the junction box 133. In order to connect the cables, air flows through the holes 134 provided between the motor chamber 131 and the junction box 133 to dry and heat the air. 2 illustrates a structure installed in the motor chamber 131 such that the condensation preventing unit 140 is positioned above the motor 110.

On the other hand, while increasing the contact area between the dehumidification tube 142 and the air to facilitate the absorption of moisture, the heat emitted from the heater 141 and the outside surface of the heater 141 and the dehumidification tube in order to smoothly spread into the air. The inner surface of the 142 is spaced apart from each other is configured to form a gap (G) for the flow of air between the heater 141 and the dehumidification tube 142.

On the other hand, the heater 141 is supplied with electricity to operate, even when the submersible pump is not consumed energy is made. Therefore, it is desirable to realize energy saving by minimizing driving of the heater 141.

To this end, a humidity sensor 150 for detecting air humidity in the motor chamber 131 is installed in the motor chamber 131, and the heater 141 is provided only when the humidity of the air detected by the humidity sensor 150 is equal to or greater than a preset humidity. Is configured to provide electricity.

According to this configuration, when the driving of the submersible pump is stopped, the dehumidification tube 142 first absorbs moisture in the air to lower the air humidity, and the air humidity in the motor chamber 131 absorbs the dehumidification tube 142. The heater 141 operates only when the dehumidification tube 142 alone does not exhibit sufficient humidity reduction effect.

The operation and effect of the submersible pump of the present invention having the condensation preventing unit 140 as described above will be described.

Due to the characteristics of the submersible pump installed to be located in the water, the air in the pump housing 130 maintains high humidity, the high temperature and high humidity air in the motor chamber 131 by the heat generated in the process of driving the submersible pump Is formed.

Meanwhile, when the driving of the submersible pump is stopped, the high temperature and high humidity air is cooled at a high speed together with the pump housing 130 which is located in the water and is cooled at a high speed. Was generated.

However, in the case of the water pump according to the present invention, when the temperature of the motor chamber 131 is lowered while the driving of the water pump is stopped, the dehumidification tube 142 absorbs moisture in the air to lower the humidity of the air, condensation It is possible to suppress the occurrence of, the dehumidification tube 142 is to perform the required function without the use of energy. Meanwhile, the dehumidification tube 142 absorbing moisture is regenerated by heat generated from the stator 111 and the rotor 112 and heat generated from the heater 141 when the submersible pump is driven.

The dehumidification tube 142 alone may cause a case where the air humidity is not sufficiently lowered. In this case, since the air humidity detected from the humidity sensor 150 installed in the motor chamber 131 exhibits a predetermined humidity value or more, the heater 141 is driven to dry the air and surrounding components to suppress the generation of condensation. .

On the other hand, the air in the motor chamber 131 evenly contacts the inside and outside surfaces of the dehumidification tube 142 through the gap G formed between the heater 141 and the dehumidification tube 142, thereby increasing the absorption area of moisture to remove moisture. The effect can be increased, and the heat dissipated by the operation of the heater 141 is spread out into the air through the air flowing through the gap (G) has the advantage of promoting the drying of the moisture.

In addition, the condensation prevention unit 140 according to the present invention heaters 141 only when the dehumidification tube 142, which does not require the use of energy, first adjusts the air humidity and does not sufficiently reduce the air humidity with the dehumidification tube 142 alone. By driving () has the advantage of minimizing the energy consumed by the condensation prevention unit 140.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
110: motor 111: stator
(112): rotor 120: impeller
130: pump housing 140: condensation prevention unit
(141): heater (142): dehumidification tube
150: humidity sensor

Claims (4)

A motor 110 consisting of a stator 111 and a rotor 112 is installed inside the pump housing 130, and the impeller 120 rotates by rotating the drive shaft connected to the rotor 112 to generate fluid. In the submersible pump to transport,
Stop the driving of the submersible pump, including a heater 141 that receives electricity to dissipate heat, and one or more condensation preventing unit 140 composed of a dehumidifying tube 142 made of a desiccant and a structure surrounding the heater 141. Submersible pump having a condensation prevention function, characterized in that the generation of condensation by suppressing the heat emitted from the heater 141 and the moisture absorption of the dehumidification tube 142. The method according to claim 1,
The dehumidification tube 142 and the heater 141 are spaced apart from each other, the water pump having a condensation prevention function, characterized in that the gap (G) is formed between the dehumidification tube 142 and the heater 141 flows. The method according to claim 1,
It further comprises a humidity sensor 150 for detecting the humidity of the air inside the pump housing 130, the electricity is provided to the heater 141 only when the detected humidity of the air is more than a predetermined humidity. Submersible pump with condensation prevention function. The method according to claim 1,
The condensation preventing unit 140 is installed in the motor chamber 131 so as to be located at the upper or lower portion of the motor, or the condensation preventing function characterized in that it is installed in the junction box 133 provided on the upper portion of the motor chamber 131. Submersible pump equipped.

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