KR20150085241A - Sirculation pump for a hot-water - Google Patents

Abstract

The present invention provides a circulation pump for hot water capable of reducing the noise of a motor occurring when an impeller is driven. The present invention comprises: a heating tank having an internal heating space to store hot water; an impeller housing installed in the bottom surface of the heating tank on an external bottom surface and having an internal space for receiving the hot water stored in the heating tank through a through-hole of the heating tank and an outlet extended from one side; an impeller installed in the internal space of the impeller housing; and a submerged pump installed in the bottom of the impeller housing and having a motor housing in which a shaft driven by power received from the outside and rotating the impeller at high speeds is installed. The bottom of the impeller housing and the top of the motor housing are met each other in an opened state to introduce some of hot water supplied to the internal space of the impeller housing into the internal space of the motor housing. An outlet for discharging the hot water introduced into the internal space of the motor housing is formed in one side of the motor housing.

Description

[0001] The present invention relates to a hot water circulation pump,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water circulation pump, and more particularly, to a hot water circulation pump capable of reducing a noise of a motor during driving of an impeller.

As is well known, an underwater motor comprises a rotor rotated by a current applied to a stator, a shaft installed on the rotor, and an impeller coupled to the shaft, thereby forcibly supplying water to each use site. Are widely used.

On the other hand, a hot water circulation pump is a typical device in which the underwater motor is installed. The hot water circulation pump can supply the hot water in the heating tank for each use place through the impeller rotated by the power of the underwater motor. The general structure of the hot water circulation pump will be described in more detail with reference to FIG. 1 do.

The hot water circulation pump includes a heating tank 110 for heating hot water stored in the chamber 112 and an underwater motor 120 for supplying hot water to the heating tank 110.

The underwater motor 120 is installed on the inner bottom surface of the heating tank 110 and includes a cover body 122 through which heated hot water is introduced and a cover body 122 installed between the cover body 122 and the bottom surface of the impeller And a motor housing having a shaft 128 for rotating the impeller 126 and the impeller 126 under the impeller housing 124. The impeller housing 124 includes a housing 126,

Meanwhile, in the hot water circulation pump, the hot water stored in the chamber of the heating tank is discharged into the impeller housing through the outlet of the impeller housing while the hot water stored in the chamber of the heating tank flows into the impeller housing. At this time, The water filled in the inner space of the motor housing acts as a lubricant in the process of rotating the shaft at a high speed through the space between the motor housing and the shaft and thereby the friction between the shaft and the motor housing It is possible to reduce the generation of noise caused by the noise.

However, according to the prior art, water flowing into the inner space of the motor housing does not escape to the outside, and the stored state is maintained. Therefore, when the impeller rotates at a high speed for a certain period of time, The impeller sucked into the impeller housing by the rotating force is generated. As a result, the internal space of the motor housing is made empty and the lubricant can not be performed during the high-speed rotation of the shaft.

Document 1: Registered Utility Model Registration No. 20-0422010 of the Korean Intellectual Property Office

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a hot-water circulation pump capable of preventing generation of noise due to friction between a shaft and a motor housing in a process of driving an impeller.

According to an aspect of the present invention, there is provided a hot water circulation pump including: a heating tank having a heating space for storing hot water therein; a heating tank installed on a bottom surface of the heating tank, An impeller housing in which a space for receiving hot water stored in the heating tank is formed through a through hole of a tank and a discharge port is formed at one side thereof, an impeller installed in an inner space of the impeller housing, And an underwater motor including a motor housing having a shaft for driving the impeller to rotate at a high speed, wherein the lower end of the impeller housing and the upper end of the motor housing are opposed to each other And the hot water supplied to the inner space of the impeller housing And that part is introduced into the motor housing interior space, in a side of the motor housing, it characterized in that the further formed discharge port for discharging the hot water flowing into the interior space of the motor housing to the outside.

In the present invention, a separate outlet is formed in the motor housing so that water introduced into the motor housing inner space continuously escapes through the outlet so that water can be introduced into the inner space of the motor housing irrespective of the rotational force of the impeller, So that the hot water flowing into the motor housing serves as a lubricant so as to prevent noise from occurring between the shaft and the motor housing.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a structure of a conventional hot water circulation pump. Fig.
2 is a view showing a structure of a hot water circulation pump according to a preferred embodiment of the present invention.
3 is a view showing an operation state of the horizontal holding plate spring in the underwater motor shown in Fig.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

In the present invention, a separate outlet is formed in the motor housing so that the water introduced into the motor housing inner space continuously escapes through the outlet so that water can be introduced into the inner space of the motor housing irrespective of the rotational force of the impeller, So as to prevent the generation of noise by realizing a lubricating function according to the high-speed rotation of the shaft.

FIG. 2 is a view illustrating a structure of a hot water circulation pump according to a preferred embodiment of the present invention.

As shown in FIG. 2, the hot water circulation pump is a means for forcibly circulating hot water heated by the hot water circulation tube, which is connected to a hot water circulation tube provided in the hot water mat, and includes a heating tank 10, And an underwater motor 20 for forcibly circulating the hot water stored in the hot water tank 10 for each use place.

The heating tank 10 is a tank for storing hot water circulating through a hot water circulation tube of an external use place, that is, a hot water mat, through an inlet 12 provided at one upper end, and for heating the stored hot water to an appropriate temperature, A chamber 14 for storing the hot water is provided, and a through hole 16 for discharging hot water to the outside is formed at the bottom center surface.

The underwater motor 20 includes a cover body 22, an impeller housing 24, and a motor housing 34 as means for forcibly supplying hot water in the heating tank 10 for each use.

The cover 22 is located in the chamber 14 of the heating tank 10. The cover 22 surrounds the through hole 16 formed in the bottom surface of the heating tank 10, Hot water stored in the heating tank 10 flows into the through hole 14 through the formed flow path 24.

The impeller housing 26 is installed on the outer bottom surface of the heating tank 10 and receives hot water stored in the heating tank 10 through a through hole 16 of the heating tank 10 And a lower end of the impeller housing 26 is connected to the motor housing 34 in a state where the lower end of the impeller housing 26 is opened.

The hot water circulation tube installed in the hot water mat is connected to the discharge port 30 to discharge the heated hot water.

An impeller 32 is installed in the inner space 28 of the impeller housing 26. The impeller 32 rotates at a high speed by the power of the shaft 42 in a state of being coupled to a shaft 42, Water (i.e., hot water) flowing into the impeller housing 26 is discharged through the outlet 30 to a hot water circulating tube installed in a use place, that is, a hot water mat.

The lower end of the impeller housing 26 and the upper end of the motor housing 34 are respectively opened 29, 35, respectively, at the lower open end 29 of the impeller housing 26, And a part of the hot water supplied to the inner space 28 of the impeller housing 26 flows into the inner space 36 of the motor housing 34. [

A shaft 42, a rotor 40, and a bearing bearing 46, which are various components of the underwater motor 20, are installed in the internal space 36 of the motor housing 34.

A stator 38 is provided outside the motor housing 34 and a rotor 40 rotatably operated by the current applied from the stator 38 is installed in the internal space 36.

A shaft 42 is vertically penetrated through the center of the rotor 40 so that the tip of the shaft 42 is coupled to the impeller 32 while passing through the impeller 32, And is brought into contact with the bearing bearing 46 described later.

A spring 44 is provided at the center of the bottom surface of the motor housing 34 and a bearing bearing 46 contacting the end of the shaft 42 is mounted on the spring 44.

2 and 3, the bearing bearing 46 contacts the lower end of the shaft 42 and prevents the flow of the shaft 42 due to the rotation thereof. The height of the floating height of the impeller 32 coupled to the shaft 42 is limited.

The support bearing 46 has a cylindrical shape and an inclined groove 46a is formed at an upper end thereof. The end of the shaft 42 is in contact with the inclined groove 46a. At this time, the lower end of the shaft 42 is preferably formed in a conical shape so as to correspond to the shape of the inclined groove 46a.

The spring 44 pushes the bearing bearing 46 upward at all times with a tension force in a state in which the spring 44 supports the bottom surface of the bearing bearing 46. That is, even if the bearing bearing 46 is worn due to the contact with the shaft 42, the spring 44 pushes the bearing bearing 46 by the worn height, so that the bearing bearing 46 is prevented from rotating relative to the shaft 42 The impeller 32 coupled to the shaft 42 does not move upward or downward during the rotation process and is always raised to a predetermined height It is possible to perform the rotating operation.

On the other hand, on the outer circumferential surface of the bearing bearing 46, a leaf spring for horizontal holding (hereinafter, referred to as " leaf spring ") for resiliently bending the left and right swinging bearings 46 and returning the bearing bearings 46, 48 are further included.

The plate spring 48 for horizontal holding is formed in the shape of a disk and has a fixing hole 49 through which the bearing bearing 46 is inserted at the center thereof, and a plurality of slots 50 are formed As shown in FIG. The elongated holes 50 may be formed in a state in which when the eccentric wear occurs in one portion due to the contact of the inclined grooves 46a of the bearing bearings 46 with the shaft 42 and the bearing bearings 46 swing to the left and right, The plate spring 48 provides a space capable of bending up and down so that the plate spring 48 for horizontal holding is flexibly bent in accordance with the left and right swings of the bearing bearing 46, To return to the initial state and maintain the horizontal state of the bearing bearing 46, thereby effectively catching the shaking of the shaft 42 due to eccentric wear of the bearing bearing 46.

Meanwhile, a discharge port 52 is further extended from a lower end of the motor housing 34 constituting the submersible motor 20.

The discharge port 52 is provided so that the hot water introduced into the inner space 36 of the motor housing 34 continuously flows out through the discharge port 52 without staying in the inner space 36 of the motor housing 34, The hot water contained in the inner space 36 of the motor housing 34 is sucked into the impeller housing 26 by the rotational force of the impeller 32 so that the inner space 36 of the motor housing 34 does not become an empty space It is a means provided for the purpose.

That is, a part of the hot water introduced into the impeller housing 26 passes between the motor housing 34 and the shaft 42 and is filled in the inner space 36 of the motor housing 34. When the discharge port 52 is not formed on one side of the motor housing 34, the hot water can not circulate in the internal space 36 of the motor housing 34 and remains in a state of being continuously held. In this state, The hot water already contained in the internal space 36 of the motor housing 34 can not flow any more hot water and the rotating force of the impeller 32 causes the motor housing 34 The hot water remaining in the inner space 36 is sucked into the impeller housing 26.

When the hot water contained in the inner space 36 of the motor housing 34 is sucked into the impeller housing 26 as described above, the inner space 36 of the motor housing 34 becomes empty, The lubrication function for reducing the friction of the motor housing 34 can not be performed, which causes a great noise.

Therefore, if the outlet 52 is formed on one side of the motor housing 34 to continuously circulate the hot water (that is, the hot water continuously flows out without staying in the hot water), the impeller 32 The hot water can be continuously introduced into the inner space 36 of the motor housing 34 and the hot water circulates through the inner space 36 of the motor housing 34, So that the friction between the shaft 42 and the shaft 42 can be prevented.

In the hot water circulation pump of the present invention configured as described above, when the hot water in the heating tank 10 is circulated, when the power is applied to the underwater motor 20, the shaft 42 coupled to the rotor 40 is rotated at a high speed The hot water stored in the heating tank 10 flows into the impeller housing 26 and then flows into the impeller 32 through the impeller 32. [ The water is discharged to the hot water circulation tube through the discharge port 30. [

A part of the hot water flowing into the impeller housing 26 flows into the inner space 36 of the motor housing 34 installed at the lower end of the impeller housing 26 through the opened lower end of the impeller housing 26 The hot water circulating through the inner space of the motor housing is discharged to the outside through the discharge port 52 provided at one side of the motor housing 36 so that friction between the motor housing 34 and the shaft is not generated Lubricant function is performed and noise is prevented from being generated during use.

10: heating tank 20: underwater motor
26: impeller housing 30: outlet
32: impeller 34: motor housing
42: shaft 52: outlet

Claims (1)

In the hot water circulation pump,
A heating tank 10 having a space 28 for storing hot water therein;
A space 28 for receiving hot water stored in the heating tank 10 is formed in the bottom surface of the heating tank 10 through a through hole 16 of the heating tank 10 An impeller housing 26 having a discharge port 30 extended therefrom;
An impeller (32) installed in the inner space (28) of the impeller housing (26) and discharging hot water introduced into the space (28) to the outlet (30);
And a motor housing (34) installed at a lower end of the impeller housing (26) and having a shaft (42) for driving the impeller (32) at a high speed while being driven by an external power source;
The lower end of the impeller housing 26 and the upper end of the motor housing 34 are configured to abut against each other with the openings 29 and 35 being opened so that the hot water supplied to the inner space 28 of the impeller housing 26 (36) of the motor housing (34);
And a discharge port (52) for discharging the hot water introduced into the inner space (36) of the motor housing (34) to the outside is formed at one side of the motor housing (34).

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