KR200387357Y1 - a hot water cycle pump - Google Patents

Abstract

The present invention relates to a hot water circulating pump to attach the motor to the bottom surface of the heating tank so that the impeller does not come into contact with the cover in the rotation process to increase the rotational efficiency of the impeller. More specifically, the present invention is a hot water circulation pump used to forcibly circulate the hot water in the heating tank for each use, the bottom surface of the heating tank is provided with a heating plate for warming the hot water, the lower surface of the heating plate to the outlet side And an impeller housing in which an impeller is built, and an impeller housing is installed under the impeller housing by installing a shaft penetrating through the impeller and a rotor configured to rotate the shaft. It proposes a hot water circulation pump, characterized in that to prevent overheating.

Description

Hot water cycle pump

The present invention relates to a hot water circulating pump, and more particularly, to a hot water circulating pump that attaches a motor to a bottom surface of a heating tank so that the impeller does not come into contact with the cover body during the rotation process, thereby increasing the rotational efficiency of the impeller.

As is well known, the hot water circulation pump is composed of a motor for generating power and an impeller coupled to the shaft of the motor and is a means for forcibly supplying hot water for each user, and is one of various pumps used throughout the industry.

On the other hand, a conventional general configuration related to the hot water circulation pump described above will be described with reference to FIG.

Referring to FIG. 1, the hot water circulation pump 200 forcibly supplies a heating tank 110 for heating hot water stored in the chamber 112 and hot water heated in the heating tank 110 to the circulation pipe 50. It consists of an impeller 126, a shaft 138 coupled to the impeller 126 and a motor 130 composed of a rotor 136 to rotate the shaft 138.

However, the conventional hot water circulation pump configured as described above causes the following problems during operation.

First, the configuration of the motor 130 installed in the hot water circulation pump 200 is a motor housing 132 having a stator 134 attached to the outside, and installed in the motor housing 132 and applied from the stator 134. It is composed of a rotor 136 and a shaft 138 coupled to the rotor 136 to rotate with the power supply. That is, when the motor 130 having such a configuration is installed on the heating tank 110, the rotor 136 in the driving process descends below the motor housing 132 by its own weight during the rotation process, When the rotor 136 is lowered as described above and the shaft 138 is coupled to the rotor 136. The impeller 126 coupled to the shaft 138 is also lowered, and in this process, the impeller 126 comes into contact with the impeller housing 128 which is covered on the outside, so that the impeller housing 128 is rotated. Overdoing occurred. That is, if the impeller 126 rotates while impinging on the impeller housing 128, there is a problem that the rotation speed of the impeller 126 is primarily lowered, and also the impeller 126 or the impeller housing 128 is damaged due to the impact. Of course, there was a problem that generates a lot of noise during the process.

Therefore, the present invention for solving the problems as described above provides a hot water circulation pump to install a motor on the bottom surface of the heating tank so that the impeller does not contact the impeller housing during the rotation process to increase the rotational efficiency of the impeller. have.

Another object of the present invention is to provide a hot water circulating pump to prevent the impeller from floating in the rotation process by installing a support piece selectively contacting the shaft inside the cover body.

Another object of the present invention is to provide a hot water circulation pump that can be used to heat the hot water generated by the motor by installing the motor under the impeller housing to increase the thermal efficiency.

Another object of the present invention is to provide a hot water circulation pump that can increase the energy efficiency of the motor for rotating the impeller.

Another object of the present invention is to provide a hot water circulation pump that can minimize the generation of noise during the driving process.

The present invention for achieving the above object is a hot water circulation pump used for forced circulation of hot water in the heating tank for each use, the heating plate is installed on the bottom surface of the heating tank, the heating plate of the An impeller housing having an outlet on one side thereof and having an impeller built therein is installed, and an impeller being rotated under the impeller housing is provided with a shaft installed through the impeller and a motor configured to rotate the shaft. It proposes a hot water circulation pump, characterized in that to prevent the falling of the impeller housing and collapsing by the weight.

That is, the present invention is configured so that the motor is not installed on the top of the heating tank but installed under the heating tank so that the rotor and the shaft do not fall down, so that the impeller coupled to the shaft is impeller housing and bud in the rotation process. It is characterized in that to prevent the hitting.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

2 and 3 are views showing the configuration of the hot water circulation pump to be implemented in the present invention.

Referring to FIGS. 1 and 2, the hot water circulation pump 100 includes a heating tank 10 and a motor 30 forcibly circulating hot water stored in the heating tank 10 for each user.

The heating tank 10 is a tank for storing hot water and heating the stored hot water at an appropriate temperature. The heating tank 10 has a chamber 12 therein for storing hot water and warms the hot water with heat supplied from the heating element 14 at the bottom thereof. The heating plate 16 is provided. A through hole 18 is formed in the center of the heating plate 16, and the hot water in the chamber 12 is introduced into the impeller housing 28 described later through the through hole 18.

On the other hand, the cover body 20 having the inlet 22 to one side is provided on the upper surface of the heating plate 16. That is, the cover body 20 is located in the chamber 12 in the heating tank 10. A support piece 24 is installed at an inner upper end of the cover body 20, and the support piece 24 has the shaft 38 when the shaft 38 rises as shown in FIG. 4. It selectively contacts and limits the lift height of the shaft 38 to prevent the rotating impeller 26 from rising upward by the rotational force. Here, the material of the support piece 24 may be formed of various materials, but in the present invention, it is most preferable to form a carbon material having excellent wear resistance.

Meanwhile, the motor 30 is a driving means for forcibly supplying hot water stored in the chamber 12 in the heating tank 10 for each place of use, and then forcibly circulating it into the chamber 12. Characterized in that installed under the heating tank 10, in the following the installation position of the motor 30 and its configuration in detail.

First, the motor 30 is composed of a motor housing 32, a stator 34, a rotor 36, and a shaft 38, and a means for forcibly discharging hot water is installed in the shaft 38 by an impeller 26. do.

The impeller 26 is for forcibly discharging the hot water introduced through the through-hole 18 of the heating plate 16 to the hot water circulation pipe 50, the impeller housing attached to the lower surface of the heating plate 16 ( 28). That is, the impeller 26 and the impeller housing 28 are installed below the heating plate 16 with the cover body 20 and the heating plate 16 interposed therebetween, and fastening means such as the cover body 20 and the bolt. It is fixed to 21. In addition, one side of the impeller housing 28 is provided with a discharge port 29 is forced to supply hot water to the hot water circulation pipe 50 in accordance with the driving of the impeller 26 to circulate.

Under the impeller housing 28, a motor housing 32, which is a component of the motor 30, is installed. A stator 34 is positioned on the outer circumferential surface of the motor housing 32, and a rotor 36 that rotates with the power applied from the stator 34 is located inside the motor housing 32. The rotor 36 is coupled to the shaft 38 installed through the impeller 26 described above to rotate in conjunction with the rotor 36.

As described above, when the motor 30 is installed under the heating tank 10, the rotor 36 and the shaft 38, which are components of the motor 30, do not fall to their own weight as in the related art. The impeller 26 coupled to the shaft 38 also does not fall down to its own weight during the rotation process, thereby preventing the impeller 26 from coming into contact with the impeller housing 28. That is, the impeller 26 is not in contact with the impeller housing 28 during the rotation process can increase the rotational efficiency of the impeller 26, to prevent the damage of the impeller 26 and the generation of various noises due to the impact It becomes possible. In addition, the impeller 26 may be injured due to the rotational force during the rotation process. In this case, the tip of the shaft 38 is in contact with the support piece 24 installed on the inner upper end of the cover body 20 described above. This is to control the rise of the impeller 26, thereby preventing the impeller 26 to float and contact the heating plate 16.

Hereinafter, the operation of the hot water circulation pump according to the present invention configured as described above will be described with reference to FIGS. 2 to 4.

First, when power is applied to the motor 30 to operate the hot water circulation pump 100, the rotor 36, which is a component of the motor 30, and the shaft 38 coupled to the rotor 36, respectively. Rotates and rotates the impeller 26 installed in the shaft 38. Accordingly, the hot water in the heating tank 10 passes through the inlet 22 of the cover body 20 and the passage hole of the heating plate 16. 18) is sequentially introduced into the impeller housing 28, and is forcibly discharged to the hot water circulation pipe 50 through the discharge port 29 by the rotational force of the impeller 26.

At this time, as the motor 30 is installed below the heating tank 10 and not above the heating tank 10, the rotor 36 and the shaft 38 do not fall downward under their own weight during the rotation process. Thus, the impeller 26 coupled to the shaft 38 is also lowered in the rotation process and prevents the impeller housing 28 from colliding with the impeller housing 28.

In addition, the impeller 26 is caused to rise above a certain height by the rotational force in the rotation process, in this case, as shown in Figure 4 attached to the front end of the shaft 38, the upper end of the inner cover body 20 By being in contact with the support piece 24 is installed in the impeller 26 can be prevented from floating on the heating plate 16 to rise above a certain height. That is, the impeller 26 is to maximize the rotational efficiency of the impeller 26 by not generating any contact phenomenon in the rotation process through the above-described configuration.

Thereafter, the hot water supplied to each user through the hot water circulation pipe 50 is re-introduced into the chamber 12 in the heating tank 10 again through a circulation process and heated to an appropriate temperature.

As discussed above, the present invention achieves many effects as follows.

 First, by installing the motor on the bottom surface of the heating tank, the impeller does not fall down during the rotation process so as not to contact the impeller housing, thereby increasing the rotational efficiency of the impeller.

In addition, there is an effect that can limit the rise of the impeller by installing a support piece that selectively contacts the shaft inside the cover body.

In addition, since the motor is installed under the impeller housing, heat generated in the driving process is used for heating the hot water, thereby increasing the thermal efficiency.

In addition, the present invention has a synergistic effect that can minimize the generation of various noise in the operation process.

1 is a view showing the structure of a conventional general hot water circulation pump.

Figure 2 is a three-dimensional view of the hot water circulation pump according to the present invention.

3 is a view showing the cut-out of the configuration of the hot water circulation pump shown in FIG.

4 is a view showing a state of use of the hot water circulation pump according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: heating tank 16: heating plate

20: cover body 24: support

26: impeller 28: impeller housing

30: motor 36: rotor

38: shaft 100: hot water circulation pump

Claims (2)

In the hot water circulation pump 100 used to forcibly circulate the hot water in the heating tank 10 for each use, On the bottom surface of the heating tank 10 is installed a heating plate 16 for warming hot water; An impeller housing 28 having an outlet 29 at one side and an impeller 26 therein is installed at a lower surface of the heating plate 16; Under the impeller housing 28, an impeller 26 which is rotated by being provided with a shaft 38 penetrated through the impeller 26 and a motor 30 composed of a rotor 36 for rotating the shaft 38. Hot water circulating pump characterized in that the lowering of the weight to prevent the impeller housing (28) and colliding. The upper surface of the heating plate 16 is provided with a cover body 20 having an inlet port 22 to one side, the inner upper end of the cover body 20 selectively contacts the shaft 38 And hot water circulation pump, characterized in that the support piece (24) is installed to prevent the impeller (26) to rise.