KR200462935Y1 - Water pump - Google Patents

Abstract

The present invention relates to a pressure pump structure, which consists of a motor, an intake base and a plurality of impellers. Here, the intake pipe on the intake base is installed in the transverse direction, the intake pipe is installed in the longitudinal direction, and the intake pipe is located between the motor and the impeller. The water from the water inlet pipe flows into the water inlet / outlet base and then flows out through the water outlet pipe by the rotation of a plurality of impellers. The present invention has the advantage of increasing the life of the shaft seal because it reduces the pressure received by the shaft seal and reduces the friction and consumption of the shaft seal. As the number of stages of the impeller increases, the pressure increases, so there is no need to use a high pressure bearing shaft.

Description

Pressure pump structure {WATER PUMP}

The present invention relates to a pressure pump structure, and mainly has the advantage of lowering the pressure of the shaft seal and reducing the friction and consumption of the shaft seal to increase the life of the shaft seal, the pressure when the number of stages of the impeller increases This increases the need for high pressure bearing shaft seals.

Pressure pumps are closely related to us. Pressurized pumps are capable of transporting low-level water, especially tap water in low places in apartments or high-rise buildings, to a high-level water tower for short periods of storage. The water in the water tower thus stored is supplied to the user in the apartment or high-rise building.

As shown in FIG. 5, a general conventional pressure pump structure includes a motor 60, water inlet and outlet bases 62 installed on one side of the motor 60, and A water inlet pipe 64 and a water outlet pipe 66 are respectively installed in the base 62, and a plurality of rotatable impellers 68 are installed in the inlet and outlet base 62, and the motor 60 and the plurality of impellers are installed. The shaft core 70 which drives many impellers 68 is provided between 68. A plurality of impellers 68 are installed between the water inlet pipe 64 and the motor 60, respectively. However, the structure has the following disadvantages in actual use and needs to be improved.

After the water flows into the inflow and outflow base 62 through the inlet pipe 64, the flow direction of the water is perpendicular to the section in which the impeller 68 rotates. In addition, the water pressure when the water flows is gradually increased from the small by the applied pressure, and only the water pressure finally pressurized to the maximum pressure impacts the shaft seal 72. Therefore, since the hydraulic pressure received by the shaft seal 72 is large, the pressure applied to the shaft seal is increased, and friction and consumption are also relatively increased, causing the shaft seal to be easily damaged.

The inventors of the present invention proceeded with active research in consideration of the problem that the pump structure of the prior art is not excellent in design, and has devised the present invention with practical efficacy through endless trials and experiments.

The present invention aims to provide a pressurized pump structure consisting of a motor, a water intake base and a plurality of impellers. Here, the intake pipe on the intake base is installed in the transverse direction, the intake pipe is installed in the longitudinal direction, and the intake pipe is located between the motor and the impeller. Then, after the water from the water inlet pipe flows into the water inlet / outlet base, the water outlet pipe flows by the rotation of a plurality of impellers, but flows out of the pump.

Therefore, the present invention has the advantage of reducing the pressure received by the shaft seal and reducing the friction and consumption of the shaft seal, thereby increasing the life of the shaft seal. The pressure increases as the number of stages of the impeller increases, eliminating the need for shaft seals that withstand high pressures.

1 is a perspective view showing a pressure pump structure according to the present invention.
2 is a cross-sectional view showing a pressure pump structure according to the present invention.
3 is a cross-sectional view in the longitudinal direction of the input and output base according to the present invention.
Figure 4 is a plan view from above of the incoming and outgoing base according to the present invention.
5 is a partial cross-sectional view of a conventional pressure pump structure.

As shown in Figure 1 and 2, the pressure pump structure according to the present invention includes a motor 10, the inlet and outflow base 20, pressure chamber 30, and the like sequentially installed on the side of the motor (10). .

The shaft core 12 extends in the lateral direction from the motor 10, and the shaft core 12 extends into the inflow and outflow base 20 in the transverse direction, and in the interior of the inflow and outflow base 20, the shaft core ( 12, a plurality of rotatable impellers 14 are installed. Here, each impeller 14 is rotatable by the driving of the shaft core 12, and the shaft sealing rod 122 is provided between the shaft core 12 and the motor 10.

As shown in Figs. 2 to 4, the inlet pipe 22 of the inlet / outlet base 20 is installed in the transverse direction and the outlet tube 24 is installed in the longitudinal direction. That is, the inlet pipe 22 is installed between the motor 10 and the impeller 14, and after the water enters the inlet / outlet base 20 through the inlet pipe 22, first, the inner wall surface of the inlet / outlet base 20 and The shaft seal 122 is impacted. Then it flows through a number of rotating impeller 14 but flows out through the outlet pipe 24. Thus, water is transported to a water tower of a high-rise building and stored for a while to transport and use it to a user of an apartment or a high-rise building. In addition, the pressure chamber 30 may set the pressure to be high or low, and at some point, water may be introduced into the inlet / outlet base 20 to be transported to the outlet pipe 24 to be transferred to the water tower of the high-rise building.

The subsidiary room 30 includes a main body cover 31 and the main body cover 31 includes an outer cover 311 and a lining 312. Among them, the outer cover 311 is an inner concave container made of a metal material and molded, and the outer cover 311 is fixed to an end portion of the entry / exit base 20. The lining 312 is a process plastic material and is formed in a concave inner container formed therein, and may be directly fixed to an inner concave accommodation space of the outer cover 311.

Thus, the outer cover 311 and the lining 312 are combined to form a body cover 31. When the main body cover 31 covers the end of the entry and exit base 20, the material of the lining 312 is a process plastic, so that it does not corrode in contact with water. The outer cover 311 is made of metal and covers the outside of the lining 312 to prevent the lining 312 from rupturing due to excessive deformation due to excessive water pressure or water temperature generated by the operation of the pressure pump. In addition, a washer 313 is mounted on both the connection slot between the top of the outer cover 311 and the top of the lining 312 and the connection slot between the bottom of the outer cover 311 and the bottom of the lining 312. This connection slot can prevent the inflow between the lining 312 and the outer cover 311 and prevent corrosion of the outer cover 311 and at the same time reinforce and fix the lining 312 in the outer cover 311. Thereby, the purpose of preventing damage to the main body cover 31 can be reached.

As shown in Figures 2 to 4, when using the structure, water is introduced to the water inlet and outlet base 22, and then first impacts the inner wall surface and the shaft sealing rod 122 of the water inlet and outlet base 20. Then, the internal space of the inflow and outflow base 20 is flowed by the rotation of the multiple impellers 14, but is transported to the water tower located above the apartment or the high-rise building through the outlet pipe 24, and stored for a while, and supplied according to the user's demand. do. After the water flows into the inlet / outlet base 20, when the water pressure is relatively small, the shaft sealing rod 122 is impacted, thereby reducing the pressure received by the shaft sealing rod 122 and reducing friction and consumption of the shaft sealing rod 122. There is an advantage to increase the life of the shaft seal 122 by reducing. Since the pressure increases when the number of stages of the impeller increases, it is not necessary to use the shaft seal 122 that withstands high pressure.

As can be seen from the above description, the present invention has at least the following advantages when placed in an optimal structure.

After the water flows into the water inlet pipe 22, the water outlet pipe 24 flows by the rotation of the plurality of impellers 14, and is transported to the water supply tower on the top layer by pressure. And since the introduced water impacts the inner wall surface and the shaft seal 122 of the inflow and outflow base 20, the life of the shaft seal 122 is reduced by reducing the pressure received by the shaft seal 122 and reducing the friction and consumption of the shaft seal. There is an advantage to increase. Since the pressure increases when the number of stages of the impeller increases, it is not necessary to use the shaft seal 122 that withstands high pressure.

Accordingly, the present invention is filed because it has practicality and inventiveness, and has not been published or used in any publication prior to filing and conforms to the provisions of the Utility Model Act.

10, 60: motor
12, 70: concentric
72, 122: shaft seal
14, 68: impeller
20, 62: I / O base
22, 64: water pipe
24, 66: water pipe
30: pressurization chamber
31: body cover
311: outer cover
312: lining
313: washer

Claims (3)

A motor, water inlet and outlet bases provided on the side of the motor, and a pressurizing chamber, the shaft center being installed transversely from the motor, the shaft center extending into the inlet / outlet base; A plurality of impellers are installed on the shaft core and each impeller may be driven by the shaft core. The inlet and outlet pipes of the inlet and outlet bases are installed in the transverse direction, and the outlet pipes are installed in the longitudinal direction. In the inlet pipe is a pressure pump structure located in the shaft seal on the shaft center installed between the motor and the impeller,
The pressurization chamber includes a main body cover installed at an end of the entry and exit base,
The body cover,
An outer cover which is an inner concave container formed by molding of a metal material; And
A lining, which is installed in an inner concave accommodation space of the outer cover and which is formed of a process plastic material and which is an inner concave container,
Pressure pump structure. The method of claim 1,
And a washer in the connection slot between the outer cover top and the lining top surface of the body cover, and the connection slot between the bottom face and the lining bottom surface of the outer cover. delete

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