JP3131893U - Suction pump filtration structure - Google Patents

Abstract

To provide a filtration structure of a suction pump that can increase the length of a filtration path, improve the water filtration effect, and connect pipes according to the diameter of the water pipe.
An impeller 14 driven by a power source causes water to flow from the suction end 12 of the suction pump 1 to the discharge end 11, and the filtration device 2 is assembled to the discharge port 111 at the discharge end of the suction pump 1. Yes, it is configured by providing a filter medium 20 in the main body of the filtration device, and an outlet joint 22 and an inlet joint 23 are respectively screwed to both ends thereof, and the inlet joint is connected to the discharge end of the suction pump. Combined.
[Selection] Figure 1

Description

The present invention relates to a suction pump filtration structure, and more particularly to a suction pump filtration structure capable of simultaneously performing water suction and filtration.

Currently, ordinary houses and buildings have water storage tanks for storing water.
When the amount of water used is too large, the water pressure becomes small. At this time, it becomes impossible to send water to the water storage tank provided on the rooftop.
In order to solve this problem, it is common to install a suction pump capable of sucking water up to a water storage tank on the roof.
However, since the water quality is not sufficiently clean, products having a filter in the suction pump have been proposed.
In a conventional suction pump, an impeller driven by a motor is pivotally mounted at an appropriate position in a housing.
An inlet and an outlet are respectively provided at the suction end and the discharge end of the housing, and the suction end and the discharge end are respectively extended into a sleeve.
The ends of the two sleeves are the inlet and the outlet, respectively, and a filter is provided on each of the sleeves.
In the conventional suction pump, water is sucked from the inlet and discharged from the outlet by operating the motor to rotationally drive the impeller.
At this time, water is filtered by the two filters described above.
However, according to the above-described filtration structure, since the filtration path of the two filters installed in the suction pump is too short, the water filtration effect is not good.

Moreover, the diameter of the water pipe used differs with the usage-amount of water in a common house or building.
For this reason, when the water pipe is piped, the water pressure may drop unless the suction pump and the water pipe are connected by a joint having the same diameter.
In order to avoid a drop in water pressure, it is necessary to investigate the diameter of the water pipe to be connected before piping, and if the joint diameter is wrong, the water pressure becomes abnormal and piping work cannot be performed. There is.

The main purpose of the present invention is to increase the length of the filtration path, further improve the water filtration effect, and adopt a suitable joint according to the diameter of the water pipe of the house or building, and connect the suction pump. It is to provide a filtration structure.

  The first device of the present application made to achieve the above object mainly comprises a discharge end, a suction end, a discharge port provided in the discharge end, and a suction port provided in the suction end. A suction pump filtration structure assembled to a suction pump including an impeller driven by a power source causes water to flow from the suction end to the discharge end of the suction pump, and to the discharge port at the discharge end of the suction pump. A filtration device is assembled, and the filtration device is configured by providing a filter medium in the main body, and an outlet joint and an inlet joint are respectively screwed to both ends, and the inlet joint sucks up. The gist of the present invention is a suction pump filtration structure that is coupled to the discharge end of the pump.

  In the second device of the present application, one or more filtration devices may be assembled to the discharge port at the discharge end, and the adjacent filtration devices are connected to each other by connecting an outlet joint and an inlet joint with a sleeve. The gist of the present invention is the suction pump filtration structure according to the first device.

  In the third device of the present application, a suction pump that is assembled to a suction pump mainly including a discharge end, a suction end, a discharge port provided in the discharge end, and a suction port provided in the suction end. The impeller driven by a power source causes water to flow from the suction end of the suction pump to the discharge end, and a suction device at the suction end of the suction pump is assembled with the filtration device. The filtering device is configured by providing a filtering medium in the main body, and an outlet joint and an inlet joint are respectively screwed to both ends thereof, and the outlet joint is coupled to the suction end of the suction pump. The gist of the present invention is the suction pump filtration structure.

  In the fourth device of the present application, one or more filtration devices may be assembled to the suction port at the suction end, and the filtration devices adjacent to each other are in communication with each other by connecting an outlet joint and an inlet joint with a sleeve. The gist of the present invention is the suction pump filtration structure according to the third invention.

  In the fifth device of the present application, a suction pump that is assembled to a suction pump mainly including a discharge end, a suction end, a discharge port provided in the discharge end, and a suction port provided in the suction end. The impeller driven by a power source causes water to flow from the suction end of the suction pump to the discharge end, and the suction port at the suction end of the suction pump and the discharge port at the discharge end. Each of the filtration devices is assembled by providing a filter medium in the main body, and an outlet joint and an inlet joint are respectively screwed to both ends of the filtration device. The gist of the present invention is the suction pump filtration structure, wherein the suction joint is connected to the discharge end of the suction pump, and the outlet joint is connected to the suction end of the suction pump.

In the sixth device of the present application, at least one filtration device may be assembled to each of the discharge port at the discharge end and the suction port at the suction end. The gist is the suction pump filtration structure according to the fifth aspect, wherein the joint and the inlet joint are connected to form a communication state.

The suction pump filtration structure of the present invention has the following effects.
(B) Since the length of the filtration path can be increased by assembling a filtration device at the discharge end or suction end of the suction pump, or at the discharge end and suction end, the water filtration effect is greatly improved compared to the conventional case. be able to.

(B) Since the length of the filtration path can be increased by assembling a plurality of filtration devices at the discharge end and suction end of the suction pump, or at the discharge end and suction end, the water filtration effect is further improved.

(C) By making both ends of the joint into a small-diameter joint and a large-diameter joint, respectively, an appropriate joint can be adopted and connected according to the diameter of the water pipe of the user's house or building.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the filtration structure of the suction pump of the present invention will be described with reference to FIG. 1 showing an exploded perspective view of the suction pump.
The suction pump 1 mainly has a discharge end 11, a suction end 12, a discharge port 111 provided in the discharge end 11, and a suction port 121 provided in the suction end 12. An impeller 14 driven by 13 sucks up water and flows from the suction end 12 to the discharge end 11 of the pump.

One or more filtration devices 2 are assembled to the discharge port 111 at the discharge end 11 of the suction pump 1 or the suction port 121 at the suction end 12.
As shown in FIG. 2, the filtration device 2 is configured by providing a filter medium 20 in the main body 21.
An outlet joint 22 and an inlet joint 23 are respectively screwed to both ends of the filtration device 2. The outlet joint 22 and the inlet joint 23 are coupled to the discharge end 11 and the suction end 12, respectively.

Reference is also made to FIG. FIG. 3 is an exploded perspective view of the first embodiment of the present invention.
The assembling method of the present embodiment shows a case where the filtering device 2 is assembled to the discharge port 111 at the discharge end 11 of the suction pump 1.
That is, the inlet joint 23 of the filtration device 2 is assembled to the discharge end 11 of the suction pump 1.

Reference is also made to FIG. FIG. 4 is an exploded perspective view of the second embodiment of the present invention.
The assembling method of the present embodiment shows a case where the filtering device 2 is assembled to the suction port 121 at the suction end 12 of the suction pump 1.
That is, the outlet joint 22 of the filtration device 2 is assembled to the suction end 12 of the suction pump 1.

Reference is also made to FIG. FIG. 5 is a schematic sectional view of Embodiment 3 of the present invention.
The assembling method of the present embodiment shows a case where the filtering device 2 is assembled to the suction port 121 at the suction end 12 of the suction pump 1 and the discharge port 111 at the discharge end 11 of the suction pump 1.
That is, the inlet joint 23 of the filtration device 2 is assembled to the discharge end 11 of the suction pump 1 and the outlet joint 22 of the filtration device 2 is connected to the water pipe A connected to the water storage tank. And the outlet joint 22 of the said filtration apparatus 2 is assembled | attached to the suction end 12 of the suction pump 1, and the inlet joint 23 of the filtration apparatus 2 is connected to the water pipe A connected with the water supply source.
Water passes through the filtration device 2 from the water pipe A of the water supply source, is sucked into the suction pump 1 from the suction end 12 of the suction pump 1, and is provided at the discharge end 11 of the suction pump 1. By passing through 2, the water is filtered to become clean water.
Therefore, the purified water can flow into the water storage tank.

Reference is also made to FIG. FIG. 6 is an exploded perspective view of Embodiment 4 of the present invention.
As in this embodiment, a plurality of filtration devices 2 may be assembled to the discharge end 11 of the suction pump 1 or the suction end 12 of the suction pump 1.
When assembling a plurality of filtration devices 2 so as to be adjacent to each other, it is preferable to connect the outlet joints 22 and the inlet joints 23 of the respective filtration devices 2 by the sleeves 3 so as to communicate with each other.

Reference is also made to FIG. FIG. 7 is an exploded perspective view of the fifth embodiment of the present invention.
In this embodiment, the adapter 4 is assembled to the discharge end 11 of the suction pump 1.
The adapter 4 has an inlet joint 41 corresponding to the dimension of the discharge end 11 of the suction pump 1, a large-diameter joint 42 corresponding to the dimension of the water pipe A connected to the water storage tank, and a small-diameter joint 43. .
The adapter 4 is provided with a pressure gauge 44 for measuring the water pressure.
The assembly method of the fifth embodiment will be described in detail with reference to FIGS.
The inlet joint 41 of the adapter 4 is assembled to the discharge end 11 of the suction pump 1.
As shown in FIG. 8, when the water pipe A connected to the water storage tank has a small diameter, the large diameter joint 42 of the adapter 4 is closed and the water pipe A connected to the water storage tank is connected to the small diameter joint 43. Connect to.
Conversely, as shown in FIG. 9, when the water pipe A connected to the water storage tank has a large diameter, the inlet joint 41 of the adapter 4 is assembled to the discharge end 11 of the suction pump 1, and the adapter 4, the small-diameter joint 43 is closed, and the water pipe A connected to the water storage tank is connected to the large-diameter joint 42.
Also in this example, as in the embodiment described above, it is possible to assemble one or a plurality of filtration devices 2 on the discharge end 11 side of the suction pump 1 or the suction end 12 side of the suction pump 1. Since it is the same, the description is abbreviate | omitted.
When assembling one or a plurality of filtration devices 2 on the discharge end 11 side of the suction pump 1, they are assembled via an adapter 4.

  The above is a description for describing the embodiment of the present invention, and is not intended to limit the present invention. Implementations carried out by those having ordinary knowledge in the field without departing from the spirit and scope of the present invention. Modifications, additions, or deletions of examples are naturally included in the present invention.

It is an exploded perspective view of the present invention. It is a disassembled perspective view of the filtration apparatus of this invention. It is a disassembled perspective view of Example 1 of this invention. It is a disassembled perspective view of Example 2 of this invention. It is the cross-sectional schematic of Example 3 of this invention. It is the cross-sectional schematic of Example 4 of this invention. It is a disassembled perspective view of Example 5 of this invention. It is the cross-sectional schematic 1 of Example 5 of this invention. It is the cross-sectional schematic 2 of Example 5 of this invention.

Explanation of symbols

A pipe
1 Suction pump 11 Discharge end 111 Discharge port 12 Suction end
121 Inlet 13 Power source
14 Impeller 2 Filtration device
20 Filter media 21 Body
22 Outlet joint 23 Entrance joint
3 Sleeve 4 Adapter
41 Entrance joint 42 Large-diameter joint
43 Small-diameter joint 44 Pressure gauge

Claims (6)

A suction pump filtration structure assembled to a suction pump mainly including a discharge end, a suction end, a discharge port provided in the discharge end, and a suction port provided in the suction end,
An impeller driven by a power source sucks up water and flows from the suction end to the discharge end of the pump,
A filtration device is assembled at the discharge port at the discharge end of the suction pump,
The filtration device is configured by providing a filter medium in the main body,
At both ends, an outlet joint and an inlet joint are respectively screwed,
The inlet joint is coupled to the discharge end of the suction pump,
Suction pump filtration structure.   One or more filtration devices are assembled to the discharge port at the discharge end, and the adjacent filtration devices connect the outlet joint and the inlet joint by a sleeve so as to communicate with each other. 2. The suction pump filtration structure according to 1. A suction pump filtration structure assembled to a suction pump mainly including a discharge end, a suction end, a discharge port provided in the discharge end, and a suction port provided in the suction end,
An impeller driven by a power source sucks up water and flows it from the suction end to the discharge end of the pump,
A filtration device is assembled to the suction port at the suction end of the suction pump,
The filtration device is configured by providing a filter medium in the main body,
At both ends, an outlet joint and an inlet joint are respectively screwed,
The outlet joint is coupled to the suction end of a suction pump,
Suction pump filtration structure.   The suction port at the suction end is assembled with one or more filtration devices, and the filtration devices adjacent to each other connect the outlet joint and the inlet joint by a sleeve so as to communicate with each other. 3. The suction pump filtration structure according to 3. A suction pump filtration structure assembled to a suction pump mainly including a discharge end, a suction end, a discharge port provided in the discharge end, and a suction port provided in the suction end,
An impeller driven by a power source sucks up water and flows it from the suction end to the discharge end of the pump,
Filtration devices are assembled to the suction port at the suction end of the suction pump and the discharge port at the discharge end, respectively.
The filtration device is configured by providing a filter medium in the main body,
At both ends, an outlet joint and an inlet joint are respectively screwed,
The inlet joint is connected to the discharge end of the suction pump and the outlet joint is connected to the suction end of the suction pump,
Suction pump filtration structure.   At least one filtration device is assembled to each of the discharge port at the discharge end and the suction port at the suction end, and the adjacent filtration devices communicate with each other by connecting an outlet joint and an inlet joint with a sleeve. The suction pump filtration structure according to claim 5, wherein the suction pump is in a state.

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