JPS6388298A - Pumping device - Google Patents

Abstract

PURPOSE:To widen the degree of freedom in piping by furnishing a water flow path, which leads water from an air separating chamber to a jet hole, around the water intake in the form of a ring, and dividing in a plane incl. the ring- shaped water flow path. CONSTITUTION:A water flow path 10 is furnished to lead water jetting out with a pump 1 from an air separating chamber 7 to a jet hole 9. This water flow path 10 is so arranged around a water intake 2 as to surround the intake while taking the form of a ring. The path 10 is divided into a casing 11 and said jet hole 9 in the part formed ring-shaped, and arranged so as to be slidable through a seal 12 in the division part A, wherein it shall be possible to change the direction of the jet hole 9 and the water intake 2 regardless of the attitude of said air separating chamber 7. This will widen the degree of freedom for selection of place for fitting the pump.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a pump device comprising an air valve@chamber.

(Prior Art) In conventionally used pump devices, the direction of attachment of the water inlet and outlet to the pump device is usually fixed.

In a pump device, if more air than is mixed with water occurs due to the rotation of the impeller, the air acts to prevent water from being sucked in, and the self-priming effect is lost.

For this reason, pump devices are provided with an air separation chamber that separates water mixed with air generated by the rotation of the impeller into air and water.

(Problems to be Solved by the Invention) In conventional pump devices, the water inlet and outlet are fixedly provided to the pump device, so when the pump device is installed in the middle of the flow path, the pump Depending on the installation position of the device,
The piping direction of the water inlet and outlet is limited.

Self-priming pump devices are generally used for fluid circulation, and depending on the installation conditions of the pump device, the direction of the water inlet and outlet provided on the pump device, and the direction in which the pump device is inserted and used are determined. The directions of the piping are not necessarily the same.

Therefore, in the vicinity of the piping into which the pump device is inserted, the pump device and the piping have been connected by changing the direction of the piping toward the water inlet or outlet of the pump device.

Furthermore, depending on the structure of the pump device, there are restrictions on where the pump device can be installed.

In this way, changing the direction of piping in conventional pump equipment increases the number of piping connections, complicating piping work, and increasing the time spent on construction. I also decided to invite them.

As described above, the conventional pump device has a disadvantage in that its water intake port and jet port are fixedly provided.

The present invention aims to solve the above-mentioned disadvantages.

(Means for Solving the Problems) In order to solve the above problems, in the present invention, in a pump device equipped with an air separation chamber, a flow channel that guides water from the air separation chamber to a spout is connected to a water intake port. Provided is a pump device characterized in that the pump device is provided in a substantially annular shape around the periphery of the pump device and is divided in a plane including an annular flow channel.

(Function) In a self-priming pump device equipped with an air separation chamber, a flow channel that guides water from the air separation chamber to the spout is provided approximately in an annular shape around the water intake port, and is divided at a plane containing the annular flow channel. This makes it possible to change the direction of the water inlet and outlet.

(Example) The present invention will be explained based on one embodiment.

Fig. 1 is a diagram showing an embodiment of a pump device using the configuration of the present invention, and Figs. 2a and 2b show the directions of the water inlet and outlet of the pump device shown in Fig. 1. It is a diagram showing a changed state.

This will be explained based on FIG.

There is a pump device 1.

A water intake port 2 that introduces water to the pump device 1 is provided coaxially with a rotating shaft 6 of an impeller 5 provided on a rotor 4 of a motor 3.

In order to provide the pump device 1 with a self-priming function, an air valve 7 is provided above the impeller 5 to separate water mixed with air generated when the impeller 5 starts rotating into air and water. It is being

The air separation chamber 7 is provided with an air/water separation plate 8 that separates air and water by shooting water mixed with air at it, and the separated water falls to the side of the impeller 5 and is separated from the impeller 5. car 5
The self-priming effect of the air is improved, and the air that impedes the self-priming effect rises.

After the rotation of the impeller 5 becomes stable, a flow channel 10 is provided that guides water ejected by the pump device 1 from the air separation chamber 7 to the ejection port 9.

This flow channel 10 is provided over the water intake port 2 that leads water from the air separation chamber 7 to the pump device 1, and is formed so as to surround the water intake port 2 in a substantially annular shape in the vicinity of the water intake port 2. It is provided.

The height of the upper part of the flow channel 10 provided so as to surround the water intake port 2 is set lower than the height of the air valve #7 provided above the impeller 5.

The water intake port 2 and the spout port 9 are provided so as to be on a - straight line.

Water intake port 2, spout port, impeller 5, and air valve 1et
f! Casing 1 forming flow channel 10 connecting between
1 is divided and configured as follows.

The divided state is such that the direction of the water intake port 2 and the jet port 9 can be rotated regardless of the attitude of the air separation chamber.
A dividing portion is provided so that the cross section of the flow channel 10 of the water intake port 2 and the jet port 9 is concentric between the air separation chamber 7 and the air separation chamber 7.

Seal member 1 to prevent water leakage is installed in divided part B of divided part A.
2 is provided.

Although the water inlet 2 and the spout 9 are integrally formed in the embodiment, it is of course possible to configure the water inlet 2 and the spout 9 in such a way that the directions of the water inlet 2 and the spout 9 can be changed independently, if necessary. It's about this.

In the part where the flow channel 10 is formed in an annular shape, the pump device 1 is divided into a casing 11 and a spout 9, and is configured to be slidable via a seal member 12 in the divided part A, and an air valve @ to 7. It is configured such that the directions of the water inlet 2 and the outlet 9 can be changed regardless of the attitude of the water outlet.

To fix the direction of the water inlet 2 and the outlet 9 with respect to the pump device 1, the water inlet 2 and the outlet 9 are hung from the casing 11 formed in a straight line to the casing 11 of the impeller 5 and fixed with screws 13a. This is done by

When changing the direction of the water inlet 2 and the spout 9,
By removing the screws fixing the casing with the spout 9 to the stator of the motor via the casing forming the air separation chamber and the casing housing the rotor, the water suction port 2 and the spout are removed. The direction of the outlet 9 can be changed.

A lid 14 is provided on the upper part of the air separation chamber 7 so that it can be opened, and is removably fixed with screws 13b.

The roof 14 of the air separation chamber 7 has a cap 14a for handling air.
A threaded portion 14b is formed to allow attachment of a commercially available automatic air handling valve device as required.

A water suction hole 1 is provided between the casing 11 of the impeller 5 and the water suction port 2 to guide water in the casing 11 of the impeller 5 to the water suction port 2.
5 is provided.

A water drain hole 16 is provided coaxially with the water absorption hole 15.

The configuration of the motor 3 of the pump device 1 shown in the example is as follows:
The casing 11 is molded to match the inner diameter of the stator 3a,
The rotor 4 including the impeller 5 is connected to the stator 3a of the motor 3.
sealed against.

The inserted state of stator 3a and casing 11 is casing 1
1 is set to be hard enough to be rotated by hand when there is no water in it.

Changing the direction in which the cable 3b of the motor 3 is pulled out depending on the conditions of the location where the pump device 1 is installed is the same as changing the direction of the water inlet 2 and the outlet 9 regardless of the attitude of the air valve @7. can be easily done.

(Effect of the invention) In the pump device 1 configured as described above, the air separation chamber 7 is integrally provided above the impeller 5, and the air separation chamber 7
By providing a lid 14 on the top of the valve, it is possible to attach an air valve.

A flow channel 10 that guides water from the air separation chamber 7 to the spout 9,
The piping pump device 1 is provided approximately annularly around the water inlet 2, and is configured so that the direction of the spout 9 and the water inlet 2 can be changed with respect to the air separation chamber on the surface including the annular flow channel 10. The freedom to select the insertion location can be expanded.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of a pump device 1 using the configuration of the present invention, and FIGS. 2a and 2b show the water inlet and outlet of the pump device 1 shown in FIG. It is a figure showing the state where direction was changed. DESCRIPTION OF SYMBOLS 1... Pump device, 2... Water inlet, 3... Motor, 3a... Stator, 3b... Cable,
4... Rotor, 5... Impeller, 6... Rotating shaft, 7... Air separation chamber, 8... Steam/water separation plate,
9... Spout, 10... Flow channel, 11... Casing, 12... Seal member, 13a, 13b.
...screw, 14...lid, 14a-4't knob, 1
4b...Threaded part, 14C...Plug, 15...Water absorption hole, 16...Water handling hole, A...Divided part B...
・Divided surface.

Claims (5)

[Claims] (1) In a pump device equipped with an air separation chamber, a flow channel that guides water from the air separation chamber to a spout is provided approximately in an annular shape around the water intake port, and is divided at a plane containing the annular flow channel. A pump device featuring: (2) The pump device according to claim 1, wherein the air separation chamber is integrally provided above the pump device impeller, and a lid is provided on the top of the air separation chamber so that it can be attached and removed. (3) The pump device according to Claims 1 and 2, characterized in that the air separation chamber is provided higher than the annular flow channel. (4) The pump device according to Claims 1 and 3, wherein the lid of the air separation chamber is replaceable with a lid equipped with an air vent valve. (5) The pump device according to Claims 1 and 4, wherein the impeller casing and the water intake hole provided over the water intake port and the water drain hole of the casing are coaxially provided.