JP3599826B2 - Detachable submersible pump device - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a detachable submersible pump device, and more particularly to an improvement in a pipe connection portion thereof.
[0002]
[Prior art]
As a conventional detachable submersible pump device, the one shown in FIGS. 4 and 5 is known.
That is, in the drawing, reference numeral 1 denotes a support provided in a liquid tank for sewage, waste, and the like. The support 1 supports a guide pipe 2 and a conduit 3 in a fixed manner. Another discharge pipe is connected to the end of the conduit 3, and this discharge pipe extends to the upper outside of the liquid tank.
[0003]
In the figure, reference numeral 4 denotes a pump main body immersed in a liquid tank. The pump main body 4 is suspended by a rope 5 and slidably connected to the guide pipe 2 via a sliding body 6. And is guided in the liquid tank in a vertical direction.
[0004]
A discharge pipe 7 is connected to the pump body 4, and a locking claw 8 is formed on an upper part of a discharge side end face of the discharge pipe 7. At the upper end of one end of the conduit 3, there is provided a holding portion 9 to which the locking claw 8 is detachably locked.
[0005]
When using the submersible pump, the pump body 4 suspended from the rope 5 is lowered into the liquid tank along the guide pipe 2. When the pump body 4 is lowered by a predetermined amount, the locking claw 8 formed on the discharge pipe 7 is locked by the holding portion 9 formed on the conduit 3, and the moment due to the weight at this time causes the discharge pipe 7 to move. The discharge-side end face is in contact with and connected to the end face of the conduit 3. As described above, when the pump is driven in a state where the discharge pipe 7 and the conduit 3 are connected, the liquid in the liquid tank is sucked into the pump body 4 as indicated by an arrow, and then discharged from the discharge pipe 7. Is done. The discharged liquid is sent out of the liquid tank via the conduit 3 and the discharge pipe connected thereto.
[0006]
[Problems to be solved by the invention]
However, conventionally, when the pump body is a lightweight type made of, for example, a resin material, the moment due to the weight of the pump is small, so that the discharge pipe 7 may be lifted by the discharge pressure of the pump. When the discharge pipe 7 rises, the discharge end face is separated from the end face of the conduit 3 to form a gap S, and there is a disadvantage that the liquid leaks out from the gap S and the suction efficiency is reduced.
[0007]
As disclosed in JP-A-6-185492, there is a method for preventing leakage of liquid by providing a rubber bellows between a discharge port of a pump body and a conduit, but in the case of a lightweight pump, However, again, there is a problem that the discharge port rises and the rubber bellows inclines, making it impossible to completely seal.
[0008]
Therefore, the present invention provides a detachable submersible pump device that completely prevents leakage from a connection portion between a discharge pipe and a conduit and can reliably maintain a watertight state between the discharge pipe and the conduit. The purpose is to do.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 includes a pump body immersed in a liquid tank, a discharge pipe provided in the pump body to discharge liquid, a sliding body provided in the discharge pipe, A locking portion provided on the upper part of the outer periphery of the discharge pipe on the discharge side, and an end face fixedly provided in the liquid tank via a support, and a discharge-side end face of the discharge pipe being joined so as to be capable of coming and going. And a guide provided on the conduit and slidably connected to the sliding body; and a discharge pipe provided on the conduit and having an end face of the discharge pipe joined to an end face of the conduit. The engaging portion is engaged with a retaining portion which is detachably engaged and retained, and is fitted into an annular groove formed on a joint surface on the discharge side of the discharge pipe, and is elastically deformed when it comes into contact with the conduit. A sealing material made of an elastic body having a thin-walled conical lip portion; A projection protruding from a lower portion on the distal end side of the discharge pipe; and an engagement formed on the support and releasably engaging with the projection when an end face of the discharge pipe is joined to an end face of the conduit. And the sealing material has a lip portion whose tip is directed into the discharge pipe, and the discharge pipe has an inner diameter near the outlet from the pump body toward the outlet near the outlet. The present invention has an inner diameter expanding portion that expands while tilting and exposes the lip portion in the discharge pipe .
[0011]
[Action]
According to the first aspect of the present invention, the protrusion of the discharge pipe is engaged with the engaging portion of the support, so that the discharge pipe is prevented from floating. In addition, since the conical lip portion of the seal member made of an elastic body abuts the joint surface of the conduit, a slight gap generated when the discharge pipe receives the discharge pressure when the pump is driven, and the discharge pipe due to a dimensional error in manufacturing. Even if a small gap or the like is generated between the end face of the discharge pipe and the end face of the conduit due to a gap between the pipe and the surface roughness of the joint surface, leakage from the gap is prevented .
[0012]
Or ejection extraction tube is expanded inside diameter of the vicinity of the outlet may maintain a watertight at the connecting portion of the ejection extraction pipe and the conduit more securely.
[0013]
【Example】
Hereinafter, the present invention will be described with reference to an embodiment shown in FIGS.
FIG. 1 shows a detachable submersible pump device. In the drawing, reference numeral 11 denotes a support provided in a liquid tank (not shown) for sewage, filth, and the like.
[0014]
A guide pipe 12 is attached to the support 11, and a conduit 13 is fixedly supported. Another discharge pipe (not shown) is connected to the end of the conduit 13, and this discharge pipe extends to the outside of the liquid tank.
[0015]
In the figure, reference numeral 14 denotes a pump body immersed in a liquid tank. The pump body 14 is suspended by a rope 15 and connected to a discharge pipe 17. The discharge pipe 17 includes a sliding body 16. The pump body 14 is slidably connected to the guide pipe 12 via a sliding body 16 so that the pump body 14 is guided vertically in the liquid tank.
[0016]
The locking claw 18 of the engaging portion is formed on the upper portion of the discharge side end of the discharge pipe 17.
A holding portion 19 to which the locking claw 18 is detachably locked is projected from an upper end of the one end of the conduit 13, and the locking claw 18 of the discharge pipe 17 is locked to the holding portion 19. At this time, the discharge end face of the discharge pipe 17 is brought into close contact with the inflow end face of the conduit 13 and connected thereto.
[0017]
On the other hand, a projection 21 is integrally formed at the lower portion on the distal end side of the discharge pipe 17, and the projection 21 of the conduit 13 is engaged with the support 11 in a detachable manner. The part 22 is formed integrally. The engagement of the engaging portion 22 of the support 11 and the projection 21 of the discharge pipe 17 restricts the movement of the discharge pipe 17 as described later.
[0018]
Further, on the discharge end face of the discharge pipe 17, an annular groove 23 is provided at an opening edge of the discharge port as shown in FIG. 3, and this annular groove 23 is made of, for example, rubber, synthetic resin, metal or the like. A seal member 24 made of an elastic material is attached. The seal member 24 has an annular shape, and a conical lip portion 25 is formed on one side surface. The conical lip portion 25 abuts on the conduit 13 and is elastically deformed, and is pushed back to near the middle to eliminate the gap with the conduit 13. Note that the seal member 24 is fixed to the annular groove 23 by, for example, a screw 26 or the like.
Further, the inner diameter 27 of the discharge passage of the discharge pipe 17 is enlarged at the end on the discharge side, that is, in the vicinity of the annular groove 23.
[0019]
When such a submersible pump is used, the pump body 14 suspended on the rope 15 is lowered into the liquid tank along the guide pipe 12. When the pump body 14 is lowered by a predetermined amount, as shown in FIG. 2, a locking piece 18 formed on the discharge pipe 17 is locked by a holding portion 19 formed on the conduit 13, and And the conduit 13 are connected, and the protrusion 21 of the discharge pipe 17 and the engaging portion 22 of the support 11 are engaged. This prevents the discharge pipe 17 from floating.
[0020]
In such a connection state, the lip portion 25 of the seal member 24 fitted into the annular groove 23 is pressed against the joint surface side of the conduit 13, thereby maintaining watertightness. When the pump is driven after the discharge pipe 17 and the conduit 13 have been connected in this manner, the liquid is sucked into the pump body 14 as shown by the arrow, and then discharged from the discharge pipe 17. Is done. The discharged liquid is guided to the outside of the liquid tank via the conduit 13.
[0021]
By the way, when the pump is driven, the discharge pressure of the liquid acts on the discharge pipe 17. By the action of the discharge pressure, when the pump body 14 is formed of, for example, a resin material and is lightweight, the discharge pipe 17 rotates around the holding portion 19 to which the locking claw 18 is locked, Although the end face tends to move in a direction away from the end face of the conduit 13, as described above, since the projection 21 of the discharge pipe 17 is engaged with the engaging portion 22 of the support 11, the discharge pipe 17 Is prevented from rising. Therefore, the movement of the discharge pipe 17 is restricted. Also, a slight gap tends to be formed between the end face of the discharge pipe 17 and the end face of the conduit 13 due to the above rotational moment, but the lip 25 of the seal member 24 is pressed against the end face of the conduit 13. Can be kept watertight. In addition, since the inner diameter 27 near the annular groove 23 of the discharge pipe 17 is enlarged, a water flow is generated in this portion. Therefore, the lip portion 25 of the seal member 24 is pressed against the joint surface side of the conduit 13 by receiving the water pressure, whereby the watertightness is further maintained. During the operation of the pump, the discharge pressure causes the conical lip of the seal member 24 to be pressed against the joint surface side of the conduit, so that the water density can be further maintained.
[0022]
Further, the end face of the discharge pipe 17 and the end face of the conduit 13 may be lifted up by the gap between the projection 21 of the discharge pipe 17 and the engaging part 22 of the support 11 due to a dimensional error in manufacturing, or the surface roughness of the joint surface. And a slight gap may be formed between them.
However, since the sealing member 24 is connected in close contact as described above, water leakage from the joint surface is prevented, and complete sealing is possible.
[0023]
Therefore, the liquid does not leak out from between the end face of the discharge pipe 17 and the end face of the conduit 13, and can be suctioned and discharged well.
After use of the pump, the pump body 14 is lifted upward and taken out of the liquid tank. When the pump body 14 is lifted upward, the locking claw 18 of the discharge pipe 17 is disengaged from the projection 19 of the conduit 13, and the projection 21 of the discharge pipe 17 is disengaged from the engagement part 22 of the support 11.
The present invention is not limited to the above-described embodiment, and it is needless to say that various modifications can be made.
[0024]
【The invention's effect】
As described above, according to the present invention, since the projection of the discharge pipe is engaged with the engaging portion of the support, the discharge pipe is prevented from floating. In addition, since the conical lip of the seal member made of an elastic body abuts the joint surface of the conduit, a slight gap generated when the discharge pipe receives discharge pressure when the pump is driven, and the discharge pipe due to a dimensional error in manufacturing. Even if a small gap or the like generated between the end face of the discharge pipe and the end face of the conduit due to a gap between the pipe and the surface roughness of the joint surface or the like is generated, leakage from these gaps is prevented. Therefore, a favorable watertight state can be maintained.
[0025]
For this reason, even if the pump body is of a lightweight type, the liquid does not leak from between the end face of the discharge pipe and the end face of the conduit, and a good pump action can be achieved.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a step of lowering a pump body of a detachable submersible pump apparatus according to an embodiment of the present invention into a liquid tank and a step of raising the pump body above the liquid tank.
FIG. 2 is a diagram showing a state in which an end face of a discharge pipe of a pump main body and an end face of a conduit of the detachable submersible pump device of FIG. 1 are joined to each other;
FIG. 3 is a diagram illustrating a detailed configuration of a seal member, which is an enlarged view of a portion A in FIG. 2;
FIG. 4 is a configuration diagram showing a connection structure between a discharge pipe and a conduit of a conventional detachable submersible pump device.
FIG. 5 is a plan view of the detachable submersible pump device of FIG. 4;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 11 ... Support body 12 ... Guide pipe 13 ... Conduit 14 ... Pump body 15 ... Rope 16 ... Sliding body 17 ... Discharge pipe 18 ... Locking claw (locking part)
19 ... holding part 21 ... projection part 22 ... engagement part 23 ... annular groove 24 ... seal member 25 ... lip part 26 ... screw 27 ... inner diameter enlarged part

Claims (1)

A pump body immersed in the liquid tank,
A discharge pipe provided in the pump body for discharging a liquid,
A sliding body provided in the discharge pipe,
A locking portion provided on the upper part of the outer periphery on the discharge side of the discharge pipe,
A conduit fixedly provided in the liquid tank via a support, and having an end face to which a discharge-side end face of the discharge pipe is joined so as to be capable of coming and going;
A guide portion provided on the conduit, wherein the sliding body is slidably connected;
A holding portion provided on the conduit, wherein a locking portion of the discharge tube is detachably locked and held when an end surface of the discharge tube is joined to an end surface of the conduit;
A sealing member made of an elastic body having a thin conical lip portion which is fitted into an annular groove formed on a joint surface on the discharge side of the discharge pipe and elastically deforms when it comes into contact with the conduit;
A projection protruding from a lower portion on the distal end side of the discharge pipe,
An engagement portion formed on the support and engaging with the projection portion detachably when an end surface of the discharge pipe is joined to an end surface of the conduit ;
The sealing material has a lip portion whose front end faces into the discharge pipe,
The discharge pipe is characterized in that it has an inner diameter enlargement portion near the outlet, the inner diameter near the outlet expanding while gradually inclining from the pump body side toward the outlet to expose the lip portion in the discharge tube. Removable submersible pump device.

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