JP4451081B2 - Submersible pump attachment / detachment mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an attachment / detachment mechanism for a submersible pump that is attachable / detachable to / from a connecting pipe installed in a pit such as a manhole.
[0002]
[Prior art]
Conventionally, a submersible pump for pumping up sewage stored in the manhole and draining it downstream is installed in the manhole into which sewage or the like flows. This submersible pump usually has a motor arranged in the upper part and a pump casing arranged in the lower part, and an impeller arranged in the pump casing is rotated by the motor, and liquid is put in the pump casing. The liquid sucked into the pump casing is configured to be discharged from a discharge port provided on the side of the pump casing.
[0003]
And such a submersible pump is comprised so that it can install in a manhole, even if an operator does not work in a narrow manhole.
[0004]
That is, a discharge conduit is installed vertically in the manhole, and a connecting pipe installed in a horizontal state is connected to the lower end of the discharge conduit. Then, the submersible pump suspended by a chain or the like is lowered along the guide column vertically arranged in the manhole, and the discharge port of the submersible pump is automatically installed at the inlet of the connecting pipe. Connected to each other.
[0005]
At this time, the discharge port portion of the submersible pump is configured to open to the side, and the introduction port portion of the connecting pipe disposed in the manhole is connected to the discharge port portion of the submersible pump. The discharge port portion of the submersible pump and the introduction port portion of the connection pipe are detachably connected by an attachment / detachment mechanism (for example, Patent Document 1, Patent Document). 2, see Patent Document 3).
[0006]
A seal member is appropriately interposed between the connection surfaces of the discharge port portion of the submersible pump and the introduction port portion of the connection pipe. When the submersible pump is attached to the connection pipe by the attachment / detachment mechanism, the submersible pump Due to the so-called gravitational moment due to the weight of the water, the connection surface between the discharge port of the submersible pump and the inlet of the connecting pipe is pressed in a watertight state.
[0007]
Further, when the submersible pump is driven, a so-called reaction force moment is generated in a direction in which the connection surface between the discharge port portion of the submersible pump and the introduction port portion of the connection pipe is separated by the pressure of the liquid discharged from the discharge port portion, In particular, in a pump having a high total lift, the reaction force moment becomes larger. In order to prevent the connection surface from separating due to such a reaction force moment, a fulcrum position for supporting the installed submersible pump is arranged near the center of the connection surface to reduce the reaction force moment caused by the liquid pressure. The structure to make it smaller, the structure to increase the gravity moment due to the weight of the submersible pump by moving the fulcrum position to support the installed submersible pump from the center of gravity of the submersible pump, and the submersible pump by the reaction force moment generated by the liquid pressure The structure which controls the floating of the was adopted.
[0008]
[Patent Document 1]
JP-A-10-54397 [Patent Document 2]
Japanese Patent Laid-Open No. 8-200209 [Patent Document 3]
Japanese Utility Model Publication No. 57-41436 [0009]
[Problems to be solved by the invention]
However, according to the above conventional structure, although the effect of effectively preventing the separation of the connection surface between the discharge port portion of the submersible pump and the introduction port portion of the connection pipe can be exhibited, for example, during maintenance as shown in FIG. When the submersible pump 2 is pulled up via the chain 1, the submersible pump 2 is rotated with the fulcrum projection 3 serving as a fulcrum position for supporting the submersible pump 2 being a pivot fulcrum. Rotation of the attachment / detachment mechanism 4 causes twisting, and the connection surface between the discharge port portion 5 on the submersible pump 2 side and the introduction port portion 7 of the connection pipe 6 interferes, and the submersible pump 2 cannot be pulled up. There was a fear.
[0010]
Further, if the submersible pump 2 is forcibly pulled up without noticing such a twisted state, the attachment / detachment mechanism 4 and the like may be damaged.
[0011]
In view of the above problems, an object of the present invention is to provide a submersible pump attaching / detaching mechanism that effectively prevents the occurrence of twisting when the submersible pump is pulled up.
[0012]
[Means for Solving the Problems]
The technical means for achieving the above-described object is that a connecting pipe having an introduction port portion that opens toward the side and having an upward projecting guide rib on the outer periphery of the introduction port portion is installed in the pit. The guide rib is fitted to the outside of the discharge port portion so that the discharge port portion can be detachably connected to the introduction port portion by an elevating operation of a submersible pump having a discharge port portion opening toward the direction. A groove portion that opens downward, and a fulcrum protrusion provided on the inner surface of the groove portion so that when the guide rib is fitted into the groove portion, the groove portion contacts the side surface of the guide rib and serves as a rotation fulcrum of the submersible pump. In the submersible pump attaching / detaching mechanism provided with the attaching / detaching portion, a rotation restricting fulcrum portion that restricts the rotation around the fulcrum projection portion by contacting the attaching / detaching portion when the submersible pump is raised is provided. At the point
[0013]
In addition, as a structure in which a guide column for raising and lowering the submersible pump is erected and supported on a support base that supports the connection pipe, and a slide groove that is slidably guided along the guide column is formed in the detachable portion. Also good.
[0014]
Furthermore, it is good also as a structure where the said rotation control fulcrum part was each provided in the both sides of the said connecting pipe at distribution form.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings. As shown in FIGS. 1 to 3, a submersible pump 10 is a manhole as an example of a pit in order to pump up sewage containing, for example, filth and foreign matter. A pump casing 11 having an impeller disposed therein and a motor 12 for driving the rotation of the impeller disposed above the pump casing 11 are provided. I have.
[0016]
In addition, a handle portion 14 is provided on the upper portion of the motor 12 via a head cover 13, and a suspension chain 15 as a suspension rope for lifting operation of the submersible pump 10 is provided at the center portion of the handle portion 14. The lower end is connected.
[0017]
The pump casing 11 is formed of a synthetic resin or the like and is configured to be vertically divided. The pump casing 11 includes a pump chamber in which the impeller is accommodated, and a discharge pipe that extends outward from the pump chamber. The discharge pipe has a distal end that is curved upward, and a connection port portion 11a that opens upward is provided on the distal end surface, and a packing as a seal member is provided in the connection port portion 11a. A connecting pipe 16 made of synthetic resin or the like is attached.
[0018]
The connecting pipe 16 is configured in a horizontal state except for the base end portion, and the base end portion is bent downward by 90 degrees. And the end surface in a base end part is made into the opening part 16a opened toward the downward direction, and this opening part 16a is attached to the connection port part 11a of a discharge pipeline so that attachment or detachment is possible.
[0019]
Further, the other end surface of the connecting pipe 16 is a discharge port portion 16b that opens outward, and the outer periphery of the discharge port portion 16b includes a flange portion 16c that is formed to project radially outward. The detachable portion 18 extending outward is integrally provided at the upper end portion of the flange portion 16c. The inner peripheral surface of the end surface of the discharge port portion 16b is provided with a notch groove portion in a circumferential ring shape, and a seal member made of elastic rubber or the like is attached to the notch groove portion.
[0020]
Further, a plurality of leg portions 11b are provided on the bottom surface of the pump casing 11 so as to protrude in the circumferential direction.
[0021]
The submersible pump 10 is configured to be detachably connected to the end portion of the connecting pipe 20 disposed in a horizontal state at the bottom of the manhole via the detachable portion 18.
[0022]
The connecting pipe 20 has a structure that is supported in a horizontal state on a support base 21 installed on the bottom surface of the manhole, and one end of the connecting pipe 20 is curved upward, and the curved end thereof. The portion constitutes a lead-out port portion 20a that opens upward, and the lower end portion of the discharge conduit 22 arranged vertically along the inner peripheral surface of the manhole is liquid-tightly connected to the lead-out port portion 20a via a seal member. Connected.
[0023]
The other end surface of the connection pipe 20 supported on the support base 21 is an introduction port portion 20b that opens sideways, and the end surface of the opening periphery of the introduction port portion 20b is connected to the submersible pump 10 at the end surface. A seal member disposed in the discharge port portion 16b of the tube 16 is configured to be in pressure contact.
[0024]
In the present embodiment, the connecting pipe 20 and the support base 21 are integrally formed of synthetic resin or the like.
[0025]
Further, a pair of guide struts 23 made of guide pipes and the like are vertically supported and supported on the support base 21 from both sides of the connection pipe 20 located near the introduction port portion 20b of the connection pipe 20, respectively. As shown in FIG. 3, slide grooves 18 a that are slidably guided along the guide pillars 23 are formed on both sides in the width direction of the detachable portion 18.
[0026]
Then, the submersible pump 10 is configured to be guided up and down along the vertical direction by sliding the guide columns 23 into the both slide grooves 18a of the detachable portion 18 in the vertical direction.
[0027]
On the outer periphery of the end portion of the introduction port portion 20b in the connection pipe 20, that is, the outer periphery of the upper half portion in the present embodiment, a guide rib 20c that protrudes upward and extends in a direction perpendicular to the axis of the connection pipe 20 is formed to project. ing. Further, the side surface of the guide rib 20c on the outlet port 20a side is an inclined surface 20d, and the guide rib 20c is formed in a tapered shape that gradually becomes thinner in the upward direction.
[0028]
A groove portion 18b into which the guide rib 20c is inserted is formed on the lower surface side of the attachment / detachment portion 18 so as to open downward, and is formed in a direction perpendicular to the axis of the connecting pipe 16, and the groove portion 18b includes a groove portion 18b. When the guide rib 20c is fitted, it protrudes inward of the groove 18b at the lower end of the inner surface of the groove 18b so as to be in contact with the lower end of the inclined surface 20d of the guide rib 20c and serve as a pivot for the submersible pump 10. A fulcrum projection 18c is provided.
[0029]
At this time, as shown in FIG. 3, the fulcrum projections 18 c are arranged on both sides of the connection pipe 20 in a distributed manner.
[0030]
Further, the detachable portion 18 is positioned on the lower surface side of the extending end portion of the connecting pipe 20 in the direction of the outlet port 20a, and is lifted around the fulcrum projection 18c during the lifting operation by the lifting operation of the submersible pump 10. A rotation restricting fulcrum portion 25 that abuts on and off and restricts the rotation is provided.
[0031]
This rotation restricting fulcrum portion 25 is integrally provided on the support portion of the guide column 23 in the support base 21 or on the side surface of the connection tube 20. In this embodiment, as shown in FIG. They are arranged on both sides in a distributed manner. At this time, the distance between the lower surface of the detachable portion 18 and the upper surface of the rotation restricting fulcrum portion 25 is preferably as small as possible in order to effectively restrict the rotation when the submersible pump 10 is pulled up. About 3 mm is preferable.
[0032]
The attaching / detaching portion 26, the guide rib 20c, the rotation restricting fulcrum portion 25, and the like constitute an attaching / detaching mechanism 26.
[0033]
The present embodiment is configured as described above. When this submersible pump 10 is installed in a manhole, the entire submersible pump 10 is suspended by a suspension chain 15 connected to the through hole of the upper handle 14. When the slide groove 18a of the attaching / detaching part 18 is engaged with each guide column 23 supported upright in the manhole in the lowered state and the submersible pump 10 is gradually lowered, the guide column 23 Under the slide guide of the attaching / detaching part 18 along, it descends sequentially.
[0034]
When the connecting pipe 16 of the submersible pump 10 reaches the position of the connecting pipe 20, the guide rib 20c is inserted into the groove 18b, and finally the lower end of the inclined surface 20d as shown in FIGS. In this state, the end surface of the discharge port portion 16b is in contact with the end surface of the introduction port portion 20b in a state where the fulcrum projection 18c is in contact with the end portion.
[0035]
A so-called gravitational moment (W × L1) due to the weight W of the submersible pump 10 acts in the direction indicated by the arrow X in FIG. 1 with the fulcrum projection 18c pressed against the lower end of the inclined surface 20d as a fulcrum. At this time, since the fulcrum protrusion 18c is provided on the inner surface of the groove 18b opposite to the submersible pump 10, the fulcrum protrusion 18c is located far from the center of gravity of the submersible pump 10. A large gravitational moment of the submersible pump 10 is applied. As a result, it is possible to obtain a state in which the sealing member provided in the discharge port portion 16b of the connection pipe 16 is pressed against the end surface of the introduction port portion 20b of the connection pipe 20 in a watertight state.
[0036]
As described above, the submersible pump 10 is installed in the manhole. When the motor 12 of the submersible pump 10 is driven in this installed state, the impeller disposed in the pump casing 11 is rotated, and the rotation of the impeller causes liquid to enter the pump chamber of the pump casing 11 from the suction port. Is sucked, passes through the pump chamber as a vortex, and flows into the connecting pipe 16 through the discharge pipe. The liquid that has flowed into the connection pipe 16 is discharged from the discharge port portion 16b, flows into the connection pipe 20, and is discharged into the discharge conduit 22 connected to the connection pipe 20.
[0037]
When the liquid is discharged from the discharge port 16b of the connecting pipe 16, the so-called reaction force moment in the direction indicated by the arrow Y in FIG. 1 is generated around the fulcrum protrusion 18c by the reaction force F of the discharged liquid. (F × L2) acts on the submersible pump 10, and the submersible pump 10 tries to float upward.
[0038]
At this time, since the fulcrum protrusion 18c, which is the pivotal fulcrum of the reaction force moment at which the submersible pump 10 tries to float, is configured to abut against the lower end of the inclined surface 20d of the guide rib 20c, It has a structure that is closer to the center of the connection surface between the outlet portion 16b and the introduction port portion 20b, the mutual distance (L2) can be shortened, and the reaction force moment that becomes the rising direction of the submersible pump 10 can be further reduced. Here, coupled with an increase in the moment of gravity due to the weight of the submersible pump 10, even if the pump has a high total lift, it is possible to effectively prevent the submersible pump 10 from being lifted, and the discharge port portion 16b and the inlet port portion 20b. It is possible to effectively ensure the watertight state of the connection surface.
[0039]
Next, when performing maintenance such as maintenance and inspection of the submersible pump 10, the suspension chain 15 connected to the submersible pump 10 may be pulled upward. In the initial stage of the lifting operation of the suspension chain 15, the submersible pump 10 is rotated around the fulcrum protrusion 18c (in the direction of arrow Y in FIG. 1). As shown in FIG. Since the end portion immediately comes into contact with the rotation restriction fulcrum portion 25, the subsequent rotation around the fulcrum projection 18c is restricted.
[0040]
Accordingly, inadvertent twisting in the attaching / detaching mechanism 26 can be effectively prevented, and the groove 18b is smoothly detached from the fitted guide rib 20c. Thereafter, the slide guide along the guide column 23 of the attaching / detaching portion 18 is achieved. The submersible pump 10 is sequentially lifted by pulling up the suspension chain 15 and pulled up from the manhole.
[0041]
In addition, the lower surface of the detachable portion 18 is formed in a curved shape that bulges upward appropriately so as not to interfere with the upper surface of the connection pipe 20 when the submersible pump 10 is raised and lowered.
[0042]
As described above, since the rotation restricting fulcrum portion 25 that restricts the rotation around the fulcrum protrusion 18c is provided during the raising operation by lifting the submersible pump 10, the detachment mechanism 26 can be effectively prevented from being twisted, Here, the mutual interference of the connection surface of the discharge port part 16b of the connection pipe 16 and the introduction port part 20b of the connection pipe 20 can be prevented, and the submersible pump 10 can be smoothly pulled up from the manhole.
[0043]
Further, since the occurrence of twisting can be prevented, an unreasonable load does not act on the attachment / detachment mechanism 26 and the like, and damage to the attachment / detachment mechanism 26 and the like during lifting can be effectively prevented.
[0044]
Furthermore, the slide groove 18a is formed in the attachment / detachment portion 18, and the structure as the slide member that is slidably guided along the guide column 23 is also used by the attachment / detachment portion 18, and there is an advantage that the structure can be simplified.
[0045]
Further, the rotation restricting fulcrum portions 25 against which the detachable portion 18 abuts are provided on both sides of the connecting pipe 20 in a distributed manner, and around the axis of the connecting pipe 20 when the submersible pump 10 is pulled up. Inclination of the submersible pump 10 can be effectively prevented, the submersible pump 10 can be lifted up in a stable posture, and there is an advantage that the submersible pump 10 can be pulled up more smoothly from this point.
[0046]
Furthermore, it is a simple structure provided with a rotation restricting fulcrum portion 25 that faces the lower surface of the end portion of the detachable portion 18 so as to come into contact with and away from it, and has an advantage that it can be easily manufactured.
[0047]
As described above, since the occurrence of twisting can be effectively prevented, the fulcrum protrusion 18c serving as the pivotal fulcrum of the reaction force moment at which the submersible pump 10 tries to float up is provided with the discharge port portion 16b and the introduction port portion 20b. It is possible to make the structure closer to the center of the connecting surface of the submersible pump, the reaction force moment in the lifting direction of the submersible pump 10 can be further reduced, and even when the total lift of the submersible pump 10 is increased. In order to prevent liquid leakage from the connection surface between the discharge port portion 16b and the introduction port portion 20b, the weight of the submersible pump 10 is increased and the distance L1 between the center of gravity of the submersible pump 10 and the fulcrum projection 18c is increased. It is not necessary to increase the gravitational moment due to, and the manufacturing cost reduction effect can be effectively exhibited.
[0048]
In addition, in the said embodiment, although the structure which provided the rotation regulation fulcrum part 25 which the extended edge part lower surface of the attachment or detachment part 18 contact | abuts on both sides is shown, the structure provided in one central place may be sufficient, Furthermore, it is good also as a structure which serves as the rotation control fulcrum part 25 with which the upper end part of the connection pipe | tube 20 contact | abuts so that a lower surface of the extension end part of the attachment / detachment part 18 can contact / separate freely.
[0049]
Moreover, although the connection pipe | tube 16, the attachment / detachment part 18, the connection pipe | tube 20, the support stand 21, etc. have shown the structure formed with the synthetic resin, it is good also as a structure formed with a metal material suitably, and the fulcrum in which load acts, It is good also as a structure which reinforces suitably each part of the protrusion part 18c for supporting points used as a contact part, the inclined surface 20d, and the rotation control fulcrum part 25 with a metal material.
[0050]
【The invention's effect】
As described above, according to the submersible pump attaching / detaching mechanism of the present invention, the rotation restricting fulcrum portion that restricts the rotation around the fulcrum protrusion is provided by the attaching / detaching portion when the submersible pump is raised. Since the structure is adopted, it is possible to effectively prevent the occurrence of twisting when the submersible pump is pulled up, and there is an advantage that the submersible pump can be pulled up smoothly.
[0051]
In addition, if a support column that supports the connection pipe is supported by a guide column for raising and lowering the submersible pump, and a slide groove that is slid and guided along the guide column is formed in the detachable part, There is an advantage that the member can be shared and the structure can be simplified.
[0052]
In addition, if the rotation restriction fulcrum is structured so as to be distributed on both sides of the connecting pipe, the submersible pump can be lifted in a stable posture without being twisted. There is an advantage that can be raised.
[Brief description of the drawings]
FIG. 1 is a side view of a submersible pump mounted through an attachment / detachment mechanism according to an embodiment of the present invention.
FIG. 2 is an enlarged view of the main part.
3 is a plan view of FIG. 1. FIG.
FIG. 4 is an explanatory diagram when the submersible pump is pulled up.
FIG. 5 is an explanatory diagram showing a twisted state when the submersible pump is pulled up.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Submersible pump 15 Suspension chain 16 Connection pipe 16b Discharge port part 18 Detachment part 18a Slide groove 18b Groove part 18c Protrusion part 20 for connection point 20b Introduction port part 20c Guide rib 20d Inclined surface 22 Discharge conduit 23 Guide support | pillar 25 Rotation restriction fulcrum Part 26 attachment / detachment mechanism

Claims (3)

A submerged water pipe having a discharge port portion that has an introduction port portion that opens toward the side, and that has a connecting pipe provided with a guide rib protruding upward on the outer periphery of the introduction port portion. In order to detachably connect the discharge port portion to the introduction port portion by the lifting and lowering operation of the pump, a groove portion that opens downward in which the guide rib is inserted outside the discharge port portion, and a guide rib in the groove portion. Of the submersible pump provided with an attaching / detaching portion provided with a fulcrum projection provided on the inner side surface of the groove portion so that it contacts the side surface of the guide rib when the is inserted and becomes a pivot point of the submersible pump. In the attachment / detachment mechanism,
A submersible pump attaching / detaching mechanism provided with a rotation restricting fulcrum portion that abuts on the attaching / detaching portion and restricts the rotation around the fulcrum projection during the raising operation of the submersible pump. A guide column for raising and lowering the submersible pump is supported upright on a support base that supports the connection pipe, and a slide groove that is slid and guided along the guide column is formed in the detachable portion. The attachment / detachment mechanism for the submersible pump according to claim 1. 3. The submersible pump attaching / detaching mechanism according to claim 1, wherein the rotation restricting fulcrum portions are provided in a distributed manner on both sides of the connecting pipe.

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