JPH0256768B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention can be used as an automatic pump that starts and stops the pump at a predetermined water level, and can also be used as a normal non-automatic pump.
This relates to automatic/non-automatic conversion type submersible pumps.

[Prior art and its problems] In an automatic pump equipped with a conventional water level detector as shown in Fig. 10, a water level detector installed on a float 1'' that moves up and down along a lifting guide 2'' as the water level increases and decreases. The magnet 5' closes the reed switch 7' in the lifting guide 2'' at a predetermined rising limit (or falling limit) as shown in Figure A, and when the water level falls (or rises) as shown in Figure B. As the magnet 5' moves away, the reed switch 7' is opened and restored, and the opening/closing operation of the reed switch 7' is transmitted to the pump motor circuit via the transformer and relay.

In this system, if the water level falls even slightly from a predetermined rising limit, the magnet 5' moves away from the reed switch 7' and the pump is stopped, so the control range of the water level is extremely small and unstable.

Therefore, in order to control the operation of the submersible pump, it is necessary to install two water level detection devices, one for upper limit activation and one for lower limit stop. Another drawback is that chattering occurs due to ripples on the water surface. Further, since a transformer and a relay require a large space to be installed, they cannot be installed inside the detection device, but must be installed inside the motor casing of the pump.

Therefore, it is virtually impossible to attach a water level detection device to a ready-made non-automatic pump and convert it into an automatic pump. requires that it be designed to be automatic from the beginning.

[Object of the Invention] An object of the present invention is to be able to reliably detect the second level of the water level with a single water level control device, to set the control width arbitrarily, and to prevent chattering caused by ripples on the water surface. The water level detection device does not require a transformer or relay to be installed on the motor side, and can be manufactured off-the-shelf without the need for a transformer or relay built into the motor side. An object of the present invention is to provide an automatic/non-automatic conversion type submersible pump that can convert a non-automatic pump into an automatic or non-automatic pump at the appropriate time.

[Structure of the Invention] In the automatic/non-automatic conversion type submersible pump according to the present invention, a power cord outlet is provided at a proper location in the outer casing, and a watertight structure such as packing is removably attached to the outlet. It consists of a submersible pump designed as such, and a float-type water level control device with a mounting arm protruding from the side, the tip of which overlaps with the outlet, and the float-type water level control device is fitted into the housing so as to be able to rise and fall freely. The upper end surface of the driven body that fits with the float or the body derived from the float is used as a movable suction head that faces the fixed suction body described later, and a stopper is attached to the guiding part of the driven body so that the float or the float A fixed suction body is mounted on the upper part of the housing and faces the movable suction head, and a reed switch is disposed at a position close to the fixed suction body, In addition, a non-contact type switching element consisting of a triax as a main body and an electronic circuit is installed in the mounting arm extending sideways from the housing, and a drawer led out from each contact piece of the reed switch is installed. Connect the wire to the input side of the switching element, and lead out wires for power supply and load on the output side, and overlap the tip of the mounting arm over the outlet from which the watertight structure has been removed. , when the lead wires from the output side of the switching element are connected to one line of the power cord and one line of the motor side lead wire, and the power cord is led out from the outlet through the watertight structure, the above By fixing the watertight structure and the tip of the mounting arm on the outlet, it becomes an automatic submersible pump with the housing part hanging vertically on the outside of the submersible pump. Remove the watertight structure from above the outlet, connect the leader wire to one line of the power cord and one line of the motor side leader wire, and lead out the power cord from the outlet through the watertight structure. By fixing it thereon, it is configured to be used as a normal non-automatic pump.

[Function] When used as an automatic submersible pump, the driven body is pushed up by the rising action of the float as the water level rises, the movable suction head is attracted to the fixed suction body, and the reed switch is activated by magnetic action. operates to close,
As the water level falls, the float or lead-out body descends and locks on the stopper, and if the water level falls further and the submerged volume of the float decreases, and the load on the stopper increases, the movable suction head As the driven member descends against the adsorption force between the reed switch and the fixed adsorption member, the reed switch returns to the open state, and the opening/closing operation of the reed switch connects and disconnects the output circuit of the switching element.

[Example] To explain the drawings showing the example, A is a submersible pump, and an outlet 14 for the power cord K is opened at a proper place in the outer casing 13, and the outlet 14 is provided with a watertight structure such as packing. The body 18 is adapted to be removably mounted.

Reference numeral B denotes a float type water level control device, and a mounting arm 11, whose tip end is superimposed on the outlet port 14, is protruded laterally.

To explain the specific structure of the float type water level control device B in detail, 1 is a float fitted in the housing 2 so as to be able to rise and fall freely, and 3 is a float that moves up and down inside the housing 2 following the lifting and lowering operation of the float 1. A driven body that
For example, as shown in FIG. 4A, it is formed into a rod shape and fits into the vertical hole of the float 1, or as shown in FIG. 5, it is formed into a frame shape and fits into the outer circumference of the float 1, or As seen in FIG. 6, it fits with the lead-out body 1' from the float 1, and the upper end surface is attached to the fixed adsorption body 4, which will be described later.
A movable suction head 5 faces the float 1, and a stopper 6 is attached to the guide portion to form a pressure receiving portion that supports the float 1 or its lead-out body 1'.

Reference numeral 4 denotes a fixed adsorbent mounted on the upper part of the mantle 2 facing the movable adsorbent head 5 of the driven body 3, and 7 indicates a reed switch disposed close to the fixed adsorbent 4. It is.

As a specific embodiment of the fixed adsorption body 4 and the movable suction head 5, for example, as shown in FIG. reed switch 7
or, as shown in FIG. 5, the movable suction head 5 made of soft iron comes into contact with the fixed suction body 4 equipped with a magnet, thereby closing the normally open reed switch 7. As shown in FIG. 7, a mode is adopted in which a movable suction head 5 made of soft iron approaches a fixed suction body 4 made of magnet, thereby opening a normally closed reed switch 7.

Reference numeral 8 denotes a non-contact type switching element mainly composed of a triax and an electronic circuit, and is housed in a heat dissipating aluminum tube case 10 covered with an insulating tube 9. The lead wires installed in the horizontal arm 11 and led out from the contact pieces 7a and 7b of the reed switch 7 are connected to the input side of the switching element 8, and the output side is connected to the power supply and load wires. The leader line is now derived.

The housing 2 has, for example, a water passage hole 12 in the bottom surface so that the internal float 1 can move up and down as the water level increases and decreases, and the upper end has a fitting or screw-in structure so that the side arm 11 can be opened. Combined with the root.

If the submersible pump A is an automatic type, the tip of the side arm 11 is connected to the wire outlet 14 at the upper part of the pump.
A vertical hole 15 is bored in the center of the vertical hole 15, and a lead wire from the output side of the switching element 8 is led out from a horizontal hole 16 communicating orthogonally with the vertical hole 15. Connect it to the power cord. The other wires of the power cord are directly connected to the motor side lead wire.

A bolt hole is provided in the flanged edge 17 around the vertical hole 15, and a packing 18 and a restraining cover 19 made in the same shape as the flanged edge 17 are superimposed on the flanged edge 17, and the mounting bolts 20 are inserted. By screwing, the side arm 11 is fixed to the upper part of the submersible pump 13, and the housing 2 is placed vertically on the side of the submersible pump 13, as shown in FIG. 1A and B.

In this state, when the water inside the tank is used for draining, the operation mode will be explained with reference to FIG. When the predetermined rise limit _l1 is reached, the movable suction head 5 of the driven body 3 and the fixed suction body 4 attract each other, and the reed switch 7 is closed by magnetic action. The output circuit of the switching element 8 is made conductive, and the submersible pump A operates, sucking water in the tank through the water intake port 21 and draining it out of the tank through the discharge port 22.

Even if the water level in the tank drops as shown in Figure 3 B due to the drainage action of submersible pump A, it will still fall below the specified lower limit.
Pump A continues to operate and drain water until l ₂ is reached.

Since the pump A does not stop immediately after the float 1 descends and stops on the stopper 6, the water level drops further, but it descends to a predetermined lowering limit _l2 and the submerged part of the float 1. If the load on the stopper 6 increases due to a decrease in the volume of Open the reed switch 7 and return it to the open position.
The output circuit of the switching element 8 is cut off and the operation of the pump A is stopped.

In this way, automatic operation control of starting the pump at a predetermined rise limit _l1 of the water level in the tank and stopping the pump at a predetermined fall limit _l2 is performed by the water level detection device B having the function of detecting the second level of the water level. be.

Unlike the above-mentioned usage example, it is also possible to install the submersible pump A equipped with the water level detection device B in the tank, and to supply water into the tank from a supply source outside the tank. In this case, the fixed adsorption body 4 and the movable adsorption head 5 are arranged as shown in FIG. This stops the water supply and interrupts the water supply.

In either case, by setting the lengths of the float 1 and the driven body 3 in the axial direction to appropriate dimensions, the effective movement range of the float 1 can be set arbitrarily. By setting the effective movement width of the float 1 to an appropriate value, the distance between the water level rise limit _l1 and the fall limit _l2 , that is, the water level control width, can be set to an arbitrary value. be.

In addition, when using it as a non-automatic pump, remove the tip of the mounting arm 11 from above the outlet 14 as shown in FIG.
Ld is connected to one line _K1 of the power cord K and one line _M1 of the motor side lead-out line, and with the power cord K led out from the outlet 14 through the watertight structure 18, the watertight structure 18 is pulled out. It is fixed on the outlet 14.

Note that the connection structure for each leader wire is such that predetermined leader wires are connected to each other by simply pushing the mounting arm 11 from above the drawer opening 14, and the connection is established by pulling the mounting arm 11 upward. be divided,
Of course, a so-called one-touch type structure is also possible.

[Effects of the Invention] The pump of the present invention has the following advantages over conventional automatic pumps.

First, at a predetermined rising limit of the water level, the moving body is fixed by the attraction force of the magnet, and
At a predetermined lowering limit of the water level, the float and the moving body are largely separated from the reed switch, so that even if ripples occur on the water surface, the reed switch remains closed or open, and no chattering occurs.

Secondly, since the reed switch is designed to be switched only at the upper or lower limit of the float, it is possible to reliably detect the second level of the water level with a single device. Moreover, the distance between the rising limit and the falling limit of the water level, that is, the control width of the water level, can be arbitrarily set by setting the effective movement width of the float to an appropriate value.

Thirdly, the opening/closing operation of the reed switch is transmitted to the motor circuit by a non-contact type switching element composed of an electronic circuit mainly consisting of a triax, so it is explosion-proof and does not emit sparks when the circuit is opened/closed. Excellent. Furthermore, since this switching element has no moving parts, it can withstand long-term use and has excellent vibration resistance.

Fourth, compared to conventional systems that use relays and transformers, it is much smaller and costs less, and the switching element can be incorporated into the water level detection device, so the motor side does not require a transformer or a transformer. There is no need to install a relay internally, and therefore, by simply attaching the device of the present invention to a ready-made non-automatic pump, it can be used immediately as an automatic pump, and by removing it from the outside of the pump, it can be used as an automatic pump. It can also be returned to the pump.
This means that off-the-shelf non-automatic pumps can be converted to automatic or non-automatic at any time.

[Brief explanation of drawings]

FIG. 1 shows the state when the pump of the present invention is used as an automatic type, in which A is an external side view and B is a longitudinal sectional side view of the main part. FIG. 2 is a longitudinal sectional side view of the main part of the pump of the present invention, showing a state in which the watertight structure is removed from the power cord outlet. FIG. 3 is an explanatory diagram showing the operating mode of the water level control device when the pump of the present invention is used as an automatic type, in which (a) shows the state when the water level reaches a predetermined rising limit, and (b) shows the state when the water level has fallen. State C when the water level is rising is the state when the water level reaches a predetermined lowering limit. FIG. 4 shows a specific example of the water level control device in the pump of the present invention, in which A is a longitudinal sectional side view of the main part and B is a bottom view. 5 to 7 are longitudinal sectional side views of main parts showing other specific examples of the water level control device. FIG. 8 is a vertical sectional side view of a main part of a switching element incorporated into a water level control device in a pump of the present invention. FIG. 9 is a longitudinal sectional side view of the main part of the pump of the present invention when used as a non-automatic pump. FIG. 10 is an explanatory diagram showing the operating mode of a water level control device used in a conventional submersible pump, in which A shows the state when the water level reaches a predetermined rising limit, and B shows a state when the water level reaches a predetermined falling limit. This is the state when . 1... Float, 1'... Derived body, 2... Mantle,
3... Driven body, 4... Fixed suction body, 5... Movable suction head, 6... Stopper, 7... Reed switch, 7a, 7b... Contact piece, 8... Switching element, 11... Mounting arm, 13...outer casing,
14... Outlet, 18... Watertight structure, A... Submersible pump, B... Water level control device, K... Power cord, K ₁ ... Line of power cord, La, Lb... Reed switch contact piece Lc, Ld...Leader lines from the output side, M ₁ ...Leader lines from the motor side.

Claims (1)

[Claims] 1. An outlet 14 for the power cord K at a proper location in the outer casing 13.
A submersible pump A with a watertight structure 18 such as packing attached to the outlet 14 in a removable manner, and a float type with a mounting arm 11 protruding from the side whose tip overlaps with the outlet 14. The float-type water level control device B includes a float 1 fitted in a mantle 2 so as to be able to rise and fall freely.
The upper end surface of the driven body 3 that fits with the fixed adsorption body 4
A movable suction head 5 is provided facing the float 1, and a stopper 6 is attached to the guiding portion of the driven body 3.
A fixed suction body 4 facing the movable suction head 5 is mounted on the upper part of the housing 2, and a reed switch 7 is disposed close to the fixed suction body 4. In addition, a non-contact type switching element 8 consisting of a triax as a main body and an electronic circuit is installed in the mounting arm 11 extending laterally from the housing 2, and each contact piece of the reed switch 7 is attached to the mounting arm 11. Leader line derived from 7a and 7b
La and Lb are connected to the input side of the switching element 8, and lead wires Lc and Ld for power supply and load are led out from the output side. The tips of the mounting arms 11 are overlapped, and the lead wires Lc and Ld from the output side of the switching element 8 are connected to one line _K1 of the power cord K and one line _M1 of the motor side leader line.
The watertight structure 18 and the mounting arm 1 are connected to each other, and the power cord K is led out from the outlet 14 through the watertight structure 18.
By fixing the tip of the mounting arm 1 on the outlet 14, the casing 2 becomes an automatic submersible pump vertically installed on the outside of the submersible pump A, and the tip of the mounting arm 11 is attached to the outlet 14. 14 from above, and connect the lead wires Lc and Ld to one line _K1 of the power cord K and one line _M1 of the motor side leader line, and lead out the power cord K from the outlet 14 through the watertight structure 18. An automatic/non-automatic exchange type submersible pump configured to be used as a normal non-automatic pump by fixing the watertight structure 18 on the outlet 14 in the above-mentioned state. 2. Outlet 14 for power cord K at appropriate location on outer casing 13
A submersible pump A with a watertight structure 18 such as packing attached to the outlet 14 in a removable manner, and a float type with a mounting arm 11 protruding from the side whose tip overlaps with the outlet 14. The float-type water level control device B includes a float 1 fitted in a mantle 2 so as to be able to rise and fall freely.
The upper end surface of the driven body 3 that fits with the lead-out body 1' from above is used as a movable suction head 5 that faces the fixed suction body 4 described later, and a stopper 6 is attached to the guiding part of the driven body 3 to attach the float 1. A fixed suction body 4 facing the movable suction head 5 is attached to the upper part of the mantle 2, and a lead is placed close to the fixed suction body 4. switch 7
In addition, a non-contact type switching element 8 consisting mainly of a triax and an electronic circuit is installed in the mounting arm 11 extending sideways from the housing 2. The lead wires La, Lb led out from the contact pieces 7a, 7b are connected to the input side of the switching element 8, and the power supply and load lead wires Lc, Lc are connected to the output side of the switching element 8.
The tip of the mounting arm 11 is placed over the outlet 14 from which the watertight structure 18 has been removed, and the lead wires Lc and Ld from the output side of the switching element 8 are connected to the line of the power cord K. K ₁ and motor side leader line M ₁
The watertight structure 18 and the mounting arm 1 are connected to each other, and the power cord K is led out from the outlet 14 through the watertight structure 18.
By fixing the tip of the mounting arm 1 on the outlet 14, the casing 2 becomes an automatic submersible pump vertically installed on the outside of the submersible pump A, and the tip of the mounting arm 11 is attached to the outlet 14. 14 from above, and connect the lead wires Lc and Ld to one line _K1 of the power cord K and one line _M1 of the motor side leader line, and lead out the power cord K from the outlet 14 through the watertight structure 18. An automatic/non-automatic exchange type submersible pump configured to be used as a normal non-automatic pump by fixing the watertight structure 18 on the outlet 14 in the above-mentioned state.