JP2002174397A - Drain discharge device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a drain discharge device capable of facilitating the maintenance and management of the device to improve the convenience. SOLUTION: This device is constituted so as to be changeable, by driving a plunger 115 within a three-way valve 11, to a first state where a first inlet and outlet 111 is allowed to communicate with a second inlet and outlet 112 and a third inlet and outlet 113 is closed and to a second state where the second inlet and outlet 112 is allowed to communicate with the third inlet and outlet 113, and the first inlet and outlet 111 is closed, so that the drain water and compressed air generated in the apparatus of a compressed air system is temporarily stored in a storage part, and the drain water and compressed air in the storage part 30 is discharged out of the device through a drain discharge pipe 14.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a receiver tank,
The present invention relates to a drain discharge device that discharges drain water generated in a dehumidifying device or another device of a compressed air system through a three-way valve.

[0002]

2. Description of the Related Art As a conventional drain discharge device, there is one disclosed in Japanese Patent Application Laid-Open No. 7-293792.

That is, a three-way valve is connected to a drain receiving pipe of a device of a compressed air system, and by rotating a ball valve in a main body of the three-way valve at a predetermined cycle, three inlets and outlets of the three-way valve are opened and closed, respectively. The drain water and the compressed air from the drain receiving pipe temporarily store the storage section via a three-way valve, or the drain water and the compressed air in the storage section are discharged to the outside via the three-way valve. According to such a conventional technique, loss of compressed air due to drain discharge can be suppressed to a minimum, and energy loss can be prevented.

[0004]

However, in such a conventional technique, the packing is fitted on the ball valve which rotates inside the valve body, and the packing is rubbed against the valve body with the rotation of the ball valve. Wear progresses. As the wear of the packing progresses, the airtightness is reduced, and the drain leaks from the three-way valve or the compressed air constantly flows out, resulting in energy loss.

In order to increase the durability of the three-way valve, a packing having high wear resistance is used. For example, in a drain discharge device which treats a large amount of drain water, the rotation frequency of the ball valve is low. As the packing frequently rubs against the valve body, the progress of packing wear cannot be suppressed, and if inspection and replacement of consumable parts such as packing are frequently performed, maintenance of the drain discharge device will be required. However, there is a problem in that it is cumbersome and not easy to use.

SUMMARY OF THE INVENTION The present invention has been made in view of such conventional problems, and has as its object to provide a drain discharge device which can simplify the maintenance management of the drain discharge device and improve the usability. And

[0007]

The gist of the present invention to achieve the above object lies in the following inventions. [1] A drain discharge device (10) for discharging drain water generated in a receiver tank, a dehumidifying device, and other devices of a compressed air system through a three-way valve (11), and a first inlet / outlet (111). A three-way valve (11) having a second inlet / outlet (112) and a third inlet / outlet (113); and a drain connected to the first inlet / outlet (111) and communicating with the compressed air system equipment. A receiving pipe (12) and the second inlet / outlet (1
12), and a storage section inlet / outlet pipe (33) and a storage section (3) for temporarily storing drain water and compressed air from the drain receiving pipe (12) via the three-way valve (11).
0) and is connected to the third inlet / outlet (113), and drains the drain water and the compressed air in the reservoir inlet / outlet pipe (33) and the reservoir (30) via the three-way valve (11). Drain pipe (14) for use with the three-way valve (11)
And a driving device (15) for driving a plunger (115) in the inside, wherein the three-way valve (11) is driven by the plunger (115) to move the first inlet / outlet (11).
1) communicates with the second entrance / exit (112) while the third entrance / exit (113) is closed, and the second entrance / exit (112) / third entrance / exit. The drain discharge device (10), wherein the drain (113) is in communication with the first inlet / outlet (111) and can be changed to a closed second state.

[2] Drain water generated in a receiver tank, a dehumidifying device, and other devices of a compressed air system is supplied to a three-way valve (1).
1) a drain discharge device (10) for discharging via a first inlet / outlet (111) and a second inlet / outlet (112);
Three-way valve (11) having a third inlet and outlet (113)
A drain receiving pipe (12) connected to the first inlet / outlet (111) and communicating with the compressed air system equipment; and a second inlet / outlet (112) connected to the three-way valve (1).
1) a storage section inlet / outlet pipe (3) for temporarily storing drain water and compressed air from the drain receiver pipe (12);
3) and the storage unit (30), and the third entrance / exit (11).
And a drain discharge pipe (14) for discharging drain water and compressed air in the storage section inlet / outlet pipe (33) and the storage section (30) via the three-way valve (11).
And a driving device (15) for driving a plunger (115) in the three-way valve (11). The three-way valve (11) is configured such that the driving device (15) is connected to the plunger (115). When driven in the direction, one end of the plunger (115) is separated from the edge of the first inlet / outlet (111), and the first inlet / outlet (111) and the second inlet / outlet (112) are separated. While communicating, the plunger (1
15) The other end of the third inlet / outlet (113) is in contact with the edge of the third inlet / outlet (113) so that the third inlet / outlet (113) is closed, and the plunger (115) is driven in the other direction. Then, the other end of the plunger (115) separates from the rim of the third entrance / exit (113) and the second entrance / exit (1).
12) communicates with the third entrance / exit (113),
One end of the plunger (115) comes into contact with the rim of the first entrance / exit (111) and the first entrance / exit (11).
The drain discharge device (10), wherein 1) can be changed to a closed second state.

[3] Seal members (117, 118) are provided at one end and the other end of the plunger (115), and the seal members (117, 118) are urged in directions away from each other. The drain discharge device according to [2], wherein:

[4] The drainage pipe (12) is connected to a strainer (60) for filtering foreign matter mixed in the drain water or the compressed air. [1] or [2]. A drain discharge device (10) as described.

[5] By controlling the driving of the plunger (115), the time from when the three-way valve (11) changes to the first state to when the three-way valve (11) changes to the first state again through the second state. The drain discharge device (10) according to [1] or [2], further comprising a control unit (17) for adjusting a cycle.

Next, the operation of the invention described in each of the above items will be described. The first entrance (111) and the second entrance (11)
In the first state in which the third inlet / outlet (113) is closed while the second inlet / outlet is communicated, the drain water and the compressed air from the equipment of the compressed air system are supplied to the storage section inlet / outlet pipe (33) and the storage section (3).
Flow into 0) and accumulate.

When a predetermined amount of drain water and compressed air are stored in the storage section (30), for example, after a predetermined time has passed by the control section (17), the first inlet / outlet (111) is closed by driving the plunger (115). While the second entrance (1
12) and the third inlet / outlet (113) are in communication with each other, and the drain water and the compressed air sealed in the storage section inlet / outlet pipe (33) and the storage section (30) are in the second state with low pressure. 3
Flow to the inlet / outlet (113) side of the drain and drain drain pipe (14)
Is discharged from.

After the drain water and the compressed air are discharged, for example, after a predetermined time has passed by the control unit (17),
The plunger (115) is driven, and the third inlet / outlet (11
While closing 3), the first entrance (111) and the second
The inlet / outlet (112) is communicated, and drain water and compressed air from the compressed air system equipment flow into the storage section inlet / outlet pipe (33) and the storage section (30).

As described above, by moving the plunger (115) and closing the first inlet / outlet (111) or the third inlet / outlet (113) as appropriate, the drain discharge device (10) can operate the compressed air system. Inflow of drain water from equipment,
It can be stored and discharged outside. First entrance / exit (111) or third entrance / exit (113)
When closing the plunger (115), both ends of the plunger (115) merely contact the respective rims of the first entrance (111) or the third entrance (113), and the plunger (115) is closed.
Even if the movement in one direction and the other direction is frequently repeated, the wear of the abutting portion of the plunger (115) proceeds only slightly.

Further, since the seal members (117, 118) are provided at both ends of the plunger (115) and the seal members (117, 118) are urged in the direction of separating, the seal members (117, 118) are moved. Even if the seal member (117, 118) is slightly worn, the seal member (117, 118) resiliently comes into contact with each edge of the first inlet / outlet (111) or the third inlet / outlet (113), and the three-way valve (11) is airtight. The three-way valve (1
1) is maintained in an appropriate state.

With the inflow of the drain water, foreign substances such as rust are mixed into the drain water and the three-way valve (1
There is a risk of entering 1), but the drain receiving pipe (12)
The strainer (60) was connected to the
0) removes foreign substances in the drain water, protects the three-way valve (11) from foreign substances, prevents clogging of the seat valve of the three-way valve (11), and prevents deterioration of the performance of the three-way valve (11). be able to.

In such a three-way valve (11), the period from the first state to the second state through the second state until it returns to the first state, that is, through the first inlet / outlet (111), drain water or compressed air is discharged. In order to keep the cycle from the start of the reception to the end of drain water or compressed air discharge through the third inlet / outlet (113), the plunger (1
The drive cycle of the drive 15) may be constant, but the control unit 17 may be configured so that the drive cycle of the plunger 115 can be adjusted. Thus, the drive cycle of the plunger (115) can be adjusted according to the amount of drain water or the like generated by the compressed air system equipment, and versatility can be improved.

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view of a drain discharge device according to an embodiment of the present invention, FIG. 2 is a block diagram of the drain discharge device, and FIG. 3 is a front view of the drain device.

As shown in FIGS. 1 to 3, a three-way valve 11 which is a direct-acting solenoid valve and a drive for driving the three-way valve 11 are provided on a base member 101 of the drain discharge device 10 of the present embodiment. A device 15, a control unit 17 which is a substrate for controlling the driving device 15, and a storage unit 30 capable of temporarily storing drain water or compressed air are attached.

The three-way valve 11 has three ports, namely a first port 111, a second port 112, and a third port 113. The first inlet / outlet 111 of the three-way valve 11 is connected to a drain receiving pipe 12, and the drain receiving pipe 12 filters foreign substances mixed in drain water or the like to prevent clogging of a seat valve of the three-way valve 11. Strainer 60 is connected. Second inlet / outlet 11 of three-way valve 11
2 is connected to the storage unit 30 via the storage unit inlet / outlet pipe 33,
The third inlet / outlet 113 of the three-way valve 11 is connected to a drain discharge pipe 14 for discharging drain water or compressed air to the outside of the device.

FIG. 4 is a sectional view of an essential part of the three-way valve. As shown in FIG. 4, the main body of the three-way valve 11 is formed by combining a tube 114. Inside the pipe portion 114, a large-diameter pipe inside, and a small-diameter third inlet / outlet 113 communicating with the inside of the pipe are formed. The plunger 1 is provided inside the pipe of the pipe section 114.
15 are movably accommodated. Plunger 115
Is formed in a cylindrical shape. Also, the plunger 115
Seal members 117 and 118 are fitted to both ends of the cylindrical shape. Inner cylinder part 11 of plunger 115
6 is provided with a compression spring 71. The compression spring 71 is interposed between the pair of seal members 117 and 118, and each of the seal members 117 and 118 is operated by the restoring force of the compression spring 71.
Can resiliently contact the respective edges of the first entrance 111 or the third entrance 113.

The driving device 15 has a solenoid 151. The solenoid 151 is disposed so as to surround the plunger 115 via the pipe portion 114. A spring 72 is interposed between the peripheral edge of the pipe portion 114 and the distal end flange of the plunger 115. Solenoid 1
When the power supply 51 is energized, the plunger 115 is driven in the direction A1 in FIG. 5 against the urging force of the spring 72, and the seal member 118 resiliently contacts the edge of the third inlet / outlet 113. On the other hand, when the seal member 117 is separated from the edge of the first entrance / exit 111 (the first state shown in FIG. 4) and the solenoid 151 is in a non-energized state, the plunger 115 is moved to A2 in FIG. In this direction, the seal member 117 resiliently contacts the edge of the first inlet / outlet 111 while the seal member 118 is separated from the edge of the third inlet / outlet 113 (see FIG. 5). 2nd state shown).

The control section 17 controls the solenoid 151 to be in an energized state or a non-energized state. In addition, the control unit 17 supplies drain water or compressed air at a predetermined interval (for example,
1 minute, 2 minutes, 3 minutes, 4 minutes)
It has a timer that can change the driving cycle for driving the plunger 115. Also, the time (during the solenoid 15) for receiving drain water and the like generated in the compressed air
1) is normally set to 30 seconds. on the other hand,
If the amount of drain water etc. is large, drain water etc. 30 to 4
The driving cycle may be adjusted by a timer so as to discharge at 0-second intervals.

As described above, the three-way valve 11 drives the built-in plunger 115 by the solenoid 151 of the driving device 15 to connect the first inlet / outlet 111 and the second inlet / outlet 112 while the third inlet / outlet 112 communicates with the third outlet. The first state shown in FIG. 4 with the entrance 113 closed, the second entrance 112 and the third state shown in FIG.
The state changes to the second state shown in FIG. 5 in which the first inlet / outlet 111 is closed while the first inlet / outlet 111 is closed.

One of a drain receiving pipe 12 and a strainer 60 is connected to a first inlet / outlet 111 of the three-way valve 11. The other side of the strainer 60 is in communication with devices such as a receiver tank of the compressed air system 40 in which drain water is generated and a dehumidifier 50. One end of the storage section inlet / outlet pipe 33 is connected to the second inlet / outlet 112 of the three-way valve 11, and the storage section 30 is connected to the other end of the storage section inlet / outlet pipe 33.

As shown in FIG. 3, the storage section 30 is fixed such that its inner part 31 is higher than the connection part 32 with the storage section inlet / outlet pipe 33.

The storage section 30 includes the plunger 11 of the three-way valve 11.
5 is driven by the driving device 15 and the first entrance 11
The first and second inlets / outlets 112 communicate with each other, the seal member 118 of the plunger 115 resiliently contacts the rim of the third inlet / outlet 113, and the third inlet / outlet 113 is closed to the first state. When this happens, the drain water and compressed air flowing in from the first inlet / outlet 111 connected to the drain receiving pipe 12 are taken into the storage unit 30 via the storage unit inlet / outlet pipe 33, and are temporarily stored.

As described above, the storage unit 30 is connected to the second entrance 1
12 is fixed at a higher position than the storage unit 30.
A force is always applied to the drain water sealed therein by gravity and the pressure of the compressed air so as to head toward the storage section inlet / outlet pipe 33.

Therefore, the drain water is supplied to the second
Until the second state shown in FIG. 5 in which the entrance 112 and the third entrance 113 are communicated with each other and the first entrance 111 is closed, the state is always stored from the second entrance 112. Has become.

The drain outlet pipe 14 is driven by a plunger 115 by a drive unit 15, the second inlet / outlet 112 and the third inlet / outlet 113 communicate with each other, and the first inlet / outlet 111 is closed as shown in FIG. When the state 2 is reached, the drain water and compressed air stored in the storage unit 30 are discharged to the outside of the apparatus via the storage unit inlet / outlet pipe 33, the second inlet / outlet 112, and the third inlet / outlet 113. is there.

Next, the operation of the present embodiment will be described. 4 and 5 are cross-sectional views of a main part of the three-way valve.

When the three-way valve is in the second state shown in FIG.
When the solenoid 151 of the driving device 15 is turned on, the plunger 115 is driven in the direction A1 in FIG. 5 against the urging force of the spring 72, and the first inlet / outlet 111 and the second inlet / outlet of the three-way valve 11 are moved. The outlet 112 communicates, and the sealing member 118 of the plunger 115 is
When the third port 113 is brought into a first state in which the third port 113 is closed (see FIG. 4), the first port 1 is closed.
11 is higher than the pressure in the storage section inlet / outlet pipe 33 and the storage section 30 connected to the second inlet / outlet 112, the receiver tank of the compressed air system 40, the dehumidifier 50 Drain water generated in the first inlet / outlet 111 along with the compressed air passes through the drain receiving pipe 12.
Flows into the storage section inlet / outlet pipe 33. The drain water and the compressed air further advance, and flow into the storage unit 30 via the storage unit inlet / outlet pipe 33.

This inflow continues until the pressure on the drain receiving pipe 12 side becomes equal to the pressure in the storage section inlet / outlet pipe 33 and the storage section 30, and then the pressure on the drain receiving pipe 12 side and the storage section inlet / outlet pipe 33 and the storage section 30. When the internal pressures are equal, the flow of drain water and compressed air from the drain receiving pipe 12 side to the storage section inlet / outlet pipe 33 and the storage section 30 is stopped.

Thereafter, the solenoid 151 of the driving device 15
Is turned off, the plunger 115 is driven in the direction A2 in FIG. 4 by the urging force of the spring 72. It is to be noted that the plunger 115 is not driven after the pressure is equalized but before the pressure is equalized, that is, the drain water and the compressed air from the drain receiving pipe 12 side to the storage section inlet / outlet pipe 33 and the storage section 30 are discharged. The plunger 115 may be driven before the inflow stops.

In FIG. 4, when the plunger 115 is driven in the direction A2, the second inlet / outlet 112 and the third inlet / outlet 11
3, the sealing member 117 of the plunger 115 resiliently contacts the edge of the first entrance / exit 111, and the first entrance / exit 111 is closed (see FIG. 5). .
Since the pressure on the side of the drain discharge pipe 14 connected to the third inlet / outlet 113 is lower than the pressure in the storage section inlet / outlet pipe 33 and the storage section 30, drain water and compressed air in the storage section inlet / outlet pipe 33 and the storage section 30 are provided. Flows into the drain discharge pipe 14 and is discharged.

This discharge is continued until the pressure in the storage section inlet / outlet pipe 33 and the pressure in the storage section 30 become equal to the pressure on the drain discharge pipe 14 side.

The stored drain water flows into and out of the storage section due to the pressure of the compressed air and the structural effect that the storage section 30 is fixed at a position higher than the second inlet / outlet 112 as described above. It does not remain in the pipe 33 and the storage unit 30.

When the three-way valve is in the second state shown in FIG.
The driving of the plunger 115 may be stopped for a predetermined time, and the driving may be started again after the drain water and the compressed air in the storage section inlet / outlet pipe 33 and the storage section 30 are discharged to the drain discharge pipe 14 side. Since the pressure when the compressed air is inside the storage section inlet / outlet pipe 33 and the storage section 30 is considerably higher than that on the drain discharge pipe side, the discharge from the storage section inlet / outlet pipe 33 and the storage section 30 is completed in a short time.

When the plunger 115 is further driven in the direction A1 from the second state shown in FIG. 5, the first inlet / outlet 111 and the second inlet / outlet 112 communicate with each other, and the third inlet / outlet 113 is closed. Returning to the state (see FIG. 4), the flow of drain water and compressed air into the storage section inlet / outlet pipe 33 and the storage section 30 starts.

By alternately repeating the first state and the second state, drain water is intermittently discharged. In addition, inflow of drain water from the drain receiving pipe 12 to the storage section inlet / outlet pipe 33 and the storage section 30 and the storage section inlet / outlet pipe 33
Drain water discharge from the storage section 30 to the drain discharge pipe 14 cannot occur at the same time. That is, the first entrance 1
The eleventh side and the third inlet / outlet 113 never communicate with each other, and one of the inlets / outlets is always closed, so that the loss of compressed air can be minimized.

According to the drain discharge device of the embodiment, the plunger 115 reciprocates inside the pipe portion 114 of the three-way valve 11, so that the three-way valve 11 repeats the first state and the second state. Things. In such a three-way valve 11, as the plunger 115 reciprocates, the seal members 117 and 118 of the plunger 115 resiliently contact the respective edges of the first inlet / outlet 111 or the third inlet / outlet 113. Wear by things.

However, the sealing members 117, 118
Merely resiliently abuts the respective edges of the first inlet / outlet 111 or the third inlet / outlet 113, so that the wear of the seal members 117 and 118 becomes small. Also,
Even if the seal members 117 and 118 are slightly worn, the compression spring 71 constantly urges the seal members 117 and 118 so as to resiliently contact the edges of the entrance and exit. Even if the part 118 is slightly worn, the three-way valve 11 is maintained in an appropriate state, and there is an advantage that the seal members 117 and 118 (consumable parts) do not need to be replaced frequently and the maintenance and management of the apparatus becomes easy.

In the above embodiment, the compression spring 71 is interposed between the seal members 117 and 118,
Although the seal members 117 and 118 are urged in a direction to separate from each other, the seal members 117 and 118 are integrally formed of an elastic material, and the seal member 1 is restored by the restoring force of the elastic material.
17 and 118 may be energized. Also, the first
If the rims of the inlet / outlet 111 or the third inlet / outlet 113 are formed of an elastic material, it is not necessary to provide the seal members 117 and 118 at both ends of the plunger 115.

Further, the first inlet / outlet 111 of the three-way valve 11
Although drain water or the like is taken in from the side and drain water or the like is discharged from the third inlet / outlet 113 side, the inlet / outlet for taking in and discharging the drain water may be reversed. When the inlet and outlet of the drain water are reversed, it goes without saying that the strainer 60 is provided at the inlet and outlet on the drain receiving pipe 12 side.

Further, a desired drain discharge amount can be obtained by various combinations of the driving cycle of the plunger 115 and the volume of the storage section 30, so that it is possible to widely support various devices for discharging drain water.

[0047]

According to the drain discharge device of the present invention, the first valve is driven by driving the plunger in the three-way valve.
The first state in which the third inlet / outlet is closed while the inlet / outlet communicates with the second inlet / outlet, and the first inlet / outlet is closed while the second inlet / outlet communicates with the third inlet / outlet. After the drain water and the compressed air generated in the compressed air system equipment are temporarily stored in the storage unit, the drain water and the compressed air in the storage unit are discharged through the drain discharge pipe to the outside of the apparatus. Since the exhaust system is configured to be drained to the drain, it is possible to provide a component configuration that does not easily wear out even when used for a long period of time, simplify maintenance and management of the drain discharge device, and improve usability. In addition, since the strainer is connected to the drain receiving pipe, clogging of the three-way valve seat valve due to foreign matter such as rust mixed in the drain water can be prevented.

[Brief description of the drawings]

FIG. 1 is a plan view showing a drain discharge device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a drain discharge device according to one embodiment of the present invention.

FIG. 3 is a front view showing a drain discharge device according to one embodiment of the present invention.

FIG. 4 is a cross-sectional view of a principal part showing a state in which drain water and compressed air are taken in the three-way valve according to one embodiment of the present invention.

FIG. 5 is a cross-sectional view of a principal part showing a state when drain water and compressed air are discharged in the three-way valve according to the embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Drain discharge device 11 ... Three-way valve 12 ... Drain receiving pipe 14 ... Drain discharge pipe 15 ... Driving device 17 ... Control part 30 ... Storage part 31 ... Back part 33 ... Storage part inlet / outlet pipe 40 ... Compressed air system 50 ... Dehumidifier Reference Signs List 60 Strainer 71 Compression spring 72 Spring 111 First inlet / outlet 112 Second inlet / outlet 113 Third inlet / outlet 114 Pipe part 115 Plunger 116 Plunger inner cylinder part 117, 118 Seal Member 151: Solenoid

Claims (5)

[Claims] 1. A drain discharge device for discharging drain water generated in a receiver tank, a dehumidifying device, and other devices of a compressed air system through a three-way valve, comprising: a first inlet / outlet, a second inlet / outlet, A three-way valve having a third inlet / outlet, a drain receiving pipe connected to the first inlet / outlet and communicating with the compressed air system equipment, and a second inlet / outlet connected via the three-way valve; A reservoir inlet / outlet pipe and a reservoir for temporarily storing drain water and compressed air from the drain receiving pipe, and the third inlet / outlet;
A drain discharge pipe for discharging drain water and compressed air in the storage section inlet / outlet pipe and the storage section through the three-way valve; and a driving device for driving a plunger in the three-way valve, Is driven by the plunger so that the first
The second entrance and the exit communicate with the entrance and exit of the third
That the first inlet / outlet is closed, and the second inlet / outlet communicates with the third inlet / outlet while the first inlet / outlet is closed. A drain discharge device. 2. A drain discharge device for discharging drain water generated in a receiver tank, a dehumidifying device, and other devices of a compressed air system through a three-way valve, comprising a first inlet / outlet, a second inlet / outlet, A three-way valve having a third inlet / outlet, a drain receiving pipe connected to the first inlet / outlet and communicating with the compressed air system equipment, and a second inlet / outlet connected via the three-way valve; A reservoir inlet / outlet pipe and a reservoir for temporarily storing drain water and compressed air from the drain receiving pipe, and the third inlet / outlet;
A drain discharge pipe for discharging drain water and compressed air in the storage section inlet / outlet pipe and the storage section through the three-way valve; and a driving device for driving a plunger in the three-way valve, When the driving device drives the plunger in one direction, one end of the plunger is separated from the edge of the first inlet / outlet and the first inlet / outlet communicates with the second inlet / outlet. On the other hand, when the other end of the plunger is in contact with the rim of the third inlet / outlet and the third inlet / outlet is closed, and when the plunger is driven in the other direction, the other end of the plunger is closed. One end of the plunger contacts the rim of the first inlet / outlet while an end of the plunger is separated from the rim of the third inlet / outlet to communicate with the second inlet / outlet and the third inlet / outlet. Fluctuates to the second state in which the first inlet and outlet are closed upon contact A drain discharge device characterized by being possible. 3. The device according to claim 2, wherein a seal member is provided at one end and the other end of the plunger, and the seal members are urged in directions away from each other. Drain discharge device. 4. The drain discharge device according to claim 1, wherein a strainer for filtering foreign matters mixed in the drain water or the compressed air is connected to the drain receiving pipe. 5. A control unit for controlling driving of the plunger to adjust a cycle from when the three-way valve changes to the first state to when the three-way valve changes to the first state again through the second state. The drain discharge device according to claim 1, wherein the drain discharge device is provided.