JP2005061531A - Automatic drainage system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an automatic drainage system capable of controlling a drainage volume of a liquid matter in a separation tank by a float vertically moved in accordance with a liquid level of the liquid matter in a measurement tube mounted in the automatic drainage system. <P>SOLUTION: This automatic drainage system comprises the separation tank for gas-liquid separation of the liquid matter, the measurement tube mounted outside of the separation tank in a state of being communicated and connected with the separation tank, and comprising the float vertically moved in accordance with the change of the liquid level of the liquid matter stored in the separation tank, a detecting means mounted in the measurement tube for detecting a position of the float, and a control means for controlling the opening or closing of an opening and closing valve for discharging the liquid matter in the separation tank on the basis of the detection by the detecting means. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an automatic drainage device, and more specifically, to control the amount of liquid wastewater in a separation tank by a float that moves up and down according to the liquid level of a liquid material in a measuring pipe provided in the automatic drainage device. The present invention relates to an automatic drainage device.

Conventionally, when compressed water obtained by compressing industrial gas or the like is automatically drained from a separation tank, it has a function of monitoring the amount of condensed water stored in the separation tank and opening and closing the solenoid valve by a monitoring timer. A drainage device was used.
However, the function to open and close the solenoid valve using the monitoring timer only considers the use at a pressure of 2 MPa or less, and the problem that accurate monitoring cannot be performed when the pressure exceeds 2 MPa, Since it is a non-explosion-proof function, its use in a place where safety is not sufficiently secured has a problem with danger.
In addition, a drainage device that drains water by operating a solenoid valve by a capacitance type liquid level detector that uses capacitance is used. However, this drainage device has a problem in that an accurate liquid level cannot be detected due to a change in capacitance accompanying a temperature change or the like, resulting in malfunction.
Furthermore, a solenoid valve interlocking automatic drainage device with an electromagnetic float type upper / lower limit switch is used. This electromagnetic valve interlocking automatic drainage device has a problem of causing malfunction due to the electromagnetic float caught on the guide rod.
In addition, a liquid level gauge (for example, see Patent Document 1) that displays the liquid level by using the vertical movement and magnetic force of the float has been created.
However, the invention described in Patent Document 1 is merely an invention for detecting and displaying the liquid level of the liquid in the separation tank.
For this reason, in the above-mentioned apparatus, the problem that the desired amount of drainage cannot be drained accurately regardless of the temperature and pressure of the liquid material, the problem that it is not possible to drain accurately due to structural problems, and the safety It was not possible to solve the problems in Japan.

JP 2002-323364 A

  The present invention has been made in view of such circumstances, and is an automatic device that is safe and can smoothly drain a liquid material of a desired amount of drainage regardless of the temperature and pressure of the liquid material. Provide drainage equipment.

The invention according to claim 1 is a separation tank for gas-liquid separation of a liquid substance, and a liquid liquid which is installed outside the separation tank and is connected to the separation tank and stored in the separation tank. A measuring tube having a float that moves up and down in response to a change in position, a detecting means for detecting the position of the float and disposed in the measuring tube, and detection of the detecting means, Provided is an automatic drainage device comprising control means for controlling opening or closing of an on-off valve that discharges a liquid material.
The invention according to claim 2 provides the automatic drainage device according to claim 1, wherein the float has a magnetic force generation unit, and the detection means comprises a magnetic sensor for detecting the magnetic force of the float. .
The invention according to claim 3 provides the automatic drainage device according to claim 2, wherein a plurality of the magnetic sensors are arranged along the vertical direction of the measuring tube.
The invention according to claim 4 is characterized in that a connecting pipe is provided, one through the opening at the lower end of the separation tank and the other connected to the lower end of the measuring pipe. Provide automatic drainage equipment.
According to a fifth aspect of the present invention, the float is made of a permanent magnet constituting the magnetic force generating portion and a high-density resin sandwiching the permanent magnet, and an overall specific gravity of the float is less than 1. The automatic drainage device according to claim 1 or 2, characterized in that.
By providing these inventions, the above problems can be solved.

In the first aspect of the present invention, since the measuring tube is connected to the separation tank and is provided outside the separation tank, the measurement pipe has safety and can accurately meet the user's desired amount of drainage regardless of the temperature and pressure of the liquid. An automatic drainage device capable of draining a liquid material can be provided.
The invention according to claim 2 can provide an automatic drainage device capable of reliably detecting the liquid level without any influence from the liquid material since the detecting means uses magnetic force.
The invention according to claim 3 can provide an automatic drainage device capable of reliably draining a discharge amount desired by a user by providing a plurality of magnetic sensors.
In the invention according to claim 4, by providing the connection pipe, the measurement pipe can be provided separately from the separation tank, the measurement pipe can be made compact, and the liquid in the separation tank can be discharged when the separation tank is discharged. It is possible to provide an automatic drainage device in which there is no deviation between the liquid level of the liquid and the liquid level of the measuring tube.
The invention according to claim 5 can provide an automatic drainage device in which the float has a magnetic force and can move up and down reliably according to the change in the liquid level of the liquid in the separation tank.

The best mode for carrying out the present invention will be described with reference to the drawings.
The configuration of the automatic drain device according to the present invention will be described.
FIG. 1 is a schematic overall view of an automatic drain device in one embodiment of the present invention. FIG. 2 is an enlarged schematic partial view of a part of the automatic drainage device. FIG. 3 is a perspective view of the float of the present invention, and FIG. 4 is a schematic enlarged view of the dotted line portion of FIG. 1, showing another embodiment of the connecting pipe.
The automatic drainage device (1) according to the present invention comprises a separation tank (2), a measuring pipe (3), a float (4), a detection means (5), a control means (6), and an on-off valve (7 ) And a pressure equalizing pipe (8).
As used herein, the term “liquid material” refers to a liquid substance such as water.

The separation tank (2) is a tank capable of storing a liquid material and separating it into a liquid and a gas. Although the shape of this separation tank (2) is not specifically limited, The cylindrical shape long in an up-down direction is preferable. This is because the separation tank (2) has a cylindrical shape that is long in the vertical direction, so that it is easy to grasp the amount of liquid stored in the separation tank (2) by the measurement pipe (3) described later.
A discharge hole for discharging the separated gas is provided above the separation tank (2).

The measuring tube (3) has a cylindrical shape that is long in the vertical direction, is installed outside the separation tank (2), is connected to the separation tank (2), and is at the liquid level of the separation tank (2). Has an overall length that is longer than the length of the range in which it moves up and down. As shown in FIG. 1, the measuring pipe (3) moves the liquid level in the separation tank (2) up and down so that a float (4) described later can move up and down according to the liquid level in the separation tank (2). Is provided in parallel with the separation tank (2) so that the height of the float (4) of the measuring pipe (3) moves up and down in synchronization.
As shown in FIG. 2, the measurement pipe (3) has one connecting pipe (31) that passes through the lower end opening (32) of the separation tank (2) and the other is connected to the lower end of the measurement pipe (3). ) Is provided. By providing the connecting pipe (31), the suction force generated in the lower end opening (32) of the separation tank (2) during the discharge even when the liquid in the separation tank (2) is discharged. The liquid level of the separation tank (2) and the liquid level of the measuring tube (3) can be reliably synchronized without being affected by the above.
By providing this connecting pipe (31), the measuring pipe (3) can be separated from the separation tank (2) and arranged independently.
The connecting pipe (31) may be provided directly through the lower end opening (32) of the separation tank (2). As shown in FIG. 4, the separating pipe (2) of the connecting pipe (31). The inner tube (33) may be extended to the end on the side, and the upper end (34) of the inner tube (33) may be provided so as to penetrate the lower end opening (32) of the separation tank (2).

The float (4) moves up and down along the liquid level of the liquid material stored in the separation tank (2) in the measuring tube (3). As shown in FIG. 3, the float (4) is formed of a permanent magnet (41) and a high density resin (42) having a specific gravity of less than 1 for sandwiching the permanent magnet (41).
This float (4) is made from the above-described permanent magnet (41) and the high density resin (42) having a specific gravity of less than 1, so that the overall specific gravity is less than 1.0 (the overall density is less than 1 g / cm ³⁾ . And can float on a liquid material having a specific gravity of 1.0 or more.
The high density resin (42) having a specific gravity of less than 1 is not particularly limited, but an ultra high density polyethylene resin or the like is conceivable. This ultra-high density polyethylene resin is formed to have a density of 0.91 to 0.96 g / cm ³ , and preferably 0.93 to 0.95 g / cm ³ .
This float (4) has sufficient durability even under a high pressure of 22 MPa, and the ratio of the total volume occupied by the permanent magnet (41) of the float (4) is 0.5 to 2.0%. It is set to be about. For this reason, it has sufficient durability against high pressure and can be miniaturized.

A detecting means (5) is provided on the outer peripheral surface of the measuring tube (3). The detection means (5) is not particularly limited as long as it can detect that the float (4) moving up and down in the measuring tube (3) has passed, but the float (4) has a magnetic force. Therefore, it is preferable to use a magnetic force sensor that can detect this magnetic force. The magnetic sensor used is not particularly limited, but a high-frequency absorption automatic correction type switch using the characteristics of ferrite can be considered.
Since this detection means (5) has means for detecting the magnetic force of the float, the passage of the float can be reliably detected without being affected by the liquid material.

A plurality of detection means (5) are arranged along the vertical direction of the measurement tube (4). In FIG. 1, two detection means (5) are shown. The number of detection means (5) provided is not particularly limited, but it is preferable to provide at least two. This is because by providing at least two detection means (5), it is possible to provide detection means (5) for performing notifications for opening and closing the on-off valve (7) described later.
The position at which the detection means (5) is provided is not particularly limited and can be set as appropriate by the user, but is arranged in the vicinity of the upper end and the lower end of the measurement tube (4). Note that the terms “upper detection means” and “lower detection means” shown in this specification indicate the position of the detection means (5) to be arranged, and “upper detection means” is the detection means ( The detection means located at the uppermost position in 5) refers to the detection means disposed at the lowermost position among the detection means (5) disposed.
Thus, by arranging the upper detection means (51) and the lower detection means (52) as shown in FIG. 6, the amount of drainage of the liquid material desired by the user can be adjusted reliably.
Since this detection means (5) can have an explosion-proof structure (fireproof explosion-proof structure), it can be used in a dangerous substance atmosphere and can ensure sufficient safety.

The detection means (5) is connected to the control means (6). The control means (6) receives the notification detected by the detection means (5). The control means (6) that has received this notification opens and closes the on-off valve (7) to be described later according to the received notification.
There are two types of notifications transmitted from the detection means (5). When the control means (6) receives the notification transmitted from the upper detection means (51), the control means (6) opens the on-off valve (7). When the control means (6) receives the notification transmitted from the lower detection means (52), the control means (6) urges the on-off valve (7) to close.
In response to the notifications from the plurality of detection means (5), the control means (6) opens or closes the on-off valve (7) individually.
The control means (6) is provided with a recording means (not shown) for recording the opening or closing operation of the on-off valve (7) described above, or the elapsed time and the number of times of opening and closing are set in advance. You may provide the warning means (not shown) which issues a warning when satisfy | filling.

  The on-off valve (7) is provided at the lower end of the separation tank (2) and can discharge the liquid material in the separation tank (2). The opening / closing of the on-off valve (7) is controlled by the control means (6) described above.

  As shown in FIG. 1, a pressure equalizing pipe (8) for connecting the upper end of the measuring pipe (3) is provided at the upper end of the separation tank (2). The pressure equalizing pipe (8) is provided to make the pressure in the separation tank (2) and the measuring pipe (3) uniform. The pressure equalizing pipe (8) is provided and the pressure in the separation tank (2) and the measuring pipe (3) becomes equalized, whereby the liquid level in the separating tank (2) and the measuring pipe (3 The liquid level of the liquid substance in the parenthesis is surely matched.

As described above, the automatic drainage device (1) according to the present invention is provided (separately) from the separation tank (2) by providing the measurement pipe (3) with the connecting pipe (31).
For this reason, the diameter of the measuring tube (3) can be reduced and the thickness of the measuring tube (3) can be reduced. Since the thickness of the measuring tube (3) is reduced, the magnetic force of the float (4) can be reduced and the above-described ultra-high density resin is used, so that the size of the float (4) itself can be reduced. it can. As described above, the automatic drainage device (1) also has a structural advantage that allows the measuring pipe (3) for detecting the liquid level of the liquid in the separation tank (2) to be extremely small. Yes.
The above is description of the structure of the automatic drainage device (1) based on this invention.

The operation of the automatic drain device according to the present invention will be described with reference to the drawings.
In the automatic drainage device (1), this operation will be described for an embodiment in which two detection means (5) are arranged (see FIG. 1). At this time, the detection means provided relatively above of the two detection means is referred to as an upper detection means (51), and the detection means provided below is referred to as a lower detection means (52).
FIG. 5 shows a flowchart representing an embodiment of the operation of the automatic drain device according to the present invention. 6 to 8 show changes in the liquid level of the liquid material.
First, a liquid substance is stored in the separation tank (2) (S1). In addition, when using this apparatus (1), the on-off valve (7) is closed.
The liquid in the separation tank (2) increases. At this time, the float (4) provided in the measuring tube (3) rises according to the liquid level of the liquid in the separation tank (2) (S2).
The float (4) rising according to the liquid level in the separation tank (2) is detected by the detection means (5) provided in the upper detection means (51) as shown in FIG. 8 (S3).
The upper detection means (51) transmits the detected notification to the control means (6) (S4), and the control means (6) receives this notification (S5).
When a plurality of detection means (5) are arranged in the automatic drainage device (1), the control means (6) is previously opened or closed by the notification from which detection means (5). The notification of the detection means (5) is processed based on this setting, and the on-off valve (7) is opened or closed. In this embodiment, the opening / closing valve (7) is opened by the notification by the upper detection means (51), and the opening / closing valve (7) is closed by the notification by the lower detection means (52). Yes.
The control means (6) that has received the notification from the upper detection means (51) prompts to open the on-off valve (7) (S6).
The on-off valve (7) is opened, and the liquid material stored in the separation tank (2) is discharged (S7).
At this time, since the measuring pipe (3) is connected to the separation tank (2) by the connecting pipe (31), the separation tank (2) is not affected by the discharge of the liquid material in the separation tank (2). The liquid level in the liquid can be detected by the measuring tube (3).

In the above-described (S7), the on-off valve (7) is opened, and the liquid material stored in the separation tank (2) decreases. With this decrease, the liquid level of the liquid in the separation tank (2) and the measuring tube (3) is lowered, and the position of the float (4) is also lowered.
The float (4) descends and reaches the lower detection means (52) (S8).
The lower detection means (52) detects the float (4) (S9) and transmits the detected notification to the control means (6) (S10) (see FIG. 6).
The control means (6) receives the notification transmitted from the lower detection means (52) (S11).
Since the notification is from the lower detection means (52), the on-off valve (7) is closed (S12).
Since the on-off valve (7) is closed, the discharge of the liquid material from the separation tank (2) is completed (S13). At this time, when the liquid substance is further stored in the separation tank (2), the steps from (S1) are repeated again.
The above-mentioned process may be recorded by the recording means, and the water level of the liquid substance is detected by the lower detection means (even if the storage time has passed a predetermined elapsed time or a certain time has passed since the drainage started. An alarm device that issues an alarm when it is not detected in 52) may be set.
The above is description of operation | movement of the automatic drainage device (1) based on this invention.

(Example)
The operation of the automatic drain device of the present invention was compared with that of a conventional automatic drain device (auto drain).
FIG. 9 is a graph showing the operation of the automatic drain device of the present invention and the conventional automatic drain device. In this graph, the vertical axis represents the liquid level in the separation tank, the horizontal axis represents time, and the amount of water discharged from the separation tank and the amount of water stored in the separation tank are the automatic drainage device of the present invention. And the conventional automatic drainage device are the same.
From this result, when the liquid material is discharged using the automatic drainage device according to the present invention, the detection means detects the float and opens or closes the on-off valve according to the liquid level of the liquid material in the separation tank. The operation is performed without rubbing against the liquid level of the separation tank.
However, when the liquid material in the separation tank is discharged with a conventional automatic drainage device, there is a large gap between the detection and the actual opening or closing of the on-off valve.
As shown in FIG. 9, by using the present invention, it is possible to control the on-off valve with higher accuracy than using a conventional automatic drainage device.

  The present invention can be used for discharging high-pressure compressor condensate in industrial gases such as a high-pressure hydrogen gas compressor, a high-pressure oxygen gas compressor, a high-pressure nitrogen gas compressor, and a high-pressure air compressor.

1 is a schematic overall view of an automatic drain device in an embodiment of the present invention. It is the general | schematic partial enlarged view which expanded a part of automatic drainage device. It is a perspective view of the float of this invention. It is a schematic enlarged view of the dotted-line part of FIG. 1, and shows the other Example of a connection pipe. The flowchart showing one Example of operation | movement of the automatic drainage apparatus which concerns on this invention is shown. It is the schematic which shows the state of one Example of an automatic drainage apparatus. It is the schematic which shows the state of one Example of an automatic drainage apparatus. It is the schematic which shows the state of one Example of an automatic drainage apparatus. It is a graph showing operation | movement of the automatic drain apparatus of this invention, and the conventional automatic drain apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Automatic drainage device 2 ... Separation tank 3 ... Measurement pipe 31 ... Connection pipe 4 ... Float 5 ... Detection means 6 ... Control means 7- ... Open / close valves

Claims (5)

  A separation tank for gas-liquid separation of a liquid substance, and an up-and-down movement according to a change in the liquid level of the liquid substance installed outside the separation tank and connected to the separation tank and stored in the separation tank A measuring pipe having a float to be inside, a detecting means for detecting the position of the float and disposed on the measuring pipe, and an on-off valve for discharging the liquid matter in the separation tank by the detection of the detecting means An automatic drainage device comprising control means for controlling opening or closing. The float has a magnetic force generator,
The automatic drainage device according to claim 1, wherein the detecting means comprises a magnetic sensor for detecting the magnetic force of the float.   3. The automatic drainage device according to claim 2, wherein a plurality of the magnetic sensors are arranged along the vertical direction of the measuring tube.   The automatic drainage device according to claim 1, wherein a connecting pipe is disposed, one of which penetrates the opening at the lower end of the separation tank and the other of which is connected to the lower end of the measuring pipe. 2. The float according to claim 1, wherein the float is made of a permanent magnet constituting the magnetic force generator and a high-density resin sandwiching the permanent magnet, and the specific gravity of the float is less than 1. 2. The automatic drainage device according to 2.

Images