JP2003322554A - Liquid level detecting fixture for container and liquid sending-out system using this fixture - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a liquid level detecting fixture for a container easy in controlling the residual liquid of the container, reducing the loss of the residual liquid, and easily replacing the container, and a liquid sending-out system using this fixture. <P>SOLUTION: This liquid level detecting fixture has a connecting part to be detachably connected to a liquid discharge port 15 arranged at the lower part of the container 1 for storing liquid, and a liquid level detecting means liquid-tightly connected to this connecting part, and detecting the liquid surface level of a liquid surface in the container 1. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid level detector for a container and a liquid delivery system, and more particularly to a liquid level detector for a container for detecting the liquid level by pressure of the container head of the liquid in the container, And to a liquid delivery system using the same.

[0002]

2. Description of the Related Art In recent years, due to the reduction of physical distribution costs, there is a tendency that the delivery situation of liquid chemicals is changed from 20 kg plastic cans and 200 kg drums to large capacity container delivery. FIG. 6 shows a container 1 for containing and carrying a liquid E (for example, a chemical agent such as an industrial bactericide or a scale dispersant). This container 1 has a tank part 3 inside a box-shaped frame 2.
Is provided, the liquid inlet 4 and the lid are arranged on the upper portion of the tank portion 3, and the liquid outlet 6 having the connection valve 5 is provided on the lower portion.
Are arranged. At the user's factory where such a container 1 is delivered, when supplying the liquid E from the container 1 to a predetermined place, a pump 7 is placed on the container 1.
Was installed, the liquid inlet 4 was opened, the pump suction hose 8 was put inside, and the liquid E was pumped up. At this time, a metal weight 9 was attached to the tip of the hose in order to sink the tip 8a of the suction hose 8 into the bottom of the tank 3. Then, when the remaining amount of the liquid E in the tank portion 3 becomes small, it is replaced with a new container that is full.

[0003]

However, the use of the container 1 as described above has the following problems (1) to (3). When the suction hose 8 is put in the container 1 filled with the liquid E, it is difficult to confirm whether the hose tip 8a is located at the bottom of the tank portion 3 and the hose tip 8a.
Even if a is above the bottom of the tank portion 3, it is continuously used as it is. Therefore, there is a tendency that a large amount of residual liquid in the container 1 that is returned at the time of replacement remains, the loss due to residual liquid is large on the user side, and the manufacturer must perform waste liquid treatment on the residual liquid in the returned container 1. Since the amount of residual liquid is large, the processing cost is high. Since it is necessary to open the liquid inlet 4 of the tank part 3 and put the pump suction hose 8 inside, it takes time and labor, and dust easily enters the liquid inlet 4 and impurities are mixed in the liquid E. The weight 9 attached to the suction hose 8 rusts and affects the liquid E. When exchanging the container, the pump 7 has to be moved, which is time-consuming and there is a risk that the liquid E in the hose 8 for taking out the suction hose 8 may cause a chemical injury to the operator. After replacing the container, the air that has entered the suction hose 8 must be discharged, which is time-consuming.

Therefore, one of the main objects of the present invention is to accurately and easily detect the liquid level of the liquid in the container, so that the residual liquid of the container can be easily managed and the residual liquid loss can be reduced. An object of the present invention is to provide a liquid level detection tool for containers that can be designed. Further, another main object of the present invention is that it is not necessary to move the pump every time the container is replaced, and the liquid in the container can be effectively used without waste, and residual liquid loss can be reliably reduced. A liquid level detector is provided. Further, another main object of the present invention is a container liquid which can easily discharge the residual liquid remaining in the container and the residual liquid accumulated in the liquid level detection tool to the outside after the container is used. A surface detection tool is provided. Another main object of the present invention is to provide a container liquid level detection tool in which the liquid level height at which the liquid in the container can be detected is set to be large. Another main object of the present invention is to provide a container liquid level detection tool capable of accurately performing residual liquid management when the amount of residual liquid in the container becomes small. . Further, another main object of the present invention is to provide a liquid delivery system capable of supporting rationalization of production for a user (factory) using a container. Another main object of the present invention is to provide a liquid delivery system capable of easily attaching / detaching the liquid level detection tool to / from the liquid discharge port of the container.

[0005]

In order to achieve the above object, the liquid level detecting device for a container according to the present invention is
A connection part for detachably connecting to the liquid discharge port provided at the bottom of the container that stores the liquid, and a liquid surface that is liquid-tightly connected to this connection part and detects the liquid level height of the liquid in the container And a detection means.

By mounting the liquid level detection tool of the present invention thus constructed at the liquid discharge port at the bottom of the container,
Since the liquid level of the liquid contained in the container is detected by the liquid level detecting means, it is possible to easily manage the residual liquid from the outside of the container. Therefore, in the liquid delivery work, the operator can accurately determine whether the liquid in the container has become empty, and it is easy to reduce the residual liquid loss of the liquid in the container. As a result,
On the user side, the amount of liquid used per container can be increased and the cost of raw materials can be substantially reduced, and raw material management related to products and container order management can be properly performed. . On the other hand, on the manufacturer side that delivers containers, it is possible to reduce the amount of residual liquid treatment and reduce the cost of waste treatment.

Further, the connection part of the liquid level detecting device for a container according to the present invention further has a first flow path extending therefrom, and the first flow path is used for delivering the liquid in the container to the outside. It is preferable that the liquid delivery port that can be opened and closed is provided. According to this structure, since the liquid can be taken out from the liquid discharge port at the bottom of the container, the liquid in the container can be effectively used without waste, and the residual liquid loss can be surely reduced. Further, the liquid delivery work can be performed more easily than the conventional method of pumping the liquid from the liquid injection port on the upper part of the container. Also, since the liquid injection port on the top of the container can be closed with a slight air bleeding, it prevents dust from entering inside and mixing impurities into the liquid, and it was attached to the suction hose as before. It also prevents the weight from rusting and affecting the liquid. Also, when replacing the container,
There is no need to move the pump and it does not take time and the suction hose is not taken out from the tank as in the past, so there is a risk that the liquid in the hose (such as slime control agent) will cause chemical injury to the operator. Absent.

Further, the connecting portion of the liquid level detecting device for a container according to the present invention further has a second flow path extending therefrom, and the residual liquid in the container is discharged to the outside through the second flow path. It is preferable to provide a residual liquid discharge port that can be opened and closed. According to this structure, after the container is used, a small amount of residual liquid remaining in the container and residual liquid accumulated in the flow path of the liquid level detection device are passed through the pipe from the residual liquid discharge port of the liquid level detection device. Can be easily discharged to a predetermined place (for example, a liquid recovery tank). At this time, since the worker does not come into contact with the liquid, there is no risk of chemical injury due to the liquid (for example, slime control agent) and it is safe.

Further, in the liquid level detecting device for a container according to the present invention, the liquid level detecting means may be a pressure gauge capable of detecting a pressure of at least 0.1 kg / cm ² of the liquid in the container. With this configuration, the pressure gauge that detects the pressure of the liquid in the container (container head pressure)
The liquid level detecting means can be simplified and downsized, and the residual liquid level can be managed with a margin from a high position where the liquid level is about 1000 mm or more.

Further, in the liquid level detecting tool for a container according to the present invention, the pressure gauge has a plurality of graduations indicating the liquid level height of the liquid in the container for each predetermined value and the pressure of the liquid in the container. It is preferable that the needle has a variable needle and the scale width between 0 and a predetermined value is wider than the other scale widths. In general, the tank part inside the container is formed with an inclined surface with the lower outer peripheral surface inwardly inclined toward the bottom surface, so if the flow rate of the liquid sent from inside the container to the outside is constant, When the surface falls below the inclined surface of the tank portion, the liquid surface descending speed increases as the liquid surface area decreases. This also increases the fluctuation of the pressure gauge needle,
According to the present invention, the scale width between 0 and the predetermined value of the pressure gauge is made wider than the other scale widths, so that the liquid level height (residual liquid management) when the residual liquid amount in the container becomes small. ) Can be easily and in detail grasped by the worker.

According to another aspect of the present invention, a container for containing a liquid having a liquid discharge port that can be opened and closed at the bottom, and the liquid level detection device detachably connected to the liquid discharge port of the container are provided. It is possible to provide a liquid delivery system including a tool and a pump for delivering the liquid inside the container to a predetermined location. With such a configuration, the liquid delivery system of the present invention is provided to the user (factory) who does not have the facility to take out the liquid in the delivered container, thereby streamlining the production (reducing residual liquid loss). , Simplification of liquid delivery work, simplification of container replacement work, etc.) can be supported.

Further, according to another aspect of the present invention, a container having a liquid discharge port which can be opened and closed at a lower portion and a liquid discharge port of the container are detachably connected and can be opened and closed. The liquid level detector having a liquid outlet and a liquid outlet, a delivery pump for delivering the liquid in the container to a predetermined location through the liquid outlet of the liquid level detector, and a liquid drain of the liquid level detector. It is possible to provide a liquid delivery system including a discharge pump that discharges the residual liquid inside the container to a predetermined place through the outlet. With such a configuration, the liquid delivery system of the present invention is provided to the user (factory) who does not have the facility to take out the liquid in the delivered container, thereby streamlining the production (reducing residual liquid loss). , Simplification of liquid delivery work, simplification of residual liquid discharge work, simplification of container replacement work, etc.) can be supported.

Further, the liquid delivery system according to the present invention is
The liquid discharge port of the container is a pipe member having a concave circumferential groove on the outer peripheral surface, and the connecting portion of the liquid level detection tool is a barrel body fitted to the pipe member and a pivot member attached to the barrel body portion. It is preferable that the coupler has a pair of rocking levers for releasably fitting the tube body to the tube member by being releasably locked in the concave circumferential groove. According to this structure, the liquid level detection tool can be easily and quickly attached to and detached from the liquid discharge port of the container, and a labor for replacing the container is not required.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, a container is
Mainly, it transports and / or stores liquids such as medicines, chemicals, cosmetics, and food grade liquids, and is intended for relatively large liquids having a capacity of about 1000 liters (height of about 1300 mm).

The liquid level detector for a container according to the present invention is
The liquid level height (current liquid amount or residual liquid amount) of the liquid contained in such a container is detected. As the liquid level detecting means of the liquid level detecting tool, for example, a digital or analog display pressure gauge is used. This pressure gauge has a plurality of scales that indicate the liquid level height (mm) of the liquid in the container for each specified value, and a needle that fluctuates according to the pressure (kg / cm ² ) of the liquid in the container. Then, by detecting the container head pressure of the liquid in the container, a needle is used which indicates the liquid surface height numerical value corresponding to this pressure.
In the present invention, the liquid level detecting means may detect the container head pressure (kg / cm ² ) and convert the pressure into the liquid volume (L) for display, or the container head. The pressure (kg / cm ² ) may be displayed as it is, or the liquid level height (mm), liquid volume (L), and container head pressure (kg / cm ² ) may all be displayed. It may be.

The embodiment of the present invention will be described below with reference to FIGS.
Will be described in detail with reference to. The present invention is not limited to this. FIG. 1 is a front view of a container liquid level detection tool according to an embodiment of the present invention, and FIG. 2 is a schematic configuration diagram of a liquid delivery system using the liquid level detection tool of the embodiment, and FIG. FIG. 4 is an explanatory diagram illustrating a liquid delivery state by the liquid delivery system of the same embodiment, FIG. 4 is an explanatory diagram illustrating a residual liquid discharge state by the liquid delivery system of the same embodiment, and FIG. It is explanatory drawing explaining the container replacement state of the liquid delivery system of the form. 1 to 5, the container is the same as that described with reference to FIG. 6, so that the same reference numerals are given to the respective constituent elements and the description thereof will be omitted.

Liquid level detection tool 1 for container of the present embodiment
0 is the first connecting pipe portion 11a, the second connecting pipe portion 11b, the third
A substantially t-shaped branch pipe 11 having a connection pipe portion 11c and a fourth connection pipe portion 11d, and a first connection pipe portion 11 of the branch pipe 11.
a coupler 12 for connecting to the liquid discharge port 6 of the container 1 and a second connecting pipe portion 11 of the branch pipe 11.
a pressure gauge 13 connected to b for detecting the liquid level height of the liquid E in the container 1, and a third connecting pipe portion 11c of the branch pipe 11.
And a residual liquid discharge port 15 that is communicatively coupled to the fourth connecting pipe portion 11d of the branch pipe 11. Further, an outlet opening / closing valve 19 is provided between the liquid outlet 14 and the third connecting pipe portion 11c, and
An outlet opening / closing valve 20 is provided between the residual liquid outlet 15 and the fourth connecting pipe portion 11D. This liquid level detection tool 10
Each member is made of a corrosion resistant material.

The pressure gauge 13 includes a branch pipe 1 through a straight pipe 19.
It is liquid-tightly connected to the first second connecting pipe portion 11b. Although the length of the straight pipe 19 is not particularly limited, it is set to such a degree that it extends to a height at which the operator can crouch and easily see the pressure gauge 13, for example. In addition, you may use the pipe member which bent the intermediate part of a straight pipe 360 degrees.

The pressure gauge 13 is configured to detect a pressure of 0.1 kg / cm ² or more of the liquid in the container 1 and display it as a liquid level height. Specifically, the pressure gauge 13
Is displayed on the display panel 13a from "LOW" to "F (FULL)".
Up to 200 mm, 6 scales are provided, and the liquid level of the liquid (remaining liquid) in the container 1 can be measured from about 1000 mm.

In the pressure gauge 13, the scale interval between the scale LOW and the scale 200 is wider than the other scale intervals. Generally, the tank part 3 in the container 1 is
Since the outer peripheral surface of the lower portion is formed as an inclined surface that inclines inwardly toward the bottom surface, when the flow rate of the liquid sent from the inside of the container 1 to the outside is constant, the liquid surface is below the inclined surface of the tank portion 3. As the liquid surface area decreases, the liquid surface descending speed increases. As a result, the pressure gauge 13
The fluctuation of the needle 13a also becomes large. Therefore, the pressure gauge 13
Since the scale width between the scale LOW (0 mm) and the scale 200 (200 mm) of No. 2 is made wider than the other scale widths, the liquid level height when the residual liquid amount of the liquid in the container 1 becomes small ( Residual liquid management) allows the operator to easily and in detail grasp. In the pressure gauge 13, the needle 13b is almost L
The atmospheric pressure is set to be detected at the OW position, and the liquid level height at this time is set to 0 mm.

The coupler 12 is constructed such that the liquid discharge port 6 of the container 1 on the mating side can be attached and detached in correspondence with a pipe member having a concave peripheral groove 6a on the outer peripheral surface. ), And the tubular body portion 18a is pivotally attached to the tubular body portion 18a and releasably locked in the concave circumferential groove 6a, so that the tubular body portion 18a is releasably fitted to the pipe member. It has a pair of rocking levers 18b, 18b. Further, in the barrel body portion 18a of the coupler 12, the connection opening portion 12a is formed to have a large size corresponding to the diameter of the liquid discharge port 6 of the container 1, and the wall portion on the base end side has a small screw hole 12a.
b is formed, and the first connecting pipe portion 11a of the branch pipe 11 is formed.
The screw hole 12b is liquid-tightly engaged with the male screw of the connecting pipe 16 connected to. In the coupler 12, 17 is a ring-shaped seal member, and the coupler 12 is pressed in a state where the end face of the liquid discharge port 6 of the container 1 is pressed against the seal member 17 by rocking the rocking levers 18b and 18b. It is fixed to the liquid outlet 6.

Next, a liquid delivery system using the above-mentioned liquid level detection tool 10 will be described. This liquid delivery system A
Is a container 1 containing a liquid having a liquid discharge port 6 which can be opened and closed, a liquid level detector 10 detachably connected to the liquid discharge port 6 of the container 1, and a liquid level detector 10
Of the liquid inside the container 1 connected to the liquid delivery port 14 of the delivery pump 21 and the liquid level detection tool 1
The discharge pump 22 is connected to the residual liquid discharge port 0 of 0 and discharges the residual liquid in the container 1 and the residual liquid in the liquid level detection tool 10 to the outside.

The delivery pump 21 is connected to the liquid discharge port 6 of the liquid level detection tool 10 via a pipe 23, and the pipe 2
It is connected to a predetermined place (for example, a manufacturing tank) of the factory via 4. Further, the discharge pump 22 is connected to the residual liquid discharge port 15 of the liquid level detection tool 10 via a pipe 25, and is also connected to a predetermined place in the factory (for example, a liquid recovery tank) via a pipe 26. The pipes 23 and 25 are preferably flexible hoses so that the coupler 12 can be connected to the liquid discharge port 6 even if the position of the container 1 is changed a little when the container is replaced.
The discharge pump 22 and the liquid level detection tool 10 may be detachably connected.

Next, a series of flow of the liquid delivery work by the liquid delivery system A will be briefly described. 2 to 4
In, the solid arrow indicates the direction in which the liquid flows. (1) Open the connection valve 5 of the container 1 and the delivery port opening / closing valve 19 of the liquid level detection tool 10 to open the needle 1 of the pressure gauge 13.
Check the current liquid level height indicated by 3b. And
The delivery pump 21 is driven to deliver the liquid E in the container 1 to a predetermined place such as a manufacturing tank (see FIGS. 1 and 2). The outlet opening / closing valve 20 is closed. (2) The needle 13b of the pressure gauge 13 is near LOW (display panel 1
If you point to the shaded part of 3a), be careful because there is little residual liquid.
Delivery pump 2 when OW (liquid level height is 0 mm) is reached
1 is stopped and the outlet opening / closing valve 19 is closed (see FIGS. 1 and 3). (3) Open the discharge port opening / closing valve 20, and set the discharge pump 22.
Is driven to discharge the slight residual liquid remaining in the container 1 and the residual liquid existing in the flow path of the liquid level detection tool 10 to a predetermined place such as a liquid recovery tank (see FIG. 4). (4) The connection valve 5 of the container 1 is closed, the coupler 12 of the liquid level detection tool 10 is removed from the liquid discharge port 6, the empty container 1 is moved to another location, and a new container 1 with a full tank is detected. The coupler 12 is moved to the tool 10 side, and the coupler 12 is connected to the liquid discharge port 6 for replacement (see FIG. 5).

In the liquid level detector for a container and the liquid delivery system according to the present embodiment, the coupler 12 can be easily attached to and detached from the liquid discharge port 6 when the container 1 is replaced as described above. The work becomes easy. This liquid level detection tool 10 includes a coupler 12
The pressure gauge 13 and the pressure gauge 13 are connected by a branch pipe 11 and the like, which is a simple structure and can be manufactured easily and at low cost. Also, the liquid level detection tool 1
Since the residual liquid can be accurately controlled only by visually observing the pressure gauge 13 of 0, raw material management and container order management related to the product on the user side becomes easy. In addition to this, since the liquid is taken out from the liquid discharge port 6 at the bottom of the container 1, the liquid can be effectively used with almost no loss, the residual liquid loss can be significantly reduced, and the upper portion of the container 1 can be reduced. Since it can be opened to the extent that air is removed, dust does not enter. Further, since the slight residual liquid remaining in the container 1 after use and the residual liquid in the liquid level detection tool 10 can be discharged to the outside by the discharge pump 22, the residual liquid treatment is also easy. On the other hand, on the side of the liquid manufacturer that delivers the container 1, since the residual liquid in the returned container 1 is significantly reduced, the waste liquid treatment cost can be reduced.

(Other Embodiments) 1. In the above-described embodiment, the liquid level detection tool 10 includes the branch pipe 11 with the first to fourth connection pipe portions 11a, 11b, 11c, and 1.
Although it has 1d, the fourth connecting pipe portion 11d may be omitted, and the discharge port opening / closing valve 20 and the residual liquid discharge port 15 may be omitted. According to this structure, when the residual liquid in the container 1 and the residual liquid in the liquid level detection tool 10 are discharged, the delivery pump 21 can also be used as a discharge pump, and even if the liquid supply amount increases to some extent. It can be applied when manufacturing products that are not affected, or when weighing on the tank side where the liquid is supplied. 2. Further, the liquid level detection tool 10 includes the third and fourth connection pipe portions 1
1c and 11d may be omitted, and the outlet opening / closing valve 19, the outlet opening / closing valve 20, the liquid outlet 14, and the residual liquid outlet 15 may be omitted. That is, the liquid level detection tool 10 in which the coupler 12 and the pressure gauge 13 are connected by an L-shaped tube may be used. In this case, it is possible to apply the conventional method described in FIG. 6 in which a suction hose is inserted from the upper part of the container 1 to pump up the liquid, and the residual liquid loss can be reduced by reliable and accurate liquid level management. 3. Further, as the liquid level detecting means, instead of the analog pressure gauge 13, the pressure of the liquid is electrically detected by a pressure sensor, and the liquid level height value (mm) or pressure value (kg / cm ² ) Or capacity value (L) or all of them may be digitally displayed. Further, for example, an alarm device is activated by a signal from the pressure sensor when the liquid level becomes a predetermined value or less, or the delivery pump 21 is automatically turned off when the liquid level becomes 0 mm. A control unit may be provided.

[0027]

According to the liquid level detecting device for a container of the present invention, since the liquid level of the liquid contained in the container is detected by the liquid level detecting means, it is possible to easily manage the residual liquid from the outside of the container. It can be carried out. Therefore, in the liquid delivery work, the operator can accurately determine whether or not the liquid in the container has become empty, and the liquid in the container can be effectively used to reduce the residual liquid loss. It will be easy. As a result, on the user side, the amount of liquid used per container can be increased and the cost of raw materials can be substantially reduced, and raw material management related to products, container order management, etc. can be properly performed. be able to. On the other hand, on the manufacturer side that delivers containers, it is possible to reduce the amount of residual liquid treatment and reduce the cost of waste treatment. Further, according to the liquid delivery system of the present invention, the liquid delivery system of the present invention is provided to the user (factory) who does not have the equipment for taking out the liquid in the delivered container, thereby streamlining the production ( Reduction of residual liquid loss, simplification of liquid delivery work, simplification of container replacement work, etc.) can be supported.

[Brief description of drawings]

FIG. 1 is a front view of a liquid level detection tool for a container according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram of a container liquid delivery system using the liquid level detection tool of the same embodiment.

FIG. 3 is an explanatory diagram illustrating a liquid delivery state by the container liquid delivery system of the same embodiment.

FIG. 4 is an explanatory diagram illustrating a residual liquid discharge state by the container liquid delivery system of the same embodiment.

FIG. 5 is an explanatory diagram illustrating a container replacement state of the container liquid delivery system of the same embodiment.

FIG. 6 is an explanatory diagram illustrating a conventional method of delivering a liquid in a container to the outside.

[Explanation of symbols]

1 container 6 liquid outlet 6a concave groove 10 Liquid level detector 12 coupler 13 Pressure gauge 14 Liquid outlet 15 Liquid outlet 18a barrel 18b Swing lever 21 Delivery pump 22 Discharge pump E liquid

Claims (8)

[Claims] 1. A connecting portion for detachably connecting to a liquid discharge port provided in a lower portion of a container for storing a liquid,
A liquid level detection tool for a container, which is liquid-tightly connected to this connection portion and includes a liquid level detection means for detecting the liquid level height of the liquid in the container. 2. The connection part further has a first flow path extending therefrom, and the first flow path is provided with an openable / closable liquid delivery port for delivering the liquid in the container to the outside. The liquid level detection tool for containers according to claim 1. 3. The connection part further has a second flow path extending therefrom, and an openable and closable residual liquid outlet for discharging a residual liquid in the container to the outside is provided in the second flow channel. The container liquid level detection tool according to claim 1 or 2, which is provided. 4. The liquid level for container according to claim 1, wherein the liquid level detection means is a pressure gauge capable of detecting a pressure of at least 0.1 kg / cm ² of the liquid in the container. Detection tool. 5. The pressure gauge has a plurality of graduations that represent the liquid level height of the liquid in the container for each predetermined value, and a needle that fluctuates according to the pressure of the liquid in the container. The liquid level detecting tool for a container according to claim 4, wherein a graduation width between the graduations is wider than other graduation widths. 6. A container for storing a liquid having a liquid discharge port that can be opened and closed at a lower portion, a connection portion for detachably connecting to the liquid discharge port of the container, and a liquid delivery port that can be opened and closed. A liquid delivery system comprising: the liquid level detection tool according to any one of 2 to 5; and a delivery pump that delivers the liquid in the container to a predetermined location via a liquid delivery port of the liquid level detection tool. 7. A container for storing a liquid having a liquid discharge port that can be opened and closed at a lower portion, a connection part for detachably connecting to the liquid discharge port of the container, a liquid supply port and a liquid discharge port that can be opened and closed. 6. A liquid level detection tool according to any one of claims 3 to 5, a delivery pump for delivering the liquid in the container to a predetermined location via the liquid delivery port of the liquid level detection tool, and a liquid level. A liquid delivery system comprising: a discharge pump for discharging the residual liquid inside the container to a predetermined place through a liquid discharge port of the detection tool. 8. The liquid discharge port of the container is a pipe member having a concave circumferential groove on an outer peripheral surface thereof, and a connecting portion of the liquid surface detecting tool includes a barrel body fitted to the pipe member, and the barrel. A coupler having a pair of swing levers pivotally attached to a body portion and releasably locked in the concave circumferential groove to releasably fit and maintain the tubular body portion in the tube member. The liquid delivery system according to 6 or 7.