JP3185740U - Connection port connection base structure of the storage can - Google Patents

Abstract

Provided is a storage port connection base structure for a storage can capable of achieving high use convenience and inhalation stability.
An air tube of an air compressor is connected to an air supply control pipe 110A installed in an air supply passage 110, and high pressure air is discharged to an exhaust conduit 111A by a control valve 110B of the air supply control pipe 110A. Then, the gas is introduced into the exhaust conduit 111A installed in the exhaust conduction port, and the introduced gas pressure is detected and controlled by the pressure meter 112A or the control electromagnetic valve installed in the pressure measurement conduction port 112. As a result, the high-pressure gas is introduced into the storage can according to the specific gravity of the storage in the storage can, and the storage in the storage can receives pressure and is supplied to the suction outlet 121 from the suction conduit 120A installed in the suction conduction port. Derived to the installation control pipe 121A to be installed, and is derived by opening the control valve 121B installed in the extraction control pipe 121A.
[Selection] Figure 1

Description

  The present invention relates to a structure for connecting a connection port of a storage can, and more particularly to a structure for connecting a connection port of a storage can used for a content derivation device for a storage can.

  As shown in FIG. 5, a conventional can body suction device includes a can body 31, a can bottom 32, and a can top 33 in a pump unit 30. A suction piston 330 and a lead-out port 331 are installed on the can top 33. The can bottom 32 is provided with an articulated fixed conduction port (not shown). The pump unit 30 is installed at the apex of the storage can body 20. The connection fixed conduction port 320 installed in the can bottom 32 is positioned to face the conduction port of the storage can body 20. By operating the suction piston 330, the gas in the can body 31 is in a vacuum state. Thus, the contents in the storage can body 20 can be sucked out.

However, the conventional can suction device has the following problems.
1. Convenience of use is inferior: The suction piston is operated by human power, so that the gas in the can body is evacuated, and the contents in the storage can must be sucked out. Inferior.
2. Inhalation stability is inferior: By operating the suction piston by human power, the gas in the can body is evacuated and it is necessary to suck and take out the contents in the container. Since the magnitude of the force acting when operating the piston and the frequency of operation cannot be fixed, the stability of inhalation is poor.
This invention is made | formed in view of the said fault of the conventional can body suction device.

  The problem to be solved by the present invention is to provide a conduction port connection base structure of a storage can that can solve the problems of inconvenience in use of a conventional can body suction device and instability of inhalation. .

In order to solve the above-mentioned problems, the present invention provides the following structure for the connection opening of the storage can.
The conduction port connection base structure of the storage can of the present invention comprises a connection base body, and the connection base body is provided with an air supply pipe and a suction pipe, and the air supply pipe has a shape similar to a T-shape. The suction pipe has a shape similar to an L-shape, and an engagement plane is provided on both sides of the connection base body, and the connection base body below the engagement plane is annularly formed. A screw fixing part is installed on the outer diameter, and the air supply conduit is provided with an air supply conduction port in front of the connection base body, and the air supply conduction port is connected to the air supply control pipe. A control valve is installed in the air supply control pipe, and an exhaust conduction port is installed on the bottom side of the connection base body. The exhaust conduction port is installed by connecting an exhaust conduit. Moreover, a pressure measurement conduction port is installed on the apex side of the connection base body, and the pressure measurement conduction port is installed by connecting a pressure meter or a control electromagnetic valve. The suction conduit is provided with a suction conduction port on the bottom side of the connection base body, the suction conduction port is installed by connecting a suction conduit, and separately, the suction conduit is connected to the front of the connection base body. A suction lead-out port, the suction lead-out port is installed by connecting a lead-out control pipe, a control valve is installed in the lead-out control pipe, and the connection base body is installed by a screwing fixing portion to be installed. , Screwed and fixed to the conduction port of the storage can body, and connected the air tube of the air compressor and the air supply control pipe installed in the air supply conduction port, through the control valve of the air supply control pipe The high pressure air is introduced into the housing can through the exhaust conduit of the exhaust passage, and the introduced gas pressure is detected and controlled by a pressure meter or a control electromagnetic valve installed at the pressure measurement passage, High-pressure gas is contained in the storage can according to the specific gravity of the storage in the storage can. In this way, the contents in the storage can receive pressure, and are led out from the suction conduit installed in the suction conduction port to the lead-out control tube installed in the suction lead-out port, and to the lead-out control tube It is derived by opening the control valve to be installed. Thus, by simply introducing high-pressure air into the storage can body, the contents can be stably derived, and the convenience of use and the stability of inhalation can be improved. Can be achieved.

The conduction port connection base structure of the storage can of the present invention has the following effects.
1. High convenience of use: By introducing high-pressure air into the storage can body through the exhaust conduit of the exhaust passage, the contents in the storage can receive pressure, and from the suction conduit installed at the suction passage, Since it is led out to the lead-out control pipe installed at the suction lead-out port, and it is derived by opening the control valve installed in the lead-out control pipe, the contained material can be led out by simply introducing high-pressure air. Convenience is high.

2. High intake stability: High-pressure air is introduced into the storage can through the exhaust conduit of the exhaust vent, and the pressure meter or control solenoid valve installed at the pressure measurement vent detects and controls the introduced gas pressure. In this way, the high-pressure gas is introduced into the storage can according to the specific gravity of the storage in the storage can. Thus, the storage in the storage can receives pressure and from the suction conduit installed in the suction conduction port. , Led out to a lead-out control pipe installed in the suction lead-out port, and led out by opening a control valve installed in the lead-out control pipe. By introducing high-pressure air into the housing can body, the contents can be stably Because it derives, the stability of inhalation is high.

It is a schematic diagram of this invention solid combination state. It is a schematic diagram of the present invention three-dimensional decomposition state. It is a schematic diagram of this invention side view sectional state. It is a reference figure of the use condition which couple | bonds this invention with a storage can body. It is a reference figure of the state which couple | bonds a can body suction device with the conventional storage can body.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

  As shown in FIGS. 1 to 3, which are schematic diagrams of a three-dimensional combination state, a three-dimensional disassembled state, and a side view sectional state of the conduction port connection base structure of the storage can according to the present invention, A connection base body 10 is provided.

  The connection base body 10 is provided with an air supply line 11 and an intake line 12.

The air supply line 11 has a shape similar to a T shape, and the suction line 12 has a shape similar to an L shape.
In addition, on both sides of the connection base body 10, engagement planes 13 are respectively installed.
A screw fixing portion 14 is installed on the outer diameter surrounding the connection base body 10 below the engagement plane 13 in an annular shape.

An air supply opening 110 is provided in front of the connection base body 10 in the air supply line 11.
An air supply control pipe 110A is coupled to the air supply passage 110.
A control valve 110B is installed in the air supply control pipe 110A.

Further, an exhaust conduction port 111 is provided on the bottom side of the connection base body 10.
An exhaust conduit 111A is coupled to the exhaust conduction port 111.
Further, a pressure measurement conduction port 112 is provided on the apex side of the connection base body 10.
A pressure meter 112A or a control electromagnetic valve (not shown) is coupled to the pressure measurement conduction port 112.

A suction conduction port 120 is installed on the bottom side of the connection base body 10 in the suction pipe 12.
A suction conduit 120A is coupled to the suction conduction port 120.
In addition, a suction outlet 121 is provided in front of the connection base body 10 in the suction pipe 12.
A lead-out control pipe 121A is coupled to the suction lead-out port 121.
A control valve 121B is installed in the derivation control pipe 121A.

  With the structure as described above, the structure of the conduction port connection base structure of the storage can of the present invention is completed.

  As shown in FIGS. 2 to 4 which are a three-dimensional exploded schematic diagram, a side sectional schematic diagram of the storage port connection base structure of the present invention, and a use state reference diagram coupled to the storage can body, as shown in FIGS. Are fixed to the conduction port of the storage can body 20 by a screw fixing portion 14 provided in the container.

By connecting the air tube of the air compressor and the air supply control pipe 110A installed in the air supply conduction port 110, high pressure air is exhausted through the control valve 110B of the air supply control pipe 110A and exhausted from the exhaust conduction port 111. It is introduced into the storage can body 20 through the conduit 111A.
The introduced gas pressure is detected and controlled by a pressure meter 112A or a control electromagnetic valve installed in the pressure measurement conduction port 112.
Thereby, the high-pressure gas is introduced into the storage can body 20 according to the specific gravity of the storage object in the storage can body 20.

  Thus, the contents in the storage can body 20 receive pressure and are led out from the suction conduit 120A installed in the suction conduction port 120 to the lead-out control pipe 121A installed in the suction lead-out port 121. Further, the control valve 121B installed in the derivation control pipe 121A is opened for derivation. Thus, by simply introducing the high-pressure air into the storage can body 20, the stored item can be stably derived, and high convenience of use and stability of inhalation can be achieved.

  The names and contents of the present invention described above are only used for explaining the technical contents of the present invention, and do not limit the present invention. Equivalent applications based on the intention of the present invention or conversion, replacement of parts (structure), and increase / decrease in quantity are all included in the protection scope of the present invention.

  The present invention has the novelty that is a requirement for utility model registration, has sufficient inventive step compared to conventional similar products, has high practicality, meets social needs, and has a very high industrial utility value Big.

10 Connection base
11 Supply line
110 Air supply port
110A air supply control pipe
110B control valve
111 Exhaust port
111A exhaust pipe
112 Pressure measurement port
112A pressure meter
12 Suction line
120 Inlet port
120A suction conduit
121 Inlet outlet
121A Derived control pipe
121B Control valve
13 engagement plane
14 Screw fixing part
20 storage cans
30 units
31 Can body
32 Can bottom
320 articulated fixed conduction port
33 Can top
330 Suction piston
331 Outlet

Claims (8)

It is a conduction port connection base structure of the storage can,
It has a connection base body,
The connection base body is provided with an air supply line and a suction line,
An air supply opening is installed in front of the connection base body in the air supply line, and an air supply control pipe is coupled to the air supply opening,
On the bottom side of the connection base body, an exhaust conduction port is installed, and an exhaust conduit is coupled to the exhaust conduction port,
In addition, a pressure measurement conduction port is installed on the apex side of the connection base body, and a pressure meter is coupled to the pressure measurement conduction port,
A suction conduction port is installed on the bottom side of the connection base body in the suction conduit, and a suction conduit is coupled to the suction conduction port,
A conduction port connection base structure for a storage can, wherein a suction lead-out port is installed in front of the connection base body in the suction pipe, and a lead-out control pipe is coupled to the suction lead-out port.   The conduction port connection base structure for a storage can according to claim 1, wherein the air supply pipe has a shape similar to a T-shape.   2. The storage port connection base structure according to claim 1, wherein the suction pipe has a shape similar to an L-shape.   The connecting port connection base structure for a storage can according to claim 1, wherein engagement planes are respectively provided on both sides of the connection base body.   2. The conduction port connection base structure for a storage can according to claim 1, wherein a screw fixing portion is annularly installed below the outer diameter of the connection base body.   The connection port connection base structure for a storage can according to claim 1, wherein a control valve is installed in the air supply control pipe.   2. The conduction port connection base structure for a storage can according to claim 1, wherein a control valve is installed in the lead-out control pipe.   The storage port connection base structure according to claim 1, wherein a control electromagnetic valve is coupled to the pressure measurement connection port.