JP2864265B2 - Fluid distribution device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for selectively sequentially distributing a fluid to a plurality of receiving sections through a same flow path.

[Conventional technology and its problems]

For example, the fluid in a tank or a tank is discharged to many receiving parts,
Conventionally, in the case of distributing, a method of connecting each with a pipe, moving a large number of receiving parts to the vicinity of a tank or a tank, and performing the dispensing through a pipe, or dispensing and distributing manually is performed. Further, even when the above-described pipe connection is used, when a kind of fluid is delivered and distributed to n receiving parts, the number of pipes is required n, which is improved in view of the laying cost, maintenance management, effective use of land, and the like. There were many things to be done. In particular, with the recent diversification of demand, a moving tank batch production method has been discussed variously as a desirable production method in the future in multi-product small-lot production. When the auxiliary raw material is charged, it must be connected to a pipe each time, and the time loss is large, and there is a concern about contamination. Therefore, a more efficient raw material distribution means than before has been desired.

[Problems to be Solved by the Invention] The present invention solves the above-mentioned problems of the conventional device, and only allows the passage formed in the rotor rotatably disposed in the casing to communicate with the discharge pipe of the tank. It is another object of the present invention to provide a dispensing device which can easily distribute the fluid in the tank to a large number of receiving portions.

[Technical means for solving the problem]

In order to achieve the above object, a fluid distribution device according to the present invention includes, in a casing, a rotor having a substantially L-shaped flow passage having one end opened at the center of an upper surface and the other end opened at a side surface. It is rotatably arranged, the center opening of the upper surface of the flow path is connected to the fluid pipe connected to the discharge pipe and the washing pipe, and the side opening of the flow path is provided in plural or many on the side circumference of the casing. It is characterized by selectively communicating with the piping, and separately providing a valve device to each of the distribution pipes.

[Action]

In the fluid distribution device according to the present invention, a rotor provided with a substantially L-shaped flow path having one end opened at the center of the upper surface and the other end opened at the side surface is rotatably disposed in the casing, The opening at the center of the upper surface of the flow path was communicated with a fluid pipe communicating with the discharge pipe and the washing pipe of the tank, and the side opening of the flow path was connected to a plurality of receiving tanks arranged on the side surface of the casing. Since the fluid is selectively connected to the distribution pipe, the fluid in the tank is distributed from the discharge pipe and the fluid pipe to the receiving tank via the flow path of the rotor, and after the distribution to one receiving tank is completed, the fluid also serves as the washing liquid pipe. The gas is supplied from the gas pipe into the flow path to completely flow the fluid,
Next, by rotating the rotor, the side opening of the flow path is connected to the distribution pipe connected to another desired receiving tank provided in the casing, and the same operation as described above is repeated by one flow path. It distributes the fluid to a number of receiving tanks.

〔Example〕

 An embodiment of the present invention will be described with reference to the drawings.

In the drawing, reference numeral 1 denotes a rotor having a shape obtained by cutting off an upper portion and a lower portion along a center line of a sphere, and the roller 1 is rotatably disposed in a casing 2 divided into two parts, for example. .

A substantially L-shaped flow path 3 having one end opened in the center of the upper surface and the other end opened in the side surface of the rotor 1 is provided in the rotor 1. 9, a central projecting portion 1 'projecting downward and projecting outside the casing is formed.

The casing 2 has a cylindrical shape, and a rotary encoder 7 is provided on the lower surface thereof.
Of the rotor 1 and the rotating shaft 9 of the rotor 1
The rotation shaft 9 is operated by the geared motor 6.

Accordingly, the rotating shaft 9 projecting from the central projecting portion 1 'of the rotor 1 is operated by the geared motor 6, measures and adjusts the rotating angle by the rotary encoder 7, and is rotated by the timing belt 8 to rotate the rotating shaft 9, that is, the rotor 1 Is rotated in a predetermined direction exactly around a vertical flow path opening at the center of the upper surface of the rotor 1, and a side opening of the flow path 3 of the rotor 1 is provided on a peripheral surface of a casing 2 described later. It operates to stop at a position communicating with the opening.

2 _1, 2 _2, ... is a fluid dispensing opening allowed formed in the peripheral wall of the casing 2 of the position coinciding with the side opening of the channel 3 of the rotor 1 described above, the opening 2 _1, 2 _2, ... Are respectively fitted into the casing 2 in which... Are formed.
The opening 2 _1, 2 _2, respectively valve seat 13 is provided in the ..., 12
Is a valve body which can be brought into and out of contact with the valve seat 13 via the valve rod 11 by the air cylinder 10.

Receiving tank fluid pipe 15 ₁ connected to (not shown), 15 _2, ..., and the cleaning liquid recovery pipe 16 _1, 16 _2, ... it is connected via a three-way valve 14 'in the distribution pipe 5 described above .

Reference numeral 4 denotes a fluid pipe connected to a flow port opened in the casing 2 so as to communicate with the above-described central opening of the upper surface of the flow path 3 of the rotor 1. The fluid pipe 4 is connected to a gas or a gas via a three-way valve 14. A cleaning liquid pipe 16 for supplying a cleaning liquid and a discharging pipe 15 connected to a tank (not shown) are connected.

In the drawing, reference numeral 17 denotes a sealing device for the valve stem 11, and 17 'denotes a sealing device interposed between the rotor 1 and the casing opening.

In FIG. 2, fluid distribution openings 2 ₁ , 2 ₂ ,... For connecting distribution pipes 5 are provided at three places on the peripheral wall of the casing 2, but the above-mentioned openings 2 ₁ , 2 ₂ ,. , The position is arbitrary.

This embodiment is configured as described above, and its operation will be described. In operation, the discharge pipe 15 is connected to a fluid storage tank (not shown), and the fluid pipe connected to the distribution pipe 5 is connected. Each of 15 ₁ , 15 ₂ , 15 ₃ ,... Is connected to a number of tanks. A fluid receiving tank (not shown)
Connecting the fluid tube 15 ₁ at the receiving tank and the automatic pipe connection apparatus and the like of the to distribute to. At this time, the air cylinder 10 is actuated, and the valve body 12 is
Keep allowed sealing the valve seat 13 provided in the fluid distribution opening 2 _1. When the geared motor 6 is actuated by the instruction of the central control room to rotate the rotating shaft 9 protruding from the rotor 1, the rotating shaft 9 is engaged with the rotary encoder 7 by the timing belt 8. The rotation angle is measured and adjusted by the rotary encoder 7, and the rotor 1 is rotated to a predetermined position.
Fluid dispensing opening 2 _1, 2 ₂ of the peripheral wall, is stopped at a position close to the opening 2 ₁ is a predetermined one of a ..... It must ensure that the side opening and a fluid dispensing opening 2 ₁ of the casing of the flow path 3 described above is fully connected, in communication with the upper opening of the channel 3 of the rotor 1 as a confirmation The gas is supplied from the gas pipe (washing liquid pipe) 16 by operating the interposed three-way valve 14 to the fluid pipe 4 connected to the flow port of the casing 2, and the gas passes through the discharge pipe 4 and the flow port of the casing 2. The rotor 1 and the casing 2 are supplied into the flow path 3 of the rotor 1
After detecting the pressure of the joint state with the valve and the presence or absence of leakage, the air cylinder 10 is operated to separate the valve body 12 from the valve seat 13, and the three-way valve 14 of the fluid pipe 4 is operated to connect with the fluid storage tank. The three-way valve 14, the fluid pipe 4, the rotor 1
Flow path 3, is distributed to the receiving vessel from the fluid pipe 15 ₁ through the three-way valve 14 'from the distribution pipe 5 through a fluid dispensing opening 2 ₁ of the casing 2 (not shown).

When a predetermined amount of fluid is discharged, the three-way valve 14 is closed, gas is injected from the gas pipe (washing liquid pipe) 16, all the fluid remaining in the flow path 3 is pumped, and then the three-way valve 14 ′ of the distribution pipe 5 is opened. Close.

If you need cleaning, the cleaning liquid pumped from the washing liquid pipe 16, to clean the flow channel effluent is discharged from the cleaning liquid discharge pipe 16 _1. Then advancing the valve rod 11 by operating the air cylinder 10, the valve element 12 and pressed against the valve seat 13 provided in the fluid distribution opening 2 ₁ of the casing 2 to close the flow path. Leakage of the fluid does not occur since the fluid dispensing opening 2 ₁ sealing device 17 'is provided.

If you want to subsequently dispense and dispense fluid to another receiver,
The same operation as described above may be repeated to rotate the rotor 1 by a predetermined angle.

When distributing the same fluid to many receiving parts,
15 _1, 15 ₂ may be previously fixedly connected ...... to each receiving unit, or may be connected by each time automatic pipe connection device as described above. Further, by connecting the fluid pipe 15 to another fluid storage tank, another fluid can be distributed.

The fluid referred to in the present embodiment is not limited to a liquid, and the present apparatus can be used even if it is a powder, granule, pellet, or gas.

This embodiment is an apparatus for dispensing and distributing to many receiving units,
The fluid pipes can be easily discharged and distributed by rotating the rotor by simply connecting the fluid pipes to a plurality of receiving sections, respectively, or automatically connecting them as needed. The above-mentioned distribution is selectively performed to a large number of receiving sections via the same flow path, and since the above-mentioned flow path can be washed, there is no need for contamination or the like.

〔The invention's effect〕

In the fluid distribution device according to the present invention, a rotor provided with a substantially L-shaped flow path having one end opened at the center of the upper surface and the other end opened at the side surface is rotatably disposed in the casing, A distribution pipe that connects an opening at the center of the upper surface of the flow path to a fluid pipe connected to a gas pipe also serving as a washing liquid pipe and a discharge pipe from the tank, and connects a side opening of the flow path to a plurality of receiving tanks provided on the side of the casing. The fluid in the tank can be distributed from the discharge pipe and the fluid pipe to the receiving tank through the flow path of the rotor. After the distribution to one receiving tank is completed, The washing liquid is supplied from the washing liquid pipe to wash the flow path, and after the washing is completed, the rotor is rotated to distribute the fluid to the distribution pipe connected to the desired receiving tank in the same manner as described above. Can be selectively dispensed and distributed through the same flow path, Since the cleaning is also possible, without fear of contamination at all, in which it is possible to distribute a large number of the receiving section by a simple operation, their productivity gains are significant.

[Brief description of the drawings]

BRIEF DESCRIPTION OF THE DRAWINGS The drawings show an embodiment of the present invention, FIG. 1 is a partial longitudinal sectional view of the apparatus, and FIG. 1: rotor, 2: casing 3: flow path, 4: fluid pipe 5: distribution pipe, 10: air cylinder 12: valve, 15: discharge pipe 15 ₁ , 15 ₂ : fluid pipe, 16: cleaning liquid (gas) pipe 16 ₁ : Waste liquid discharge pipe

Continuation of front page (58) Field surveyed (Int.Cl. ⁶ , DB name) B01J 4/00 F16K 11 / 085,11 / 20

Claims (1)

(57) [Claims] 1. A rotor having a substantially L-shaped flow passage having one end opened at the center of an upper surface and the other end opened at a side surface is rotatably disposed in a casing. A fluid pipe connected to a discharge pipe and a washing pipe, and a side face aperture of the flow path selectively communicated with a plurality or a plurality of distribution pipes arranged on a casing side circumference; A fluid distribution device, wherein a valve device is interposed separately for each.