JPH02253829A - End part fixing case of fluid treating device and production of fluid treating device - Google Patents

Abstract

PURPOSE:To enable mass production by forming a fixing agent injection port, plural fixing parts for the end part of the fluid treating device and fixing agent flow passages and disposing the fixing injection port in the upper part of the end part fixing case. CONSTITUTION:The upper part of the end part fixing case 1 is provided with the fixing agent injection port 3. The port 3 is so disposed in the upper part of the case 1 that the distance OA from the center of the axis of rotation to the end part A of the port 3 and the distance OB from the center O of the end part fixing case to the end part B of the fixing agent packed in the end part of the fluid treating device attains OB>=OA. The case 1 is formed with the plural fixing parts 2 for the end part of the fluid treating device. Further, the parts 2 and the port 3 are communicated by the fixing material flow passages 4. The mass production at one time is executed in this way.

Description

Detailed Description of the Invention [Industrial Application Field] The present invention relates to an end fixing case used when filling the end of a fluid treatment device with a fixing agent, and an end fixing case that uses the end fixing case to The present invention relates to a method of manufacturing a fluid treatment device filled with an agent.

[Prior art and problems with the prior art] Currently used filling methods for fluid treatment devices include:
As shown in FIG. 5, a method is used in which the fixing agent 38 is filled through the coupler port 35 by centrifugal force.

The procedure for filling by this filling method is as follows.

First, the fluid processing device 31 is fixed parallel to a centrifugal table 32 that generates centrifugal force in a direction perpendicular to gravity.

At the same time, fixative fixing caps 34 are attached to both ends 33 of the fluid treatment device 31.

A fixative distributor 36 is installed in the cover port 35 of the fluid treatment device 31.
Insert the injection nozzle 37.

Thereafter, by rotating the centrifugal table 32, a centrifugal force perpendicular to gravity is applied to the fluid treatment device 31, and the fixative is delivered from the distributor 36 to both ends 33 of the fluid treatment device 31.
and solidify the fixative to close the end 33 of the fluid treatment device 31.

However, with this method of injecting from one location, it is not possible to simultaneously fill a large number of fluid processing devices 31 with the fixative, because the fixative injected from the coupler port 35 is
By the time it reaches the second fluid treatment device, a large amount is temporarily stocked in the cap of the first fluid treatment device.
The fixative adheres to the hollow fiber membrane. In this way, the bores of the hollow fiber membrane where the fixing agent has adhered are crushed, and the permeation performance of the hollow fiber membrane is reduced, making it impossible to obtain sufficient performance as a fluid treatment device.

In addition, the nozzle 37 of the distributor 36 and the coupler port 35
There were many cases where the fixative leaked from the delicate gaps in the container and could not be filled.

In addition, as a method of filling a plurality of fluid treatment devices at the same time, there is also a method of filling a fixing agent using a distribution channel 41 as shown in FIG.

However, in this method, the injection nozzle port 42 is connected to the distribution tube 41, and the fixative always remains in the distribution tube 41.

For this reason, it is necessary to remove the distribution tube 41 from the distributor 45 each time, which takes time and effort, and the distribution tube 41 cannot be reused, resulting in an increase in cost.

Another method is to attach a large number of injection nozzle ports 42 for distribution to the distributor 45 and fill the fixing agent into a large number of fluid processing devices at the same time, but the separation viscosity is very poor and the fluid processing devices It was not possible to fill the correct amount of fixative, leading to defective products.

As a result of the above, with the methods used up until now, it has been difficult to mass-produce by automation due to problems with the separation viscosity of the distributor when taking a large number of pieces, and problems with the connection with the distributor 45.

[Means for Solving the Problems] Therefore, in order to solve one or more problems, the present invention has achieved the following invention as a result of intensive studies: an end portion 13a of a fluid processing device; The end fixing case 1 is used when filling the fixing agent into the fixing agent 13b, and is made of synthetic resin that does not easily adhere to the fixing agent. A portion 2 and a fixative flow path 4 are formed; ■ Distance OA from the center of the rotation axis (center of the fluid treatment device) 0 to the end A of the inlet 3; and Distance OA from the center O of the rotation axis to the end of the fluid treatment device. The fixing agent inlet 3 is arranged at the upper part of the end fixing case so that the distance OB to the end B of the fixing agent filled in the fixing agent satisfies OB≧OA.

[4] The fixed side injection port 3 and the fixed part 2 at the end of the fluid processing device are communicated via the fixative flow path 4.

The present invention provides an end fixing case for a fluid processing device having the configurations [1] to [4] above.

As a second invention, there is provided a method for manufacturing a fluid treatment device, in which the ends 13a and 13b of the fluid treatment device are filled with a fixing agent using the end fixing case 11 according to the first invention, comprising: A step of arranging the fluid treatment device 13 and the distributor 10 on the fixed part 17 of the fixed end case 11; ■ Applying centrifugal force from the rotation axis O' of the fixed end case 11 to the fixed end case 11 of [1] above; The process of applying outward.

■The fixative is applied to the fixative inlet 15, the fixative channel 16, and the opening 18 of the fixing part 17 while applying the centrifugal force described in [2] above.
The present invention provides a method for manufacturing a fluid treatment device, which includes steps [1] to [3] above, including the step of uniformly filling the end portion of the fluid treatment device through the above steps.

[Function] According to the above two inventions, the fixing agent can be used in the end fixing case 1.
The fixative flows smoothly into the fluid treatment device ends 13a, 13b without blocking the fixative flow path 4 of No. 1, and is evenly filled into the fluid treatment device ends 13a, 13b.

[Example] FIG. 1 shows a sectional view of the end fixing case of the present invention.

The end fixing case 1 is made of a material that has poor adhesion to a fixing agent such as urethane, which will be described later, such as polyethylene, polypropylene, or polystyrene.

A fixing agent inlet 3 is provided at the top of the end fixing 1 case.

The fixative inlet 3 has a distance OA from the center O of the rotation axis to the end A of the inlet 3, and an end B of the fixative filled into the end of the fluid treatment device from the center 0 of the end fixing case. The end fixing case 1 is arranged at the upper part of the end fixing case 1 such that the distance OB to the terminal OB satisfies OB≧OA.

Further, the end fixing case 11 is provided with a plurality of fixing parts 2 for the ends of the fluid treatment device.

The fixing part 2 and the fixing agent inlet 3 are communicated with each other through a fixing agent channel 4 provided in the end fixing case l.

The end fixing case 1 shown in FIG. 1 has a fixing part 2, a fixative inlet 3, and a fixative flow path 4 formed in the same manner.
As shown in FIG. 2, it is also possible to separately mold the fixing agent flow path 4a portion, and then mold the fixing portion 2a and the fixing agent inlet 3a to form an integrated end fixing case. In short, this means that there are a fixing part 2a, a fixing inlet 3a, and a fixing agent channel 4a in the end fixing case.

As described above, the end fixing case 1 can provide a technology that allows mass production of a plurality of fluid treatment devices at once.

By changing the size of the fixative channel 4 depending on the number of fluid treatment devices, it is possible to smoothly fill the end portion of the fluid treatment device with the fixative.

The position where the fixative flow path 4 is formed is not limited to the end of the fluid treatment device, and it may be formed so that at least one end of the fluid treatment device is connected.

Furthermore, if you want to reuse the fixed case, by making it a one-piece type, the fixing agent remaining inside can be easily removed, making it possible to reuse the case.

The method of filling the end of a fluid treatment device with a fixative using the present invention will now be described in detail.

FIG. 3 shows an example of a centrifugal injection device 8 for filling fixative.

The device 8 is formed so that a centrifugal force can be applied outward from the rotational axis O' of the end-fixed case for each gravitational force, in other words, in parallel to the direction in which the gravitational force acts.

The device 8 includes a table body 9, a fixative distributor IO, an end fixing case 11, and a table rotating shaft 12, and a fluid processing device 13 is vertically arranged between the end fixing cases 11. It has become.

The distributor 1-0 is filled with a fixative and has an injection nozzle 1.
4 is formed.

First, the fluid treatment device 13 is vertically arranged in the space formed by the end fixing case 11 .

At this time, the ends 13a and 13b of the fluid treatment device 13 are fitted into the fixing part 17 formed in the end fixing case 11, and at the same time, the fixing agent distributor IO is connected to the injection port 15 of the fixing case 17.

Thereafter, by rotating the table body 9 and applying centrifugal force to the fluid processing device 13, the fixative in the distributor 10 is passed through the fixative inlet 15, the fixative channel 16, and the opening 18 of the fixing part 17. End portions 13a+, 13 of the fluid treatment device 13
am.

13 a n, 13b3.13b, 13b, can be filled.

At this time, since a centrifugal force is applied to the ends 13a and 13b of each fluid processing device 13 in parallel to gravity, the ends 13a1
3b can be horizontally filled with the fixing agent, and the fixing agent 16 can be filled evenly according to the amount of fixing agent filled in each fluid processing device 13.
It is possible to fill the

Since the centrifugal force is applied equally to each fluid treatment device 13 as described above, it is possible to fill a plurality of fluid treatment devices 13 with the fixing agent at the same time without fear of the table shaking.

FIG. 4 shows another embodiment of filling the end of a fluid treatment device with fixative using a centrifugal injection device 8a.

This embodiment is the same as the first embodiment except that centrifugal force is applied horizontally to gravity.

Centrifugal force is not parallel to gravity, but in order to apply a large centrifugal force by using a fixed case at the end of the fluid processing device made of synthetic resin that does not easily adhere to the fixing agent.
By applying a rotation speed of rpm or more, the fixing agent can be filled horizontally to the end portions 13a' and 13b', as in the first embodiment, and the amount of fixing agent filled in each fluid processing device 13' can be reduced. Accordingly, it is possible to uniformly fill the fixing agent 16'.

[Effects of the Invention] As explained above, in the present invention, when filling the end portion of the fluid processing device with the fixing agent, the fixing agent does not remain in the distributor 10, and the fixing agent is filled in the same path at one location on the left and right. Since the body fluid is evenly distributed through the fluid treatment device and horizontally filled at the end of the fluid treatment device, there is no fluid stagnation because body fluid is evenly distributed near the end of the fluid treatment device, and the body fluid is distribution efficiency will be improved.

■The end-fixed case can be reused. ■Efficiently,
This is an excellent invention that has the first effect of making it possible to perform mass production with fluid processing devices.

[Brief explanation of drawings]

FIG. 1 is a sectional view of the end fixing case of the present invention, and FIG. 2 is a sectional view of the end fixing case of the present invention. 2 is a fixing part, 3 is a fixative inlet, 4 is a fixative flow path, 8 indicates a centrifugal injection device.

Claims (2)

[Claims] (1) An end fixing case used when filling the end of a fluid treatment device with a fixing agent, [1] Made of synthetic resin that does not easily adhere to the fixing agent; [2]
A fixed side inlet, a plurality of fixed parts at the ends of the fluid processing device, and a fixative flow path are formed [3] From the center O of the end fixing case to the end A of the inlet
The fixative inlet is fixed at the end so that the distance OA from the center O of the case to the end B of the fixative filled at the end of the fluid treatment device satisfies OB≧OA. [4] The fixed-side inlet and the fixed portion at the end of the fluid processing device are communicated with each other via a fixative channel. An end fixing case for a fluid processing device characterized by having the above configurations [1] to [4]. (2) A method for manufacturing a fluid treatment device, comprising filling an end of the fluid treatment device with a fixing agent using the end fixing case according to claim 1, comprising: [1] Processing a plurality of fluids. a step of arranging the device and a distributor in the fixed part of the end-fixing case; [2] a step of applying centrifugal force outward from the rotational axis O' of the end-fixing case to the end-fixing case of [1] above; . [3] The step of uniformly filling the end of the fluid processing device with the fixative through the fixative inlet, the fixative channel, and the opening of the fixing part while applying centrifugal force as described in [2] above [ A method for manufacturing a fluid treatment device, characterized by comprising steps 1] to [3].