JPH01166767A - Air vent filter - Google Patents

Abstract

PURPOSE:To obtain an air vent filter excellent in air bubble removing capacity, by forming the title filter from a base plate having a liquid inflow passage, a liquid outflow passage and a liquid flow passage and a gas permeable and liquid impermeable filter element constituting the wall surface of the liquid flow passage and forming the fluid flow passage into a meandering shape. CONSTITUTION:An air vent filter is constituted of a base plate 3 having a liquid inflow passage 1, a liquid outflow passage 2 and a liquid flow passage 5 and a filter element 4 constituting a part of the liquid flow passage 5. The liquid flow passage 5 has a flat meandering shape having an almost rectangular cross-section and respectively communicates with the liquid inflow and outflow passages 2 at both ends thereof. Further, the filter element 4 constitutes the single surface or both surfaces of the wide wall surface of the liquid flow passage 5 and can permit gas to permeate it but can not permit a liquid to permeate it. The chemical liquid from the liquid inflow passage 1 flows through the liquid flow passage 5 and the air bubbles contained in the chemical liquid are removed through the filter element 4 in this process. Since the liquid flow passage 5 has an almost rectangular flat shape and the wide wall surface thereof is constituted of the filter element 4, air bubble removing capacity is large.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to an air vent filter. More specifically, the present invention relates to an air vent filter used to remove minute air contained in a liquid, particularly a medicinal solution or nutrient solution used for infusion therapy, etc. from the medicinal solution.

<Prior art> Medicinal solutions and nutrient solutions (hereinafter referred to as drug solutions, etc.) used in infusion therapy generally contain a small amount of air. As the air flows down the infusion tube, it becomes minute bubbles, and even larger bubbles are injected into the patient's veins, which can cause serious problems such as the formation of blood clots. In order to remove such air bubbles, a tacho tube or the like has conventionally been used to remove minute air bubbles from a chemical solution or the like.

Furthermore, when a solid preparation such as an anticancer drug is used after being made into powder and dissolved in a dissolving solution, the preparation may not be dissolved and a precipitate may be injected into a patient's vein. Conventionally, filters have been used to remove such foreign substances and bacteria, including precipitates.However, such conventional infusion filters have a filter on the inlet side of the drug solution to prevent channeling. An air vent filter as an air removal means is attached at a suitable position.

<Problems to be solved by the invention> However, although conventional octopus tubes and infusion filters can prevent air bubbles from being injected into the patient's veins to some extent, they do not have sufficient air removal ability. Without,
For example, when attempting to continuously inject a very small amount of a drug solution into a patient's vein for a long time using an intravenous needle that has a microhole for squirting the drug solution, microbubbles may cause the micropore to become visible. This caused clogging, making it impossible to inject medicines, etc.

Furthermore, it is uneconomical to use the infusion filter solely for the purpose of removing air bubbles.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an economical air vent filter with excellent bubble removal ability.

<Means for Solving the Problems> In order to solve the above problems, the present invention provides a substrate having a filter for removing air bubbles present in a liquid, and a relatively wide wall surface of the liquid flow path. The air vent filter is comprised of a gas-permeable and liquid-impermeable filter element constituting one or both surfaces of the air vent filter, and the liquid flow path is formed in a meandering shape.

Since a part of the wall surface of the liquid flow channel is made up of a filter element that is gas-permeable and liquid-impermeable, the chemical solution from the liquid inflow channel is processed under a pressurized environment (on the downstream side of the filter). When the flow rate is controlled, the chemical solution is in a pressurized state), and in the process of flowing through the liquid flow path, the contained air bubbles are removed through the filter element and are discharged through the liquid outflow path. Here, the liquid flow path has a flat cross-sectional shape with a substantially rectangular shape, and its wide wall surface is constituted by the filter element, so (area of the filter element in contact with the chemical liquid)/(chemical liquid Flow rate) is large, and therefore bubble removal ability is large.

In addition, since the liquid flow path has a meandering shape, turbulence is likely to occur where the flow direction changes. Mixing occurs with the chemical solution near the wall of the liquid flow path.
The bubble removal ability is further improved.

<Example> Next, embodiments of the present invention will be described based on the drawings.

FIG. 1 is a plan view of an air vent filter according to an embodiment of the present invention, and FIGS. 2 and 3 are cross-sectional views taken along the line XX and YY of FIG. 1, respectively. 4 is a plan view of an air vent filter according to another embodiment, and FIG. 5 is a sectional view taken along the line X--X in FIG. 4.

As shown in FIGS. 1 to 5, the air vent filter of the present invention includes a liquid inflow path (1), a liquid outflow path (2), a substrate (3) having a liquid flow path (5), and a liquid flow path (5). ) and a filter element (4) forming part of the filter element (4).

The liquid flow path (5) has a flat meandering shape with a substantially rectangular cross section, and the liquid inflow path (
1) and the liquid outflow path (2). The filter element (4) constitutes one side (see Figure 1) or both sides (see Figure 4) of the wide wall surface of the liquid flow path (5), and allows gas to pass through but not liquid. It is something that cannot be done.

Below, regarding the air vent filter of the present invention, the substrate (3)
If the filter element (4) is attached to one side of (
1 to 3) and the case where filter elements (4) are attached to both sides of the substrate (3) (FIGS. 4 to 5) will be described in detail.

<Example 1> The air vent filter shown in Figs. 1 to 3 has a substrate (31
A filter element (4) is attached to one side of the substrate.The liquid flow path (5) of this type of filter is connected to the substrate (3).
) and insert it into the filter element (4).
Cover and seal liquid-tightly.

The liquid inflow path (1) is a passage portion for allowing a chemical solution, etc. to flow into the liquid flow path (5) which is a bubble removal portion, and is
), or may be formed integrally with the substrate (3) in the shape shown in the figure. It is common to insert a tubular connecting part into the hole communicating with (5).

The liquid outflow path (2) is a passage portion for receiving the chemical liquid, etc. from which air bubbles have been removed through the liquid flow path (5), and allowing it to flow out of the filter, and the shape and formation method are not limited. This is the same as in the case of the liquid inflow path (1).

The substrate (3) is the main body part of the filter, and the liquid inflow path (
1) and a liquid outflow path (2), and a meandering shallow groove that constitutes a liquid flow path (5), and a filter element (4) is fixed so as to cover the entire groove portion. ing.

The filter element (4) has the function of permeating and removing air bubbles contained in the chemical liquid etc. that come into contact with this part, and has the property of allowing gas to pass through but not liquid. Covering the entire meandering shallow groove part carved in the substrate (3), the groove part and the filter element (4
), forming a liquid flow path (5).

A thin sheet-like filter (membrane filter) is preferable as the filter element (4), and hydrophobic resins such as polyethylene, polypropylene, and polytetrafluoroethylene are preferably used as the material for forming the filter element (4). obtain. Incidentally, the above-mentioned membrane filter also includes one in which a hydrophobic resin filter is laminated.

The liquid flow path (5) is a passage for removing air bubbles contained in a chemical solution, etc., and is a shallow meandering groove carved in the substrate (3) with a filter element (4) coated and fixed. Form.

The liquid flow path (5) is designed to have a contact area as large as possible with the chemical liquid, etc. compared to the flow rate of the chemical liquid, etc. It has a rectangular flat shape, and the distance between the bottom of the liquid flow path (5) and the filter element (4), that is, the depth of the liquid flow path (5) is not particularly limited, but is 2.
It is preferable to form the InDI or less, especially 0.
It is preferable to form it to 1-0.5-.

In addition, the liquid flow path (5) is formed in a meandering shape so that the part from which air bubbles have been removed and the part from which air bubbles have not yet been removed are mixed in the circulating chemical liquid, etc., and the number of bends in the meandering is The larger the number of bends, the better the bubble removal ability will be, but the more the number of bends, the more the amount of chemical solution remaining in the filter will increase.
The number of bends is preferably 1 to 3 times.

Liquid inflow path (1), liquid outflow path (2), substrate (3)
Chemically resistant synthetic resins such as polypropylene and polyethylene are preferably used as the forming material, but other materials include polymethyl methacrylate, acrylonitrile-butadiene-styrene copolymer, polyvinyl chloride,
Polycarbonate and the like can also be used.

Liquid inflow path (1), liquid outflow path (2), and substrate (3)
If the forming materials are formed separately,
Although they do not necessarily have to be made of the same material, they must be determined in consideration of mutual adhesion.

<Example 2> The air vent filter shown in FIGS. 4 and 5 has a substrate (
A filter element (4) is attached to both sides of a substrate (3), and the liquid flow path (5) of this type of filter has a filter element (4) attached to both sides of a slit-like hole bored in the substrate (3). ) to form a liquid-tight seal.

When this type of filter is compared with the filter of the type in which the filter element (4) is fixed to one side of Example 1, its components are basically the same,
There is a slight difference in the fact that the filter element (4) constitutes two sides of the flow path (5) and in the depth of the liquid flow path (5).

In this case, the depth of the liquid flow path (5) is preferably 4 mm or less, and the depth is preferably 0.1 to 1 mm, since the chemical liquid etc. comes into contact with the filter element (4) on both sides of the flow path (5). preferable.

In addition, (6) shown in FIGS. 1 to 5 is a fastener that fixes the filter element (4), and if the material of the filter element (4) has poor mutual adhesion with the material of the substrate (3). However, the filter element (4
) and the substrate (3) are made of materials that adhere well to each other, this is not necessarily necessary.

<Effects of the Invention> As is clear from the above explanation, the air vent filter of the present invention has the following advantages.

(1) Air bubbles in the chemical solution can be removed reliably and efficiently.

(2) Since the structure is simple, manufacturing is easy and economical.

[Brief explanation of the drawing]

FIG. 1 is a plan view of an embodiment of the present invention, and FIGS. 2 and 3 are cross-sectional views taken along line X--X and Y--Y in FIG. 1, respectively. 4 is a plan view of another embodiment, and FIG. 5 is a sectional view taken along the line X--X in FIG. 4. Explanation of main symbols> 1: Liquid inflow path 2: Liquid outflow path 3: Substrate 4: Filter element 5:
Liquid flow path patent applicant Nissho Co., Ltd.

Claims (1)

[Claims] 1) A filter for removing air bubbles present in a liquid, which includes a liquid inflow path, a liquid outflow path, and a flat liquid flow path with a substantially rectangular cross section that connects the inflow path and the outflow path. a substrate having;
and an air vent comprising a gas-permeable and liquid-impermeable filter element constituting one or both sides of a relatively wide wall surface of the liquid flow path, and wherein the liquid flow path is formed in a meandering shape. filter. 2) The air vent filter according to claim 1, wherein the liquid flow path is formed by covering a shallow groove cut in the substrate with a filter element to seal it liquid-tightly. 3) The distance between the bottom of the groove and the filter element is 2m
The air vent filter according to claim 2, characterized in that the air vent filter has a diameter of less than m. 4) The air vent filter according to claim 1, wherein the liquid flow path is formed by covering both sides of a slit-shaped hole formed in the substrate with a filter element to seal it liquid-tightly. 5) The air vent filter according to claim 4, wherein the distance between the two filter elements is 4 mm or less.