JPH0534723Y2 - - Google Patents

Description

[Detailed description of the invention] (Field of industrial application) The present invention is a tubular separation membrane unit used as a gas separation membrane in a degassing device used in medical equipment, precision measurement equipment, precision analysis equipment, etc. This invention relates to a tubular separation membrane unit that uses hundreds to thousands of silicone rubber tubes in a bundle.

(Prior Art) Conventionally, the aforementioned medical equipment, precision measuring devices, precision analytical instruments, etc. have used deaerators for degassing gas dissolved in liquid (water). In this degassing device, a tubular separation membrane unit made up of hundreds to thousands of silicone rubber tubes with excellent gas permeability is used as a liquid flow path that also serves as a dissolved gas separation membrane, and degassing is performed using this device. ing.

When using this silicone rubber tube as a gas separation membrane for separating gases such as oxygen dissolved in water, conventionally, the silicone rubber tube, which is supplied in a long form, is cut into a predetermined length of 2 to 7 m. After cutting, hundreds to thousands of tubes are tied together into a bundle, and then silicone adhesive is applied to the surface of each silicone rubber tube at both ends and at any desired location to secure the tubes in place. Ta.

(Problems to be solved by the invention) In this way, the conventional tubular separation membrane unit is made by putting together individual silicone rubber tubes and aligning them as they are. They are bundled together in an uneven manner, and as a result, they are bulky and are an obstacle to making the equipment more compact.In particular, in cases where a large number of silicone rubber tubes are constructed, the silicone rubber tubes cannot be reliably bonded and fixed to each other. This resulted in drawbacks such as the silicone rubber tube separating during use.

Furthermore, when processing using the above method, in addition to aligning a large number of pieces, it is necessary to align all the tips, so the workability is very poor, and fixing with silicone adhesive is also troublesome.

(Means for Solving the Problems) The present invention was made to solve the above-mentioned problems, and consists of converging several hundred or more silicone rubber tubes at least at both ends, and applying adhesive only to the converged portions. In a tubular separation membrane unit having a converging section and a non-converging section fixed in structure, the converging section has one silicone rubber tube as the center and six silicone rubber tubes arranged concentrically around the circumference thereof. The present invention provides a tubular separation membrane unit characterized in that a plurality of subunits each consisting of seven subunits arranged and bonded to each other with an adhesive are arranged and bonded in a honeycomb shape.

(Function) According to the above-described means of the present invention, a subunit is formed by bonding seven silicone rubber tubes to each other in advance, and the subunits are sequentially arranged in a honeycomb shape according to the required number. As a result, a compact tubular separation membrane unit in which silicone rubber tubes are securely bonded and fixed to each other can be easily obtained with good workability.

(Example) Next, an example of the present invention will be described based on the drawings. FIG. 1 is a sectional view of the subunits constituting the tubular separation membrane unit of the present invention, where 1 is a silicone rubber tube, 2 is an adhesive, and 3 is a subunit. After applying the adhesive 2 over a distance of about 10 cm in width at intervals of about 1 m on the outer circumference of a silicone rubber tube 1 with an inner diameter of 1 mm and an outer diameter of 1.8 mm, six strips of adhesive were applied on the circumference of the silicone rubber tube 1. The silicone rubber tubes 1 were arranged concentrically, and the parts to which the adhesive 2 was applied were fixed to form the subunit 3 . Thereafter, 70 subunits 3 were cut into lengths of about 2 m, and 70 of them were arranged in a honeycomb shape, and both ends and the middle part thereof were glued together with adhesive 2 to produce a tubular separation membrane unit.

FIG. 3 is a sectional view showing a part of the arrangement structure of the subunit 3 of this embodiment. In this example, an RTV (room temperature curable) silicone rubber adhesive was used as the adhesive 2.

The tubular separation membrane unit created in the above-mentioned example can be made approximately 20% more compact than the conventional one, and the silicone rubber tubes have reliable adhesion and do not separate during use. It showed the following characteristics.

Incidentally, in the above embodiment, when forming the subunit, the adhesive was applied only to the silicone rubber tube at the center, but the present invention is not limited to this, and for example, a silicone rubber tube constructed as shown in FIG. It may be formed into a hexagonal shape by coating the outer periphery of the rubber tube. Furthermore, it is desirable to increase the surface area of the tubular separation membrane unit in view of the intended use of the tubular separation membrane unit, and therefore it is preferable that the adhesive application distance be as small as possible.

Furthermore, if the number of silicone rubber tubes required for the tubular separation membrane unit is not divisible by 7, it goes without saying that 1 to 6 silicone rubber tubes can be added as necessary to meet the requirement.

(Effects of the invention) As explained above, the tubular separation membrane unit according to the invention achieves compactness, which was a drawback of conventional products, and solves the problem of the silicone rubber tube separating during use. , and even 7
It has a structure in which subunits consisting of silicone rubber tubes are sequentially combined and arranged according to the required number, so it has high practical and economic value, such as dramatically improving workability and making it easier to obtain stable products. It is.

[Brief explanation of the drawing]

1 and 2 are cross-sectional views of subunits constituting the tubular separation membrane unit of the present invention, FIG. 3 is a cross-sectional view showing a part of an embodiment of the tubular separation membrane unit of the present invention, and FIG. 4 is a conventional subunit. FIG. 3 is a sectional view showing a part of the tubular separation membrane unit of the product. 1...Silicone rubber tube, 2...Adhesive, 3 ...Subunit.

Claims (1)

[Scope of utility model registration request] In a tubular separation membrane unit having a structure in which several hundred or more silicone rubber tubes 1 are bundled at least at both ends, and only the bundled part is fixed with an adhesive 2, and a non-collecting part, the bundled part The subunit 3 consists of seven silicone rubber tubes 1 arranged concentrically around one silicone rubber tube 1 and bonded to each other with an adhesive 2, in a honeycomb shape. A tubular separation membrane unit characterized in that it is configured by being arranged and bonded.