KR200394603Y1 - Flat sheet membrane plate and frame type module - Google Patents

Abstract

The disclosed flat sheet plate module includes a module plate having a membrane attached to one side and another surface thereof, a vertical stacking mechanism provided to enable vertical stacking of the module plate, a horizontal connecting mechanism provided to allow horizontal connection of the module plate, and a module plate. It includes a gasket installed on the edge of the module plate to form a receiving space between each layer in the vertical stacking. The flat-panel plate-type module of such a configuration uses the module plate with two membranes as a unit element, thereby improving its own filtration efficiency by 2 times compared to the conventional one, and freely connecting the module plate in the vertical and horizontal directions. It can be used, so you can select and use as much capacity as you need.

Description

Flat sheet membrane plate and frame type module

The present invention relates to a flat-panel plate-type module used in the field of filtering, such as degassing, gas separation, contaminant filtration.

In general, the flat-panel plate-type module is a device for performing filtration, and is used for the purpose of increasing oxygen concentration by permeating oxygen in the air relatively quickly, filtering out contaminants in water, and increasing oxygen concentration.

By the way, since most of the flat-panel plate modules have been used by attaching one membrane to each module plate, the filtration efficiency is not high and the submerged microfiltration membrane plate-type module is usually 600 mm in width and 800 mm in length. By using a wide plate, the filtration efficiency (due to the degree of vacuum and self-absorption) of each part of the frame module is lowered, which also interferes with the efficient discharge of the filtrate.

Therefore, there is a need for a flat-panel plate-shaped module with a new structure that can overcome these disadvantages.

The present invention was created in view of the above necessity, and an object of the present invention is to provide an improved flat membrane plate-shaped module capable of selectively improving the filtration efficiency while allowing filtration in air and in water.

The flat plate-like module of the present invention for achieving the above object, the module plate attached to one side and the other side; A vertical stacking mechanism provided to enable vertical stacking of the module plate; A horizontal connection mechanism provided to enable horizontal connection of the module plate; And a gasket installed at an edge of the module plate so that an accommodation space is formed between each layer when the module plate is vertically stacked.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 5 show a flat plate-like module according to the present invention.

First, as shown in FIG. 1, the flat-panel plate-shaped module of the present invention is based on a module plate 10 each having a membrane 11 attached to both surfaces thereof. That is, in order to double the filtration efficiency compared to using only one sheet in the past, a grid-like attachment portion 10a is provided at the center and the membranes 11 are attached to both surfaces thereof to attach two membranes ( 11) constitutes a module plate 10 having. Here, the portion around the attachment portion 10a is formed with a step immersed inward with a step compared to the edge 10b, and is configured to apply an adhesive to it and easily attach the membrane 11 in place. Reference numeral 20 denotes a gasket, and serves to allow the receiving space to be formed between the layers when the module plates 10 to be described below are stacked. In addition, reference numeral 13 denotes a flow path guide member which guides the fluid between the layers to smoothly proceed to the desired flow path.

Module plates 10 having such a basic structure may be connected in a horizontal direction as shown in FIG. 2, or may be connected in a vertical direction as shown in FIG. 3. Here, the horizontal direction refers to the direction parallel to the plane of the module plate 10, the vertical direction refers to the direction perpendicular to it.

First, as a mechanism for enabling horizontal connection as shown in FIG. 2, a dovetail portion 10c provided on one side of the edge and a connection groove 10d provided to fit the dovetail portion 10c are provided. . Therefore, when the dovetail portion 10c is connected to the connecting groove 10d of the adjacent module plate 10 by connecting, any number of module plates 10 can be connected in the horizontal direction. Therefore, in order to increase the efficiency of filtration, that is, to increase the filtration capacity, the module plates 10 may be connected using the horizontal connection mechanism.

Next, as a mechanism for enabling vertical connection as shown in Figure 3, the connection projection 10e protruding from one side of the edge, and the insertion groove 10f provided on the other side so that it can be inserted. That is, when the stacking protrusion 10e of the module plate 10 is continuously stacked so as to be fitted into the insertion groove 10f of the module plate 10 placed on the upper layer, the whole module is stably stacked as shown in the drawing. At this time, the gasket 20 creates a space that can be accommodated without leaking fluid between each layer.

In addition, through holes are formed in the connection protrusions 10e used as the vertical connection mechanisms as described above, and also serve as a flow path through which fluid flows between the layers. And, if you want a more secure coupling may be bolted through these through holes.

When the module of such a configuration is stacked in both the vertical and horizontal directions, as shown in Fig. 4, a plate-shaped module of considerable capacity is made, and when it is installed and used at the filtration target position, the filtration efficiency is significantly improved compared with the conventional one. Will be shown. That is, a plurality of membranes 11 are also installed in the unit module plate 10 to increase the filtration efficiency, and to stack the unit module plates 10 in the vertical direction or the horizontal direction as desired to obtain a capacity. Since it can be raised as much as possible, it can be utilized appropriately according to a necessary situation.

Reference numeral 30 denotes an outer plate having an inlet tube 31 and an outlet tube 32, respectively, and the inflow and outflow of the fluid proceeds through these inlet tubes 31 and outlet tubes 32, and the gasket 20 Filtration occurs as the fluid passes between the module plates 10 surrounded by).

Therefore, when increasing the oxygen concentration in the air, or when performing operations such as oxygen accumulation or contaminant filtration in water, it is possible to perform the desired filtration work by assembling the module plate 10 in this way, The size can be adjusted freely.

As described above, the planar plate-shaped module of the present invention provides the following effects.

First, since the module plate with two membranes is used as a unit element, its own filtration efficiency can be doubled compared to the conventional one.

Second, the module plate can be freely connected in the vertical and horizontal directions, so that the capacity can be selected and used as needed.

Third, because the gasket is used to make the receiving space between each layer of the module plate, it is possible to perform a smooth degassing and pollutant filtration in the air as well as in the water.

It is understood that the invention is not limited to that described above and illustrated in the drawings and that many more modifications and variations are possible within the scope of the following claims.

1 is a view showing the configuration of a module plate which is a unit element of a flat-panel plate-shaped module according to the present invention,

2 is a view showing connecting the module plate shown in Figure 1 in the horizontal direction,

3 is a view showing the stacking of the module plate shown in Figure 1 in the vertical direction,

4 is a view showing a state in which the module plate shown in Figure 1 connected in a vertical and horizontal direction.

<Description of Symbols for Major Parts of Drawings>

10 ... Module plate 11 ... Membrane

20 Gasket 30 Outer plate

Claims (4)

A module plate having a membrane attached to one side and the other side; A vertical stacking mechanism provided to enable vertical stacking of the module plate; A horizontal connection mechanism provided to enable horizontal connection of the module plate; And a gasket installed at an edge of the module plate so that an accommodation space is formed between each layer during vertical stacking of the module plate. The method of claim 1, The vertical stacking mechanism, It includes a connecting protrusion formed on one surface of each module plate and the insertion groove is provided so that the connecting projection is inserted into the other surface, Flat lamellar module, characterized in that each connecting projection is inserted into the insertion groove of the adjacent module plate when vertically stacked. The method of claim 1, The horizontal connection mechanism, A dovetail portion extending from one side of the edge of the module plate, Flat plate-like module, characterized in that it comprises a connecting groove provided in the rim so that the dovetail portion is fitted. The method of claim 1, Flat membrane plate-shaped module, characterized in that the portion is attached to the membrane of the module plate has a stepped shape.