JPS60209223A - Filter unit - Google Patents

Abstract

PURPOSE:To improve water resistance of a filter unit by bonding edges of a filter element coated with a first adhesive agent to an external frame with a second adhesive agent having affinity to said first adhesive agent. CONSTITUTION:A coating layer 6 provided on the whole surface of a filter element 3 confronting an air inlet side of a filter unit 1 is constituted of a resin material having water repellency. The first adhesive agent 7 comprising a rubber resin is coated on the edge of the filter element to cover the edge. The second adhesive agent 8 comprising an epoxy resin having affinity to the first adhesive, etc. is used to bond the edge of the filter element to an external frame 2. By this constitution, the water resistance of the filter unit is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a filter unit that is used, for example, in an air conditioner and removes dust floating in the air.

[Prior art]

In recent years, with the development of the semiconductor industry and precision machinery industry, products have become smaller and more precise, and there has been a growing demand for technology that improves reliability (and yields). It is necessary to improve the environment, and technology to remove dust and dust floating in the air is attracting widespread attention.

This technique generally involves filtering air using a filter element provided in a filter unit. FIG. 1 is a perspective view showing a conventional filter unit,
The filter unit 1 includes an outer frame 2 formed in a box shape from a metal plate material, plywood, etc., and a filter element 3 for air purification housed within the outer frame 2. This filter element 3 is formed into a plate shape from a filter material, and is folded in accordion style many times in order to widen the filtration area. A separator 4 is provided between the filter elements 3 to fix the filter elements 3 at appropriate intervals, and is formed in the shape of a corrugated plate. Then, the edges of the separator 4 and filter element 3 are glued with an adhesive 5 such as epoxy resin.
By adhering to the outer frame 2, a front and a rear part of the filter element 3 are defined.

This filter unit 1 is used, for example, by being attached to an outlet or an inlet of a blower duct of an air conditioning system, and collects dust according to the dust removal ability of the filter element 3. In addition, its water resistance meets MIL and STD standards.

For example, a standard HEPA filter exhibits f dust removal ability such as DOP aerosol, and has water resistance of MIL and STD MIL-F-0051079B of 503 mm (20
inch). The dust removal ability of commercially available HEPA filters is 0.3 μm in dust particle size.
The collection efficiency is 99.97%, and the water resistance is 600%.
It is in the range of ~700 mmAq. Further, the pressure loss at this time was about 25 mmAq.

However, conventional filter units of this type have a problem in that they do not necessarily have good water resistance. That is, when the filter unit 1 is evaluated by a water filling test, leakage occurs at the bonded portion between the outer frame 2 and the filter element 3. As a result, this has caused a reduction in dust removal ability, especially in high temperature, high humidity air containing water droplets and mist.

[Summary of the invention]

The present invention was developed in view of the above circumstances, and the edge of the filter element coated with a first adhesive made of rubber-based resin is coated with a second adhesive having affinity with the first adhesive. The present invention provides a filter unit whose water resistance is improved by an extremely simple structure in which the filter unit is bonded to the outer frame with a material.

Hereinafter, its configuration and the like will be explained in detail with reference to embodiments shown in the drawings.

[Embodiments of the invention]

Fig. 2 is a perspective view showing a filter unit according to the present invention used as an air purifying filter unit, where ■ is a filter unit, 2 is an outer frame formed into a box shape from metal plate material, plywood, etc.; 2 is no different from the conventional one. Reference numeral 3 denotes a filter element formed into a plate shape from a filter material mainly made of, for example, glass fibers. Like conventional filter elements, this filter element 3 is folded many times in an accordion style to increase the filtration area, and has a corrugated shape. It is sandwiched and fixed between separators 4 formed in plate shapes.

Reference numeral 6 denotes a coating layer provided on the entire surface of the filter element 3 facing the air inlet side of the filter unit 1, and this coating layer 6 is made of a resin material having water clearness to a thickness that further enhances the water clearness of the filter element 3. is fixed to. A first adhesive 7 made of rubber-based resin is applied to the edge of the filter element 3 provided with the coating layer 6 so as to cover the edge. Reference numeral 8 denotes a second adhesive that adheres the edge of the filter element 3 coated with the first adhesive 7 to the outer frame 2, and this second adhesive 8 has affinity with the first adhesive 7. For example, an adhesive made of epoxy resin or polyurethane resin is used.

That is, the entire surface of the filter element 3 is first provided with a coating layer 6 made of a water-clear resin material, and then the first adhesive 7 is applied to the edge, and then the second adhesive 8 is applied to the edge. By being bonded to the outer frame 2, the filter unit 1 is provided so as to define the front and rear sides of the filter unit 1.

In the filter unit 1 constructed in this manner, the coating layer 6 having water clearness is provided on the entire surface of the filter element 3, so that the water clearness can be improved compared to the conventional filter unit. For example, if a coating layer 6 is provided on the entire surface of a standard HEPA filter using a resin that further enhances water clarity, it will compensate for variations in the fiber density of the standard HEPA filter, reduce areas with low density, and improve the total water clarity of the entire filter. be able to. According to experiments, the water resistance is 1.5 to 2.0 times that of conventional products, and the pressure loss is about 1.1 to 1.3 times that of conventional products.
Pressure loss remains almost unchanged compared to conventional models, and water resistance is further improved.

Furthermore, since the first adhesive 7 made of rubber-based resin is applied to the edge of the filter element 3, the water clarity of this edge can be further strengthened.

Since the second adhesive 8 has affinity with the first adhesive 7 on the edge of the filter element 3, pinholes are prevented from forming between the outer frame 2 and the filter element 3. Can be bonded in a protected state. In other words, by bonding the edge of the filter element 3 with enhanced water repellency with the second adhesive 8, it can be bonded to the outer frame 2 while preventing the formation of pinholes that may cause leaks. I can do it.

Therefore, it is possible to prevent leaks from occurring from the edges of the filter element 3, thereby improving water resistance. As a result, the ability to remove dust can be improved, and in particular, the ability to remove dust from air containing water droplets and mist can be improved compared to conventional filter units.

In addition, in the above embodiment, an example is described in which a coating layer 6 having water repellency is provided on the entire surface of the filter element 3 for air purification in order to further strengthen the water repellency of the filter element 3. However, the present invention is not limited to this, and it goes without saying that there is no need to provide the coating layer 6 as long as the filter element 3 has a relatively uniform fiber density and excellent water-recycling properties. In addition to the air purifying filter unit explained in the examples, it can also be applied to liquid mist removal filter units, special gas deodorizing filter units, etc.
Of course, water resistance can be improved, and mist removal and odor removal abilities can be improved.

〔Effect of the invention〕

As explained above, according to the present invention, since the first adhesive made of rubber resin is applied to the edge of the filter element, the water repellency of the filter element can be strengthened. Since the filter element is bonded to the outer frame using the second adhesive having affinity with the adhesive, it is possible to prevent pinholes from occurring between the outer frame and the filter element.

Therefore, the edge of the filter element with enhanced water repellency can be bonded to the outer frame without creating pinholes, which has the effect of reducing leakage from the edge and improving water resistance. There is. As a result, the ability to remove dust from high-temperature, high-humidity air containing water droplets and mist can be improved, and high reliability can be achieved.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing a conventional filter unit, and FIG. 2 is a perspective view showing a filter unit according to the present invention used as an air cleaning filter unit. 2... Outer frame, 3... Filter element, 4...
... Separator, 7... First adhesive, 8...
-Second adhesive. Agent Masuo Oiwa Procedural amendment (voluntary) Mr. Commissioner of the Japan Patent Office 1. Indication of the case: Japanese Patent Application No. 59-66141 2. Title of the invention: Filter unit 3. Person making the amendment. Relationship with the case: Hitoshi Katayama, representative of the patent applicant. Section 4, "Compared to the agent" is corrected to "Compared to the filter unit."that's all

Claims (1)

[Claims] The edge of the filter element coated with a first adhesive made of rubber-based resin is coated with a second adhesive having affinity with the first adhesive.
A filter unit characterized in that it is adhered to an outer frame with an adhesive.