DE19716704A1 - Process for making a hydrophobic plate - Google Patents

Abstract

A method of preparing a hydrophobic plate, particularly for a Ni-H cell, comprises coating a plate with hydrophobic resin dispersion such as a fluoro-based resin, and drying the coated plate. This decreases the internal pressure of a cell, thereby increasing its lifetime. The plate is preferably coated by dipping which makes it easy to prepare a hydrophobic plate, when compared with a method of spraying powder. Moreover, dust is not scattered, and the amount of fluoro-based resin coated on the plate can be easily controlled by controlling the concentration of the dispersion aqueous solution.

Description

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to a method for Manufacture of a hydrophobic plate, and particularly concerns they use a process to easily make a hydrophobic Plate that has good hydrophobic properties by using a Plate is immersed in a dispersion solution.

2. Description of the Related Art

Generally, a sealed nickel Hydrogen cell, d. H. an alkali accumulator, a metal oxide as Anode and a hydrogenated alloy as the cathode. This cell will charged or discharged by the hydrogen ions of the hydrogenated Alloy caused by the splitting of water in the electrolyte obtained during the charging process and by the hydrogen ions during the Discharge process are released to the electrolyte.

The nickel hydrogen cell uses a hydrogenated one Alloy as negative active material, Ni (OH) ₂ as positive active material and an aqueous alkaline solution as Electrolyte. If you put the nickel hydrogen cell with a general formula as Ni-MH (nickel metal hydride) cell, the following electrochemical reactions in the nickel  Hydrogen cells from:

Anode: Ni (OH) ₂ + OH ^- ↔ NiOOH + H₂O (1)

Cathode: M + H₂O ↔ MH + OH ^- (2).

In the above reactions, M is a hydrogenated alloy that Can absorb and release hydrogen ions.

If the charge and discharge according to the above reaction will be carried out during charging and oxygen gas Electrochemically generated discharge at the anode. If the Charge and discharge cycles are carried out continuously, the oxygen gas generated leads to oxidation of the cathode and an internal pressure increase in the cell, causing the Capacity of the cell is reduced. To use the gas Transfer of the gas formed at the anode to the cathode remove, the cathode will become hydrophobic as a result Properties given to the interface of the cathode expand at the point of splitting or absorption of the gas has occurred.

Fig. 2a shows a negative plate ( 7 ) which is coated with a fluorine-based resin powder as a hydrophobic material by spraying the plate ( 7 ) while moving in the direction of the arrow ( 11 ). Fig. 2b shows a negative plate ( 7 ) which is coated with a fluorine-based resin powder as a hydrophobic material by spraying the resting plate ( 7 ) while the spray nozzle ( 9 ) is moving in the direction of the arrow ( 13 ). An alcohol that can easily evaporate after spraying was used as the spray medium; no water was used as the medium because the evaporation of water takes a long time, which oxidizes the plate.

If fluorinated resin powder is applied to the Sprayed on plate forms on the surface of the Plate a three phase (vapor-liquid-solid) material so that the gas adheres easily to the plate. Therefore Gas is absorbed or decomposed on the plate so that the internal Pressure drops. However, the disadvantages of the spraying process lie in that it is difficult to make the plate uniform with the  Coating fluorine-based resin, and that of as a medium used alcohol evaporates so that it is for people is dangerous and extremely flammable. Beyond that the spraying process associated with problems when opening the Spray nozzle is clogged by the resin of the spray solution, causing the operating efficiency drops.

SUMMARY OF THE INVENTION

To the above problems of the conventional method to solve, an object of the present invention is a method of making hydrophobic plates is available to put that not harmful to people and not is flammable and has a high operating efficiency having.

A second object of the present invention is the provision of hydrophobic plates for a cell with low internal pressure and long life by the hydrophobic plate is used.

When examining a hydrophobic plate for a The cell to solve the above problems has the Inventor discovered that a plate with good hydrophobic Properties can be easily made if the Coating with a dispersion solution made of a hydrophobic Resin takes place. Traditionally, those skilled in the art believed that it is difficult when using a hydrophobic dispersion, a hydrophobic plate because you would hydrophilic agent added to promote dispersion will, d. H. of a surfactant, a plate with poor hydrophobic properties. Therefore, at the conventional method uses a spray method to Apply hydrophobic resin powder to the plate. However, can according to the present invention, the plate simply with coated with hydrophobic resin if a hydrophobic plate is made by placing the plate in a hydrophobic Dispersion solution is immersed. In addition, one Cell made using the plate, good hydrophobic properties compared to a cell that  a plate made by the spray method is used. Therefore the internal pressure of a cell is reduced, whereby the Lack of electrolyte in a cell is prevented. Furthermore the electrolyte is distributed uniformly, so that a cell with long life can be manufactured.

The present invention provides a solution to the problem a process for producing a hydrophobic plate, the Steps of coating a plate with one Dispersion solution comprising hydrophobic resin; and the Drying the coated plate.

In the present invention, the preferred one hydrophobic resin is an aqueous solution containing a resin Includes fluorine base, d. H. 3 to 10 weight percent of one Copolymers of tetrafluoroethylene and hexafluoropropylene and / or Polytetrafluoroethylene. If a dispersion with less than 3 Weight percent of a fluorine-based resin as Dispersion solution is used, which is a dispersion of hydrophobic resin, no plate with sufficient hydrophobic properties are generated. If beyond that a dispersion with more than 10 percent by weight of resin Fluorine base is used as the dispersion solution, the hydrophobic Resin comprises, the hydrophobic properties of a cathode increase on. It is therefore not preferred to make a cell that uses a plate with excessively hydrophobic properties, since the amount of permeation of an electrolyte is reduced.

In addition, in the present invention Coating step performed by placing the plate in a Dispersion of hydrophobic resin is immersed. It will preferably, the coating step for 1 second to 5 minutes to perform 0.2 to 3.0 mg / cm² of hydrophobic resin on the Apply plate.

In the method of the present invention preferred that after the drying step further one Calendering step follows so that the plate with more uniform Thickness can be made.

In addition, the method of the present Invention are generally applied to moldings, as well as a plate of a cell to have good hydrophobic properties  surrender.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 (a) is a diagram showing a step of dip coating a plate in an aqueous solution comprising a fluorine-based resin, thereby imparting good hydrophobic properties to the plate according to an embodiment of the present invention;

Fig. 1 (b) is a diagram showing a step of continuously dip-coating a sheet sheet material in an aqueous solution comprising a fluorine-based resin, wherein the sheet is given good hydrophobic properties according to another embodiment of the present invention;

Fig. 2 (a) is a diagram showing a step of spraying an aqueous solution comprising a fluorine-based resin on a moving plate, imparting hydrophobic properties to the plate according to the conventional method; and

Fig. 2 (b) is a diagram showing a step of spraying an aqueous solution comprising a fluorine-based resin on a plate while moving a spray nozzle according to the conventional method.

DETAILED DESCRIPTION OF THE INVENTION

The present invention will be described in more detail with reference explained on the following example, which is under the scope of the present invention.

[Example 1]

A cathode of a nickel hydrogen cell was immersed in 5 weight percent copolymer of tetrafluoroethylene and hexafluoropropylene, ND-1 (1, Japan, Dikyn Co. Ltd.) for 5 seconds as shown in Fig. 1 (a) and in an oven dried at 60 ° C. The thickness of the dried plate is controlled by calendering with a roller to obtain a hydrophobic plate.

Example 2

A hydrophobic plate was prepared according to the same procedure as in Example 1, except for using a dispersion solution containing polytetrafluoroethylene, LDW-40 (1, Japan, Takedayakuhing Co, Ltd.) as a fluorine-based dispersion solution instead of ND-1 was used, except that a sheet material ( 5 ) was continuously immersed in the dispersion as shown in Fig. 1 (b).

Comparative Example 1

Fluorine-based resin powder was sprayed onto a plate while the plate ( 7 ) was moved ( 11 ) to produce a hydrophobic plate, ( 11 ) as shown in Fig. 2 (a).

Comparative Example 2

Fluorine-based resin powder was sprayed on a plate while moving a spray nozzle ( 9 ) to produce a hydrophobic plate as shown in Fig. 2 (b) ( 13 ).

After cells using the hydrophobic plate prepared according to the above example and comparative example the cells were charged and discharged 100 times; it internal pressure and life span (1 CY, 90% level of Total capacity; [CY = cycle]) of these cells Results are shown in Table 1 below.

Table 1

Conventionally, those skilled in the art believed that it was Use of a hydrophobic dispersion due to the hydrophilic Agent that must be added to promote dispersion, d. H. of the surfactant, is difficult, one to produce a hydrophobic plate. Therefore, the conventional process a spray process for the hydrophobic Resin powder used on the plate. However, according to the present invention, the plate simply with hydrophobic resin be coated if a hydrophobic plate by immersion the plate in a hydrophobic dispersion solution becomes. It also assigns a cell that uses the Plate was made, good hydrophobic properties, when compared to a cell that is using a plate obtained by spraying has been. Therefore, the internal pressure of a cell drops, causing the Lack of electrolyte in a cell is prevented. Furthermore the electrolyte is distributed uniformly, so that a cell with a long service life can be produced.

As shown in Table 1 above, this can Coating process with the dispersion solution according to the present invention compared to the method of Spraying powder can be carried out effectively. About that In addition, no dust is scattered, making it easy a hydrophobic plate is made; and the amount of resin based on fluorine, with which a plate is coated simply by adjusting the concentration of the watery Dispersion solution controlled.

The process of making a hydrophobic plate According to the present invention, a method for  Manufacture of plates for various areas of application can be used, such as for a capacitor, as well as for a Cell in the manufacture of a plate with the aim of Increase contact area for a gas.

In addition, the method of the present invention also a useful method to get certain items to impart hydrophobic properties.

Claims (16)

1. A method of making a hydrophobic plate comprising the steps of:
Coating a plate with a dispersion solution comprising a hydrophobic resin; and
Drying the coated plate. 2. Method of making a hydrophobic plate according to claim 1, wherein the hydrophobic resin is a resin Is fluorine based. 3. Process for making a hydrophobic plate according to claim 2, wherein the dispersion solution is an aqueous Solution is the 3 to 10 weight percent fluorine-based resin includes. 4. Process for making a hydrophobic plate according to claim 2, wherein the fluorine-based resin is a copolymer from tetrafluoroethylene and hexafluoropropylene and / or polytetra includes fluoroethylene. 5. Process for making a hydrophobic plate according to claim 1, wherein the coating step is carried out is immersed by placing the plate in the dispersion solution becomes. 6. Method of making a hydrophobic plate according to claim 5, wherein the coating step as long is performed up to 0.2 to 3.0 mg / cm² of the hydrophobic resin are applied to the plate. 7. Process for making a hydrophobic plate according to claim 5, wherein the immersion step is 1 second to 5 Minutes. 8. Process for making a hydrophobic plate  according to claim 1, further comprising a calendering step to standardize the thickness of the coated plate the drying step. 9. A method for producing a hydrophobic shaped body, comprising the following steps:
Coating a molded article with a dispersion solution comprising a hydrophobic resin; and
Drying the coated molded body. 10. Process for making a hydrophobic A molded article according to claim 9, wherein the hydrophobic resin is a resin is fluorine based. 11. Process for making a hydrophobic Shaped body according to claim 10, wherein the dispersion aqueous solution is 3 to 10 weight percent of a resin based on fluorine. 12. Process for making a hydrophobic A molded article according to claim 10, wherein the fluorine-based resin Copolymer of tetrafluoroethylene and hexafluoropropylene and / or Polytetrafluoroethylene includes. 13. Process for making a hydrophobic Shaped body according to claim 9, wherein the coating step is carried out by the shaped body in the dispersion solution is immersed. 14. Process for making a hydrophobic Shaped body according to claim 13, wherein the coating step is carried out until 0.2 to 3.0 mg / cm² of the hydrophobic Resin are applied to the molded body. 15. Process for making a hydrophobic 14. The molded article according to claim 13, wherein the immersion step 1 Seconds to 5 minutes.   16. Process for making a hydrophobic A molded article according to claim 9, which further comprises a Calendering step to standardize the thickness of the coated molded body after the drying step.